Global ETD Search

1	Flexible assembly cell manipulator McLachlan, Donald Stuart January 1995 (has links) No description available. 670.285 Robotic assembly
2	An integration architecture to support error recovery in a multi-robot environment Philip, Gary P. January 1996 (has links) No description available. 629.892 Robotic assembly; Plan stacking
3	Extracting Human Strategies for Use in Robotic Assembly Birkhimer, Craig E. 10 January 2005 (has links) No description available. Human Strategies Programming by Demonstration Robotic Assembly
4	Localization for Robotic Assemblies with Position Uncertainty Chhatpar, Siddharth R. January 2006 (has links) No description available. Localization Robotic Assembly Particle Filter Configuration Space Sampled Maps
5	DISCRETE COMPLIANT MOTION PLANNING SYSTEM FOR ROBOTIC ASSEMBLY Yang, Fan January 2009 (has links) This dissertation focuses on compliant motion planning designed for robotic assembly. A Discrete Complaint Motion Planner (DCMP) reacts to detected discrete contact state transitions and issues compliant motion command to the underlying continuous robot system. It consists of a Qualitative Contact Model, a Compliant Motion Strategy Planner (CMSP) and a Compliant Motion Command Planner (CMCP).How to model and characterize a contact state is a major issue. In this dissertation, contact states are described using the qualitative configuration representation called Feature Interaction Matrix (FIM). A FIM encodes not only the contact information but also the relative configuration between two polyhedral parts. This FIM-based qualitative contact state model has several contributions: 1) an optimization-based approach is developed to verify the hypothetical states in FIM; 2) penetration check for hypothetical contact states through constraint satisfaction is simple and fast; 3) spatial adjacency can be easily determined using convex cone techniques; 4) a generate-and-test method is proposed to expand qualitative states in FIM; 5) compliant motion parameters are derived by an optimization method.The qualitative contact states and how they are connected is modeled with an adjacency graph/sub-graph, where nodes represent qualitative contact states and spatially adjacent contact states are connected by arcs. Each arc represents a desired contact state transition. The CMSP receives contact state transition event from an on-line estimator, then computes/checks the assembly strategy and issues the next desired contact state transition to the CMCP. The compliant motion strategy is computed using graph-search techniques with the automatic construction of the adjacency graph/sub-graph. The CMSP integrate hypotheses generation, hypotheses verification, spatial adjacency and graph search algorithms.When the next desired contact state transition is received, the CMCP computes the compliant motion parameters that are issued to the underlying continues robot system to achieve the desired contact state transition. The generation of motion parameters is defined as an optimization problem and an algorithm is developed to solve it.The DCMP in this dissertation considers both 3D translational and 3D rotational motions. Experiments are carried out to demonstrate the feasibility of the approach for the automatic assembly of polyhedral parts. compliant motion planning contact model contact states motion command motion strategy robotic assembly
6	Learning Search Strategies from Human Demonstration for Robotic Assembly Tasks Ehlers, Dennis January 2018 (has links) Learning from Demonstration (LfD) has been used in robotics research for the last decades to solve issues pertaining to conventional programming of robots. This framework enables a robot to learn a task simply from a human demonstration. However, it is unfeasible to teach a robot all possible scenarios, which may lead to e.g. the robot getting stuck. In order to solve this, a search is necessary. However, no current work is able to provide a search approach that is both simple and general. This thesis develops and evaluates a new framework based on LfD that combines both of these aspects. A single demonstration of a human search is made and a model of it is learned. From this model a search trajectory is sampled and optimized. Based on that trajectory, a prediction of the encountered environmental forces is made. An impedance controller with feed-forward of the predicted forces is then used to evaluate the algorithm on a Peg-in-Hole task. The final results show that the framework is able to successfully learn and reproduce a search from just one single human demonstration. Ultimately some suggestions are made for further benchmarks and development. learning from demonstration robotics robotic assembly search strategies learning search compliant motion Aerospace Engineering Rymd- och flygteknik
7	Autonomous Skills for Remote Robotic Assembly Haberbusch, Matthew Gavin 01 June 2020 (has links) No description available. Robotics Robots Computer Science Electrical Engineering Engineering robotic assembly autonomous skills virtual attractor natural admittance control force control admittance control autonomy ROS robot operating system remote robotic assembly robot robotics robotic arm robot control robotic skills

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