Include necessary cudnn deps in cuda folder

Update to trt 10
Add UI for managing face recognitions (#15757 )
2025-01-01 07:33:28 -07:00 · 2025-01-01 06:40:23 -07:00 · 2024-12-31 15:56:01 -06:00 · 2024-12-26 08:18:12 -07:00 · 2024-12-26 08:18:12 -07:00 · 2024-12-26 08:18:12 -07:00
54 changed files with 2566 additions and 195 deletions
--- a/.cspell/frigate-dictionary.txt
+++ b/.cspell/frigate-dictionary.txt
@@ -2,6 +2,7 @@ aarch
 absdiff
 airockchip
 Alloc
 alpr
 Amcrest
 amdgpu
 analyzeduration
@@ -61,6 +62,7 @@ dsize
 dtype
 ECONNRESET
 edgetpu
 facenet
 fastapi
 faststart
 fflags
@@ -114,6 +116,8 @@ itemsize
 Jellyfin
 jetson
 jetsons
 jina
 jinaai
 joserfc
 jsmpeg
 jsonify
@@ -187,6 +191,7 @@ openai
 opencv
 openvino
 OWASP
 paddleocr
 paho
 passwordless
 popleft
@@ -308,4 +313,4 @@ yolo
 yolonas
 yolox
 zeep
-zerolatency
+zerolatency
--- a/2
+++ b/2
@@ -1,7 +1,7 @@
 default_target: local
 COMMIT_HASH := $(shell git log -1 --pretty=format:"%h"|tail -1)
-VERSION = 0.15.0
+VERSION = 0.16.0
 IMAGE_REPO ?= ghcr.io/blakeblackshear/frigate
 GITHUB_REF_NAME ?= $(shell git rev-parse --abbrev-ref HEAD)
 BOARDS= #Initialized empty
--- a/docker/hailo8l/Dockerfile
+++ b/docker/hailo8l/Dockerfile
@@ -5,6 +5,7 @@ ARG DEBIAN_FRONTEND=noninteractive
 # Build Python wheels
 FROM wheels AS h8l-wheels
 RUN python3 -m pip config set global.break-system-packages true
 COPY docker/main/requirements-wheels.txt /requirements-wheels.txt
 COPY docker/hailo8l/requirements-wheels-h8l.txt /requirements-wheels-h8l.txt
@@ -30,6 +31,7 @@ COPY --from=hailort /hailo-wheels /deps/hailo-wheels
 COPY --from=hailort /rootfs/ /
 # Install the wheels
 RUN python3 -m pip config set global.break-system-packages true
 RUN pip3 install -U /deps/h8l-wheels/*.whl
 RUN pip3 install -U /deps/hailo-wheels/*.whl
--- a/docker/hailo8l/install_hailort.sh
+++ b/docker/hailo8l/install_hailort.sh
@@ -15,5 +15,5 @@ wget -qO- "https://github.com/frigate-nvr/hailort/releases/download/v${hailo_ver
 mkdir -p /hailo-wheels
-wget -P /hailo-wheels/ "https://github.com/frigate-nvr/hailort/releases/download/v${hailo_version}/hailort-${hailo_version}-cp39-cp39-linux_${arch}.whl"
+wget -P /hailo-wheels/ "https://github.com/frigate-nvr/hailort/releases/download/v${hailo_version}/hailort-${hailo_version}-cp311-cp311-linux_${arch}.whl"
--- a/docker/main/Dockerfile
+++ b/docker/main/Dockerfile
@@ -3,12 +3,12 @@
 # https://askubuntu.com/questions/972516/debian-frontend-environment-variable
 ARG DEBIAN_FRONTEND=noninteractive
-ARG BASE_IMAGE=debian:11
+ARG BASE_IMAGE=debian:12
-ARG SLIM_BASE=debian:11-slim
+ARG SLIM_BASE=debian:12-slim
 FROM ${BASE_IMAGE} AS base
-FROM --platform=${BUILDPLATFORM} debian:11 AS base_host
+FROM --platform=${BUILDPLATFORM} debian:12 AS base_host
 FROM ${SLIM_BASE} AS slim-base
@@ -66,8 +66,8 @@ COPY docker/main/requirements-ov.txt /requirements-ov.txt
 RUN apt-get -qq update \
    && apt-get -qq install -y wget python3 python3-dev python3-distutils gcc pkg-config libhdf5-dev \
    && wget -q https://bootstrap.pypa.io/get-pip.py -O get-pip.py \
-    && python3 get-pip.py "pip" \
+    && python3 get-pip.py "pip" --break-system-packages \
-    && pip install -r /requirements-ov.txt
+    && pip install --break-system-packages -r /requirements-ov.txt
 # Get OpenVino Model
 RUN --mount=type=bind,source=docker/main/build_ov_model.py,target=/build_ov_model.py \
@@ -139,24 +139,17 @@ ARG TARGETARCH
 # Use a separate container to build wheels to prevent build dependencies in final image
 RUN apt-get -qq update \
    && apt-get -qq install -y \
-    apt-transport-https \
+    apt-transport-https wget \
    gnupg \
    wget \
    # the key fingerprint can be obtained from https://ftp-master.debian.org/keys.html
    && wget -qO- "https://keyserver.ubuntu.com/pks/lookup?op=get&search=0xA4285295FC7B1A81600062A9605C66F00D6C9793" | \
    gpg --dearmor > /usr/share/keyrings/debian-archive-bullseye-stable.gpg \
    && echo "deb [signed-by=/usr/share/keyrings/debian-archive-bullseye-stable.gpg] http://deb.debian.org/debian bullseye main contrib non-free" | \
    tee /etc/apt/sources.list.d/debian-bullseye-nonfree.list \
    && apt-get -qq update \
    && apt-get -qq install -y \
-    python3.9 \
+    python3 \
-    python3.9-dev \
+    python3-dev \
    # opencv dependencies
    build-essential cmake git pkg-config libgtk-3-dev \
    libavcodec-dev libavformat-dev libswscale-dev libv4l-dev \
    libxvidcore-dev libx264-dev libjpeg-dev libpng-dev libtiff-dev \
    gfortran openexr libatlas-base-dev libssl-dev\
-    libtbb2 libtbb-dev libdc1394-22-dev libopenexr-dev \
+    libtbbmalloc2 libtbb-dev libdc1394-dev libopenexr-dev \
    libgstreamer-plugins-base1.0-dev libgstreamer1.0-dev \
    # sqlite3 dependencies
    tclsh \
@@ -164,14 +157,11 @@ RUN apt-get -qq update \
    gcc gfortran libopenblas-dev liblapack-dev && \
    rm -rf /var/lib/apt/lists/*
 # Ensure python3 defaults to python3.9
 RUN update-alternatives --install /usr/bin/python3 python3 /usr/bin/python3.9 1
 RUN wget -q https://bootstrap.pypa.io/get-pip.py -O get-pip.py \
-    && python3 get-pip.py "pip"
+    && python3 get-pip.py "pip" --break-system-packages
 COPY docker/main/requirements.txt /requirements.txt
-RUN pip3 install -r /requirements.txt
+RUN pip3 install -r /requirements.txt --break-system-packages
 # Build pysqlite3 from source
 COPY docker/main/build_pysqlite3.sh /build_pysqlite3.sh
@@ -222,8 +212,8 @@ RUN --mount=type=bind,source=docker/main/install_deps.sh,target=/deps/install_de
    /deps/install_deps.sh
 RUN --mount=type=bind,from=wheels,source=/wheels,target=/deps/wheels \
-    python3 -m pip install --upgrade pip && \
+    python3 -m pip install --upgrade pip --break-system-packages && \
-    pip3 install -U /deps/wheels/*.whl
+    pip3 install -U /deps/wheels/*.whl --break-system-packages
 COPY --from=deps-rootfs / /
@@ -270,7 +260,7 @@ RUN apt-get update \
    && rm -rf /var/lib/apt/lists/*
 RUN --mount=type=bind,source=./docker/main/requirements-dev.txt,target=/workspace/frigate/requirements-dev.txt \
-    pip3 install -r requirements-dev.txt
+    pip3 install -r requirements-dev.txt --break-system-packages
 HEALTHCHECK NONE
--- a/docker/main/build_nginx.sh
+++ b/docker/main/build_nginx.sh
@@ -8,8 +8,7 @@ SECURE_TOKEN_MODULE_VERSION="1.5"
 SET_MISC_MODULE_VERSION="v0.33"
 NGX_DEVEL_KIT_VERSION="v0.3.3"
-cp /etc/apt/sources.list /etc/apt/sources.list.d/sources-src.list
+sed -i '/^Types:/s/deb/& deb-src/' /etc/apt/sources.list.d/debian.sources
 sed -i 's|deb http|deb-src http|g' /etc/apt/sources.list.d/sources-src.list
 apt-get update
 apt-get -yqq build-dep nginx
--- a/docker/main/build_ov_model.py
+++ b/docker/main/build_ov_model.py
@@ -4,7 +4,7 @@ from openvino.tools import mo
 ov_model = mo.convert_model(
    "/models/ssdlite_mobilenet_v2_coco_2018_05_09/frozen_inference_graph.pb",
    compress_to_fp16=True,
-    transformations_config="/usr/local/lib/python3.9/dist-packages/openvino/tools/mo/front/tf/ssd_v2_support.json",
+    transformations_config="/usr/local/lib/python3.11/dist-packages/openvino/tools/mo/front/tf/ssd_v2_support.json",
    tensorflow_object_detection_api_pipeline_config="/models/ssdlite_mobilenet_v2_coco_2018_05_09/pipeline.config",
    reverse_input_channels=True,
 )
--- a/docker/main/build_sqlite_vec.sh
+++ b/docker/main/build_sqlite_vec.sh
@@ -4,8 +4,7 @@ set -euxo pipefail
 SQLITE_VEC_VERSION="0.1.3"
-cp /etc/apt/sources.list /etc/apt/sources.list.d/sources-src.list
+sed -i '/^Types:/s/deb/& deb-src/' /etc/apt/sources.list.d/debian.sources
 sed -i 's|deb http|deb-src http|g' /etc/apt/sources.list.d/sources-src.list
 apt-get update
 apt-get -yqq build-dep sqlite3 gettext git
--- a/docker/main/install_deps.sh
+++ b/docker/main/install_deps.sh
@@ -11,33 +11,34 @@ apt-get -qq install --no-install-recommends -y \
    lbzip2 \
    procps vainfo \
    unzip locales tzdata libxml2 xz-utils \
-    python3.9 \
+    python3 \
    python3-pip \
    curl \
    lsof \
    jq \
-    nethogs
+    nethogs \
-
+    libgl1 \
-# ensure python3 defaults to python3.9
+    libglib2.0-0 \
-update-alternatives --install /usr/bin/python3 python3 /usr/bin/python3.9 1
+    libusb-1.0.0
 mkdir -p -m 600 /root/.gnupg
-# add coral repo
+# install coral runtime
-curl -fsSLo - https://packages.cloud.google.com/apt/doc/apt-key.gpg | \
+wget -q -O /tmp/libedgetpu1-max.deb "https://github.com/feranick/libedgetpu/releases/download/16.0TF2.17.0-1/libedgetpu1-max_16.0tf2.17.0-1.bookworm_${TARGETARCH}.deb"
-    gpg --dearmor -o /etc/apt/trusted.gpg.d/google-cloud-packages-archive-keyring.gpg
+unset DEBIAN_FRONTEND
-echo "deb https://packages.cloud.google.com/apt coral-edgetpu-stable main" | tee /etc/apt/sources.list.d/coral-edgetpu.list
+yes | dpkg -i /tmp/libedgetpu1-max.deb && export DEBIAN_FRONTEND=noninteractive
-echo "libedgetpu1-max libedgetpu/accepted-eula select true" | debconf-set-selections
+rm /tmp/libedgetpu1-max.deb
-# enable non-free repo in Debian
+# install python3 & tflite runtime
-if grep -q "Debian" /etc/issue; then
+if [[ "${TARGETARCH}" == "amd64" ]]; then
-    sed -i -e's/ main/ main contrib non-free/g' /etc/apt/sources.list
+    pip3 install --break-system-packages https://github.com/feranick/TFlite-builds/releases/download/v2.17.0/tflite_runtime-2.17.0-cp311-cp311-linux_x86_64.whl
    pip3 install --break-system-packages https://github.com/feranick/pycoral/releases/download/2.0.2TF2.17.0/pycoral-2.0.2-cp311-cp311-linux_x86_64.whl
 fi
-# coral drivers
+if [[ "${TARGETARCH}" == "arm64" ]]; then
-apt-get -qq update
+    pip3 install --break-system-packages https://github.com/feranick/TFlite-builds/releases/download/v2.17.0/tflite_runtime-2.17.0-cp311-cp311-linux_aarch64.whl
-apt-get -qq install --no-install-recommends --no-install-suggests -y \
+    pip3 install --break-system-packages https://github.com/feranick/pycoral/releases/download/2.0.2TF2.17.0/pycoral-2.0.2-cp311-cp311-linux_aarch64.whl
-    libedgetpu1-max python3-tflite-runtime python3-pycoral
+fi
 # btbn-ffmpeg -> amd64
 if [[ "${TARGETARCH}" == "amd64" ]]; then
@@ -65,23 +66,15 @@ fi
 # arch specific packages
 if [[ "${TARGETARCH}" == "amd64" ]]; then
-    # use debian bookworm for amd / intel-i965 driver packages
+    # install amd / intel-i965 driver packages
    echo 'deb https://deb.debian.org/debian bookworm main contrib non-free' >/etc/apt/sources.list.d/debian-bookworm.list
    apt-get -qq update
    apt-get -qq install --no-install-recommends --no-install-suggests -y \
        i965-va-driver intel-gpu-tools onevpl-tools \
        libva-drm2 \
        mesa-va-drivers radeontop
    # something about this dependency requires it to be installed in a separate call rather than in the line above
    apt-get -qq install --no-install-recommends --no-install-suggests -y \
        i965-va-driver-shaders
    # intel packages use zst compression so we need to update dpkg
    apt-get install -y dpkg
    rm -f /etc/apt/sources.list.d/debian-bookworm.list
    # use intel apt intel packages
    wget -qO - https://repositories.intel.com/gpu/intel-graphics.key | gpg --yes --dearmor --output /usr/share/keyrings/intel-graphics.gpg
    echo "deb [arch=amd64 signed-by=/usr/share/keyrings/intel-graphics.gpg] https://repositories.intel.com/gpu/ubuntu jammy client" | tee /etc/apt/sources.list.d/intel-gpu-jammy.list
--- a/docker/main/requirements-wheels.txt
+++ b/docker/main/requirements-wheels.txt
@@ -10,10 +10,10 @@ imutils == 0.5.*
 joserfc == 1.0.*
 pathvalidate == 3.2.*
 markupsafe == 2.1.*
 python-multipart == 0.0.12
 # General
 mypy == 1.6.1
 numpy == 1.26.*
 onvif_zeep == 0.2.12
 opencv-python-headless == 4.9.0.*
 paho-mqtt == 2.1.*
 pandas == 2.2.*
 peewee == 3.17.*
@@ -27,15 +27,19 @@ ruamel.yaml == 0.18.*
 tzlocal == 5.2
 requests == 2.32.*
 types-requests == 2.32.*
 scipy == 1.13.*
 norfair == 2.2.*
 setproctitle == 1.3.*
 ws4py == 0.5.*
 unidecode == 1.3.*
 # Image Manipulation
 numpy == 1.26.*
 opencv-python-headless == 4.10.0.*
 opencv-contrib-python == 4.9.0.*
 scipy == 1.14.*
 # OpenVino & ONNX
-openvino == 2024.3.*
+openvino == 2024.4.*
-onnxruntime-openvino == 1.19.* ; platform_machine == 'x86_64'
+onnxruntime-openvino == 1.20.* ; platform_machine == 'x86_64'
-onnxruntime == 1.19.* ; platform_machine == 'aarch64'
+onnxruntime == 1.20.* ; platform_machine == 'aarch64'
 # Embeddings
 transformers == 4.45.*
 # Generative AI
@@ -45,3 +49,6 @@ openai == 1.51.*
 # push notifications
 py-vapid == 1.9.*
 pywebpush == 2.0.*
 # alpr
 pyclipper == 1.3.*
 shapely == 2.0.*
--- a/docker/main/requirements.txt
+++ b/docker/main/requirements.txt
@@ -1,2 +1,2 @@
-scikit-build == 0.17.*
+scikit-build == 0.18.*
 nvidia-pyindex
--- a/docker/main/rootfs/usr/local/nginx/conf/nginx.conf
+++ b/docker/main/rootfs/usr/local/nginx/conf/nginx.conf
@@ -81,6 +81,9 @@ http {
        open_file_cache_errors on;
        aio on;
        # file upload size
        client_max_body_size 10M;
        # https://github.com/kaltura/nginx-vod-module#vod_open_file_thread_pool
        vod_open_file_thread_pool default;
--- a/docker/rockchip/Dockerfile
+++ b/docker/rockchip/Dockerfile
@@ -7,13 +7,14 @@ FROM wheels as rk-wheels
 COPY docker/main/requirements-wheels.txt /requirements-wheels.txt
 COPY docker/rockchip/requirements-wheels-rk.txt /requirements-wheels-rk.txt
 RUN sed -i "/https:\/\//d" /requirements-wheels.txt
 RUN python3 -m pip config set global.break-system-packages true
 RUN pip3 wheel --wheel-dir=/rk-wheels -c /requirements-wheels.txt -r /requirements-wheels-rk.txt
 FROM deps AS rk-frigate
 ARG TARGETARCH
 RUN --mount=type=bind,from=rk-wheels,source=/rk-wheels,target=/deps/rk-wheels \
-    pip3 install -U /deps/rk-wheels/*.whl
+    pip3 install -U /deps/rk-wheels/*.whl --break-system-packages
 WORKDIR /opt/frigate/
 COPY --from=rootfs / /
--- a/docker/rockchip/requirements-wheels-rk.txt
+++ b/docker/rockchip/requirements-wheels-rk.txt
@@ -1 +1 @@
