There are no reviews yet. Be the first to send feedback to the community and the maintainers!
extrinsic_lidar_camera_calibration
This is a package for extrinsic calibration between a 3D LiDAR and a camera, described in paper: Improvements to Target-Based 3D LiDAR to Camera Calibration. This package is used for Cassie Blue's 3D LiDAR semantic mapping and automation.LiDARTag
This is a package for LiDARTag, described in paper: LiDARTag: A Real-Time Fiducial Tag System for Point CloudsCassie_FlatGround_Controller
Cassie_Model
Repo containing the urdf and frost based models of CassieContact-Aided-Invariant-EKF
Example code for contact-aided invariant extended Kalman filtering.cassie_alip_mpc
This repository provides an implementation of a bipedal locomotion controller, described in the paper Terrain-Adaptive, ALIP-Based Bipedal Locomotion Controller via Model Predictive Control and Virtual Constraints(pdf)(arXiv). The controller has two components: (1) an Angular Momentum Linear Inverted Pendulum (ALIP)-based Model Predictive Control (MPC) foot placement planner and (2) a gait controller which takes the foot placement solution as an input. This controller enables improved stability for walking on a variety of sloped and textured terrains. The controller is implemented on the Agility Robotics Cassie Robot.CLF_reactive_planning_system
This package provides a CLF-based reactive planning system, described in paper: Efficient Anytime CLF Reactive Planning System for a Bipedal Robot on Undulating Terrain. The reactive planning system consists of a 5-Hz planning thread to guide a robot to a distant goal and a 300-Hz Control-Lyapunov-Function-based (CLF-based) reactive thread to cope with robot deviations. The planning system allowed Cassie Blue to autonomously traverse sinusoidally varying terrain. More experiments are still being conducted and this repo and the paper will be updated accordingly.SegmentationMapping
Cassie_Controller_AngularMomentum
Cassie_StateEstimation
Code for various extended Kalman filter state estimation methods for Cassie.LiDAR_intrinsic_calibration
C-Frost
cassie_description
UDRF model of CASSIE robotIMOMD-RRTStar
This work proposes an anytime iterative system to concurrently solve the multi-objective path planning problem and determine the visiting order of destinations. The paper has been uploaded to arXiv at https://arxiv.org/abs/2205.14853Cassie_CFROST
automatic_lidar_camera_calibration
lidar_simulator
multi_object_avoidance_via_clf_cbf
global_pose_estimation_for_optimal_shape
This package introduces the concept of optimizing target shape to remove pose ambiguity for LiDAR point clouds. Both the simulation and the experimental results confirm that by using the optimal shape and the global solver, we achieve centimeter error in translation and a few degrees in rotation even when a partially illuminated target is placed 30 meters away!sync_lidartag_apriltag
digit_jsonapi_catkin_ws
matlab_utils
docker_images
AprilTag_ROS
torso_design_for_cassie
ROB101-ExtrinsicCalibrationProblem
Digit_Fall_Prediction_Dataset
This dataset is comprised of simulation and hardware trajectories with various faults for the Digit robot during the task of standing. The simulation trajectories contain abrupt, incipient, and intermittent faults, while the hardware trajectories contain abrupt and incipient faults. A tutorial of the dataset can be found in the viz branch.planner_msgs
outdoor_cvo
optimal_shape_generation
This package introduces the concept of optimizing target shape to remove pose ambiguity for LiDAR point clouds. Both the simulation and the experimental results confirm that by using the optimal shape and the global solver, we achieve centimeter error in translation and a few degrees in rotation even when a partially illuminated target is placed 30 meters away!digit_msgs
Custom ROS messages for digitLove Open Source and this site? Check out how you can help us