awesome-repositories.com
Blog
awesome-repositories.com

Descoperă cele mai bune repository-uri open source cu căutare AI.

ExploreazăCăutări recomandateAlternative open-sourceSoftware self-hostedBlogHartă site
ProiectDespreCum realizăm clasamentulPresăServer MCP
LegalConfidențialitateTermeni
© 2026 Bringes Technology SRL·VAT RO45896025·hello@awesome-repositories.com
·

18 repository-uri

Awesome GitHub RepositoriesImage Classifiers

Automated analysis tools that categorize images into predefined labels.

Distinct from Classification Labelers: Distinct from general classification labelers: focuses on image-specific subject matter detection.

Explore 18 awesome GitHub repositories matching data & databases · Image Classifiers. Refine with filters or upvote what's useful.

Awesome Image Classifiers GitHub Repositories

Găsește cele mai bune repo-uri cu AI.Vom căuta cele mai potrivite repository-uri folosind AI.
  • wzmiaomiao/deep-learning-for-image-processingAvatar WZMIAOMIAO

    WZMIAOMIAO/deep-learning-for-image-processing

    26,281Vezi pe GitHub↗

    This project is a PyTorch-based computer vision library and deep learning image processing framework. It provides a collection of neural network architectures designed for visual analysis tasks, specifically focusing on image classification, object detection, and semantic segmentation. The toolset implements diverse methodologies for visual recognition, including anchor-free object detection, regional proposal networks, and heatmap-based keypoint estimation. It utilizes both convolutional neural networks for spatial feature extraction and transformer-based self-attention mechanisms to compute

    Provides image classifiers that categorize visual input into predefined classes using CNNs and transformers.

    Pythonbilibiliclassificationdeep-learning
    Vezi pe GitHub↗26,281
  • invertase/react-native-firebaseAvatar invertase

    invertase/react-native-firebase

    12,291Vezi pe GitHub↗

    react-native-firebase is a modular set of libraries that integrates Firebase cloud services into cross-platform mobile applications. It serves as a native-SDK wrapper, mapping JavaScript method calls to native iOS and Android Firebase SDKs via the React Native bridge to provide a type-safe interface for mobile backend integration. The project enables connectivity to a wide array of cloud services, including user authentication and identity management, NoSQL cloud databases with real-time synchronization, and scalable cloud storage for media files. It also provides tools for sending push notif

    Provides a web interface to create and deploy custom image classification models to mobile devices.

    TypeScript
    Vezi pe GitHub↗12,291
  • marcotcr/limeAvatar marcotcr

    marcotcr/lime

    12,142Vezi pe GitHub↗

    This project is an agnostic model interpretability framework and explainability tool designed to provide local interpretable explanations for individual predictions. It functions as a local surrogate model that approximates the behavior of any machine learning classifier or regression model to identify the most influential features for a specific instance. The framework is designed to be model-agnostic, meaning it can explain predictions across tabular, text, and image data regardless of the underlying architecture. It employs local linear approximations and feature importance visualization t

    Visualizes the specific segments or pixels of an image that most strongly drive classification decisions.

    JavaScript
    Vezi pe GitHub↗12,142
  • apple/turicreateAvatar apple

    apple/turicreate

    11,171Vezi pe GitHub↗

    This project is an automated machine learning framework and toolkit designed for training and tuning custom models for classification, regression, and recommendations. It functions as a multimodal machine learning toolkit capable of processing and training models using a combination of text, image, audio, and sensor data. The framework distinguishes itself as a multimodal data processor that can handle and visualize large datasets on a single machine using column-oriented disk storage. It includes a core machine learning model generator that converts trained models into formats compatible wit

    Provides automated analysis tools that categorize images into predefined labels.

    C++
    Vezi pe GitHub↗11,171
  • cs231n/cs231n.github.ioAvatar cs231n

    cs231n/cs231n.github.io

    10,923Vezi pe GitHub↗

    This project is a static educational website and comprehensive curriculum focused on computer vision and deep learning. It serves as a public repository of instructional materials, lecture notes, and technical guides specifically detailing convolutional neural networks and visual recognition. The site is developed using static-site generation to host course documentation and student project directories. It provides structured academic resources that guide learners through image classification, generative modeling, and the implementation of various neural network architectures. The curriculum

    Provides instructional materials on classifying images by analyzing pixel arrays as input data.