-rknn-toolkit-lite2 @ https://github.com/MarcA711/rknn-toolkit2/releases/download/v2.0.0/rknn_toolkit_lite2-2.0.0b0-cp39-cp39-linux_aarch64.whl
+rknn-toolkit-lite2 @ https://github.com/MarcA711/rknn-toolkit2/releases/download/v2.0.0/rknn_toolkit_lite2-2.0.0b0-cp311-cp311-linux_aarch64.whl
--- a/docker/rocm/Dockerfile
+++ b/docker/rocm/Dockerfile
@@ -34,7 +34,7 @@ RUN mkdir -p /opt/rocm-dist/etc/ld.so.conf.d/
 RUN echo /opt/rocm/lib|tee /opt/rocm-dist/etc/ld.so.conf.d/rocm.conf
 #######################################################################
-FROM --platform=linux/amd64 debian:11 as debian-base
+FROM --platform=linux/amd64 debian:12 as debian-base
 RUN apt-get update && apt-get -y upgrade
 RUN apt-get -y install --no-install-recommends libelf1 libdrm2 libdrm-amdgpu1 libnuma1 kmod
@@ -51,7 +51,7 @@ COPY --from=rocm /opt/rocm-$ROCM /opt/rocm-$ROCM
 RUN ln -s /opt/rocm-$ROCM /opt/rocm
 RUN apt-get -y install g++ cmake
-RUN apt-get -y install python3-pybind11 python3.9-distutils python3-dev
+RUN apt-get -y install python3-pybind11 python3-distutils python3-dev
 WORKDIR /opt/build
@@ -70,10 +70,11 @@ RUN apt-get -y install libnuma1
 WORKDIR /opt/frigate/
 COPY --from=rootfs / /
-COPY docker/rocm/requirements-wheels-rocm.txt /requirements.txt
+# Temporarily disabled to see if a new wheel can be built to support py3.11
-RUN python3 -m pip install --upgrade pip \
+#COPY docker/rocm/requirements-wheels-rocm.txt /requirements.txt
-    && pip3 uninstall -y onnxruntime-openvino \
+#RUN python3 -m pip install --upgrade pip \
-    && pip3 install -r /requirements.txt
+#    && pip3 uninstall -y onnxruntime-openvino \
 #    && pip3 install -r /requirements.txt
 #######################################################################
 FROM scratch AS rocm-dist
@@ -86,12 +87,12 @@ COPY --from=rocm /opt/rocm-$ROCM/share/miopen/db/*$AMDGPU* /opt/rocm-$ROCM/share
 COPY --from=rocm /opt/rocm-$ROCM/share/miopen/db/*gfx908* /opt/rocm-$ROCM/share/miopen/db/
 COPY --from=rocm /opt/rocm-$ROCM/lib/rocblas/library/*$AMDGPU* /opt/rocm-$ROCM/lib/rocblas/library/
 COPY --from=rocm /opt/rocm-dist/ /
-COPY --from=debian-build /opt/rocm/lib/migraphx.cpython-39-x86_64-linux-gnu.so /opt/rocm-$ROCM/lib/
+COPY --from=debian-build /opt/rocm/lib/migraphx.cpython-311-x86_64-linux-gnu.so /opt/rocm-$ROCM/lib/
 #######################################################################
 FROM deps-prelim AS rocm-prelim-hsa-override0
-
+\
-ENV HSA_ENABLE_SDMA=0
+    ENV HSA_ENABLE_SDMA=0
 COPY --from=rocm-dist / /
--- a/docker/rpi/install_deps.sh
+++ b/docker/rpi/install_deps.sh
@@ -24,7 +24,7 @@ sed -i -e's/ main/ main contrib non-free/g' /etc/apt/sources.list
 if [[ "${TARGETARCH}" == "arm64" ]]; then
    # add raspberry pi repo
    gpg --no-default-keyring --keyring /usr/share/keyrings/raspbian.gpg --keyserver keyserver.ubuntu.com --recv-keys 82B129927FA3303E
-    echo "deb [signed-by=/usr/share/keyrings/raspbian.gpg] https://archive.raspberrypi.org/debian/ bullseye main" | tee /etc/apt/sources.list.d/raspi.list
+    echo "deb [signed-by=/usr/share/keyrings/raspbian.gpg] https://archive.raspberrypi.org/debian/ bookworm main" | tee /etc/apt/sources.list.d/raspi.list
    apt-get -qq update
    apt-get -qq install --no-install-recommends --no-install-suggests -y ffmpeg
 fi
--- a/docker/tensorrt/Dockerfile.amd64
+++ b/docker/tensorrt/Dockerfile.amd64
@@ -7,18 +7,19 @@ ARG DEBIAN_FRONTEND=noninteractive
 FROM wheels as trt-wheels
 ARG DEBIAN_FRONTEND
 ARG TARGETARCH
 RUN python3 -m pip config set global.break-system-packages true
 # Add TensorRT wheels to another folder
 COPY docker/tensorrt/requirements-amd64.txt /requirements-tensorrt.txt
 RUN mkdir -p /trt-wheels && pip3 wheel --wheel-dir=/trt-wheels -r /requirements-tensorrt.txt
 FROM tensorrt-base AS frigate-tensorrt
-ENV TRT_VER=8.5.3
+ENV TRT_VER=8.6.1
 RUN python3 -m pip config set global.break-system-packages true
 RUN --mount=type=bind,from=trt-wheels,source=/trt-wheels,target=/deps/trt-wheels \
-    pip3 install -U /deps/trt-wheels/*.whl && \
+    pip3 install -U /deps/trt-wheels/*.whl --break-system-packages && \
    ldconfig
 ENV LD_LIBRARY_PATH=/usr/local/lib/python3.9/dist-packages/tensorrt:/usr/local/cuda/lib64:/usr/local/lib/python3.9/dist-packages/nvidia/cufft/lib
 WORKDIR /opt/frigate/
 COPY --from=rootfs / /
@@ -31,4 +32,4 @@ COPY --from=trt-deps /usr/local/cuda-12.1 /usr/local/cuda
 COPY docker/tensorrt/detector/rootfs/ /
 COPY --from=trt-deps /usr/local/lib/libyolo_layer.so /usr/local/lib/libyolo_layer.so
 RUN --mount=type=bind,from=trt-wheels,source=/trt-wheels,target=/deps/trt-wheels \
-    pip3 install -U /deps/trt-wheels/*.whl
+    pip3 install -U /deps/trt-wheels/*.whl --break-system-packages
--- a/docker/tensorrt/Dockerfile.arm64
+++ b/docker/tensorrt/Dockerfile.arm64
@@ -41,11 +41,11 @@ RUN --mount=type=bind,source=docker/tensorrt/detector/build_python_tensorrt.sh,t
    && TENSORRT_VER=$(cat /etc/TENSORRT_VER) /deps/build_python_tensorrt.sh
 COPY docker/tensorrt/requirements-arm64.txt /requirements-tensorrt.txt
-ADD https://nvidia.box.com/shared/static/9aemm4grzbbkfaesg5l7fplgjtmswhj8.whl /tmp/onnxruntime_gpu-1.15.1-cp39-cp39-linux_aarch64.whl
+ADD https://nvidia.box.com/shared/static/psl23iw3bh7hlgku0mjo1xekxpego3e3.whl /tmp/onnxruntime_gpu-1.15.1-cp311-cp311-linux_aarch64.whl
 RUN pip3 uninstall -y onnxruntime-openvino \
    && pip3 wheel --wheel-dir=/trt-wheels -r /requirements-tensorrt.txt \
-    && pip3 install --no-deps /tmp/onnxruntime_gpu-1.15.1-cp39-cp39-linux_aarch64.whl
+    && pip3 install --no-deps /tmp/onnxruntime_gpu-1.15.1-cp311-cp311-linux_aarch64.whl
 FROM build-wheels AS trt-model-wheels
 ARG DEBIAN_FRONTEND
--- a/docker/tensorrt/Dockerfile.base
+++ b/docker/tensorrt/Dockerfile.base
@@ -3,18 +3,19 @@
 # https://askubuntu.com/questions/972516/debian-frontend-environment-variable
 ARG DEBIAN_FRONTEND=noninteractive
-ARG TRT_BASE=nvcr.io/nvidia/tensorrt:23.03-py3
+ARG TRT_BASE=nvcr.io/nvidia/tensorrt:24.10-py3
 # Build TensorRT-specific library
 FROM ${TRT_BASE} AS trt-deps
 ARG COMPUTE_LEVEL
-RUN apt-get update \
+# Need to wait for script to be adapted to newer version of tensorrt or perhaps decide that we want to remove the TRT detector in favor of using onnx runtime directly
-    && apt-get install -y git build-essential cuda-nvcc-* cuda-nvtx-* libnvinfer-dev libnvinfer-plugin-dev libnvparsers-dev libnvonnxparsers-dev \
+#RUN apt-get update \
-    && rm -rf /var/lib/apt/lists/*
+#    && apt-get install -y git build-essential cuda-nvcc-* cuda-nvtx-* libnvinfer-dev libnvinfer-plugin-dev libnvparsers-dev libnvonnxparsers-dev \
-RUN --mount=type=bind,source=docker/tensorrt/detector/tensorrt_libyolo.sh,target=/tensorrt_libyolo.sh \
+#    && rm -rf /var/lib/apt/lists/*
-    /tensorrt_libyolo.sh
+#RUN --mount=type=bind,source=docker/tensorrt/detector/tensorrt_libyolo.sh,target=/tensorrt_libyolo.sh \
 #    /tensorrt_libyolo.sh
 # Frigate w/ TensorRT Support as separate image
 FROM deps AS tensorrt-base
@@ -22,9 +23,12 @@ FROM deps AS tensorrt-base
 #Disable S6 Global timeout
 ENV S6_CMD_WAIT_FOR_SERVICES_MAXTIME=0
-COPY --from=trt-deps /usr/local/lib/libyolo_layer.so /usr/local/lib/libyolo_layer.so
+#COPY --from=trt-deps /usr/local/lib/libyolo_layer.so /usr/local/lib/libyolo_layer.so
-COPY --from=trt-deps /usr/local/src/tensorrt_demos /usr/local/src/tensorrt_demos
+#COPY --from=trt-deps /usr/local/src/tensorrt_demos /usr/local/src/tensorrt_demos
-COPY --from=trt-deps /usr/local/cuda-12.* /usr/local/cuda
+
 COPY --from=trt-deps /usr/lib/x86_64-linux-gnu/libcudnn* /usr/local/cuda/lib64/
 COPY --from=trt-deps /usr/lib/x86_64-linux-gnu/libnv* /usr/local/cuda/lib64/
 COPY docker/tensorrt/detector/rootfs/ /
 ENV YOLO_MODELS=""
--- a/docker/tensorrt/detector/rootfs/etc/ld.so.conf.d/cuda_tensorrt.conf
+++ b/docker/tensorrt/detector/rootfs/etc/ld.so.conf.d/cuda_tensorrt.conf
@@ -1,6 +1,8 @@
 /usr/local/lib
-/usr/local/lib/python3.9/dist-packages/nvidia/cudnn/lib
+/usr/local/cuda/lib64
-/usr/local/lib/python3.9/dist-packages/nvidia/cuda_runtime/lib
+/usr/local/lib/python3.11/dist-packages/nvidia/cudnn/lib
-/usr/local/lib/python3.9/dist-packages/nvidia/cublas/lib
+/usr/local/lib/python3.11/dist-packages/nvidia/cuda_runtime/lib
-/usr/local/lib/python3.9/dist-packages/nvidia/cuda_nvrtc/lib
+/usr/local/lib/python3.11/dist-packages/nvidia/cublas/lib
-/usr/local/lib/python3.9/dist-packages/tensorrt
+/usr/local/lib/python3.11/dist-packages/nvidia/cuda_nvrtc/lib
 /usr/local/lib/python3.11/dist-packages/tensorrt
 /usr/local/lib/python3.11/dist-packages/nvidia/cufft/lib
--- a/docker/tensorrt/requirements-amd64.txt
+++ b/docker/tensorrt/requirements-amd64.txt
@@ -1,14 +1,10 @@
 # NVidia TensorRT Support (amd64 only)
 --extra-index-url 'https://pypi.nvidia.com'
 numpy < 1.24; platform_machine == 'x86_64'
-tensorrt == 8.5.3.*; platform_machine == 'x86_64'
+tensorrt == 10.5.0; platform_machine == 'x86_64'
-cuda-python == 11.8; platform_machine == 'x86_64'
+cuda-python == 12.6.*; platform_machine == 'x86_64'
-cython == 0.29.*; platform_machine == 'x86_64'
+cython == 3.0.*; platform_machine == 'x86_64'
 nvidia-cuda-runtime-cu12 == 12.1.*; platform_machine == 'x86_64'
 nvidia-cuda-runtime-cu11 == 11.8.*; platform_machine == 'x86_64'
 nvidia-cublas-cu11 == 11.11.3.6; platform_machine == 'x86_64'
 nvidia-cudnn-cu11 == 8.6.0.*; platform_machine == 'x86_64'
 nvidia-cufft-cu11==10.*; platform_machine == 'x86_64'
 onnx==1.16.*; platform_machine == 'x86_64'
-onnxruntime-gpu==1.18.*; platform_machine == 'x86_64'
+onnxruntime-gpu==1.20.*; platform_machine == 'x86_64'
 protobuf==3.20.3; platform_machine == 'x86_64'
--- a/docs/docs/configuration/face_recognition.md
+++ b/docs/docs/configuration/face_recognition.md
@@ -0,0 +1,35 @@
 ---
 id: face_recognition
 title: Face Recognition
 ---
 Face recognition allows people to be assigned names and when their face is recognized Frigate will assign the person's name as a sub label. This information is included in the UI, filters, as well as in notifications.
 Frigate has support for FaceNet to create face embeddings, which runs locally. Embeddings are then saved to Frigate's database.
 ## Minimum System Requirements
 Face recognition works by running a large AI model locally on your system. Systems without a GPU will not run Face Recognition reliably or at all.
 ## Configuration
 Face recognition is disabled by default and requires semantic search to be enabled, face recognition must be enabled in your config file before it can be used. Semantic Search and face recognition are global configuration settings.
 ```yaml
 face_recognition:
  enabled: true
 ```
 ## Dataset
 The number of images needed for a sufficient training set for face recognition varies depending on several factors:
 - Complexity of the task: A simple task like recognizing faces of known individuals may require fewer images than a complex task like identifying unknown individuals in a large crowd.
 - Diversity of the dataset: A dataset with diverse images, including variations in lighting, pose, and facial expressions, will require fewer images per person than a less diverse dataset.
 - Desired accuracy: The higher the desired accuracy, the more images are typically needed.
 However, here are some general guidelines:
 - Minimum: For basic face recognition tasks, a minimum of 10-20 images per person is often recommended.
 - Recommended: For more robust and accurate systems, 30-50 images per person is a good starting point.
 - Ideal: For optimal performance, especially in challenging conditions, 100 or more images per person can be beneficial.
--- a/docs/docs/configuration/license_plate_recognition.md
+++ b/docs/docs/configuration/license_plate_recognition.md
@@ -0,0 +1,45 @@
 ---
 id: license_plate_recognition
 title: License Plate Recognition (LPR)
 ---
 Frigate can recognize license plates on vehicles and automatically add the detected characters as a `sub_label` to objects that are of type `car`. A common use case may be to read the license plates of cars pulling into a driveway or cars passing by on a street with a dedicated LPR camera.
 Users running a Frigate+ model should ensure that `license_plate` is added to the [list of objects to track](https://docs.frigate.video/plus/#available-label-types) either globally or for a specific camera. This will improve the accuracy and performance of the LPR model.
 LPR is most effective when the vehicle’s license plate is fully visible to the camera. For moving vehicles, Frigate will attempt to read the plate continuously, refining its detection and keeping the most confident result. LPR will not run on stationary vehicles.
 ## Minimum System Requirements
 License plate recognition works by running AI models locally on your system. The models are relatively lightweight and run on your CPU. At least 4GB of RAM is required.
 ## Configuration
 License plate recognition is disabled by default. Enable it in your config file:
 ```yaml
 lpr:
  enabled: true
 ```
 ## Advanced Configuration
 Several options are available to fine-tune the LPR feature. For example, you can adjust the `min_area` setting, which defines the minimum size in pixels a license plate must be before LPR runs. The default is 500 pixels.
 Additionally, you can define `known_plates` as strings or regular expressions, allowing Frigate to label tracked vehicles with custom sub_labels when a recognized plate is detected. This information is then accessible in the UI, filters, and notifications.
 ```yaml
 lpr:
  enabled: true
  min_area: 500
  known_plates:
    Wife's Car:
      - "ABC-1234"
      - "ABC-I234"
    Johnny:
      - "J*N-*234" # Using wildcards for H/M and 1/I
    Sally:
      - "[S5]LL-1234" # Matches SLL-1234 and 5LL-1234
 ```
 In this example, "Wife's Car" will appear as the label for any vehicle matching the plate "ABC-1234." The model might occasionally interpret the digit 1 as a capital I (e.g., "ABC-I234"), so both variations are listed. Similarly, multiple possible variations are specified for Johnny and Sally.
