37 repository-uri
Visualizations that represent data in three-dimensional space to show volumetric or spatial relationships.
Distinct from Data Visualization: Distinct from general Data Visualization by specifically requiring a 3D coordinate system and GPU acceleration.
Explore 37 awesome GitHub repositories matching data & databases · Three-Dimensional Visualizations. Refine with filters or upvote what's useful.
Apache ECharts is a JavaScript data visualization library used for rendering interactive charts and complex data visualizations in web browsers. It functions as a canvas-based charting engine and a statistical data visualization suite that transforms datasets into visual representations. The framework provides specialized capabilities for three-dimensional data visualization, including the generation of 3D plots and globe visualizations. It also serves as a web-based geographic mapping tool for overlaying heatmaps, routes, and data distributions onto interactive maps. The library covers a br
Generates three-dimensional plots and globe visualizations to show volumetric or spatial relationships.
ECharts is a JavaScript data visualization library and web charting framework used to render interactive 2D and 3D data plots within a web browser. It functions as a visualization engine that transforms raw data into customizable charts and graphs. The project includes a WebGL-based hardware acceleration engine specifically for producing three-dimensional plots and globe visualizations. This allows the library to handle large and complex datasets through GPU-accelerated rendering. The framework supports both canvas-based raster rendering and SVG-based vector rendering. It provides capabiliti
Enables the creation of three-dimensional plots and globes to represent complex spatial or volumetric data.
Babylon.js is a JavaScript game engine and real-time graphics renderer designed for creating interactive three-dimensional visuals and applications. It functions as a web-based 3D framework and WebGL engine that enables the deployment of high-performance 3D content across various web platforms and devices. The project provides tools for web-based 3D game development, real-time graphics rendering, and the creation of browser-based interactive visualizations. It also supports the development of WebXR virtual and augmented reality experiences using standard web technologies. The framework cover
Enables the creation of immersive 3D data displays and interactive product showcases in the browser.
The Point Cloud Library is a collection of C++ algorithms designed for filtering, registering, and analyzing large-scale 3D spatial datasets. It provides a framework for 3D point cloud processing, incorporating tools for spatial data filtering and geometric feature estimation. The library includes specialized systems for aligning multiple spatial datasets into a single unified coordinate system and a rendering engine for the visual inspection and analysis of processed point cloud data. It also features tools for calculating spatial descriptors to identify structural patterns and shapes within
Renders processed point clouds and spatial data to allow visual inspection of three-dimensional environments.
Visdom is a tool for scientific experiment tracking and real-time data monitoring. It provides a programmatic interface for broadcasting live plots, rich media, and training metrics from scripts to an interactive web dashboard. The project specializes in high-dimensional data analysis, offering capabilities to project complex feature sets into 2D space using t-SNE and visualize PyTorch model embeddings. It organizes visualizations into named environments, allowing users to isolate different experimental runs and compare plots across these environments in a single view. The system covers a br
Projects high-dimensional features into 2D space using t-SNE with interactive lasso selection for analysis.
This project is a collection of optional, community-contributed algorithms and specialized vision tools that extend the core OpenCV framework. It serves as a comprehensive library of extra modules for computer vision research, providing advanced toolsets for image processing, visual data analysis, and object detection. The library includes specialized frameworks for augmented reality tracking, biometric face recognition, and three-dimensional pose estimation. It provides distinct capabilities for identifying AR markers, tracking 3D object silhouettes, and performing neural network vulnerabili
Renders three dimensional models and datasets using a dedicated graphics engine.
Stellarium is an open-source 3D planetarium simulator and cross-platform sky map used for astronomical observation and study. It provides a real-time simulation of the night sky that renders astronomical objects and atmospheric conditions using OpenGL. The software functions as a visualization tool to show how stars and planets appear through optical instruments. It allows users to identify celestial objects from any location on Earth, simulate stargazing site visibility, and plan targets for observation with binoculars or telescopes. The system incorporates an atmospheric scattering model,
Projects a three-dimensional spherical model of the universe onto a two-dimensional view for the observer.
