With the development of integrated technology and equipment systems, decision-making support has been increasingly applied in equipment research and development, especially in air combat. The development of airborne equipment can significantly improve the confrontation ability of manned fighters. Contribution evaluations restrict decision making in equipment research and development and are important in beyond-visual-range (BVR) air combat, which involves dynamic and uncertain enemy positions. This paper proposes a contribution evaluation model for BVR air combat based on autonomous maneuver decision making; this approach mainly includes a situation evaluation model, a maneuver decision model, and a one-to-one BVR air combat evaluation mode...
To solve the maneuvering decision problem in air combat of unmanned combat aircraft vehicles (UCAVs)...
To improve the accuracy and real-time performance of autonomous decision-making by the unmanned comb...
The thesis concerns the analysis and synthesis of pilot decision-making and the design of optimal fl...
Abstract: The thesis concerns the analysis and synthesis of pilot decision-making and the design of ...
We simulate and analyze pilot decision making in one-on-one air combat using an influence diagram. U...
To date, increased levels of maneuverability and controllability in aircraft have been postulated as...
To solve the problems of autonomous decision making and the cooperative operation of multiple unmann...
Maneuver decision-making is the core of autonomous air combat, and reinforcement learning is a poten...
In this paper, we aim to develop a simulation platform and maneuver selection methodology for two-vs...
Conference Name:11th IEEE International Conference on Control and Automation, IEEE ICCA 2014. Confer...
Modern fighter aircraft are equipped with Beyond Visual Range (BVR) missiles that can be fired at th...
Fighter pilots operate in environments where an erroneous decision may have fatal consequences. A ta...
In the modern realities of the development of the Armed Forces of Ukraine, the current issue is the ...
Beyond Visual Range (BVR) air combat is a future trend of war tactic. In this situation, a fighter c...
Abstract—The purpose of this paper is to develop an intelligent maneuvering decision system (IMDS) f...
To solve the maneuvering decision problem in air combat of unmanned combat aircraft vehicles (UCAVs)...
To improve the accuracy and real-time performance of autonomous decision-making by the unmanned comb...
The thesis concerns the analysis and synthesis of pilot decision-making and the design of optimal fl...
Abstract: The thesis concerns the analysis and synthesis of pilot decision-making and the design of ...
We simulate and analyze pilot decision making in one-on-one air combat using an influence diagram. U...
To date, increased levels of maneuverability and controllability in aircraft have been postulated as...
To solve the problems of autonomous decision making and the cooperative operation of multiple unmann...
Maneuver decision-making is the core of autonomous air combat, and reinforcement learning is a poten...
In this paper, we aim to develop a simulation platform and maneuver selection methodology for two-vs...
Conference Name:11th IEEE International Conference on Control and Automation, IEEE ICCA 2014. Confer...
Modern fighter aircraft are equipped with Beyond Visual Range (BVR) missiles that can be fired at th...
Fighter pilots operate in environments where an erroneous decision may have fatal consequences. A ta...
In the modern realities of the development of the Armed Forces of Ukraine, the current issue is the ...
Beyond Visual Range (BVR) air combat is a future trend of war tactic. In this situation, a fighter c...
Abstract—The purpose of this paper is to develop an intelligent maneuvering decision system (IMDS) f...
To solve the maneuvering decision problem in air combat of unmanned combat aircraft vehicles (UCAVs)...
To improve the accuracy and real-time performance of autonomous decision-making by the unmanned comb...
The thesis concerns the analysis and synthesis of pilot decision-making and the design of optimal fl...