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Please use this identifier to cite or link to this item: http://dspace.vgtu.lt/handle/1/3977

Title: Modelling of Autonomous Search and Rescue Missions by Interval-Valued Neutrosophic WASPAS Framework
Authors: Semėnas, Rokas
Baušys, Romualdas
Keywords: interval-valued neutrosophic sets
multi-criteria decision-making
WASPAS-IVNS
autonomous mobile robots
search and rescue
Issue Date: 2020
Publisher: MDPI
Citation: Semenas, R.; Bausys, R. Modelling of Autonomous Search and Rescue Missions by Interval-Valued Neutrosophic WASPAS Framework. Symmetry 2020, 12, 162.
Series/Report no.: 12;1
Abstract: The application of autonomous robots in search and rescue missions represents a complex task which requires a robot to make robust decisions in unknown and dangerous environments. However, imprecise robot movements and small measurement errors obtained by robot sensors can have an impact on the autonomous environment exploration quality, and therefore, should be addressed while designing search and rescue (SAR) robots. In this paper, a novel frontier evaluation strategy is proposed, that address technical, economic, social, and environmental factors of the sustainable environment exploration process, and a new extension of the weighted aggregated sum product assessment (WASPAS) method, modelled under interval-valued neutrosophic sets (IVNS), is introduced for autonomous mobile robots. The general-purpose Pioneer 3-AT robot platform is applied in simulated search and rescue missions, and the conducted experimental assessment shows the proposed method efficiency in commercial and public-type building exploration. By addressing the estimated measurement errors in the initial data obtained by the robot sensors, the proposed decision-making framework provides additional reliability for comparing and ranking candidate frontiers. The interval-valued multi-criteria decision-making method combined with the proposed frontier evaluation strategy enables the robot to exhaustively explore and map smaller SAR mission environments as well as ensure robot safety and efficient energy consumption in relatively larger public-type building environments.
Description: This article belongs to the Special Issue Multi-Criteria Decision-Making Techniques for Improvement Sustainability Engineering Processes
URI: http://dspace.vgtu.lt/handle/1/3977
ISSN: 2073-8994
Appears in Collections:Moksliniai straipsniai / Research articles

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