This project is a collection of PyTorch learning resources and educational guides designed to teach the construction and training of neural networks. It serves as a comprehensive deep learning tutorial covering various model architectures and practical implementation strategies. The resources provide specific guidance on implementing computer vision tasks, such as image classification and synthetic imagery generation, as well as reinforcement learning agents using value networks and experience replay. It also covers sequential data modeling through recurrent networks and generative modeling u
Implements visualizations that project high-dimensional layer outputs into lower-dimensional spaces using T-SNE to identify clusters.
This project is a manifold learning and non-linear dimensionality reduction library used to project high-dimensional data into lower-dimensional spaces while preserving topological structure. It functions as a parametric embedding framework and a topological data visualization library for identifying clusters and patterns within complex datasets. The library distinguishes itself through parametric neural mapping, which uses neural networks to learn functional mappings that allow for out-of-sample projections and the reconstruction of original data. It supports supervised and semi-supervised d
Generates dimensionality projection plots to visually identify clusters and trends in complex datasets.
Verba is a retrieval-augmented generation interface and chatbot that uses Weaviate to provide factual answers based on private datasets. It functions as a vector database knowledge base, combining a hybrid search engine with an orchestration interface to connect various large language model providers and embedding services. The system differentiates itself through a RAG pipeline manager for adjusting text chunking rules and retrieval settings, alongside a 3D vector space visualization tool for analyzing the spatial organization and clustering of high-dimensional embeddings. It employs a modul
Renders high-dimensional embeddings into a 3D coordinate system for spatial analysis of data clusters.
This is a PyTorch-based computer vision library for detecting 2D and 3D facial landmark coordinates. It functions as a facial landmark detector and reconstruction tool, utilizing deep learning to identify precise geometric points on human faces from image datasets. The library allows for the selection of specific detection backends to balance accuracy and processing speed. It supports the integration of precomputed bounding box files, which enables the system to bypass the initial detection phase and proceed directly to landmark extraction. The toolkit includes capabilities for batch image p
Predicts facial feature locations in both two-dimensional image space and three-dimensional spatial coordinates.
DensePose is a 3D human pose estimation framework designed to map 2D image pixels to a 3D surface-based model of the human body in real time. It functions as a computer vision anatomical mapper that projects 2D visual data onto a 3D surface to create detailed anatomical representations. The system operates as an image-to-3D texture transfer engine, localizing 2D image annotations onto 3D models to apply photographic textures to digital human representations. It uses a surface-based body mapping method to associate human pixels in an RGB image with specific coordinates on a 3D body template.
Predicts exact pixel locations on a 3D mesh by regressing values within a normalized UV map.
NonEuclidean is a graphics framework and rendering engine designed to compute and display three-dimensional scenes using non-standard spatial rules and geometries. It serves as a visualization tool for exploring complex mathematical spaces where traditional Euclidean laws of distance and angle do not apply. The project implements custom rendering pipelines to visualize non-standard geometric projections and warped spatial logic. This includes the ability to map non-Euclidean coordinates to Poincaré disk or Klein models to render curved space on flat screens. The system utilizes dynamic metri
Maps non-Euclidean coordinates to Poincaré disk or Klein models to render curved space on flat screens.
H3 is an open-source library that provides a hierarchical hexagonal grid system for geospatial indexing. It projects the Earth onto an icosahedron and tiles each face with hexagons to minimize distortion, then encodes each hexagon as a 64-bit integer that stores its resolution and position in the hierarchy. This integer encoding enables fast bitwise operations for grid navigation and spatial analysis. The library offers a comprehensive set of grid topology algorithms for computing neighbor relationships, distances, and paths between cells directly on the hexagonal grid without geographic coor
Projects the Earth onto an icosahedron and tiles each face with hexagons to minimize distortion.
This project is a machine learning library providing a collection of implementations for supervised and unsupervised learning algorithms. It serves as a deep learning framework, a statistical classifier collection, and a suite of tools for unsupervised learning and dimensionality reduction. The library enables the construction of neural networks, including multi-layer perceptrons and convolutional networks for pattern recognition. It also provides tools for performing principal component analysis and manifold learning to visualize high-dimensional datasets, alongside a suite of clustering alg
Projects high-dimensional data into low-dimensional space via manifold learning for visual analysis.
