This paper discusses the details of Paladin's situation assessment and modes of operation. The results of simulation testing showing the error introduced into the situation assessment module due to estimation errors in positional and geometric data for the opponent aircraft are presented. Implementation issues for real--time performance are discussed and several solutions are presented, including Paladin's use of an inference engine designed for real--time execution
The U.S. military uses modeling and simulation as a tool to help meet its warfighting needs. A key e...
A research program investigating the use of artificial intelligence (AI) techniques to aid in the de...
Semiautomatic approaches are developed for wide area situation assessment in near-real-time. The two...
To date, increased levels of maneuverability and controllability in aircraft have been postulated as...
A real-time tactical decision generation system for air combat engagements, Paladin, has been develo...
The Information Fusion Panel within The Technical Cooperation Program (TTCP) is developing algorithm...
Fighter pilots operate in environments where an erroneous decision may have fatal consequences. A ta...
The Situation Assessment Support System (SASS) seeks to demonstrate s knowledge-based subsystem that...
Abstract For situation assessment in air combat, there may be incomplete information because of new ...
A research program investigating the use of Artificial Intelligence (AI) techniques to aid in the de...
Military conflict is one of the types of conflict situations. The automation of simulated battlefiel...
In this paper we describe two situation recognition systems that have been developed for a flight si...
A research program investigating the use of Artificial Intelligence (AI) techniques to aid in the de...
Future conflicts may involve composite striker packages composed of manned and unmanned air vehicles...
ABSTRACT: Military simulations lack algorithms that adequately describe the cognitive decision proce...
The U.S. military uses modeling and simulation as a tool to help meet its warfighting needs. A key e...
A research program investigating the use of artificial intelligence (AI) techniques to aid in the de...
Semiautomatic approaches are developed for wide area situation assessment in near-real-time. The two...
To date, increased levels of maneuverability and controllability in aircraft have been postulated as...
A real-time tactical decision generation system for air combat engagements, Paladin, has been develo...
The Information Fusion Panel within The Technical Cooperation Program (TTCP) is developing algorithm...
Fighter pilots operate in environments where an erroneous decision may have fatal consequences. A ta...
The Situation Assessment Support System (SASS) seeks to demonstrate s knowledge-based subsystem that...
Abstract For situation assessment in air combat, there may be incomplete information because of new ...
A research program investigating the use of Artificial Intelligence (AI) techniques to aid in the de...
Military conflict is one of the types of conflict situations. The automation of simulated battlefiel...
In this paper we describe two situation recognition systems that have been developed for a flight si...
A research program investigating the use of Artificial Intelligence (AI) techniques to aid in the de...
Future conflicts may involve composite striker packages composed of manned and unmanned air vehicles...
ABSTRACT: Military simulations lack algorithms that adequately describe the cognitive decision proce...
The U.S. military uses modeling and simulation as a tool to help meet its warfighting needs. A key e...
A research program investigating the use of artificial intelligence (AI) techniques to aid in the de...
Semiautomatic approaches are developed for wide area situation assessment in near-real-time. The two...