Reasoning and decision making for autonomous UAVs based on weighted fuzzy petri nets

Yanying Tan; Ming Tong; Yanning Zhang; Xiaoping Zhu

Reasoning and decision making for autonomous UAVs based on weighted fuzzy petri nets

Yanying Tan, Ming Tong, Yanning Zhang, Xiaoping Zhu

School of Computer Science

Research output: Contribution to journal › Article › peer-review

Abstract

This paper is dealt with autonomous reasoning and decision-making for unmanned aerial vehicles (UAVs) executing the search and attack mission. There exists the fact in the above reasoning envision that each input proposition does different contribution to the conclusion of the rule, and so the formalized reasoning method based on weighted fuzzy Petri nets (WFPN) is studied. The weighted fuzzy production rule set about two UAVs cooperating in search and attack mission is designed. The formalized reasoning method based on WFPN is further improved to adapt to the situation that the output propositions of several rules are the same in the above rule set. Applied the layered strategy, the improved formalized reasoning method is simulated based on the designed rule set. The simulation shows that the reasoning results are reasonable and the dimension of the large reasoning matrix is reduced efficiently.

Original language	English
Pages (from-to)	951-956
Number of pages	6
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	34
Issue number	6
State	Published - 1 Dec 2016

Keywords

Autonomous
Decision making
Formalized reasoning
Layered strategy
Unmanned aerial vehicles (UAVs)
Weighted fuzzy petri nets (WFPN)

Cite this

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title = "Reasoning and decision making for autonomous UAVs based on weighted fuzzy petri nets",

abstract = "This paper is dealt with autonomous reasoning and decision-making for unmanned aerial vehicles (UAVs) executing the search and attack mission. There exists the fact in the above reasoning envision that each input proposition does different contribution to the conclusion of the rule, and so the formalized reasoning method based on weighted fuzzy Petri nets (WFPN) is studied. The weighted fuzzy production rule set about two UAVs cooperating in search and attack mission is designed. The formalized reasoning method based on WFPN is further improved to adapt to the situation that the output propositions of several rules are the same in the above rule set. Applied the layered strategy, the improved formalized reasoning method is simulated based on the designed rule set. The simulation shows that the reasoning results are reasonable and the dimension of the large reasoning matrix is reduced efficiently.",

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AU - Tan, Yanying

AU - Tong, Ming

AU - Zhang, Yanning

AU - Zhu, Xiaoping

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N2 - This paper is dealt with autonomous reasoning and decision-making for unmanned aerial vehicles (UAVs) executing the search and attack mission. There exists the fact in the above reasoning envision that each input proposition does different contribution to the conclusion of the rule, and so the formalized reasoning method based on weighted fuzzy Petri nets (WFPN) is studied. The weighted fuzzy production rule set about two UAVs cooperating in search and attack mission is designed. The formalized reasoning method based on WFPN is further improved to adapt to the situation that the output propositions of several rules are the same in the above rule set. Applied the layered strategy, the improved formalized reasoning method is simulated based on the designed rule set. The simulation shows that the reasoning results are reasonable and the dimension of the large reasoning matrix is reduced efficiently.

AB - This paper is dealt with autonomous reasoning and decision-making for unmanned aerial vehicles (UAVs) executing the search and attack mission. There exists the fact in the above reasoning envision that each input proposition does different contribution to the conclusion of the rule, and so the formalized reasoning method based on weighted fuzzy Petri nets (WFPN) is studied. The weighted fuzzy production rule set about two UAVs cooperating in search and attack mission is designed. The formalized reasoning method based on WFPN is further improved to adapt to the situation that the output propositions of several rules are the same in the above rule set. Applied the layered strategy, the improved formalized reasoning method is simulated based on the designed rule set. The simulation shows that the reasoning results are reasonable and the dimension of the large reasoning matrix is reduced efficiently.

KW - Autonomous

KW - Decision making

KW - Formalized reasoning

KW - Layered strategy

KW - Unmanned aerial vehicles (UAVs)

KW - Weighted fuzzy petri nets (WFPN)

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Reasoning and decision making for autonomous UAVs based on weighted fuzzy petri nets

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Keywords

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