Add to ORKGIn this paper, we aim to develop a simulation platform and maneuver selection methodology for two-vs-one air combats. It consists of the aircraft performance model, aerial combat maneuvers and game theoretical decision strategy. The performance parameters of F-16 are used to implement the aircraft dynamics. The hybrid system theory underlies the modeling methodology of the aerial combat maneuvers, which are the possible options of combatants. The decision strategy is derived from security policy approach in game theory using some metrics that present the air superiority. The definitions of these metrics and evaluation strategy are presented. The verification of the models and developed decision processes are given through the simulation
Games Theory is used to model conflict scenarios where two or more players compete to achieve a pred...
The main objective of this work is to perform a study of the utility of unmanned combat aerial vehic...
SIGLETIB: RO 2656 (108-86PUB)ME / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Inform...
AbstractCoordinated mission decision-making is one of the core steps to effectively exploit the capa...
With the development of integrated technology and equipment systems, decision-making support has bee...
AbstractStrategies for unmanned air combat simulation are usually constructed by synthesizing contro...
To date, increased levels of maneuverability and controllability in aircraft have been postulated as...
In this paper, a model for maneuver decisions in air combat is established based on position situati...
The investigation is motivated by the dynamic conflict in an air-to-air combat between two aggressiv...
Abstract. Mission decision-making is one of the most important techniques for cooperative combat of ...
This paper presents a theoretical determination of air and anti-air operations as a symbiotic unity ...
In the modern realities of the development of the Armed Forces of Ukraine, the current issue is the ...
Abstract: The thesis concerns the analysis and synthesis of pilot decision-making and the design of ...
AbstractA general framework for the utilization of large numbers of optimal pursuit-evasion algorith...
We overview methodologies to optimise an aircraft trajectory in a two-player close air combat scenar...
Games Theory is used to model conflict scenarios where two or more players compete to achieve a pred...
The main objective of this work is to perform a study of the utility of unmanned combat aerial vehic...
SIGLETIB: RO 2656 (108-86PUB)ME / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Inform...
AbstractCoordinated mission decision-making is one of the core steps to effectively exploit the capa...
With the development of integrated technology and equipment systems, decision-making support has bee...
AbstractStrategies for unmanned air combat simulation are usually constructed by synthesizing contro...
To date, increased levels of maneuverability and controllability in aircraft have been postulated as...
In this paper, a model for maneuver decisions in air combat is established based on position situati...
The investigation is motivated by the dynamic conflict in an air-to-air combat between two aggressiv...
Abstract. Mission decision-making is one of the most important techniques for cooperative combat of ...
This paper presents a theoretical determination of air and anti-air operations as a symbiotic unity ...
In the modern realities of the development of the Armed Forces of Ukraine, the current issue is the ...
Abstract: The thesis concerns the analysis and synthesis of pilot decision-making and the design of ...
AbstractA general framework for the utilization of large numbers of optimal pursuit-evasion algorith...
We overview methodologies to optimise an aircraft trajectory in a two-player close air combat scenar...
Games Theory is used to model conflict scenarios where two or more players compete to achieve a pred...
The main objective of this work is to perform a study of the utility of unmanned combat aerial vehic...
SIGLETIB: RO 2656 (108-86PUB)ME / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Inform...