--- a/docs/docs/configuration/reference.md
+++ b/docs/docs/configuration/reference.md
@@ -522,6 +522,14 @@ semantic_search:
  # NOTE: small model runs on CPU and large model runs on GPU
  model_size: "small"
 # Optional: Configuration for face recognition capability
 face_recognition:
  # Optional: Enable semantic search (default: shown below)
  enabled: False
  # Optional: Set the model size used for embeddings. (default: shown below)
  # NOTE: small model runs on CPU and large model runs on GPU
  model_size: "small"
 # Optional: Configuration for AI generated tracked object descriptions
 # NOTE: Semantic Search must be enabled for this to do anything.
 # WARNING: Depending on the provider, this will send thumbnails over the internet
--- a/docs/sidebars.ts
+++ b/docs/sidebars.ts
@@ -36,6 +36,8 @@ const sidebars: SidebarsConfig = {
      'Semantic Search': [
        'configuration/semantic_search',
        'configuration/genai',
        'configuration/face_recognition',
        'configuration/license_plate_recognition',
      ],
      Cameras: [
        'configuration/cameras',
--- a/frigate/main.py
+++ b/frigate/main.py
@@ -3,12 +3,15 @@ import faulthandler
 import signal
 import sys
 import threading
 from typing import Union
 import ruamel.yaml
 from pydantic import ValidationError
 from frigate.app import FrigateApp
 from frigate.config import FrigateConfig
 from frigate.log import setup_logging
 from frigate.util.config import find_config_file
 def main() -> None:
@@ -42,10 +45,50 @@ def main() -> None:
        print("*************************************************************")
        print("*************************************************************")
        print("***    Config Validation Errors                           ***")
-        print("*************************************************************")
+        print("*************************************************************\n")
        # Attempt to get the original config file for line number tracking
        config_path = find_config_file()
        with open(config_path, "r") as f:
            yaml_config = ruamel.yaml.YAML()
            yaml_config.preserve_quotes = True
            full_config = yaml_config.load(f)
        for error in e.errors():
-            location = ".".join(str(item) for item in error["loc"])
+            error_path = error["loc"]
-            print(f"{location}: {error['msg']}")
+
            current = full_config
            line_number = "Unknown"
            last_line_number = "Unknown"
            try:
                for i, part in enumerate(error_path):
                    key: Union[int, str] = (
                        int(part) if isinstance(part, str) and part.isdigit() else part
                    )
                    if isinstance(current, ruamel.yaml.comments.CommentedMap):
                        current = current[key]
                    elif isinstance(current, list):
                        if isinstance(key, int):
                            current = current[key]
                    if hasattr(current, "lc"):
                        last_line_number = current.lc.line
                    if i == len(error_path) - 1:
                        if hasattr(current, "lc"):
                            line_number = current.lc.line
                        else:
                            line_number = last_line_number
            except Exception as traverse_error:
                print(f"Could not determine exact line number: {traverse_error}")
            print(f"Line #  : {line_number}")
            print(f"Key     : {' -> '.join(map(str, error_path))}")
            print(f"Value   : {error.get('input','-')}")
            print(f"Message : {error.get('msg', error.get('type', 'Unknown'))}\n")
        print("*************************************************************")
        print("***    End Config Validation Errors                       ***")
        print("*************************************************************")
--- a/frigate/api/app.py
+++ b/frigate/api/app.py
@@ -7,15 +7,18 @@ import os
 import traceback
 from datetime import datetime, timedelta
 from functools import reduce
 from io import StringIO
 from typing import Any, Optional
 import requests
 import ruamel.yaml
 from fastapi import APIRouter, Body, Path, Request, Response
 from fastapi.encoders import jsonable_encoder
 from fastapi.params import Depends
 from fastapi.responses import JSONResponse, PlainTextResponse
 from markupsafe import escape
 from peewee import operator
 from pydantic import ValidationError
 from frigate.api.defs.query.app_query_parameters import AppTimelineHourlyQueryParameters
 from frigate.api.defs.request.app_body import AppConfigSetBody
@@ -183,7 +186,6 @@ def config_raw():
@router.post("/config/save")
 def config_save(save_option: str, body: Any = Body(media_type="text/plain")):
    new_config = body.decode()
    if not new_config:
        return JSONResponse(
            content=(
@@ -194,13 +196,64 @@ def config_save(save_option: str, body: Any = Body(media_type="text/plain")):
    # Validate the config schema
    try:
        # Use ruamel to parse and preserve line numbers
        yaml_config = ruamel.yaml.YAML()
        yaml_config.preserve_quotes = True
        full_config = yaml_config.load(StringIO(new_config))
        FrigateConfig.parse_yaml(new_config)
    except ValidationError as e:
        error_message = []
        for error in e.errors():
            error_path = error["loc"]
            current = full_config
            line_number = "Unknown"
            last_line_number = "Unknown"
            try:
                for i, part in enumerate(error_path):
                    key = int(part) if part.isdigit() else part
                    if isinstance(current, ruamel.yaml.comments.CommentedMap):
                        current = current[key]
                    elif isinstance(current, list):
                        current = current[key]
                    if hasattr(current, "lc"):
                        last_line_number = current.lc.line
                    if i == len(error_path) - 1:
                        if hasattr(current, "lc"):
                            line_number = current.lc.line
                        else:
                            line_number = last_line_number
            except Exception:
                line_number = "Unable to determine"
            error_message.append(
                f"Line {line_number}: {' -> '.join(map(str, error_path))} - {error.get('msg', error.get('type', 'Unknown'))}"
            )
        return JSONResponse(
            content=(
                {
                    "success": False,
                    "message": "Your configuration is invalid.\nSee the official documentation at docs.frigate.video.\n\n"
                    + "\n".join(error_message),
                }
            ),
            status_code=400,
        )
    except Exception:
        return JSONResponse(
            content=(
                {
                    "success": False,
-                    "message": f"\nConfig Error:\n\n{escape(str(traceback.format_exc()))}",
+                    "message": f"\nYour configuration is invalid.\nSee the official documentation at docs.frigate.video.\n\n{escape(str(traceback.format_exc()))}",
                }
            ),
            status_code=400,
--- a/frigate/api/classification.py
+++ b/frigate/api/classification.py
@@ -0,0 +1,59 @@
 """Object classification APIs."""
 import logging
 import os
 from fastapi import APIRouter, Request, UploadFile
 from fastapi.responses import JSONResponse
 from pathvalidate import sanitize_filename
 from frigate.api.defs.tags import Tags
 from frigate.const import FACE_DIR
 from frigate.embeddings import EmbeddingsContext
 logger = logging.getLogger(__name__)
 router = APIRouter(tags=[Tags.events])
@router.get("/faces")
 def get_faces():
    face_dict: dict[str, list[str]] = {}
    for name in os.listdir(FACE_DIR):
        face_dict[name] = []
        for file in os.listdir(os.path.join(FACE_DIR, name)):
            face_dict[name].append(file)
    return JSONResponse(status_code=200, content=face_dict)
@router.post("/faces/{name}")
 async def register_face(request: Request, name: str, file: UploadFile):
    context: EmbeddingsContext = request.app.embeddings
    context.register_face(name, await file.read())
    return JSONResponse(
        status_code=200,
        content={"success": True, "message": "Successfully registered face."},
    )
@router.post("/faces/{name}/delete")
 def deregister_faces(request: Request, name: str, body: dict = None):
    json: dict[str, any] = body or {}
    list_of_ids = json.get("ids", "")
    if not list_of_ids or len(list_of_ids) == 0:
        return JSONResponse(
            content=({"success": False, "message": "Not a valid list of ids"}),
            status_code=404,
        )
    context: EmbeddingsContext = request.app.embeddings
    context.delete_face_ids(
        name, map(lambda file: sanitize_filename(file), list_of_ids)
    )
    return JSONResponse(
        content=({"success": True, "message": "Successfully deleted faces."}),
        status_code=200,
    )
--- a/frigate/api/defs/query/media_query_parameters.py
+++ b/frigate/api/defs/query/media_query_parameters.py
@@ -20,6 +20,7 @@ class MediaLatestFrameQueryParams(BaseModel):
    regions: Optional[int] = None
    quality: Optional[int] = 70
    height: Optional[int] = None
    store: Optional[int] = None
 class MediaEventsSnapshotQueryParams(BaseModel):
--- a/frigate/api/defs/request/events_body.py
+++ b/frigate/api/defs/request/events_body.py
@@ -8,6 +8,9 @@ class EventsSubLabelBody(BaseModel):
    subLabelScore: Optional[float] = Field(
        title="Score for sub label", default=None, gt=0.0, le=1.0
    )
    camera: Optional[str] = Field(
        title="Camera this object is detected on.", default=None
    )
 class EventsDescriptionBody(BaseModel):
--- a/frigate/api/defs/tags.py
+++ b/frigate/api/defs/tags.py
@@ -10,4 +10,5 @@ class Tags(Enum):
    review = "Review"
    export = "Export"
    events = "Events"
    classification = "classification"
    auth = "Auth"
--- a/frigate/api/event.py
+++ b/frigate/api/event.py
@@ -909,38 +909,59 @@ def set_sub_label(
    try:
        event: Event = Event.get(Event.id == event_id)
    except DoesNotExist:
        if not body.camera:
            return JSONResponse(
                content=(
                    {
                        "success": False,
                        "message": "Event "
                        + event_id
                        + " not found and camera is not provided.",
                    }
                ),
                status_code=404,
            )
        event = None
    if request.app.detected_frames_processor:
        tracked_obj: TrackedObject = (
            request.app.detected_frames_processor.camera_states[
                event.camera if event else body.camera
            ].tracked_objects.get(event_id)
        )
    else:
        tracked_obj = None
    if not event and not tracked_obj:
        return JSONResponse(
-            content=({"success": False, "message": "Event " + event_id + " not found"}),
+            content=(
                {"success": False, "message": "Event " + event_id + " not found."}
            ),
            status_code=404,
        )
    new_sub_label = body.subLabel
    new_score = body.subLabelScore
-    if not event.end_time:
+    if tracked_obj:
-        # update tracked object
+        tracked_obj.obj_data["sub_label"] = (new_sub_label, new_score)
        tracked_obj: TrackedObject = (
            request.app.detected_frames_processor.camera_states[
                event.camera
            ].tracked_objects.get(event.id)
        )
        if tracked_obj:
            tracked_obj.obj_data["sub_label"] = (new_sub_label, new_score)
        # update timeline items
        Timeline.update(
            data=Timeline.data.update({"sub_label": (new_sub_label, new_score)})
        ).where(Timeline.source_id == event_id).execute()
-    event.sub_label = new_sub_label
+    if event:
        event.sub_label = new_sub_label
-    if new_score:
+        if new_score:
-        data = event.data
+            data = event.data
-        data["sub_label_score"] = new_score
+            data["sub_label_score"] = new_score
-        event.data = data
+            event.data = data
        event.save()
    event.save()
    return JSONResponse(
        content=(
            {
--- a/frigate/api/fastapi_app.py
+++ b/frigate/api/fastapi_app.py
@@ -11,7 +11,16 @@ from starlette_context import middleware, plugins
 from starlette_context.plugins import Plugin
 from frigate.api import app as main_app
-from frigate.api import auth, event, export, media, notification, preview, review
+from frigate.api import (
    auth,
    classification,
    event,
    export,
    media,
    notification,
    preview,
    review,
 )
 from frigate.api.auth import get_jwt_secret, limiter
 from frigate.comms.event_metadata_updater import (
    EventMetadataPublisher,
@@ -99,6 +108,7 @@ def create_fastapi_app(
    # Routes
    # Order of include_router matters: https://fastapi.tiangolo.com/tutorial/path-params/#order-matters
    app.include_router(auth.router)
    app.include_router(classification.router)
    app.include_router(review.router)
    app.include_router(main_app.router)
    app.include_router(preview.router)
--- a/frigate/api/media.py
+++ b/frigate/api/media.py
@@ -179,7 +179,12 @@ def latest_frame(
        return Response(
            content=img.tobytes(),
            media_type=f"image/{extension}",
-            headers={"Content-Type": f"image/{extension}", "Cache-Control": "no-store"},
+            headers={
                "Content-Type": f"image/{extension}",
                "Cache-Control": "no-store"
                if not params.store
                else "private, max-age=60",
            },
        )
    elif camera_name == "birdseye" and request.app.frigate_config.birdseye.restream:
        frame = cv2.cvtColor(
@@ -198,7 +203,12 @@ def latest_frame(
        return Response(
            content=img.tobytes(),
            media_type=f"image/{extension}",
-            headers={"Content-Type": f"image/{extension}", "Cache-Control": "no-store"},
+            headers={
                "Content-Type": f"image/{extension}",
                "Cache-Control": "no-store"
                if not params.store
                else "private, max-age=60",
            },
        )
    else:
        return JSONResponse(
--- a/frigate/comms/embeddings_updater.py
+++ b/frigate/comms/embeddings_updater.py
@@ -12,6 +12,7 @@ class EmbeddingsRequestEnum(Enum):
    embed_description = "embed_description"
    embed_thumbnail = "embed_thumbnail"
    generate_search = "generate_search"
    register_face = "register_face"
 class EmbeddingsResponder:
@@ -22,7 +23,7 @@ class EmbeddingsResponder:
    def check_for_request(self, process: Callable) -> None:
        while True:  # load all messages that are queued
-            has_message, _, _ = zmq.select([self.socket], [], [], 0.1)
+            has_message, _, _ = zmq.select([self.socket], [], [], 0.01)
            if not has_message:
                break
--- a/frigate/config/camera/objects.py
+++ b/frigate/config/camera/objects.py
@@ -1,6 +1,6 @@
 from typing import Any, Optional, Union
-from pydantic import Field, field_serializer
+from pydantic import Field, PrivateAttr, field_serializer
 from ..base import FrigateBaseModel
@@ -53,3 +53,20 @@ class ObjectConfig(FrigateBaseModel):
        default_factory=dict, title="Object filters."
    )
    mask: Union[str, list[str]] = Field(default="", title="Object mask.")
    _all_objects: list[str] = PrivateAttr()
    @property
    def all_objects(self) -> list[str]:
        return self._all_objects
    def parse_all_objects(self, cameras):
        if "_all_objects" in self:
            return
        # get list of unique enabled labels for tracking
        enabled_labels = set(self.track)
        for camera in cameras.values():
            enabled_labels.update(camera.objects.track)
        self._all_objects = list(enabled_labels)
--- a/frigate/config/config.py
+++ b/frigate/config/config.py
@@ -57,7 +57,11 @@ from .logger import LoggerConfig
 from .mqtt import MqttConfig
 from .notification import NotificationConfig
 from .proxy import ProxyConfig
-from .semantic_search import SemanticSearchConfig
+from .semantic_search import (
    FaceRecognitionConfig,
    LicensePlateRecognitionConfig,
    SemanticSearchConfig,
 )
 from .telemetry import TelemetryConfig
 from .tls import TlsConfig
 from .ui import UIConfig
@@ -159,6 +163,16 @@ class RestreamConfig(BaseModel):
    model_config = ConfigDict(extra="allow")
 def verify_semantic_search_dependent_configs(config: FrigateConfig) -> None:
    """Verify that semantic search is enabled if required features are enabled."""
    if not config.semantic_search.enabled:
        if config.genai.enabled:
            raise ValueError("Genai requires semantic search to be enabled.")
        if config.face_recognition.enabled:
            raise ValueError("Face recognition requires semantic to be enabled.")
 def verify_config_roles(camera_config: CameraConfig) -> None:
    """Verify that roles are setup in the config correctly."""
    assigned_roles = list(
@@ -320,6 +334,13 @@ class FrigateConfig(FrigateBaseModel):
    semantic_search: SemanticSearchConfig = Field(
        default_factory=SemanticSearchConfig, title="Semantic search configuration."
    )
    face_recognition: FaceRecognitionConfig = Field(
        default_factory=FaceRecognitionConfig, title="Face recognition config."
    )
    lpr: LicensePlateRecognitionConfig = Field(
        default_factory=LicensePlateRecognitionConfig,
        title="License Plate recognition config.",
    )
    ui: UIConfig = Field(default_factory=UIConfig, title="UI configuration.")
    # Detector config
@@ -578,13 +599,8 @@ class FrigateConfig(FrigateBaseModel):
            verify_autotrack_zones(camera_config)
            verify_motion_and_detect(camera_config)
-        # get list of unique enabled labels for tracking
+        self.objects.parse_all_objects(self.cameras)
-        enabled_labels = set(self.objects.track)
+        self.model.create_colormap(sorted(self.objects.all_objects))
        for camera in self.cameras.values():
            enabled_labels.update(camera.objects.track)
        self.model.create_colormap(sorted(enabled_labels))
        self.model.check_and_load_plus_model(self.plus_api)
        for key, detector in self.detectors.items():
@@ -625,6 +641,7 @@ class FrigateConfig(FrigateBaseModel):
            detector_config.model.compute_model_hash()
            self.detectors[key] = detector_config
        verify_semantic_search_dependent_configs(self)
        return self
    @field_validator("cameras")
--- a/frigate/config/semantic_search.py
+++ b/frigate/config/semantic_search.py
@@ -1,10 +1,14 @@
-from typing import Optional
+from typing import Dict, List, Optional
 from pydantic import Field
 from .base import FrigateBaseModel
-__all__ = ["SemanticSearchConfig"]
+__all__ = [
    "FaceRecognitionConfig",
    "SemanticSearchConfig",
    "LicensePlateRecognitionConfig",
 ]
 class SemanticSearchConfig(FrigateBaseModel):
@@ -15,3 +19,40 @@ class SemanticSearchConfig(FrigateBaseModel):
    model_size: str = Field(
        default="small", title="The size of the embeddings model used."
    )
 class FaceRecognitionConfig(FrigateBaseModel):
    enabled: bool = Field(default=False, title="Enable face recognition.")
    min_score: float = Field(
        title="Minimum face distance score required to save the attempt.",
        default=0.8,
        gt=0.0,
        le=1.0,
    )
    threshold: float = Field(
        default=0.9,
        title="Minimum face distance score required to be considered a match.",
        gt=0.0,
        le=1.0,
    )
    min_area: int = Field(
        default=500, title="Min area of face box to consider running face recognition."
    )
    save_attempts: bool = Field(
        default=True, title="Save images of face detections for training."
    )
 class LicensePlateRecognitionConfig(FrigateBaseModel):
    enabled: bool = Field(default=False, title="Enable license plate recognition.")
    threshold: float = Field(
        default=0.9,
        title="License plate confidence score required to be added to the object as a sub label.",
    )
    min_area: int = Field(
        default=500,
        title="Min area of license plate to consider running license plate recognition.",
    )
    known_plates: Optional[Dict[str, List[str]]] = Field(
        default={}, title="Known plates to track."
