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Research Overview

Inferring and exploiting contact

Generative Proxemics: A Prior for 3D Social Interaction from Images

BITE -- Dog Shape and Pose from an Image

HOLD -- inferring 3D hand and object shape from video

MOVER -- Reconstructing 3D Scenes and People using Interaction

Datasets for understanding humans and animals

The Poses for Equine Research Dataset (PFERD)

BEAT2 Dataset for Holistic Co-Speech Gesture Generation

ARCTIC: A Dataset for Dexterous Bimanual Hand-Object Manipulation

The BioAMASS Dataset

OpenCapBench dataset

Human health and the 3D body

Body Shape Models in Treating Anorexia Nervosa

Customized Bone Plants for Humerus Shaft Fractures

Reconstructing Signing Avatars From Video Using Linguistic Priors

The AI animator

HAAR: Text-Conditioned Generative Model of 3D Strand-based Human Hairstyles

Gaussian Garments

PuzzleAvatar: Assembling 3D Avatars from Personal Albums

FLARE: Fast Learning of Animatable and Relightable Mesh Avatars

Language, Vision, and World Models

AWOL: Analysis WithOut synthesis using Language

Re-Thinking Inverse Graphics with Large Language Models

TeCH: Text-guided Reconstruction of Clothed Humans

Human pose, shape, and motion capture

WHAM: Reconstructing World-grounded Humans with Accurate 3D Motion

3D Human Pose Estimation via Intuitive Physics

Accurate 3D Body Shape Regression using Metric and Semantic Attributes

BEV

Generating human motion

Generating Human Interaction Motions in Scenes with Text Control

TEMOS: Generating Diverse Human Motions from Text

EMAGE: Full-body Gestures from Audio

TEACH: Temporal Action Compositions for 3D Humans

Robot Perception Group

AirCap: 3D Motion Capture

AirCap: Perception-Based Control

AirCapRL: Aerial Motion Capture Using Deep RL

Data Team

Lab Tours and Public Outreach

Collecting Data - From the Idea to the Publication

Capture Technologies Setup

Completed Projects

Human Pose, Shape and Action

3D Pose from Images

2D Pose from Images

Beyond Motion Capture

Action and Behavior

Body Perception

Body Applications

Pose and Motion Priors

Clothing Models (2011-2015)

Reflectance Filtering

Learning on Manifolds

Markerless Animal Motion Capture

Multi-Camera Capture

2D Pose from Optical Flow

Body Perception

Neural Prosthetics and Decoding

Part-based Body Models

Intrinsic Depth

Lie Bodies

Layers, Time and Segmentation

Understanding Action Recognition (JHMDB)

Intrinsic Video

Intrinsic Images

Action Recognition with Tracking

Neural Control of Grasping

Flowing Puppets

Faces

Deformable Structures

Model-based Anthropometry

Modeling 3D Human Breathing

Optical flow in the LGN

FlowCap

Smooth Loops from Unconstrained Video

PCA Flow

Efficient and Scalable Inference

Motion Blur in Layers

Facade Segmentation

Smooth Metric Learning

Robust PCA

3D Recognition

Object Detection

Autonomous Motion Video Members Publications

Real-Time Perception meets Reactive Motion Generation

Screen shot 2017 05 23 at 14.08.23
Illustration of one time step in our integrated robotic manipulation system. From left to right: sensory input y (we overlay the position of target object at an earlier time step), perceived state s of the robot and the environment (target object, obstacles), local (red) and global policies (green), and fused policy (yellow).

We address the challenging problem of robotic grasping and manipulation in the presence of uncertainty. This uncertainty is due to noisy sensing, inaccurate models and hard-to-predict environment dynamics. Our approach emphasizes the importance of continuous, real-time perception and its tight integration with reactive motion generation methods. We present a fully integrated system where real-time object and robot tracking as well as ambient world modeling provides the necessary input to feedback controllers and continuous motion optimizers. Specifically, they provide attractive and repulsive potentials based on which the controllers and motion optimizer can online compute movement policies at different time intervals. We extensively evaluate the proposed system on a real robotic platform in four scenarios that exhibit either challenging workspace geometry or a dynamic environment. We compare the proposed integrated system with a more traditional sense-plan-act approach that is still widely used. In 333 experiments, we show the robustness and accuracy of the proposed system.

Video

Members

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Autonomous Motion
Jeannette Bohg
  • Affiliated Researcher
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Autonomous Motion
Daniel Kappler
  • Doctoral Researcher
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Autonomous Motion
Franzi Meier
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Autonomous Motion
Jan Issac
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Autonomous Motion
Jim Mainprice
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Autonomous Motion, Perzeptive Systeme
Cristina Garcia Cifuentes
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Empirische Inferenz
Manuel Wüthrich
  • Postdoctoral Researcher
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Empirische Inferenz, IT Services
Vincent Berenz
  • Research Engineer
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Autonomous Motion
Stefan Schaal
  • Director
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Autonomous Motion
Nathan Ratliff

Publications

Autonomous Motion Article Real-time Perception meets Reactive Motion Generation Kappler, D., Meier, F., Issac, J., Mainprice, J., Garcia Cifuentes, C., Wüthrich, M., Berenz, V., Schaal, S., Ratliff, N., Bohg, J. IEEE Robotics and Automation Letters, 3(3):1864-1871, July 2018 (Published) arxiv video video DOI URL BibTeX
Autonomous Motion Article Probabilistic Articulated Real-Time Tracking for Robot Manipulation Garcia Cifuentes, C., Issac, J., Wüthrich, M., Schaal, S., Bohg, J. IEEE Robotics and Automation Letters (RA-L), 2(2):577-584, April 2017 (Published) arXiv video code and dataset video PDF DOI BibTeX
Autonomous Motion Conference Paper Interlocking Perception-Action Loops at Multiple Time Scales - A System Proposal for Manipulation in Uncertain and Dynamic Environments Bohg, J., Kappler, D., Meier, F., Ratliff, N., Mainprice, J., Issac, J., Wüthrich, M., Garcia Cifuentes, C., Berenz, V., Schaal, S. In International Workshop on Robotics in the 21st century: Challenges and Promises, September 2016 Workshop Webpage Extended Abstract BibTeX
Autonomous Motion Conference Paper The Coordinate Particle Filter - A novel Particle Filter for High Dimensional Systems Wüthrich, M., Bohg, J., Kappler, D., Pfreundt, C., Schaal, S. In Proceedings of the IEEE International Conference on Robotics and Automation, May 2015 arXiv Video Bayesian Filtering Framework Bayesian Object Tracking DOI BibTeX
Autonomous Motion Conference Paper Understanding the Geometry of Workspace Obstacles in Motion Optimization Ratliff, N., Toussaint, M., Schaal, S. In Proceedings of the IEEE International Conference on Robotics and Automation, March 2015 (Published) PDF Video BibTeX
Autonomous Motion Conference Paper Probabilistic Object Tracking Using a Range Camera Wüthrich, M., Pastor, P., Kalakrishnan, M., Bohg, J., Schaal, S. In IEEE/RSJ International Conference on Intelligent Robots and Systems, 3195-3202, IEEE, November 2013 arXiv Video Code Video DOI BibTeX