Orange3 is a visual data mining platform that provides an interactive canvas for building data analysis workflows without writing code. At its core, it offers a widget-based visual programming environment where users connect configurable components to perform data preprocessing, machine learning model training, statistical evaluation, and interactive visualization. The platform is built on NumPy-backed data tables with domain descriptors that define variable names, types, and roles, and includes a lazy SQL query proxy for working with database tables without loading all data into memory. The
Ships a unique force-directed projection method for visualizing class separations in labeled data.
Acest proiect este o resursă educațională cuprinzătoare de machine learning și o serie de tutoriale livrate sub formă de colecție de Jupyter Notebooks interactive. Oferă implementări practice în Python pentru întregul ciclu de viață al machine learning-ului, acoperind învățarea supervizată și nesupervizată, deep learning și reinforcement learning. Resursa se remarcă prin ghiduri detaliate de implementare pentru arhitecturi complexe, inclusiv transformatoare, rețele generative adversariale (GAN) și rețele neuronale convoluționale. Include, de asemenea, cursuri specializate pentru dezvoltarea de agenți de reinforcement learning folosind Q-learning și Deep Q-Networks în medii simulate. Conținutul acoperă o gamă largă de capabilități în data science, inclusiv pipeline-uri de data engineering, codificarea trăsăturilor (feature encoding) și reducerea dimensionalității. Oferă materiale extinse despre evaluarea modelelor prin cross-validation și metrici de diagnostic, precum și subiecte avansate precum procesarea limbajului natural (NLP), analiza sentimentelor și AI generativ. Întregul curriculum este conceput pentru execuție interactivă în Jupyter Notebooks, combinând cod executabil, text bogat și vizualizări.
Implements techniques like t-SNE to map high-dimensional datasets into low-dimensional spaces for visual analysis.
Side-Menu.Android este o componentă UI reutilizabilă pentru aplicațiile Android care oferă un meniu de navigare de tip slide-out. Este concepută pentru a ajuta dezvoltatorii să organizeze secțiunile aplicației și opțiunile utilizatorului într-un panou structurat, ascuns, care menține o interfață curată pentru zona de conținut principal. Componenta se distinge prin prezentarea sa vizuală, care urmează ghidurile Material Design pentru a asigura o experiență de utilizator consistentă și intuitivă. Dispune de o ierarhie de meniu bazată pe date care permite gruparea logică a elementelor de navigare și încorporează animații fluide de tip circular reveal pentru a oferi tranziții vizuale rafinate atunci când meniul este deschis sau închis. Prin încapsularea logicii complexe de layout și interacțiune într-o singură clasă modulară, biblioteca simplifică implementarea navigării pe mai multe ecrane. Suportă tranziții bazate pe evenimente, permițând dezvoltatorilor să decupleze interacțiunile din meniu de actualizările de conținut pentru a menține o arhitectură de aplicație curată și responsivă.
Generates three-dimensional models of cargo layouts to verify fit and spatial relationships.
Kaolin este o bibliotecă PyTorch pentru deep learning 3D care oferă o suită cuprinzătoare de instrumente pentru procesarea geometriei 3D, simularea fizicii, vizualizarea datelor și randarea bazată pe gradient pentru computer vision. Biblioteca include un renderer 3D diferențiabil și un toolkit de procesare a geometriei pentru conversia și transformarea reprezentărilor 3D, cum ar fi mesh-urile și norii de puncte (point clouds). Dispune, de asemenea, de un motor de simulare a fizicii 3D pentru a calcula interacțiunile fizice și coliziunile între obiecte și scene tridimensionale. Toolkit-ul oferă utilitare pentru vizualizarea datelor 3D, inclusiv crearea de vizualizări interactive și animații de tip turntable. Capabilitățile suplimentare acoperă gestionarea seturilor de date 3D, preprocesarea datelor și randarea reprezentărilor 3D.
Renders interactive 3D visualizations and turntable animations for quick inspection of spatial data.
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
Projects complex datasets into two or three dimensions to visually identify patterns and clusters.