    )
--- a/frigate/const.py
+++ b/frigate/const.py
@@ -5,8 +5,9 @@ DEFAULT_DB_PATH = f"{CONFIG_DIR}/frigate.db"
 MODEL_CACHE_DIR = f"{CONFIG_DIR}/model_cache"
 BASE_DIR = "/media/frigate"
 CLIPS_DIR = f"{BASE_DIR}/clips"
 RECORD_DIR = f"{BASE_DIR}/recordings"
 EXPORT_DIR = f"{BASE_DIR}/exports"
 FACE_DIR = f"{CLIPS_DIR}/faces"
 RECORD_DIR = f"{BASE_DIR}/recordings"
 BIRDSEYE_PIPE = "/tmp/cache/birdseye"
 CACHE_DIR = "/tmp/cache"
 FRIGATE_LOCALHOST = "http://127.0.0.1:5000"
--- a/frigate/embeddings/init.py
+++ b/frigate/embeddings/init.py
@@ -1,5 +1,6 @@
 """SQLite-vec embeddings database."""
 import base64
 import json
 import logging
 import multiprocessing as mp
@@ -13,7 +14,7 @@ from setproctitle import setproctitle
 from frigate.comms.embeddings_updater import EmbeddingsRequestEnum, EmbeddingsRequestor
 from frigate.config import FrigateConfig
-from frigate.const import CONFIG_DIR
+from frigate.const import CONFIG_DIR, FACE_DIR
 from frigate.db.sqlitevecq import SqliteVecQueueDatabase
 from frigate.models import Event
 from frigate.util.builtin import serialize
@@ -189,6 +190,33 @@ class EmbeddingsContext:
        return results
    def register_face(self, face_name: str, image_data: bytes) -> None:
        self.requestor.send_data(
            EmbeddingsRequestEnum.register_face.value,
            {
                "face_name": face_name,
                "image": base64.b64encode(image_data).decode("ASCII"),
            },
        )
    def get_face_ids(self, name: str) -> list[str]:
        sql_query = f"""
            SELECT
                id
            FROM vec_descriptions
            WHERE id LIKE '%{name}%'
        """
        return self.db.execute_sql(sql_query).fetchall()
    def delete_face_ids(self, face: str, ids: list[str]) -> None:
        folder = os.path.join(FACE_DIR, face)
        for id in ids:
            file_path = os.path.join(folder, id)
            if os.path.isfile(file_path):
                os.unlink(file_path)
    def update_description(self, event_id: str, description: str) -> None:
        self.requestor.send_data(
            EmbeddingsRequestEnum.embed_description.value,
--- a/frigate/embeddings/embeddings.py
+++ b/frigate/embeddings/embeddings.py
@@ -9,7 +9,7 @@ from numpy import ndarray
 from playhouse.shortcuts import model_to_dict
 from frigate.comms.inter_process import InterProcessRequestor
-from frigate.config.semantic_search import SemanticSearchConfig
+from frigate.config import FrigateConfig
 from frigate.const import (
    CONFIG_DIR,
    UPDATE_EMBEDDINGS_REINDEX_PROGRESS,
@@ -59,9 +59,7 @@ def get_metadata(event: Event) -> dict:
 class Embeddings:
    """SQLite-vec embeddings database."""
-    def __init__(
+    def __init__(self, config: FrigateConfig, db: SqliteVecQueueDatabase) -> None:
        self, config: SemanticSearchConfig, db: SqliteVecQueueDatabase
    ) -> None:
        self.config = config
        self.db = db
        self.requestor = InterProcessRequestor()
@@ -73,9 +71,13 @@ class Embeddings:
            "jinaai/jina-clip-v1-text_model_fp16.onnx",
            "jinaai/jina-clip-v1-tokenizer",
            "jinaai/jina-clip-v1-vision_model_fp16.onnx"
-            if config.model_size == "large"
+            if config.semantic_search.model_size == "large"
            else "jinaai/jina-clip-v1-vision_model_quantized.onnx",
            "jinaai/jina-clip-v1-preprocessor_config.json",
            "facenet-facenet.onnx",
            "paddleocr-onnx-detection.onnx",
            "paddleocr-onnx-classification.onnx",
            "paddleocr-onnx-recognition.onnx",
        ]
        for model in models:
@@ -94,7 +96,7 @@ class Embeddings:
            download_urls={
                "text_model_fp16.onnx": "https://huggingface.co/jinaai/jina-clip-v1/resolve/main/onnx/text_model_fp16.onnx",
            },
-            model_size=config.model_size,
+            model_size=config.semantic_search.model_size,
            model_type=ModelTypeEnum.text,
            requestor=self.requestor,
            device="CPU",
@@ -102,7 +104,7 @@ class Embeddings:
        model_file = (
            "vision_model_fp16.onnx"
-            if self.config.model_size == "large"
+            if self.config.semantic_search.model_size == "large"
            else "vision_model_quantized.onnx"
        )
@@ -115,12 +117,66 @@ class Embeddings:
            model_name="jinaai/jina-clip-v1",
            model_file=model_file,
            download_urls=download_urls,
-            model_size=config.model_size,
+            model_size=config.semantic_search.model_size,
            model_type=ModelTypeEnum.vision,
            requestor=self.requestor,
-            device="GPU" if config.model_size == "large" else "CPU",
+            device="GPU" if config.semantic_search.model_size == "large" else "CPU",
        )
        if self.config.face_recognition.enabled:
            self.face_embedding = GenericONNXEmbedding(
                model_name="facedet",
                model_file="facedet.onnx",
                download_urls={
                    "facedet.onnx": "https://github.com/NickM-27/facenet-onnx/releases/download/v1.0/facedet.onnx",
                    "landmarkdet.yaml": "https://github.com/NickM-27/facenet-onnx/releases/download/v1.0/landmarkdet.yaml",
                },
                model_size="small",
                model_type=ModelTypeEnum.face,
                requestor=self.requestor,
            )
        self.lpr_detection_model = None
        self.lpr_classification_model = None
        self.lpr_recognition_model = None
        if self.config.lpr.enabled:
            self.lpr_detection_model = GenericONNXEmbedding(
                model_name="paddleocr-onnx",
                model_file="detection.onnx",
                download_urls={
                    "detection.onnx": "https://github.com/hawkeye217/paddleocr-onnx/raw/refs/heads/master/models/detection.onnx"
                },
                model_size="large",
                model_type=ModelTypeEnum.lpr_detect,
                requestor=self.requestor,
                device="CPU",
            )
            self.lpr_classification_model = GenericONNXEmbedding(
                model_name="paddleocr-onnx",
                model_file="classification.onnx",
                download_urls={
                    "classification.onnx": "https://github.com/hawkeye217/paddleocr-onnx/raw/refs/heads/master/models/classification.onnx"
                },
                model_size="large",
                model_type=ModelTypeEnum.lpr_classify,
                requestor=self.requestor,
                device="CPU",
            )
            self.lpr_recognition_model = GenericONNXEmbedding(
                model_name="paddleocr-onnx",
                model_file="recognition.onnx",
                download_urls={
                    "recognition.onnx": "https://github.com/hawkeye217/paddleocr-onnx/raw/refs/heads/master/models/recognition.onnx"
                },
                model_size="large",
                model_type=ModelTypeEnum.lpr_recognize,
                requestor=self.requestor,
                device="CPU",
            )
    def embed_thumbnail(
        self, event_id: str, thumbnail: bytes, upsert: bool = True
    ) -> ndarray:
--- a/frigate/embeddings/functions/onnx.py
+++ b/frigate/embeddings/functions/onnx.py
@@ -31,11 +31,16 @@ warnings.filterwarnings(
 disable_progress_bar()
 logger = logging.getLogger(__name__)
 FACE_EMBEDDING_SIZE = 160
 class ModelTypeEnum(str, Enum):
    face = "face"
    vision = "vision"
    text = "text"
    lpr_detect = "lpr_detect"
    lpr_classify = "lpr_classify"
    lpr_recognize = "lpr_recognize"
 class GenericONNXEmbedding:
@@ -47,7 +52,7 @@ class GenericONNXEmbedding:
        model_file: str,
        download_urls: Dict[str, str],
        model_size: str,
-        model_type: str,
+        model_type: ModelTypeEnum,
        requestor: InterProcessRequestor,
        tokenizer_file: Optional[str] = None,
        device: str = "AUTO",
@@ -57,7 +62,7 @@ class GenericONNXEmbedding:
        self.tokenizer_file = tokenizer_file
        self.requestor = requestor
        self.download_urls = download_urls
-        self.model_type = model_type  # 'text' or 'vision'
+        self.model_type = model_type
        self.model_size = model_size
        self.device = device
        self.download_path = os.path.join(MODEL_CACHE_DIR, self.model_name)
@@ -87,12 +92,13 @@ class GenericONNXEmbedding:
                files_names,
                ModelStatusTypesEnum.downloaded,
            )
-            self._load_model_and_tokenizer()
+            self._load_model_and_utils()
            logger.debug(f"models are already downloaded for {self.model_name}")
    def _download_model(self, path: str):
        try:
            file_name = os.path.basename(path)
            if file_name in self.download_urls:
                ModelDownloader.download_from_url(self.download_urls[file_name], path)
            elif (
@@ -101,6 +107,7 @@ class GenericONNXEmbedding:
            ):
                if not os.path.exists(path + "/" + self.model_name):
                    logger.info(f"Downloading {self.model_name} tokenizer")
                tokenizer = AutoTokenizer.from_pretrained(
                    self.model_name,
                    trust_remote_code=True,
@@ -125,14 +132,23 @@ class GenericONNXEmbedding:
                },
            )
-    def _load_model_and_tokenizer(self):
+    def _load_model_and_utils(self):
        if self.runner is None:
            if self.downloader:
                self.downloader.wait_for_download()
            if self.model_type == ModelTypeEnum.text:
                self.tokenizer = self._load_tokenizer()
-            else:
+            elif self.model_type == ModelTypeEnum.vision:
                self.feature_extractor = self._load_feature_extractor()
            elif self.model_type == ModelTypeEnum.face:
                self.feature_extractor = []
            elif self.model_type == ModelTypeEnum.lpr_detect:
                self.feature_extractor = []
            elif self.model_type == ModelTypeEnum.lpr_classify:
                self.feature_extractor = []
            elif self.model_type == ModelTypeEnum.lpr_recognize:
                self.feature_extractor = []
            self.runner = ONNXModelRunner(
                os.path.join(self.download_path, self.model_file),
                self.device,
@@ -172,23 +188,72 @@ class GenericONNXEmbedding:
                self.feature_extractor(images=image, return_tensors="np")
                for image in processed_images
            ]
        elif self.model_type == ModelTypeEnum.face:
            if isinstance(raw_inputs, list):
                raise ValueError("Face embedding does not support batch inputs.")
            pil = self._process_image(raw_inputs)
            # handle images larger than input size
            width, height = pil.size
            if width != FACE_EMBEDDING_SIZE or height != FACE_EMBEDDING_SIZE:
                if width > height:
                    new_height = int(((height / width) * FACE_EMBEDDING_SIZE) // 4 * 4)
                    pil = pil.resize((FACE_EMBEDDING_SIZE, new_height))
                else:
                    new_width = int(((width / height) * FACE_EMBEDDING_SIZE) // 4 * 4)
                    pil = pil.resize((new_width, FACE_EMBEDDING_SIZE))
            og = np.array(pil).astype(np.float32)
            # Image must be FACE_EMBEDDING_SIZExFACE_EMBEDDING_SIZE
            og_h, og_w, channels = og.shape
            frame = np.full(
                (FACE_EMBEDDING_SIZE, FACE_EMBEDDING_SIZE, channels),
                (0, 0, 0),
                dtype=np.float32,
            )
            # compute center offset
            x_center = (FACE_EMBEDDING_SIZE - og_w) // 2
            y_center = (FACE_EMBEDDING_SIZE - og_h) // 2
            # copy img image into center of result image
            frame[y_center : y_center + og_h, x_center : x_center + og_w] = og
            frame = np.expand_dims(frame, axis=0)
            return [{"input_2": frame}]
        elif self.model_type == ModelTypeEnum.lpr_detect:
            preprocessed = []
            for x in raw_inputs:
                preprocessed.append(x)
            return [{"x": preprocessed[0]}]
        elif self.model_type == ModelTypeEnum.lpr_classify:
            processed = []
            for img in raw_inputs:
                processed.append({"x": img})
            return processed
        elif self.model_type == ModelTypeEnum.lpr_recognize:
            processed = []
            for img in raw_inputs:
                processed.append({"x": img})
            return processed
        else:
            raise ValueError(f"Unable to preprocess inputs for {self.model_type}")
-    def _process_image(self, image):
+    def _process_image(self, image, output: str = "RGB") -> Image.Image:
        if isinstance(image, str):
            if image.startswith("http"):
                response = requests.get(image)
-                image = Image.open(BytesIO(response.content)).convert("RGB")
+                image = Image.open(BytesIO(response.content)).convert(output)
        elif isinstance(image, bytes):
-            image = Image.open(BytesIO(image)).convert("RGB")
+            image = Image.open(BytesIO(image)).convert(output)
        return image
    def __call__(
        self, inputs: Union[List[str], List[Image.Image], List[str]]
    ) -> List[np.ndarray]:
-        self._load_model_and_tokenizer()
+        self._load_model_and_utils()
        if self.runner is None or (
            self.tokenizer is None and self.feature_extractor is None
        ):
--- a/frigate/embeddings/lpr/lpr.py
+++ b/frigate/embeddings/lpr/lpr.py
@@ -0,0 +1,808 @@
 import logging
 import math
 from typing import List, Tuple
 import cv2
 import numpy as np
 from pyclipper import ET_CLOSEDPOLYGON, JT_ROUND, PyclipperOffset
 from shapely.geometry import Polygon
 from frigate.comms.inter_process import InterProcessRequestor
 from frigate.config.semantic_search import LicensePlateRecognitionConfig
 from frigate.embeddings.embeddings import Embeddings
 logger = logging.getLogger(__name__)
 MIN_PLATE_LENGTH = 3
 class LicensePlateRecognition:
    def __init__(
        self,
        config: LicensePlateRecognitionConfig,
        requestor: InterProcessRequestor,
        embeddings: Embeddings,
    ):
        self.lpr_config = config
        self.requestor = requestor
        self.embeddings = embeddings
        self.detection_model = self.embeddings.lpr_detection_model
        self.classification_model = self.embeddings.lpr_classification_model
        self.recognition_model = self.embeddings.lpr_recognition_model
        self.ctc_decoder = CTCDecoder()
        self.batch_size = 6
        # Detection specific parameters
        self.min_size = 3
        self.max_size = 960
        self.box_thresh = 0.8
        self.mask_thresh = 0.8
        if self.lpr_config.enabled:
            # all models need to be loaded to run LPR
            self.detection_model._load_model_and_utils()
            self.classification_model._load_model_and_utils()
            self.recognition_model._load_model_and_utils()
    def detect(self, image: np.ndarray) -> List[np.ndarray]:
        """
        Detect possible license plates in the input image by first resizing and normalizing it,
        running a detection model, and filtering out low-probability regions.
        Args:
            image (np.ndarray): The input image in which license plates will be detected.
        Returns:
            List[np.ndarray]: A list of bounding box coordinates representing detected license plates.
        """
        h, w = image.shape[:2]
        if sum([h, w]) < 64:
            image = self.zero_pad(image)
        resized_image = self.resize_image(image)
        normalized_image = self.normalize_image(resized_image)
        outputs = self.detection_model([normalized_image])[0]
        outputs = outputs[0, :, :]
        boxes, _ = self.boxes_from_bitmap(outputs, outputs > self.mask_thresh, w, h)
        return self.filter_polygon(boxes, (h, w))
    def classify(
        self, images: List[np.ndarray]
    ) -> Tuple[List[np.ndarray], List[Tuple[str, float]]]:
        """
        Classify the orientation or category of each detected license plate.
        Args:
            images (List[np.ndarray]): A list of images of detected license plates.
        Returns:
            Tuple[List[np.ndarray], List[Tuple[str, float]]]: A tuple of rotated/normalized plate images
                                                            and classification results with confidence scores.
        """
        num_images = len(images)
        indices = np.argsort([x.shape[1] / x.shape[0] for x in images])
        for i in range(0, num_images, self.batch_size):
            norm_images = []
            for j in range(i, min(num_images, i + self.batch_size)):
                norm_img = self._preprocess_classification_image(images[indices[j]])
                norm_img = norm_img[np.newaxis, :]
                norm_images.append(norm_img)
        outputs = self.classification_model(norm_images)
        return self._process_classification_output(images, outputs)
    def recognize(
        self, images: List[np.ndarray]
    ) -> Tuple[List[str], List[List[float]]]:
        """
        Recognize the characters on the detected license plates using the recognition model.
        Args:
            images (List[np.ndarray]): A list of images of license plates to recognize.
        Returns:
            Tuple[List[str], List[List[float]]]: A tuple of recognized license plate texts and confidence scores.
        """
        input_shape = [3, 48, 320]
        num_images = len(images)
        # sort images by aspect ratio for processing
        indices = np.argsort(np.array([x.shape[1] / x.shape[0] for x in images]))
        for index in range(0, num_images, self.batch_size):
            input_h, input_w = input_shape[1], input_shape[2]
            max_wh_ratio = input_w / input_h
            norm_images = []
            # calculate the maximum aspect ratio in the current batch
            for i in range(index, min(num_images, index + self.batch_size)):
                h, w = images[indices[i]].shape[0:2]
                max_wh_ratio = max(max_wh_ratio, w * 1.0 / h)
            # preprocess the images based on the max aspect ratio
            for i in range(index, min(num_images, index + self.batch_size)):
                norm_image = self._preprocess_recognition_image(
                    images[indices[i]], max_wh_ratio
                )
                norm_image = norm_image[np.newaxis, :]
                norm_images.append(norm_image)
        outputs = self.recognition_model(norm_images)
        return self.ctc_decoder(outputs)
    def process_license_plate(
        self, image: np.ndarray
    ) -> Tuple[List[str], List[float], List[int]]:
        """
        Complete pipeline for detecting, classifying, and recognizing license plates in the input image.