    Jupyter Notebook
    Vezi pe GitHub↗10,923
  • imgproxy/imgproxyAvatar imgproxy

    imgproxy/imgproxy

    10,876Vezi pe GitHub↗

    This project is a high-performance image transformation server and media optimization proxy designed to process, resize, and convert assets on the fly. It functions as a secure pipeline that fetches remote source files and applies transformations—such as cropping, watermarking, and visual filtering—directly through parameters defined in the request URL. The service distinguishes itself through a focus on secure, resource-aware delivery. It protects infrastructure by validating incoming requests with cryptographic signatures to prevent unauthorized access and enforces strict limits on file dim

    Categorizes images using automated analysis to inform downstream processing decisions.

    Goavifcrop-imagedocker
    Vezi pe GitHub↗10,876
  • wongkinyiu/yolov9Avatar WongKinYiu

    WongKinYiu/yolov9

    9,534Vezi pe GitHub↗

    YOLOv9 is a real-time computer vision framework and deep learning model designed for image classification, object detection, and instance segmentation. It functions as both a vision model and a trainer, allowing for the optimization of neural network weights on custom datasets using single or multiple GPUs. The framework utilizes programmable gradient information to perform high-speed identification and location of multiple objects within images and video streams. It extends beyond bounding box detection to provide instance segmentation and panoptic segmentation, which labels every pixel in a

    Assigns predefined category labels to entire images based on their visual characteristics.

    Pythonyolov9
    Vezi pe GitHub↗9,534
  • infinitered/nsfwjsAvatar infinitered

    infinitered/nsfwjs

    8,908Vezi pe GitHub↗

    NSFW detection on the client-side via TensorFlow.js

    Classifies images as porn, hentai, sexy, neutral, or drawing using a TensorFlow.js model running in the browser.

    TypeScriptcontent-managementjavascriptmachine-learning
    Vezi pe GitHub↗8,908
  • openai/guided-diffusionAvatar openai

    openai/guided-diffusion

    7,395Vezi pe GitHub↗

    This is a classifier-guided diffusion framework for high-fidelity image generation. It implements a cascaded diffusion pipeline that chains a base diffusion model with a dedicated upsampler to progressively increase image resolution in stages, and uses classifier-guided diffusion sampling to steer the reverse diffusion process toward higher-quality outputs. The framework provides tools for training diffusion models from scratch using distributed processes with gradient accumulation, as well as training classifier models that provide gradient-based guidance during sampling. It supports both un

    Uses a classifier to steer a diffusion model's sampling process for higher-fidelity image generation.

    Python
    Vezi pe GitHub↗7,395
  • apple/corenetAvatar apple

    apple/corenet

    6,999Vezi pe GitHub↗

    Corenet is a deep learning training framework and computer vision model library designed for developing neural networks across vision, text, and audio modalities. It functions as a distributed training orchestrator for scaling workloads across multiple compute nodes and provides a multimodal data pipeline for processing image, text, and video data. The project includes a model conversion toolkit for transforming weights and architectures between different machine learning frameworks. It also provides tools for optimizing model performance on Apple Silicon and reducing response latency in gene

    Implements automated analysis tools that categorize images into predefined labels.

    Jupyter Notebook
    Vezi pe GitHub↗6,999
  • ml5js/ml5-libraryAvatar ml5js

    ml5js/ml5-library

    6,581Vezi pe GitHub↗

    ml5-library is a JavaScript machine learning library that functions as a browser-based inference engine. It provides a high-level wrapper for implementing neural networks and data models, allowing users to execute machine learning predictions directly on the client side. The library simplifies the integration of machine learning into web applications and creative coding projects by removing the requirement for deep mathematical expertise. It specifically enables web-based image classification through the use of pretrained deep learning models to identify and label objects within images. The

    Identifies objects within images using pretrained models and returns results through callback functions.

