Miloš Prágr scite author profile

Miloš Prágr

5Publications

31Citation Statements Received

74Citation Statements Given

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125

Affiliations

Czech Technical University in Prague

Publications

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Online Incremental Learning of the Terrain Traversal Cost in Autonomous Exploration

Prágr

Čížek

Bayer

et al. 2019

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In this paper, we address motion efficiency in autonomous robot exploration with multi-legged walking robots that can traverse rough terrains at the cost of lower efficiency and greater body vibration. We propose a robotic system for online and incremental learning of the terrain traversal cost that is immediately utilized to reason about next navigational goals in building spatial model of the robot surrounding. The traversal cost experienced by the robot is characterized by incrementally constructed Gaussian Processes using Bayesian Committee Machine. During the exploration, the robot builds the spatial terrain model, marks untraversable areas, and leverages the Gaussian Process predictive variance to decide whether to improve the spatial model or decrease the uncertainty of the terrain traversal cost. The feasibility of the proposed approach has been experimentally verified in a fully autonomous deployment with a hexapod walking robot.

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On Unsupervised Learning of Traversal Cost and Terrain Types Identification Using Self-organizing Maps

Faigl

Prágr

2019

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Cost of Transport Estimation for Legged Robot Based on Terrain Features Inference from Aerial Scan

Prágr

Čížek

Faigl

2018

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Self-Learning Event Mistiming Detector Based on Central Pattern Generator

2021

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A repetitive movement pattern of many animals, a gait, is controlled by the Central Pattern Generator (CPG), providing rhythmic control synchronous to the sensed environment. As a rhythmic signal generator, the CPG can control the motion phase of biomimetic legged robots without feedback. The CPG can also act in sensory synchronization, where it can be utilized as a sensory phase estimator. Direct use of the CPG as the estimator is not common, and there is little research done on its utilization in the phase estimation. Generally, the sensory estimation augments the sensory feedback information, and motion irregularities can reveal from comparing measurements with the estimation. In this work, we study the CPG in the context of phase irregularity detection, where the timing of sensory events is disturbed. We propose a novel self-supervised method for learning mistiming detection, where the neural detector is trained by dynamic Hebbian-like rules during the robot walking. The proposed detector is composed of three neural components: (i) the CPG providing phase estimation, (ii) Radial Basis Function neuron anticipating the sensory event, and (iii) Leaky Integrate-and-Fire neuron detecting the sensory mistiming. The detector is integrated with the CPG-based gait controller. The mistiming detection triggers two reflexes: the elevator reflex, which avoids an obstacle, and the search reflex, which grasps a missing foothold. The proposed controller is deployed and trained on a hexapod walking robot to demonstrate the mistiming detection in real locomotion. The trained system has been examined in the controlled laboratory experiment and real field deployment in the Bull Rock cave system, where the robot utilized mistiming detection to negotiate the unstructured and slippery subterranean environment.

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On Building Communication Maps in Subterranean Environments

Zoula

Prágr

Faigl

2021

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scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

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Miloš Prágr

Online Incremental Learning of the Terrain Traversal Cost in Autonomous Exploration

On Unsupervised Learning of Traversal Cost and Terrain Types Identification Using Self-organizing Maps

Cost of Transport Estimation for Legged Robot Based on Terrain Features Inference from Aerial Scan

Self-Learning Event Mistiming Detector Based on Central Pattern Generator

On Building Communication Maps in Subterranean Environments

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