        Args:
            image (np.ndarray): The input image in which to detect, classify, and recognize license plates.
        Returns:
            Tuple[List[str], List[float], List[int]]: Detected license plate texts, confidence scores, and areas of the plates.
        """
        if (
            self.detection_model.runner is None
            or self.classification_model.runner is None
            or self.recognition_model.runner is None
        ):
            # we might still be downloading the models
            logger.debug("Model runners not loaded")
            return [], [], []
        plate_points = self.detect(image)
        if len(plate_points) == 0:
            return [], [], []
        plate_points = self.sort_polygon(list(plate_points))
        plate_images = [self._crop_license_plate(image, x) for x in plate_points]
        rotated_images, _ = self.classify(plate_images)
        # keep track of the index of each image for correct area calc later
        sorted_indices = np.argsort([x.shape[1] / x.shape[0] for x in rotated_images])
        reverse_mapping = {
            idx: original_idx for original_idx, idx in enumerate(sorted_indices)
        }
        results, confidences = self.recognize(rotated_images)
        if results:
            license_plates = [""] * len(rotated_images)
            average_confidences = [[0.0]] * len(rotated_images)
            areas = [0] * len(rotated_images)
            # map results back to original image order
            for i, (plate, conf) in enumerate(zip(results, confidences)):
                original_idx = reverse_mapping[i]
                height, width = rotated_images[original_idx].shape[:2]
                area = height * width
                average_confidence = conf
                # set to True to write each cropped image for debugging
                if False:
                    save_image = cv2.cvtColor(
                        rotated_images[original_idx], cv2.COLOR_RGB2BGR
                    )
                    filename = f"/config/plate_{original_idx}_{plate}_{area}.jpg"
                    cv2.imwrite(filename, save_image)
                license_plates[original_idx] = plate
                average_confidences[original_idx] = average_confidence
                areas[original_idx] = area
            # Filter out plates that have a length of less than 3 characters
            # Sort by area, then by plate length, then by confidence all desc
            sorted_data = sorted(
                [
                    (plate, conf, area)
                    for plate, conf, area in zip(
                        license_plates, average_confidences, areas
                    )
                    if len(plate) >= MIN_PLATE_LENGTH
                ],
                key=lambda x: (x[2], len(x[0]), x[1]),
                reverse=True,
            )
            if sorted_data:
                return map(list, zip(*sorted_data))
        return [], [], []
    def resize_image(self, image: np.ndarray) -> np.ndarray:
        """
        Resize the input image while maintaining the aspect ratio, ensuring dimensions are multiples of 32.
        Args:
            image (np.ndarray): The input image to resize.
        Returns:
            np.ndarray: The resized image.
        """
        h, w = image.shape[:2]
        ratio = min(self.max_size / max(h, w), 1.0)
        resize_h = max(int(round(int(h * ratio) / 32) * 32), 32)
        resize_w = max(int(round(int(w * ratio) / 32) * 32), 32)
        return cv2.resize(image, (resize_w, resize_h))
    def normalize_image(self, image: np.ndarray) -> np.ndarray:
        """
        Normalize the input image by subtracting the mean and multiplying by the standard deviation.
        Args:
            image (np.ndarray): The input image to normalize.
        Returns:
            np.ndarray: The normalized image, transposed to match the model's expected input format.
        """
        mean = np.array([123.675, 116.28, 103.53]).reshape(1, -1).astype("float64")
        std = 1 / np.array([58.395, 57.12, 57.375]).reshape(1, -1).astype("float64")
        image = image.astype("float32")
        cv2.subtract(image, mean, image)
        cv2.multiply(image, std, image)
        return image.transpose((2, 0, 1))[np.newaxis, ...]
    def boxes_from_bitmap(
        self, output: np.ndarray, mask: np.ndarray, dest_width: int, dest_height: int
    ) -> Tuple[np.ndarray, List[float]]:
        """
        Process the binary mask to extract bounding boxes and associated confidence scores.
        Args:
            output (np.ndarray): Output confidence map from the model.
            mask (np.ndarray): Binary mask of detected regions.
            dest_width (int): Target width for scaling the box coordinates.
            dest_height (int): Target height for scaling the box coordinates.
        Returns:
            Tuple[np.ndarray, List[float]]: Array of bounding boxes and list of corresponding scores.
        """
        mask = (mask * 255).astype(np.uint8)
        height, width = mask.shape
        outs = cv2.findContours(mask, cv2.RETR_LIST, cv2.CHAIN_APPROX_SIMPLE)
        # handle different return values of findContours between OpenCV versions
        contours = outs[0] if len(outs) == 2 else outs[1]
        boxes = []
        scores = []
        for index in range(len(contours)):
            contour = contours[index]
            # get minimum bounding box (rotated rectangle) around the contour and the smallest side length.
            points, min_side = self.get_min_boxes(contour)
            if min_side < self.min_size:
                continue
            points = np.array(points)
            score = self.box_score(output, contour)
            if self.box_thresh > score:
                continue
            polygon = Polygon(points)
            distance = polygon.area / polygon.length
            # Use pyclipper to shrink the polygon slightly based on the computed distance.
            offset = PyclipperOffset()
            offset.AddPath(points, JT_ROUND, ET_CLOSEDPOLYGON)
            points = np.array(offset.Execute(distance * 1.5)).reshape((-1, 1, 2))
            # get the minimum bounding box around the shrunken polygon.
            box, min_side = self.get_min_boxes(points)
            if min_side < self.min_size + 2:
                continue
            box = np.array(box)
            # normalize and clip box coordinates to fit within the destination image size.
            box[:, 0] = np.clip(np.round(box[:, 0] / width * dest_width), 0, dest_width)
            box[:, 1] = np.clip(
                np.round(box[:, 1] / height * dest_height), 0, dest_height
            )
            boxes.append(box.astype("int32"))
            scores.append(score)
        return np.array(boxes, dtype="int32"), scores
    @staticmethod
    def get_min_boxes(contour: np.ndarray) -> Tuple[List[Tuple[float, float]], float]:
        """
        Calculate the minimum bounding box (rotated rectangle) for a given contour.
        Args:
            contour (np.ndarray): The contour points of the detected shape.
        Returns:
            Tuple[List[Tuple[float, float]], float]: A list of four points representing the
            corners of the bounding box, and the length of the shortest side.
        """
        bounding_box = cv2.minAreaRect(contour)
        points = sorted(cv2.boxPoints(bounding_box), key=lambda x: x[0])
        index_1, index_4 = (0, 1) if points[1][1] > points[0][1] else (1, 0)
        index_2, index_3 = (2, 3) if points[3][1] > points[2][1] else (3, 2)
        box = [points[index_1], points[index_2], points[index_3], points[index_4]]
        return box, min(bounding_box[1])
    @staticmethod
    def box_score(bitmap: np.ndarray, contour: np.ndarray) -> float:
        """
        Calculate the average score within the bounding box of a contour.
        Args:
            bitmap (np.ndarray): The output confidence map from the model.
            contour (np.ndarray): The contour of the detected shape.
        Returns:
            float: The average score of the pixels inside the contour region.
        """
        h, w = bitmap.shape[:2]
        contour = contour.reshape(-1, 2)
        x1, y1 = np.clip(contour.min(axis=0), 0, [w - 1, h - 1])
        x2, y2 = np.clip(contour.max(axis=0), 0, [w - 1, h - 1])
        mask = np.zeros((y2 - y1 + 1, x2 - x1 + 1), dtype=np.uint8)
        cv2.fillPoly(mask, [contour - [x1, y1]], 1)
        return cv2.mean(bitmap[y1 : y2 + 1, x1 : x2 + 1], mask)[0]
    @staticmethod
    def expand_box(points: List[Tuple[float, float]]) -> np.ndarray:
        """
        Expand a polygonal shape slightly by a factor determined by the area-to-perimeter ratio.
        Args:
            points (List[Tuple[float, float]]): Points of the polygon to expand.
        Returns:
            np.ndarray: Expanded polygon points.
        """
        polygon = Polygon(points)
        distance = polygon.area / polygon.length
        offset = PyclipperOffset()
        offset.AddPath(points, JT_ROUND, ET_CLOSEDPOLYGON)
        expanded = np.array(offset.Execute(distance * 1.5)).reshape((-1, 2))
        return expanded
    def filter_polygon(
        self, points: List[np.ndarray], shape: Tuple[int, int]
    ) -> np.ndarray:
        """
        Filter a set of polygons to include only valid ones that fit within an image shape
        and meet size constraints.
        Args:
            points (List[np.ndarray]): List of polygons to filter.
            shape (Tuple[int, int]): Shape of the image (height, width).
        Returns:
            np.ndarray: List of filtered polygons.
        """
        height, width = shape
        return np.array(
            [
                self.clockwise_order(point)
                for point in points
                if self.is_valid_polygon(point, width, height)
            ]
        )
    @staticmethod
    def is_valid_polygon(point: np.ndarray, width: int, height: int) -> bool:
        """
        Check if a polygon is valid, meaning it fits within the image bounds
        and has sides of a minimum length.
        Args:
            point (np.ndarray): The polygon to validate.
            width (int): Image width.
            height (int): Image height.
        Returns:
            bool: Whether the polygon is valid or not.
        """
        return (
            point[:, 0].min() >= 0
            and point[:, 0].max() < width
            and point[:, 1].min() >= 0
            and point[:, 1].max() < height
            and np.linalg.norm(point[0] - point[1]) > 3
            and np.linalg.norm(point[0] - point[3]) > 3
        )
    @staticmethod
    def clockwise_order(point: np.ndarray) -> np.ndarray:
        """
        Arrange the points of a polygon in clockwise order based on their angular positions
        around the polygon's center.
        Args:
            point (np.ndarray): Array of points of the polygon.
        Returns:
            np.ndarray: Points ordered in clockwise direction.
        """
        center = point.mean(axis=0)
        return point[
            np.argsort(np.arctan2(point[:, 1] - center[1], point[:, 0] - center[0]))
        ]
    @staticmethod
    def sort_polygon(points):
        """
        Sort polygons based on their position in the image. If polygons are close in vertical
        position (within 10 pixels), sort them by horizontal position.
        Args:
            points: List of polygons to sort.
        Returns:
            List: Sorted list of polygons.
        """
        points.sort(key=lambda x: (x[0][1], x[0][0]))
        for i in range(len(points) - 1):
            for j in range(i, -1, -1):
                if abs(points[j + 1][0][1] - points[j][0][1]) < 10 and (
                    points[j + 1][0][0] < points[j][0][0]
                ):
                    temp = points[j]
                    points[j] = points[j + 1]
                    points[j + 1] = temp
                else:
                    break
        return points
    @staticmethod
    def zero_pad(image: np.ndarray) -> np.ndarray:
        """
        Apply zero-padding to an image, ensuring its dimensions are at least 32x32.
        The padding is added only if needed.
        Args:
            image (np.ndarray): Input image.
        Returns:
            np.ndarray: Zero-padded image.
        """
        h, w, c = image.shape
        pad = np.zeros((max(32, h), max(32, w), c), np.uint8)
        pad[:h, :w, :] = image
        return pad
    @staticmethod
    def _preprocess_classification_image(image: np.ndarray) -> np.ndarray:
        """
        Preprocess a single image for classification by resizing, normalizing, and padding.
        This method resizes the input image to a fixed height of 48 pixels while adjusting
        the width dynamically up to a maximum of 192 pixels. The image is then normalized and
        padded to fit the required input dimensions for classification.
        Args:
            image (np.ndarray): Input image to preprocess.
        Returns:
            np.ndarray: Preprocessed and padded image.
        """
        # fixed height of 48, dynamic width up to 192
        input_shape = (3, 48, 192)
        input_c, input_h, input_w = input_shape
        h, w = image.shape[:2]
        ratio = w / h
        resized_w = min(input_w, math.ceil(input_h * ratio))
        resized_image = cv2.resize(image, (resized_w, input_h))
        # handle single-channel images (grayscale) if needed
        if input_c == 1 and resized_image.ndim == 2:
            resized_image = resized_image[np.newaxis, :, :]
        else:
            resized_image = resized_image.transpose((2, 0, 1))
        # normalize
        resized_image = (resized_image.astype("float32") / 255.0 - 0.5) / 0.5
        padded_image = np.zeros((input_c, input_h, input_w), dtype=np.float32)
        padded_image[:, :, :resized_w] = resized_image
        return padded_image
    def _process_classification_output(
        self, images: List[np.ndarray], outputs: List[np.ndarray]
    ) -> Tuple[List[np.ndarray], List[Tuple[str, float]]]:
        """
        Process the classification model output by matching labels with confidence scores.
        This method processes the outputs from the classification model and rotates images
        with high confidence of being labeled "180". It ensures that results are mapped to
        the original image order.
        Args:
            images (List[np.ndarray]): List of input images.
            outputs (List[np.ndarray]): Corresponding model outputs.
        Returns:
            Tuple[List[np.ndarray], List[Tuple[str, float]]]: A tuple of processed images and
            classification results (label and confidence score).
        """
        labels = ["0", "180"]
        results = [["", 0.0]] * len(images)
        indices = np.argsort(np.array([x.shape[1] / x.shape[0] for x in images]))
        outputs = np.stack(outputs)
        outputs = [
            (labels[idx], outputs[i, idx])
            for i, idx in enumerate(outputs.argmax(axis=1))
        ]
        for i in range(0, len(images), self.batch_size):
            for j in range(len(outputs)):
                label, score = outputs[j]
                results[indices[i + j]] = [label, score]
                if "180" in label and score >= self.lpr_config.threshold:
                    images[indices[i + j]] = cv2.rotate(images[indices[i + j]], 1)
        return images, results
    def _preprocess_recognition_image(
        self, image: np.ndarray, max_wh_ratio: float
    ) -> np.ndarray:
        """
        Preprocess an image for recognition by dynamically adjusting its width.
        This method adjusts the width of the image based on the maximum width-to-height ratio
        while keeping the height fixed at 48 pixels. The image is then normalized and padded
        to fit the required input dimensions for recognition.
        Args:
            image (np.ndarray): Input image to preprocess.
            max_wh_ratio (float): Maximum width-to-height ratio for resizing.
        Returns:
            np.ndarray: Preprocessed and padded image.
        """
        # fixed height of 48, dynamic width based on ratio
        input_shape = [3, 48, 320]
        input_h, input_w = input_shape[1], input_shape[2]
        assert image.shape[2] == input_shape[0], "Unexpected number of image channels."
        # dynamically adjust input width based on max_wh_ratio
        input_w = int(input_h * max_wh_ratio)
        # check for model-specific input width
        model_input_w = self.recognition_model.runner.ort.get_inputs()[0].shape[3]
        if isinstance(model_input_w, int) and model_input_w > 0:
            input_w = model_input_w
        h, w = image.shape[:2]
        aspect_ratio = w / h
        resized_w = min(input_w, math.ceil(input_h * aspect_ratio))
        resized_image = cv2.resize(image, (resized_w, input_h))
        resized_image = resized_image.transpose((2, 0, 1))
        resized_image = (resized_image.astype("float32") / 255.0 - 0.5) / 0.5
        padded_image = np.zeros((input_shape[0], input_h, input_w), dtype=np.float32)
        padded_image[:, :, :resized_w] = resized_image
        return padded_image
    @staticmethod
    def _crop_license_plate(image: np.ndarray, points: np.ndarray) -> np.ndarray:
        """
        Crop the license plate from the image using four corner points.
        This method crops the region containing the license plate by using the perspective
        transformation based on four corner points. If the resulting image is significantly
        taller than wide, the image is rotated to the correct orientation.
        Args:
            image (np.ndarray): Input image containing the license plate.
            points (np.ndarray): Four corner points defining the plate's position.
        Returns:
            np.ndarray: Cropped and potentially rotated license plate image.
        """
        assert len(points) == 4, "shape of points must be 4*2"
        points = points.astype(np.float32)
        crop_width = int(
            max(
                np.linalg.norm(points[0] - points[1]),
                np.linalg.norm(points[2] - points[3]),
            )
        )
        crop_height = int(
            max(
                np.linalg.norm(points[0] - points[3]),
                np.linalg.norm(points[1] - points[2]),
            )
        )
        pts_std = np.float32(
            [[0, 0], [crop_width, 0], [crop_width, crop_height], [0, crop_height]]
        )
        matrix = cv2.getPerspectiveTransform(points, pts_std)
        image = cv2.warpPerspective(
            image,
            matrix,
            (crop_width, crop_height),
            borderMode=cv2.BORDER_REPLICATE,
            flags=cv2.INTER_CUBIC,
        )
        height, width = image.shape[0:2]
        if height * 1.0 / width >= 1.5:
            image = np.rot90(image, k=3)
        return image
 class CTCDecoder:
    """
    A decoder for interpreting the output of a CTC (Connectionist Temporal Classification) model.
    This decoder converts the model's output probabilities into readable sequences of characters
    while removing duplicates and handling blank tokens. It also calculates the confidence scores
    for each decoded character sequence.
    """
    def __init__(self):
        """
        Initialize the CTCDecoder with a list of characters and a character map.
        The character set includes digits, letters, special characters, and a "blank" token
        (used by the CTC model for decoding purposes). A character map is created to map
        indices to characters.
        """
        self.characters = [
            "blank",
            "0",
            "1",
            "2",
            "3",
            "4",
            "5",
            "6",
            "7",
            "8",
            "9",
            ":",
            ";",
            "<",
            "=",
            ">",
            "?",
            "@",
            "A",
            "B",
            "C",
            "D",
            "E",
            "F",
            "G",
            "H",
            "I",
            "J",
            "K",
            "L",
            "M",
            "N",
            "O",
            "P",
            "Q",
            "R",
            "S",
            "T",
            "U",
            "V",
            "W",
            "X",
            "Y",
            "Z",
            "[",
            "\\",
            "]",
            "^",
            "_",
            "`",
            "a",
            "b",
            "c",
            "d",
            "e",
            "f",
            "g",
            "h",
            "i",
            "j",
            "k",
            "l",
            "m",
            "n",
            "o",
            "p",
            "q",
            "r",
            "s",
            "t",
            "u",
            "v",
            "w",
            "x",
            "y",
            "z",
            "{",
            "|",
            "}",
            "~",
            "!",
            '"',
            "#",
            "$",
            "%",
            "&",
            "'",
            "(",
            ")",
            "*",
            "+",
            ",",
            "-",
            ".",
            "/",
            " ",
            " ",
        ]
        self.char_map = {i: char for i, char in enumerate(self.characters)}
    def __call__(
        self, outputs: List[np.ndarray]
    ) -> Tuple[List[str], List[List[float]]]:
        """
        Decode a batch of model outputs into character sequences and their confidence scores.