    JavaScript
    Vezi pe GitHub↗6,581
  • dragen1860/tensorflow-2.x-tutorialsAvatar dragen1860

    dragen1860/TensorFlow-2.x-Tutorials

    6,351Vezi pe GitHub↗

    This project is a collection of TensorFlow 2.x machine learning tutorials and practical code examples. It serves as a deep learning implementation guide for constructing diverse neural network architectures, including convolutional, recurrent, and generative networks. The repository provides templates and examples for several specialized domains, including computer vision for image classification and object detection, natural language processing for text generation and language understanding, and generative AI for synthesizing data using adversarial networks and autoencoders. It also includes

    Builds automated analysis tools that categorize images into predefined labels using neural networks.

    Jupyter Notebookartificial-intelligencecomputer-visiondeep-learning
    Vezi pe GitHub↗6,351
  • christophm/interpretable-ml-bookAvatar christophM

    christophM/interpretable-ml-book

    5,317Vezi pe GitHub↗

    Acest proiect este o resursă educațională cuprinzătoare și un manual tehnic axat pe machine learning interpretabil și AI explicabil. Servește ca manual și referință pentru implementarea tehnicilor care fac modelele complexe de machine learning transparente și ușor de înțeles pentru oameni. Resursa oferă îndrumări atât pentru construirea modelelor inerent transparente, cum ar fi arborii de decizie și modelele liniare rare, cât și pentru aplicarea metodelor de explicare post-hoc sistemelor black-box. Detaliază metodologii specifice pentru cuantificarea importanței caracteristicilor, generarea de raționamente pentru predicții individuale și utilizarea modelelor surogat pentru a aproxima procesele complexe de luare a deciziilor. Conținutul acoperă o gamă largă de capabilități analitice, inclusiv analiza influenței caracteristicilor globale și locale, interpretabilitatea viziunii computerizate și utilizarea contribuțiilor teoretice ale jocurilor, cum ar fi valorile Shapley. De asemenea, abordează evaluarea modelului prin evaluări de interpretabilitate, fluxuri de lucru de depanare pentru a identifica scurtăturile modelului și designul structurilor algoritmice transparente. Proiectul este implementat ca o colecție de Jupyter Notebooks.

    Replaces normalization layers with whitening transformations to make pre-trained classifiers intrinsically interpretable.

    Jupyter Notebook
    Vezi pe GitHub↗5,317
  • nyandwi/machine_learning_completeAvatar Nyandwi

    Nyandwi/machine_learning_complete

    4,983Vezi pe GitHub↗

    This is an interactive notebook-based course that teaches machine learning from Python fundamentals through deep learning and natural language processing. It uses real datasets and multiple frameworks within a structured, hands-on curriculum that combines concise explanations with executable code cells, built-in datasets, and embedded exercise checkpoints. Learning progresses through data preparation and exploration, classical machine learning workflows, computer vision with convolutional neural networks, and natural language processing with deep learning, all delivered as a cohesive progressi

    Uses pretrained image classifiers to predict categories without requiring additional training.

    Jupyter Notebookcomputer-visiondata-analysisdata-science
    Vezi pe GitHub↗4,983
  • deepjavalibrary/djlAvatar deepjavalibrary

    deepjavalibrary/djl

    4,828Vezi pe GitHub↗

    Deep Java Library is a Java deep learning framework and JVM model inference engine. It provides a high-level API for building and deploying deep learning models within the Java ecosystem, acting as a cross-platform runtime for executing models across CPUs, GPUs, and mobile devices. The library is engine-agnostic, allowing users to switch between different deep learning engines such as PyTorch, TensorFlow, and MXNet while maintaining a single unified API. This enables the deployment of the same model across different backends without changing the application code. The framework supports the f

    Automatically categorizes large collections of images into predefined labels using pre-trained models.

