Date: Friday, January 27, 2023
Time: 9:00AM – 11:00AM ET
Location: TSRB Room 523
Tony Lin
Robotics PhD Student
School of Electrical and Computer Engineering
Georgia Institute of Technology
Committee:
Dr. Fumin Zhang (Co-Advisor) – School of Electrical and Computer Engineering, Georgia Institute of Technology
Dr. Samuel Coogan (Co-Advisor) – School of Electrical and Computer Engineering, Georgia Institute of Technology
Dr. Matthieu Bloch – School of Electrical and Computer Engineering, Georgia Institute of Technology
Dr. Seth Hutchinson – School of Interactive Computing, Georgia Institute of Technology
Dr. Ye Zhao – School of Mechanical Engineering, Georgia Institute of Technology
Abstract:
This proposal aims to develop a framework to solve a distributed Simultaneous Localization and Mapping (SLAM) problem in communication-constrained environments, in which robots individually solve the SLAM problem while sharing semantic descriptions (e.g., “I see potted plants on my left and a television on my right”) of their personal views. Our proposed approach incorporates such information by treating semantic descriptions of scenes as coarse relative pose estimates perturbed by some non-Gaussian noise which must be learned from data. Central to utilizing this semantic information is handling the inherent difficulties associated with the quantifying the unknown noise distribution and the data association problem arising from the lack of uniqueness in semantic descriptions (multiple scenes may be described by the same semantic description). To overcome these difficulties, this work leverages a particle-driven filtering and smoothing strategy in which Generative Adversarial Networks (GANs) are utilized to learn the unknown noise distribution and a novel Particle Product strategy, which approximates the product of two particle distributions, is used to transform and fuse shared particle distributions into a robot’s local frame of reference. The proposed Particle Product strategy is also employed to provide resiliency in the data association problem when performing smoothing of the particle estimates for each robot’s trajectory.
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