        The method takes the output probability distributions for each time step and uses
        the best path decoding strategy. It then merges repeating characters and ignores
        blank tokens. Confidence scores for each decoded character are also calculated.
        Args:
            outputs (List[np.ndarray]): A list of model outputs, where each element is
                                        a probability distribution for each time step.
        Returns:
            Tuple[List[str], List[List[float]]]: A tuple of decoded character sequences
                                                and confidence scores for each sequence.
        """
        results = []
        confidences = []
        for output in outputs:
            seq_log_probs = np.log(output + 1e-8)
            best_path = np.argmax(seq_log_probs, axis=1)
            merged_path = []
            merged_probs = []
            for t, char_index in enumerate(best_path):
                if char_index != 0 and (t == 0 or char_index != best_path[t - 1]):
                    merged_path.append(char_index)
                    merged_probs.append(seq_log_probs[t, char_index])
            result = "".join(self.char_map[idx] for idx in merged_path)
            results.append(result)
            confidence = np.exp(merged_probs).tolist()
            confidences.append(confidence)
        return results, confidences
--- a/frigate/embeddings/maintainer.py
+++ b/frigate/embeddings/maintainer.py
@@ -3,6 +3,9 @@
 import base64
 import logging
 import os
 import random
 import re
 import string
 import threading
 from multiprocessing.synchronize import Event as MpEvent
 from pathlib import Path
@@ -10,6 +13,7 @@ from typing import Optional
 import cv2
 import numpy as np
 import requests
 from peewee import DoesNotExist
 from playhouse.sqliteq import SqliteQueueDatabase
@@ -21,13 +25,20 @@ from frigate.comms.event_metadata_updater import (
 from frigate.comms.events_updater import EventEndSubscriber, EventUpdateSubscriber
 from frigate.comms.inter_process import InterProcessRequestor
 from frigate.config import FrigateConfig
-from frigate.const import CLIPS_DIR, UPDATE_EVENT_DESCRIPTION
+from frigate.const import (
    CLIPS_DIR,
    FACE_DIR,
    FRIGATE_LOCALHOST,
    UPDATE_EVENT_DESCRIPTION,
 )
 from frigate.embeddings.lpr.lpr import LicensePlateRecognition
 from frigate.events.types import EventTypeEnum
 from frigate.genai import get_genai_client
 from frigate.models import Event
 from frigate.types import TrackedObjectUpdateTypesEnum
 from frigate.util.builtin import serialize
-from frigate.util.image import SharedMemoryFrameManager, calculate_region
+from frigate.util.image import SharedMemoryFrameManager, area, calculate_region
 from frigate.util.model import FaceClassificationModel
 from .embeddings import Embeddings
@@ -47,7 +58,7 @@ class EmbeddingMaintainer(threading.Thread):
    ) -> None:
        super().__init__(name="embeddings_maintainer")
        self.config = config
-        self.embeddings = Embeddings(config.semantic_search, db)
+        self.embeddings = Embeddings(config, db)
        # Check if we need to re-index events
        if config.semantic_search.reindex:
@@ -60,12 +71,48 @@ class EmbeddingMaintainer(threading.Thread):
        )
        self.embeddings_responder = EmbeddingsResponder()
        self.frame_manager = SharedMemoryFrameManager()
        # set face recognition conditions
        self.face_recognition_enabled = self.config.face_recognition.enabled
        self.requires_face_detection = "face" not in self.config.objects.all_objects
        self.detected_faces: dict[str, float] = {}
        self.face_classifier = (
            FaceClassificationModel(self.config.face_recognition, db)
            if self.face_recognition_enabled
            else None
        )
        # create communication for updating event descriptions
        self.requestor = InterProcessRequestor()
        self.stop_event = stop_event
-        self.tracked_events = {}
+        self.tracked_events: dict[str, list[any]] = {}
        self.genai_client = get_genai_client(config)
        # set license plate recognition conditions
        self.lpr_config = self.config.lpr
        self.requires_license_plate_detection = (
            "license_plate" not in self.config.objects.all_objects
        )
        self.detected_license_plates: dict[str, dict[str, any]] = {}
        if self.lpr_config.enabled:
            self.license_plate_recognition = LicensePlateRecognition(
                self.lpr_config, self.requestor, self.embeddings
            )
    @property
    def face_detector(self) -> cv2.FaceDetectorYN:
        # Lazily create the classifier.
        if "face_detector" not in self.__dict__:
            self.__dict__["face_detector"] = cv2.FaceDetectorYN.create(
                "/config/model_cache/facedet/facedet.onnx",
                config="",
                input_size=(320, 320),
                score_threshold=0.8,
                nms_threshold=0.3,
            )
        return self.__dict__["face_detector"]
    def run(self) -> None:
        """Maintain a SQLite-vec database for semantic search."""
        while not self.stop_event.is_set():
@@ -84,7 +131,7 @@ class EmbeddingMaintainer(threading.Thread):
    def _process_requests(self) -> None:
        """Process embeddings requests"""
-        def _handle_request(topic: str, data: str) -> str:
+        def _handle_request(topic: str, data: dict[str, any]) -> str:
            try:
                if topic == EmbeddingsRequestEnum.embed_description.value:
                    return serialize(
@@ -103,6 +150,46 @@ class EmbeddingMaintainer(threading.Thread):
                    return serialize(
                        self.embeddings.text_embedding([data])[0], pack=False
                    )
                elif topic == EmbeddingsRequestEnum.register_face.value:
                    if not self.face_recognition_enabled:
                        return False
                    rand_id = "".join(
                        random.choices(string.ascii_lowercase + string.digits, k=6)
                    )
                    label = data["face_name"]
                    id = f"{label}-{rand_id}"
                    if data.get("cropped"):
                        pass
                    else:
                        img = cv2.imdecode(
                            np.frombuffer(
                                base64.b64decode(data["image"]), dtype=np.uint8
                            ),
                            cv2.IMREAD_COLOR,
                        )
                        face_box = self._detect_face(img)
                        if not face_box:
                            return False
                        face = img[face_box[1] : face_box[3], face_box[0] : face_box[2]]
                        ret, thumbnail = cv2.imencode(
                            ".webp", face, [int(cv2.IMWRITE_WEBP_QUALITY), 100]
                        )
                    # write face to library
                    folder = os.path.join(FACE_DIR, label)
                    file = os.path.join(folder, f"{id}.webp")
                    os.makedirs(folder, exist_ok=True)
                    # save face image
                    with open(file, "wb") as output:
                        output.write(thumbnail.tobytes())
                self.face_classifier.clear_classifier()
                return True
            except Exception as e:
                logger.error(f"Unable to handle embeddings request {e}")
@@ -110,7 +197,7 @@ class EmbeddingMaintainer(threading.Thread):
    def _process_updates(self) -> None:
        """Process event updates"""
-        update = self.event_subscriber.check_for_update(timeout=0.1)
+        update = self.event_subscriber.check_for_update(timeout=0.01)
        if update is None:
            return
@@ -121,42 +208,56 @@ class EmbeddingMaintainer(threading.Thread):
            return
        camera_config = self.config.cameras[camera]
-        # no need to save our own thumbnails if genai is not enabled
+
-        # or if the object has become stationary
+        # no need to process updated objects if face recognition, lpr, genai are disabled
        if (
            not camera_config.genai.enabled
-            or self.genai_client is None
+            and not self.face_recognition_enabled
-            or data["stationary"]
+            and not self.lpr_config.enabled
        ):
            return
        if data["id"] not in self.tracked_events:
            self.tracked_events[data["id"]] = []
        # Create our own thumbnail based on the bounding box and the frame time
        try:
            yuv_frame = self.frame_manager.get(
                frame_name, camera_config.frame_shape_yuv
            )
            if yuv_frame is not None:
                data["thumbnail"] = self._create_thumbnail(yuv_frame, data["box"])
                # Limit the number of thumbnails saved
                if len(self.tracked_events[data["id"]]) >= MAX_THUMBNAILS:
                    # Always keep the first thumbnail for the event
                    self.tracked_events[data["id"]].pop(1)
                self.tracked_events[data["id"]].append(data)
                self.frame_manager.close(frame_name)
        except FileNotFoundError:
            pass
        if yuv_frame is None:
            logger.debug(
                "Unable to process object update because frame is unavailable."
            )
            return
        if self.face_recognition_enabled:
            self._process_face(data, yuv_frame)
        if self.lpr_config.enabled:
            self._process_license_plate(data, yuv_frame)
        # no need to save our own thumbnails if genai is not enabled
        # or if the object has become stationary
        if self.genai_client is not None and not data["stationary"]:
            if data["id"] not in self.tracked_events:
                self.tracked_events[data["id"]] = []
            data["thumbnail"] = self._create_thumbnail(yuv_frame, data["box"])
            # Limit the number of thumbnails saved
            if len(self.tracked_events[data["id"]]) >= MAX_THUMBNAILS:
                # Always keep the first thumbnail for the event
                self.tracked_events[data["id"]].pop(1)
            self.tracked_events[data["id"]].append(data)
        self.frame_manager.close(frame_name)
    def _process_finalized(self) -> None:
        """Process the end of an event."""
        while True:
-            ended = self.event_end_subscriber.check_for_update(timeout=0.1)
+            ended = self.event_end_subscriber.check_for_update(timeout=0.01)
            if ended == None:
                break
@@ -164,6 +265,12 @@ class EmbeddingMaintainer(threading.Thread):
            event_id, camera, updated_db = ended
            camera_config = self.config.cameras[camera]
            if event_id in self.detected_faces:
                self.detected_faces.pop(event_id)
            if event_id in self.detected_license_plates:
                self.detected_license_plates.pop(event_id)
            if updated_db:
                try:
                    event: Event = Event.get(Event.id == event_id)
@@ -277,7 +384,7 @@ class EmbeddingMaintainer(threading.Thread):
    def _process_event_metadata(self):
        # Check for regenerate description requests
        (topic, event_id, source) = self.event_metadata_subscriber.check_for_update(
-            timeout=0.1
+            timeout=0.01
        )
        if topic is None:
@@ -286,6 +393,350 @@ class EmbeddingMaintainer(threading.Thread):
        if event_id:
            self.handle_regenerate_description(event_id, source)
    def _detect_face(self, input: np.ndarray) -> tuple[int, int, int, int]:
        """Detect faces in input image."""
        self.face_detector.setInputSize((input.shape[1], input.shape[0]))
        faces = self.face_detector.detect(input)
        if faces[1] is None:
            return None
        face = None
        for _, potential_face in enumerate(faces[1]):
            raw_bbox = potential_face[0:4].astype(np.uint16)
            x: int = max(raw_bbox[0], 0)
            y: int = max(raw_bbox[1], 0)
            w: int = raw_bbox[2]
            h: int = raw_bbox[3]
            bbox = (x, y, x + w, y + h)
            if face is None or area(bbox) > area(face):
                face = bbox
        return face
    def _process_face(self, obj_data: dict[str, any], frame: np.ndarray) -> None:
        """Look for faces in image."""
        id = obj_data["id"]
        # don't run for non person objects
        if obj_data.get("label") != "person":
            logger.debug("Not a processing face for non person object.")
            return
        # don't overwrite sub label for objects that have a sub label
        # that is not a face
        if obj_data.get("sub_label") and id not in self.detected_faces:
            logger.debug(
                f"Not processing face due to existing sub label: {obj_data.get('sub_label')}."
            )
            return
        face: Optional[dict[str, any]] = None
        if self.requires_face_detection:
            logger.debug("Running manual face detection.")
            person_box = obj_data.get("box")
            if not person_box:
                return None
            rgb = cv2.cvtColor(frame, cv2.COLOR_YUV2RGB_I420)
            left, top, right, bottom = person_box
            person = rgb[top:bottom, left:right]
            face_box = self._detect_face(person)
            if not face_box:
                logger.debug("Detected no faces for person object.")
                return
            margin = int((face_box[2] - face_box[0]) * 0.25)
            face_frame = person[
                max(0, face_box[1] - margin) : min(
                    frame.shape[0], face_box[3] + margin
                ),
                max(0, face_box[0] - margin) : min(
                    frame.shape[1], face_box[2] + margin
                ),
            ]
            face_frame = cv2.cvtColor(face_frame, cv2.COLOR_RGB2BGR)
        else:
            # don't run for object without attributes
            if not obj_data.get("current_attributes"):
                logger.debug("No attributes to parse.")
                return
            attributes: list[dict[str, any]] = obj_data.get("current_attributes", [])
            for attr in attributes:
                if attr.get("label") != "face":
                    continue
                if face is None or attr.get("score", 0.0) > face.get("score", 0.0):
                    face = attr
            # no faces detected in this frame
            if not face:
                return
            face_box = face.get("box")
            # check that face is valid
            if not face_box or area(face_box) < self.config.face_recognition.min_area:
                logger.debug(f"Invalid face box {face}")
                return
            face_frame = cv2.cvtColor(frame, cv2.COLOR_YUV2BGR_I420)
            margin = int((face_box[2] - face_box[0]) * 0.25)
            face_frame = face_frame[
                max(0, face_box[1] - margin) : min(
                    frame.shape[0], face_box[3] + margin
                ),
                max(0, face_box[0] - margin) : min(
                    frame.shape[1], face_box[2] + margin
                ),
            ]
        res = self.face_classifier.classify_face(face_frame)
        if not res:
            return
        sub_label, score = res
        # calculate the overall face score as the probability * area of face
        # this will help to reduce false positives from small side-angle faces
        # if a large front-on face image may have scored slightly lower but
        # is more likely to be accurate due to the larger face area
        face_score = round(score * face_frame.shape[0] * face_frame.shape[1], 2)
        logger.debug(
            f"Detected best face for person as: {sub_label} with probability {score} and overall face score {face_score}"
        )
        if self.config.face_recognition.save_attempts:
            # write face to library
            folder = os.path.join(FACE_DIR, "debug")
            file = os.path.join(folder, f"{id}-{sub_label}-{score}-{face_score}.webp")
            os.makedirs(folder, exist_ok=True)
            cv2.imwrite(file, face_frame)
        if score < self.config.face_recognition.threshold:
            logger.debug(
                f"Recognized face distance {score} is less than threshold {self.config.face_recognition.threshold}"
            )
            return
        if id in self.detected_faces and face_score <= self.detected_faces[id]:
            logger.debug(
                f"Recognized face distance {score} and overall score {face_score} is less than previous overall face score ({self.detected_faces.get(id)})."
            )
            return
        resp = requests.post(
            f"{FRIGATE_LOCALHOST}/api/events/{id}/sub_label",
            json={
                "camera": obj_data.get("camera"),
                "subLabel": sub_label,
                "subLabelScore": score,
            },
        )
        if resp.status_code == 200:
            self.detected_faces[id] = face_score
    def _detect_license_plate(self, input: np.ndarray) -> tuple[int, int, int, int]:
        """Return the dimensions of the input image as [x, y, width, height]."""
        height, width = input.shape[:2]
        return (0, 0, width, height)
    def _process_license_plate(
        self, obj_data: dict[str, any], frame: np.ndarray
    ) -> None:
        """Look for license plates in image."""
        id = obj_data["id"]
        # don't run for non car objects
        if obj_data.get("label") != "car":
            logger.debug("Not a processing license plate for non car object.")
            return
        # don't run for stationary car objects
        if obj_data.get("stationary") == True:
            logger.debug("Not a processing license plate for a stationary car object.")
            return
        # don't overwrite sub label for objects that have a sub label
        # that is not a license plate
        if obj_data.get("sub_label") and id not in self.detected_license_plates:
            logger.debug(
                f"Not processing license plate due to existing sub label: {obj_data.get('sub_label')}."
