Deon De Jager scite author profile

High-level, real-time mission control of semi-autonomous robots, deployed in remote and dynamic environments, remains a challenge. Control models, learnt from a knowledgebase, quickly become obsolete when the environment or the knowledgebase changes. This research study introduces a cognitive reasoning process, to select the optimal action, using the most relevant knowledge from the knowledgebase, subject to observed evidence. The approach in this study introduces an adaptive entropy-based set-based particle swarm algorithm (AE-SPSO) and a novel, adaptive entropybased fitness quantification (AEFQ) algorithm for evidence-based optimization of the knowledge. The performance of the AE-SPSO and AEFQ algorithms are experimentally evaluated with two unmanned aerial vehicle (UAV) benchmark missions: (1) relocating the UAV to a charging station and (2) collecting and delivering a package. Performance is measured by inspecting the success and completeness of the mission and the accuracy of autonomous flight control. The results show that the AE-SPSO/AEFQ approach successfully finds the optimal state-transition for each mission task and that autonomous flight control is successfully achieved.

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A Vision-Based System for Object Identification and Information Retrieval in a Smart Home

Grech

Monekosso

Jager

et al. 2010

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Real-Time Episodic Memory Construction for Optimal Action Selection in Cognitive Robotics

Jager¹,

Zweiri²,

Makris³

2020

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Deon De Jager

Multi-robot Teams for Environmental Monitoring

A particle swarm optimization approach using adaptive entropy-based fitness quantification of expert knowledge for high-level, real-time cognitive robotic control

A Vision-Based System for Object Identification and Information Retrieval in a Smart Home

Real-Time Episodic Memory Construction for Optimal Action Selection in Cognitive Robotics

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