    Java
    Vezi pe GitHub↗4,828
  • xlite-dev/lite.ai.toolkitAvatar xlite-dev

    xlite-dev/lite.ai.toolkit

    4,413Vezi pe GitHub↗

    lite.ai.toolkit este un toolkit C++ de viziune computerizată conceput pentru implementarea AI pe dispozitive edge. Acesta permite execuția modelelor pre-antrenate pentru detecția obiectelor, clasificarea imaginilor și segmentare pe dispozitive cu resurse limitate. Proiectul include un motor de inferență multi-backend care suportă runtime-ul de modele ONNX, permițând modelelor AI să ruleze pe diferite ținte hardware. Include un pipeline accelerat prin GPU, specific pentru hardware-ul NVIDIA, pentru a reduce latența și a crește viteza de procesare. Toolkit-ul acoperă o gamă largă de capabilități de analiză facială, inclusiv detecția emoțiilor, estimarea genului și vârstei, și analiza poziției capului. De asemenea, oferă instrumente pentru recunoaștere facială prin extragerea embedding-urilor de trăsături și calcularea similarității cosinus pentru verificarea identității. Capabilitățile suplimentare includ matting-ul imaginilor pentru izolarea prim-planului, colorizarea imaginilor grayscale și transferul de stil artistic.

    Categorizes images into predefined labels using various optimized inference backends.

    C++
    Vezi pe GitHub↗4,413
  • openimages/datasetAvatar openimages

    openimages/dataset

    4,366Vezi pe GitHub↗

    Acest proiect este un set de date de viziune computerizată și un depozit de adnotări de imagini conceput pentru antrenarea și evaluarea modelelor de învățare automată. Oferă o colecție mare de imagini etichetate, servind ca benchmark pentru detecția obiectelor și o sursă de date de segmentare la nivel de pixel. Depozitul se distinge ca un set de date vizual multimodal prin asocierea imaginilor cu voce, text și urme de mouse sincronizate pentru a susține înțelegerea narativă. De asemenea, permite analiza echității modelelor prin includerea atributelor demografice și a adnotărilor exhaustive. Setul de date acoperă o gamă largă de capabilități de viziune computerizată, inclusiv detecția obiectelor prin casete de delimitare, segmentarea instanțelor de imagine folosind măști de pixeli și maparea relațiilor vizuale prin triplete obiect-atribut. De asemenea, suportă clasificarea la nivel de punct, recunoașterea textului ierarhic și recuperarea subseturilor de date curatate pe baza filtrării după clasă sau atribut.

    Provides human-verified positive and negative labels across thousands of classes for image categorization.

    Python
    Vezi pe GitHub↗4,366
  • fastai/course22Avatar fastai

    fastai/course22

    3,398Vezi pe GitHub↗

    This is a structured deep learning curriculum for programmers, delivered as a collection of Jupyter notebooks. It teaches the fundamentals of training neural networks for computer vision, natural language processing, tabular data analysis, and collaborative filtering using PyTorch and the fastai library. The course is designed to be hands-on, guiding learners from building a training loop from scratch to fine-tuning pretrained models for a variety of practical tasks. The curriculum distinguishes itself by covering the full lifecycle of a deep learning project, from data preparation and augmen

    Provides a widget for reviewing and manually correcting misclassified images from a trained model.

    Jupyter Notebookdeep-learningfastaijupyter-notebooks
    Vezi pe GitHub↗3,398
  1. Home
  2. Data & Databases
  3. Data Categorization
  4. Classification Labelers
  5. Image Classifiers

Explorează sub-etichetele

  • Classifier Interpretability1 sub-tagTools for visualizing and explaining the decision-making process of image classification models. **Distinct from Image Classifiers:** Focuses on explaining why an image was classified, rather than performing the classification itself.
  • Guided Synthesis ClassifiersUsing a classifier to steer a diffusion model's sampling process for higher-fidelity image generation. **Distinct from Image Classifiers:** Distinct from general Image Classifiers: specifically used for guiding diffusion sampling, not for categorizing images into predefined labels.
  • Misclassification ReviewersWidgets that show misclassified images from a trained model for manual correction. **Distinct from Image Classifiers:** Distinct from Image Classifiers: focuses on reviewing and correcting misclassifications, not automated classification.
  • NSFW ClassifiersClassifies images as porn, hentai, sexy, neutral, or drawing using a TensorFlow.js model running in the browser. **Distinct from Image Classifiers:** Distinct from Image Classifiers: specifically targets NSFW categories (porn, hentai, sexy, neutral, drawing) rather than general image classification.