            )
            return
        license_plate: Optional[dict[str, any]] = None
        if self.requires_license_plate_detection:
            logger.debug("Running manual license_plate detection.")
            car_box = obj_data.get("box")
            if not car_box:
                return None
            rgb = cv2.cvtColor(frame, cv2.COLOR_YUV2RGB_I420)
            left, top, right, bottom = car_box
            car = rgb[top:bottom, left:right]
            license_plate = self._detect_license_plate(car)
            if not license_plate:
                logger.debug("Detected no license plates for car object.")
                return
            license_plate_frame = car[
                license_plate[1] : license_plate[3], license_plate[0] : license_plate[2]
            ]
            license_plate_frame = cv2.cvtColor(license_plate_frame, cv2.COLOR_RGB2BGR)
        else:
            # don't run for object without attributes
            if not obj_data.get("current_attributes"):
                logger.debug("No attributes to parse.")
                return
            attributes: list[dict[str, any]] = obj_data.get("current_attributes", [])
            for attr in attributes:
                if attr.get("label") != "license_plate":
                    continue
                if license_plate is None or attr.get("score", 0.0) > license_plate.get(
                    "score", 0.0
                ):
                    license_plate = attr
            # no license plates detected in this frame
            if not license_plate:
                return
            license_plate_box = license_plate.get("box")
            # check that license plate is valid
            if (
                not license_plate_box
                or area(license_plate_box) < self.config.lpr.min_area
            ):
                logger.debug(f"Invalid license plate box {license_plate}")
                return
            license_plate_frame = cv2.cvtColor(frame, cv2.COLOR_YUV2BGR_I420)
            license_plate_frame = license_plate_frame[
                license_plate_box[1] : license_plate_box[3],
                license_plate_box[0] : license_plate_box[2],
            ]
        # run detection, returns results sorted by confidence, best first
        license_plates, confidences, areas = (
            self.license_plate_recognition.process_license_plate(license_plate_frame)
        )
        logger.debug(f"Text boxes: {license_plates}")
        logger.debug(f"Confidences: {confidences}")
        logger.debug(f"Areas: {areas}")
        if license_plates:
            for plate, confidence, text_area in zip(license_plates, confidences, areas):
                avg_confidence = (
                    (sum(confidence) / len(confidence)) if confidence else 0
                )
                logger.debug(
                    f"Detected text: {plate} (average confidence: {avg_confidence:.2f}, area: {text_area} pixels)"
                )
        else:
            # no plates found
            logger.debug("No text detected")
            return
        top_plate, top_char_confidences, top_area = (
            license_plates[0],
            confidences[0],
            areas[0],
        )
        avg_confidence = (
            (sum(top_char_confidences) / len(top_char_confidences))
            if top_char_confidences
            else 0
        )
        # Check if we have a previously detected plate for this ID
        if id in self.detected_license_plates:
            prev_plate = self.detected_license_plates[id]["plate"]
            prev_char_confidences = self.detected_license_plates[id]["char_confidences"]
            prev_area = self.detected_license_plates[id]["area"]
            prev_avg_confidence = (
                (sum(prev_char_confidences) / len(prev_char_confidences))
                if prev_char_confidences
                else 0
            )
            # Define conditions for keeping the previous plate
            shorter_than_previous = len(top_plate) < len(prev_plate)
            lower_avg_confidence = avg_confidence <= prev_avg_confidence
            smaller_area = top_area < prev_area
            # Compare character-by-character confidence where possible
            min_length = min(len(top_plate), len(prev_plate))
            char_confidence_comparison = sum(
                1
                for i in range(min_length)
                if top_char_confidences[i] <= prev_char_confidences[i]
            )
            worse_char_confidences = char_confidence_comparison >= min_length / 2
            if (shorter_than_previous or smaller_area) and (
                lower_avg_confidence and worse_char_confidences
            ):
                logger.debug(
                    f"Keeping previous plate. New plate stats: "
                    f"length={len(top_plate)}, avg_conf={avg_confidence:.2f}, area={top_area} "
                    f"vs Previous: length={len(prev_plate)}, avg_conf={prev_avg_confidence:.2f}, area={prev_area}"
                )
                return
        # Check against minimum confidence threshold
        if avg_confidence < self.lpr_config.threshold:
            logger.debug(
                f"Average confidence {avg_confidence} is less than threshold ({self.lpr_config.threshold})"
            )
            return
        # Determine subLabel based on known plates, use regex matching
        # Default to the detected plate, use label name if there's a match
        sub_label = next(
            (
                label
                for label, plates in self.lpr_config.known_plates.items()
                if any(re.match(f"^{plate}$", top_plate) for plate in plates)
            ),
            top_plate,
        )
        # Send the result to the API
        resp = requests.post(
            f"{FRIGATE_LOCALHOST}/api/events/{id}/sub_label",
            json={
                "camera": obj_data.get("camera"),
                "subLabel": sub_label,
                "subLabelScore": avg_confidence,
            },
        )
        if resp.status_code == 200:
            self.detected_license_plates[id] = {
                "plate": top_plate,
                "char_confidences": top_char_confidences,
                "area": top_area,
            }
    def _create_thumbnail(self, yuv_frame, box, height=500) -> Optional[bytes]:
        """Return jpg thumbnail of a region of the frame."""
        frame = cv2.cvtColor(yuv_frame, cv2.COLOR_YUV2BGR_I420)
--- a/frigate/log.py
+++ b/frigate/log.py
@@ -18,12 +18,19 @@ LOG_HANDLER.setFormatter(
    )
 )
 # filter out norfair warning
 LOG_HANDLER.addFilter(
    lambda record: not record.getMessage().startswith(
        "You are using a scalar distance function"
    )
 )
 # filter out tflite logging
 LOG_HANDLER.addFilter(
    lambda record: "Created TensorFlow Lite XNNPACK delegate for CPU."
    not in record.getMessage()
 )
 log_listener: Optional[QueueListener] = None
--- a/frigate/util/downloader.py
+++ b/frigate/util/downloader.py
@@ -101,7 +101,7 @@ class ModelDownloader:
        self.download_complete.set()
    @staticmethod
-    def download_from_url(url: str, save_path: str, silent: bool = False):
+    def download_from_url(url: str, save_path: str, silent: bool = False) -> Path:
        temporary_filename = Path(save_path).with_name(
            os.path.basename(save_path) + ".part"
        )
@@ -125,6 +125,8 @@ class ModelDownloader:
        if not silent:
            logger.info(f"Downloading complete: {url}")
        return Path(save_path)
    @staticmethod
    def mark_files_state(
        requestor: InterProcessRequestor,
--- a/frigate/util/model.py
+++ b/frigate/util/model.py
@@ -2,9 +2,14 @@
 import logging
 import os
-from typing import Any
+from typing import Any, Optional
 import cv2
 import numpy as np
 import onnxruntime as ort
 from playhouse.sqliteq import SqliteQueueDatabase
 from frigate.config.semantic_search import FaceRecognitionConfig
 try:
    import openvino as ov
@@ -15,6 +20,9 @@ except ImportError:
 logger = logging.getLogger(__name__)
 MIN_MATCHING_FACES = 2
 def get_ort_providers(
    force_cpu: bool = False, device: str = "AUTO", requires_fp16: bool = False
 ) -> tuple[list[str], list[dict[str, any]]]:
@@ -148,3 +156,114 @@ class ONNXModelRunner:
            return [infer_request.get_output_tensor().data]
        elif self.type == "ort":
            return self.ort.run(None, input)
 class FaceClassificationModel:
    def __init__(self, config: FaceRecognitionConfig, db: SqliteQueueDatabase):
        self.config = config
        self.db = db
        self.landmark_detector = cv2.face.createFacemarkLBF()
        self.landmark_detector.loadModel("/config/model_cache/facedet/landmarkdet.yaml")
        self.recognizer: cv2.face.LBPHFaceRecognizer = (
            cv2.face.LBPHFaceRecognizer_create(
                radius=2, threshold=(1 - config.min_score) * 1000
            )
        )
        self.label_map: dict[int, str] = {}
        self.__build_classifier()
    def __build_classifier(self) -> None:
        labels = []
        faces = []
        dir = "/media/frigate/clips/faces"
        for idx, name in enumerate(os.listdir(dir)):
            if name == "debug":
                continue
            self.label_map[idx] = name
            face_folder = os.path.join(dir, name)
            for image in os.listdir(face_folder):
                img = cv2.imread(os.path.join(face_folder, image))
                img = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
                img = self.__align_face(img, img.shape[1], img.shape[0])
                faces.append(img)
                labels.append(idx)
        self.recognizer.train(faces, np.array(labels))
    def __align_face(
        self,
        image: np.ndarray,
        output_width: int,
        output_height: int,
    ) -> np.ndarray:
        _, lands = self.landmark_detector.fit(
            image, np.array([(0, 0, image.shape[1], image.shape[0])])
        )
        landmarks = lands[0][0]
        # get landmarks for eyes
        leftEyePts = landmarks[42:48]
        rightEyePts = landmarks[36:42]
        # compute the center of mass for each eye
        leftEyeCenter = leftEyePts.mean(axis=0).astype("int")
        rightEyeCenter = rightEyePts.mean(axis=0).astype("int")
        # compute the angle between the eye centroids
        dY = rightEyeCenter[1] - leftEyeCenter[1]
        dX = rightEyeCenter[0] - leftEyeCenter[0]
        angle = np.degrees(np.arctan2(dY, dX)) - 180
        # compute the desired right eye x-coordinate based on the
        # desired x-coordinate of the left eye
        desiredRightEyeX = 1.0 - 0.35
        # determine the scale of the new resulting image by taking
        # the ratio of the distance between eyes in the *current*
        # image to the ratio of distance between eyes in the
        # *desired* image
        dist = np.sqrt((dX**2) + (dY**2))
        desiredDist = desiredRightEyeX - 0.35
        desiredDist *= output_width
        scale = desiredDist / dist
        # compute center (x, y)-coordinates (i.e., the median point)
        # between the two eyes in the input image
        # grab the rotation matrix for rotating and scaling the face
        eyesCenter = (
            int((leftEyeCenter[0] + rightEyeCenter[0]) // 2),
            int((leftEyeCenter[1] + rightEyeCenter[1]) // 2),
        )
        M = cv2.getRotationMatrix2D(eyesCenter, angle, scale)
        # update the translation component of the matrix
        tX = output_width * 0.5
        tY = output_height * 0.35
        M[0, 2] += tX - eyesCenter[0]
        M[1, 2] += tY - eyesCenter[1]
        # apply the affine transformation
        return cv2.warpAffine(
            image, M, (output_width, output_height), flags=cv2.INTER_CUBIC
        )
    def clear_classifier(self) -> None:
        self.classifier = None
        self.labeler = None
        self.label_map = {}
    def classify_face(self, face_image: np.ndarray) -> Optional[tuple[str, float]]:
        if not self.label_map:
            self.__build_classifier()
        img = cv2.cvtColor(face_image, cv2.COLOR_BGR2GRAY)
        img = self.__align_face(img, img.shape[1], img.shape[0])
        index, distance = self.recognizer.predict(img)
        if index == -1:
            return None
        score = 1.0 - (distance / 1000)
        return self.label_map[index], round(score, 2)
--- a/web/src/App.tsx
+++ b/web/src/App.tsx
@@ -19,6 +19,7 @@ const ConfigEditor = lazy(() => import("@/pages/ConfigEditor"));
 const System = lazy(() => import("@/pages/System"));
 const Settings = lazy(() => import("@/pages/Settings"));
 const UIPlayground = lazy(() => import("@/pages/UIPlayground"));
 const FaceLibrary = lazy(() => import("@/pages/FaceLibrary"));
 const Logs = lazy(() => import("@/pages/Logs"));
 function App() {
@@ -51,6 +52,7 @@ function App() {
                  <Route path="/config" element={<ConfigEditor />} />
                  <Route path="/logs" element={<Logs />} />
                  <Route path="/playground" element={<UIPlayground />} />
                  <Route path="/faces" element={<FaceLibrary />} />
                  <Route path="*" element={<Redirect to="/" />} />
                </Routes>
              </Suspense>
--- a/web/src/components/camera/AutoUpdatingCameraImage.tsx
+++ b/web/src/components/camera/AutoUpdatingCameraImage.tsx
@@ -1,4 +1,4 @@
-import { useCallback, useEffect, useRef, useState } from "react";
+import { useCallback, useEffect, useMemo, useRef, useState } from "react";
 import CameraImage from "./CameraImage";
 type AutoUpdatingCameraImageProps = {
@@ -8,6 +8,7 @@ type AutoUpdatingCameraImageProps = {
  className?: string;
  cameraClasses?: string;
  reloadInterval?: number;
  periodicCache?: boolean;
 };
 const MIN_LOAD_TIMEOUT_MS = 200;
@@ -19,6 +20,7 @@ export default function AutoUpdatingCameraImage({
  className,
  cameraClasses,
  reloadInterval = MIN_LOAD_TIMEOUT_MS,
  periodicCache = false,
 }: AutoUpdatingCameraImageProps) {
  const [key, setKey] = useState(Date.now());
  const [fps, setFps] = useState<string>("0");
@@ -42,6 +44,8 @@ export default function AutoUpdatingCameraImage({
  }, [reloadInterval]);
  const handleLoad = useCallback(() => {
    setIsCached(true);
    if (reloadInterval == -1) {
      return;
    }
@@ -66,12 +70,28 @@ export default function AutoUpdatingCameraImage({
    // eslint-disable-next-line react-hooks/exhaustive-deps
  }, [key, setFps]);
  // periodic cache to reduce loading indicator
  const [isCached, setIsCached] = useState(false);
  const cacheKey = useMemo(() => {
    let baseParam = "";
    if (periodicCache && !isCached) {
      baseParam = "store=1";
    } else {
      baseParam = `cache=${key}`;
    }
    return `${baseParam}${searchParams ? `&${searchParams}` : ""}`;
  }, [isCached, periodicCache, key, searchParams]);
  return (
    <div className={className}>
      <CameraImage
        camera={camera}
        onload={handleLoad}
-        searchParams={`cache=${key}${searchParams ? `&${searchParams}` : ""}`}
+        searchParams={cacheKey}
        className={cameraClasses}
      />
      {showFps ? <span className="text-xs">Displaying at {fps}fps</span> : null}
--- a/web/src/components/overlay/dialog/UploadImageDialog.tsx
+++ b/web/src/components/overlay/dialog/UploadImageDialog.tsx
@@ -0,0 +1,88 @@
 import { Button } from "@/components/ui/button";
 import {
  Dialog,
  DialogContent,
  DialogDescription,
  DialogFooter,
  DialogHeader,
  DialogTitle,
 } from "@/components/ui/dialog";
 import { Form, FormControl, FormField, FormItem } from "@/components/ui/form";
 import { Input } from "@/components/ui/input";
 import { zodResolver } from "@hookform/resolvers/zod";
 import { useCallback } from "react";
 import { useForm } from "react-hook-form";
 import { z } from "zod";
 type UploadImageDialogProps = {
  open: boolean;
  title: string;
  description?: string;
  setOpen: (open: boolean) => void;
  onSave: (file: File) => void;
 };
 export default function UploadImageDialog({
  open,
  title,
  description,
  setOpen,
  onSave,
 }: UploadImageDialogProps) {
  const formSchema = z.object({
    file: z.instanceof(FileList, { message: "Please select an image file." }),
  });
  const form = useForm<z.infer<typeof formSchema>>({
    resolver: zodResolver(formSchema),
  });
  const fileRef = form.register("file");
  // upload handler
  const onSubmit = useCallback(
    (data: z.infer<typeof formSchema>) => {
      if (!data["file"]) {
        return;
      }
      onSave(data["file"]["0"]);
    },
    [onSave],
  );
  return (
    <Dialog open={open} defaultOpen={false} onOpenChange={setOpen}>
      <DialogContent>
        <DialogHeader>
          <DialogTitle>{title}</DialogTitle>
          {description && <DialogDescription>{description}</DialogDescription>}
        </DialogHeader>
        <Form {...form}>
          <form onSubmit={form.handleSubmit(onSubmit)}>
            <FormField
              control={form.control}
              name="file"
              render={() => (
                <FormItem>
                  <FormControl>
                    <Input
                      className="aspect-video h-40 w-full"
                      type="file"
                      {...fileRef}
                    />
                  </FormControl>
                </FormItem>
              )}
            />
            <DialogFooter className="pt-4">
              <Button onClick={() => setOpen(false)}>Cancel</Button>
              <Button variant="select" type="submit">
                Save
              </Button>
            </DialogFooter>
          </form>
        </Form>
      </DialogContent>
    </Dialog>
  );
 }
--- a/web/src/components/player/LivePlayer.tsx
+++ b/web/src/components/player/LivePlayer.tsx
@@ -294,10 +294,11 @@ export default function LivePlayer({
      >
        <AutoUpdatingCameraImage
          className="size-full"
          cameraClasses="relative size-full flex justify-center"
          camera={cameraConfig.name}
          showFps={false}
          reloadInterval={stillReloadInterval}
-          cameraClasses="relative size-full flex justify-center"
+          periodicCache
        />
      </div>
--- a/web/src/hooks/use-navigation.ts
+++ b/web/src/hooks/use-navigation.ts
@@ -1,20 +1,29 @@
 import { ENV } from "@/env";
 import { FrigateConfig } from "@/types/frigateConfig";
 import { NavData } from "@/types/navigation";
 import { useMemo } from "react";
 import { isDesktop } from "react-device-detect";
 import { FaCompactDisc, FaVideo } from "react-icons/fa";
 import { IoSearch } from "react-icons/io5";
 import { LuConstruction } from "react-icons/lu";
 import { MdVideoLibrary } from "react-icons/md";
 import { TbFaceId } from "react-icons/tb";
 import useSWR from "swr";
 export const ID_LIVE = 1;
 export const ID_REVIEW = 2;
 export const ID_EXPLORE = 3;
 export const ID_EXPORT = 4;
 export const ID_PLAYGROUND = 5;
 export const ID_FACE_LIBRARY = 6;
 export default function useNavigation(
  variant: "primary" | "secondary" = "primary",
 ) {
  const { data: config } = useSWR<FrigateConfig>("config", {
    revalidateOnFocus: false,
  });
  return useMemo(
    () =>
      [
@@ -54,7 +63,15 @@ export default function useNavigation(
          url: "/playground",
          enabled: ENV !== "production",
        },
        {
