awesome-6d-object
openpifpaf
awesome-6d-object | openpifpaf | |
---|---|---|
1 | 1 | |
672 | 1,138 | |
- | 1.5% | |
6.0 | 3.6 | |
about 2 months ago | about 1 month ago | |
Python | ||
MIT License | GNU General Public License v3.0 or later |
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awesome-6d-object
openpifpaf
-
Human Pose Estimation Recommendation
OpenPifPaf is decent, easier to install on newer systems than OpenPose imo.
What are some alternatives?
Awesome-Implicit-NeRF-Robotics - A comprehensive list of Implicit Representations and NeRF papers relating to Robotics/RL domain, including papers, codes, and related websites
mmpose - OpenMMLab Pose Estimation Toolbox and Benchmark.
AlphaPose - Real-Time and Accurate Full-Body Multi-Person Pose Estimation&Tracking System
lightweight-human-pose-estimation.pytorch - Fast and accurate human pose estimation in PyTorch. Contains implementation of "Real-time 2D Multi-Person Pose Estimation on CPU: Lightweight OpenPose" paper.
posenet-python - A Python port of Google TensorFlow.js PoseNet (Real-time Human Pose Estimation)
tensorflow_Realtime_Multi-Person_Pose_Estimation - Multi-Person Pose Estimation project for Tensorflow 2.0 with a small and fast model based on MobilenetV3
AI-basketball-analysis - :basketball::robot::basketball: AI web app and API to analyze basketball shots and shooting pose.
kapao - KAPAO is an efficient single-stage human pose estimation model that detects keypoints and poses as objects and fuses the detections to predict human poses.
human-action-classification - This repository allows you to classify 40 different human actions. Pose detection, estimation and classification is also performed. Poses are classified into sitting, upright and lying down.
Robotics-Object-Pose-Estimation - A complete end-to-end demonstration in which we collect training data in Unity and use that data to train a deep neural network to predict the pose of a cube. This model is then deployed in a simulated robotic pick-and-place task.
3DMPPE_POSENET_RELEASE - Official PyTorch implementation of "Camera Distance-aware Top-down Approach for 3D Multi-person Pose Estimation from a Single RGB Image", ICCV 2019
aquamam - An autoregressive, quaternion manifold model for rapidly estimating complex SO(3) distributions.