          id: ID_FACE_LIBRARY,
          variant,
          icon: TbFaceId,
          title: "Face Library",
          url: "/faces",
          enabled: isDesktop && config?.face_recognition.enabled,
        },
      ] as NavData[],
-    [variant],
+    [config?.face_recognition.enabled, variant],
  );
 }
--- a/web/src/pages/FaceLibrary.tsx
+++ b/web/src/pages/FaceLibrary.tsx
@@ -0,0 +1,332 @@
 import { baseUrl } from "@/api/baseUrl";
 import Chip from "@/components/indicators/Chip";
 import UploadImageDialog from "@/components/overlay/dialog/UploadImageDialog";
 import { Button } from "@/components/ui/button";
 import { ScrollArea, ScrollBar } from "@/components/ui/scroll-area";
 import { Toaster } from "@/components/ui/sonner";
 import { ToggleGroup, ToggleGroupItem } from "@/components/ui/toggle-group";
 import useOptimisticState from "@/hooks/use-optimistic-state";
 import axios from "axios";
 import { useCallback, useEffect, useMemo, useRef, useState } from "react";
 import { isDesktop } from "react-device-detect";
 import { LuImagePlus, LuTrash } from "react-icons/lu";
 import { toast } from "sonner";
 import useSWR from "swr";
 export default function FaceLibrary() {
  const [page, setPage] = useState<string>();
  const [pageToggle, setPageToggle] = useOptimisticState(page, setPage, 100);
  const tabsRef = useRef<HTMLDivElement | null>(null);
  // face data
  const { data: faceData, mutate: refreshFaces } = useSWR("faces");
  const faces = useMemo<string[]>(
    () =>
      faceData ? Object.keys(faceData).filter((face) => face != "debug") : [],
    [faceData],
  );
  const faceImages = useMemo<string[]>(
    () => (pageToggle && faceData ? faceData[pageToggle] : []),
    [pageToggle, faceData],
  );
  const faceAttempts = useMemo<string[]>(
    () => faceData?.["debug"] || [],
    [faceData],
  );
  useEffect(() => {
    if (!pageToggle) {
      if (faceAttempts.length > 0) {
        setPageToggle("attempts");
      } else if (faces) {
        setPageToggle(faces[0]);
      }
    } else if (pageToggle == "attempts" && faceAttempts.length == 0) {
      setPageToggle(faces[0]);
    }
    // we need to listen on the value of the faces list
    // eslint-disable-next-line react-hooks/exhaustive-deps
  }, [faceAttempts, faces]);
  // upload
  const [upload, setUpload] = useState(false);
  const onUploadImage = useCallback(
    (file: File) => {
      const formData = new FormData();
      formData.append("file", file);
      axios
        .post(`faces/${pageToggle}`, formData, {
          headers: {
            "Content-Type": "multipart/form-data",
          },
        })
        .then((resp) => {
          if (resp.status == 200) {
            setUpload(false);
            refreshFaces();
            toast.success(
              "Successfully uploaded image. View the file in the /exports folder.",
              { position: "top-center" },
            );
          }
        })
        .catch((error) => {
          if (error.response?.data?.message) {
            toast.error(
              `Failed to upload image: ${error.response.data.message}`,
              { position: "top-center" },
            );
          } else {
            toast.error(`Failed to upload image: ${error.message}`, {
              position: "top-center",
            });
          }
        });
    },
    [pageToggle, refreshFaces],
  );
  return (
    <div className="flex size-full flex-col p-2">
      <Toaster />
      <UploadImageDialog
        open={upload}
        title="Upload Face Image"
        description={`Upload an image to scan for faces and include for ${pageToggle}`}
        setOpen={setUpload}
        onSave={onUploadImage}
      />
      <div className="relative flex h-11 w-full items-center justify-between">
        <ScrollArea className="w-full whitespace-nowrap">
          <div ref={tabsRef} className="flex flex-row">
            <ToggleGroup
              className="*:rounded-md *:px-3 *:py-4"
              type="single"
              size="sm"
              value={pageToggle}
              onValueChange={(value: string) => {
                if (value) {
                  setPageToggle(value);
                }
              }}
            >
              {faceAttempts.length > 0 && (
                <>
                  <ToggleGroupItem
                    value="attempts"
                    className={`flex scroll-mx-10 items-center justify-between gap-2 ${pageToggle == "attempts" ? "" : "*:text-muted-foreground"}`}
                    data-nav-item="attempts"
                    aria-label="Select attempts"
                  >
                    <div>Attempts</div>
                  </ToggleGroupItem>
                  <div>|</div>
                </>
              )}
              {Object.values(faces).map((item) => (
                <ToggleGroupItem
                  key={item}
                  className={`flex scroll-mx-10 items-center justify-between gap-2 ${pageToggle == item ? "" : "*:text-muted-foreground"}`}
                  value={item}
                  data-nav-item={item}
                  aria-label={`Select ${item}`}
                >
                  <div className="capitalize">{item}</div>
                </ToggleGroupItem>
              ))}
            </ToggleGroup>
            <ScrollBar orientation="horizontal" className="h-0" />
          </div>
        </ScrollArea>
      </div>
      {pageToggle &&
        (pageToggle == "attempts" ? (
          <AttemptsGrid attemptImages={faceAttempts} onRefresh={refreshFaces} />
        ) : (
          <FaceGrid
            faceImages={faceImages}
            pageToggle={pageToggle}
            setUpload={setUpload}
            onRefresh={refreshFaces}
          />
        ))}
    </div>
  );
 }
 type AttemptsGridProps = {
  attemptImages: string[];
  onRefresh: () => void;
 };
 function AttemptsGrid({ attemptImages, onRefresh }: AttemptsGridProps) {
  return (
    <div className="scrollbar-container flex flex-wrap gap-2 overflow-y-scroll">
      {attemptImages.map((image: string) => (
        <FaceAttempt key={image} image={image} onRefresh={onRefresh} />
      ))}
    </div>
  );
 }
 type FaceAttemptProps = {
  image: string;
  onRefresh: () => void;
 };
 function FaceAttempt({ image, onRefresh }: FaceAttemptProps) {
  const [hovered, setHovered] = useState(false);
  const data = useMemo(() => {
    const parts = image.split("-");
    return {
      eventId: `${parts[0]}-${parts[1]}`,
      name: parts[2],
      score: parts[3],
    };
  }, [image]);
  const onDelete = useCallback(() => {
    axios
      .post(`/faces/debug/delete`, { ids: [image] })
      .then((resp) => {
        if (resp.status == 200) {
          toast.success(`Successfully deleted face.`, {
            position: "top-center",
          });
          onRefresh();
        }
      })
      .catch((error) => {
        if (error.response?.data?.message) {
          toast.error(`Failed to delete: ${error.response.data.message}`, {
            position: "top-center",
          });
        } else {
          toast.error(`Failed to delete: ${error.message}`, {
            position: "top-center",
          });
        }
      });
  }, [image, onRefresh]);
  return (
    <div
      className="relative h-min"
      onMouseEnter={isDesktop ? () => setHovered(true) : undefined}
      onMouseLeave={isDesktop ? () => setHovered(false) : undefined}
      onClick={isDesktop ? undefined : () => setHovered(!hovered)}
    >
      {hovered && (
        <div className="absolute right-1 top-1">
          <Chip
            className="cursor-pointer rounded-md bg-gray-500 bg-gradient-to-br from-gray-400 to-gray-500"
            onClick={() => onDelete()}
          >
            <LuTrash className="size-4 fill-destructive text-destructive" />
          </Chip>
        </div>
      )}
      <div className="rounded-md bg-secondary">
        <img
          className="h-40 rounded-md"
          src={`${baseUrl}clips/faces/debug/${image}`}
        />
        <div className="p-2">{`${data.name}: ${data.score}`}</div>
      </div>
    </div>
  );
 }
 type FaceGridProps = {
  faceImages: string[];
  pageToggle: string;
  setUpload: (upload: boolean) => void;
  onRefresh: () => void;
 };
 function FaceGrid({
  faceImages,
  pageToggle,
  setUpload,
  onRefresh,
 }: FaceGridProps) {
  return (
    <div className="scrollbar-container flex flex-wrap gap-2 overflow-y-scroll">
      {faceImages.map((image: string) => (
        <FaceImage
          key={image}
          name={pageToggle}
          image={image}
          onRefresh={onRefresh}
        />
      ))}
      <Button key="upload" className="size-40" onClick={() => setUpload(true)}>
        <LuImagePlus className="size-10" />
      </Button>
    </div>
  );
 }
 type FaceImageProps = {
  name: string;
  image: string;
  onRefresh: () => void;
 };
 function FaceImage({ name, image, onRefresh }: FaceImageProps) {
  const [hovered, setHovered] = useState(false);
  const onDelete = useCallback(() => {
    axios
      .post(`/faces/${name}/delete`, { ids: [image] })
      .then((resp) => {
        if (resp.status == 200) {
          toast.success(`Successfully deleted face.`, {
            position: "top-center",
          });
          onRefresh();
        }
      })
      .catch((error) => {
        if (error.response?.data?.message) {
          toast.error(`Failed to delete: ${error.response.data.message}`, {
            position: "top-center",
          });
        } else {
          toast.error(`Failed to delete: ${error.message}`, {
            position: "top-center",
          });
        }
      });
  }, [name, image, onRefresh]);
  return (
    <div
      className="relative h-40"
      onMouseEnter={isDesktop ? () => setHovered(true) : undefined}
      onMouseLeave={isDesktop ? () => setHovered(false) : undefined}
      onClick={isDesktop ? undefined : () => setHovered(!hovered)}
    >
      {hovered && (
        <div className="absolute right-1 top-1">
          <Chip
            className="cursor-pointer rounded-md bg-gray-500 bg-gradient-to-br from-gray-400 to-gray-500"
            onClick={() => onDelete()}
          >
            <LuTrash className="size-4 fill-destructive text-destructive" />
          </Chip>
        </div>
      )}
      <img
        className="h-40 rounded-md"
        src={`${baseUrl}clips/faces/${name}/${image}`}
      />
    </div>
  );
 }
--- a/web/src/types/frigateConfig.ts
+++ b/web/src/types/frigateConfig.ts
@@ -288,6 +288,10 @@ export interface FrigateConfig {
  environment_vars: Record<string, unknown>;
  face_recognition: {
    enabled: boolean;
  };
  ffmpeg: {
    global_args: string[];
    hwaccel_args: string;
Author	SHA1	Message	Date
Nicolas Mowen	bcc4da7bed	Include necessary cudnn deps in cuda folder	2025-01-01 07:33:28 -07:00
Nicolas Mowen	416da51302	Update to trt 10	2025-01-01 06:40:23 -07:00
Nicolas Mowen	b3072087d4	Add UI for managing face recognitions (#15757 ) * Add ability to view attempts * Improve UI * Cleanup * Correctly refresh ui when item is deleted * Select correct library by default * Add min score * Cleanup	2024-12-31 15:56:01 -06:00
Nicolas Mowen	f84713487f	Face recognition logic improvements (#15679 ) * Always initialize face model on startup * Add ability to save face images for debugging * Implement better face recognition reasonability	2024-12-26 08:18:12 -07:00
Nicolas Mowen	fb8394bdff	Change folder	2024-12-26 08:18:12 -07:00
Nicolas Mowen	3325c4f577	Set model size	2024-12-26 08:18:12 -07:00
Nicolas Mowen	c375d2776c	Improve face recognition (#15670 ) * Face recognition tuning * Support face alignment * Cleanup * Correctly download model	2024-12-26 08:18:12 -07:00
Nicolas Mowen	3cb00ad244	Update TRT (#15646 )	2024-12-26 08:18:12 -07:00
Nicolas Mowen	ec02ef50f0	Make face library scrollable	2024-12-26 08:18:12 -07:00
Nicolas Mowen	a04b146a03	Update openvino (#15634 )	2024-12-26 08:18:12 -07:00
Nicolas Mowen	66842522c2	Update python deps (#15618 ) * Update opencv * Update cython * Update scikit * Update scipy	2024-12-26 08:18:12 -07:00
Nicolas Mowen	f718922c0c	Enable temporary caching of camera images to improve responsiveness of UI (#15614 )	2024-12-26 08:18:12 -07:00
Josh Hawkins	626ee19cc7	Preserve line numbers in config validation (#15584 ) * use ruamel to parse and preserve line numbers for config validation * maintain exception for non validation errors * fix types * include input in log messages	2024-12-26 08:18:12 -07:00
Nicolas Mowen	4fa83e781c	Update base image (#15103 ) * Change base image * Update python * Update coral library * Fix source file * Install correct apt packages * Cleanup * Fix installation of coral deps * fix python installations * Fix devcontainer build * Get tensorrt build working * Update other deps * Filter out tflite log * Get ROCm build working * Get rockchip build working * Get hailo build working * Add note to comment	2024-12-26 08:18:12 -07:00
Nicolas Mowen	183e406da3	Face recognition fixes (#15222 ) * Fix nginx max upload size * Close upload dialog when done and add toasts * Formatting * fix ruff	2024-12-26 08:18:12 -07:00
Nicolas Mowen	5cf018ca72	Improve face recognition (#15205 ) * Validate faces using cosine distance and SVC * Formatting * Use opencv instead of face embedding * Update docs for training data * Adjust to score system * Set bounds * remove face embeddings * Update writing images * Add face library page * Add ability to select file * Install opencv deps * Cleanup * Use different deps * Move deps * Cleanup * Only show face library for desktop * Implement deleting * Add ability to upload image * Add support for uploading images	2024-12-26 08:18:12 -07:00
Nicolas Mowen	9d54beab76	Remove standardization	2024-12-26 08:18:12 -07:00
Nicolas Mowen	a2b9ed0846	Fix check	2024-12-26 08:18:12 -07:00
Nicolas Mowen	bfa95c2062	Remove hardcoded face name	2024-12-26 08:18:12 -07:00
Nicolas Mowen	be856455f4	Use SVC to normalize and classify faces for recognition (#14835 ) * Add margin to detected faces for embeddings * Standardize pixel values for face input * Use SVC to classify faces * Clear classifier when new face is added * Formatting * Add dependency	2024-12-26 08:18:12 -07:00
Josh Hawkins	1ab061effd	Use regular expressions for plate matching (#14727 )	2024-12-26 08:18:12 -07:00
Nicolas Mowen	90916879b7	Update facenet model (#14647 )	2024-12-26 08:18:12 -07:00
Josh Hawkins	cf931c474c	LPR improvements (#14641 )	2024-12-26 08:18:12 -07:00
Josh Hawkins	44021cbc2e	Prevent division by zero in lpr confidence checks (#14615 )	2024-12-26 08:18:12 -07:00
Nicolas Mowen	f98f41668e	Fix label check (#14610 ) * Create config for parsing object * Use in maintainer	2024-12-26 08:18:12 -07:00
Josh Hawkins	3ed4fb87ef	License plate recognition (ALPR) backend (#14564 ) * Update version * Face recognition backend (#14495) * Add basic config and face recognition table * Reconfigure updates processing to handle face * Crop frame to face box * Implement face embedding calculation * Get matching face embeddings * Add support face recognition based on existing faces * Use arcface face embeddings instead of generic embeddings model * Add apis for managing faces * Implement face uploading API * Build out more APIs * Add min area config * Handle larger images * Add more debug logs * fix calculation * Reduce timeout * Small tweaks * Use webp images * Use facenet model * Improve face recognition (#14537) * Increase requirements for face to be set * Manage faces properly * Add basic docs * Simplify * Separate out face recognition frome semantic search * Update docs * Formatting * Fix access (#14540) * Face detection (#14544) * Add support for face detection * Add support for detecting faces during registration * Set body size to be larger * Undo * Update version * Face recognition backend (#14495) * Add basic config and face recognition table * Reconfigure updates processing to handle face * Crop frame to face box * Implement face embedding calculation * Get matching face embeddings * Add support face recognition based on existing faces * Use arcface face embeddings instead of generic embeddings model * Add apis for managing faces * Implement face uploading API * Build out more APIs * Add min area config * Handle larger images * Add more debug logs * fix calculation * Reduce timeout * Small tweaks * Use webp images * Use facenet model * Improve face recognition (#14537) * Increase requirements for face to be set * Manage faces properly * Add basic docs * Simplify * Separate out face recognition frome semantic search * Update docs * Formatting * Fix access (#14540) * Face detection (#14544) * Add support for face detection * Add support for detecting faces during registration * Set body size to be larger * Undo * initial foundation for alpr with paddleocr * initial foundation for alpr with paddleocr * initial foundation for alpr with paddleocr * config * config * lpr maintainer * clean up * clean up * fix processing * don't process for stationary cars * fix order * fixes * check for known plates * improved length and character by character confidence * model fixes and small tweaks * docs * placeholder for non frigate+ model lp detection --------- Co-authored-by: Nicolas Mowen <nickmowen213@gmail.com>	2024-12-26 08:18:12 -07:00
Nicolas Mowen	8dc9c2c9ed	Face detection (#14544 ) * Add support for face detection * Add support for detecting faces during registration * Set body size to be larger * Undo	2024-12-26 08:18:12 -07:00
Nicolas Mowen	66de9f6079	Fix access (#14540 )	2024-12-26 08:18:12 -07:00
Nicolas Mowen	e35fb8f056	Improve face recognition (#14537 ) * Increase requirements for face to be set * Manage faces properly * Add basic docs * Simplify * Separate out face recognition frome semantic search * Update docs * Formatting	2024-12-26 08:18:11 -07:00
Nicolas Mowen	ca5711d1ab	Face recognition backend (#14495 ) * Add basic config and face recognition table * Reconfigure updates processing to handle face * Crop frame to face box * Implement face embedding calculation * Get matching face embeddings * Add support face recognition based on existing faces * Use arcface face embeddings instead of generic embeddings model * Add apis for managing faces * Implement face uploading API * Build out more APIs * Add min area config * Handle larger images * Add more debug logs * fix calculation * Reduce timeout * Small tweaks * Use webp images * Use facenet model	2024-12-26 08:18:11 -07:00
Nicolas Mowen	f16f6d3789	Update version	2024-12-26 08:18:11 -07:00
`@@ -15,5 +15,5 @@ wget -qO- "https://github.com/frigate-nvr/hailort/releases/download/v${hailo_ver`

	`mkdir -p /hailo-wheels`	`mkdir -p /hailo-wheels`

	`wget -P /hailo-wheels/ "https://github.com/frigate-nvr/hailort/releases/download/v${hailo_version}/hailort-${hailo_version}-cp39-cp39-linux_${arch}.whl"`	`wget -P /hailo-wheels/ "https://github.com/frigate-nvr/hailort/releases/download/v${hailo_version}/hailort-${hailo_version}-cp311-cp311-linux_${arch}.whl"`
`@@ -1,2 +1,2 @@`
	`scikit-build == 0.17.*`	`scikit-build == 0.18.*`
	`nvidia-pyindex`	`nvidia-pyindex`
		`@@ -1 +1 @@`
			`rknn-toolkit-lite2 @ https://github.com/MarcA711/rknn-toolkit2/releases/download/v2.0.0/rknn_toolkit_lite2-2.0.0b0-cp39-cp39-linux_aarch64.whl`				`rknn-toolkit-lite2 @ https://github.com/MarcA711/rknn-toolkit2/releases/download/v2.0.0/rknn_toolkit_lite2-2.0.0b0-cp311-cp311-linux_aarch64.whl`