Title :
Airborne battle management system & autonomous operations UAV autonomy MMIs
Author :
Mersten, Gerald S.
Author_Institution :
NAVAIR, Patuxent River, MD, USA
Abstract :
Both the Airborne Battle Management System (ABMS) Program and the Autonomous Operations (AO) Future Naval Capabilities (FNC) Unmanned Air Vehicles (UAV) Autonomy Program are addressing increased crew multi-tasking and interruptions and are investigating technologies that would enable the Man-Machine Interface (MMI) to support human multi-tasking, help negotiate alerts and interruptions, and promote smooth resumption of interrupted tasks. Our R&D interests in these areas is "how to enhance crew coordination by creating systems that can anticipate coordination breakdowns/overloads and take action to prevent and/or remedy these situations". These actions could be something as simple as a console alert saying "You don\´t need to do this; so-and-so (a biological or silicon unit) has already started this task"
Keywords :
aerospace computing; military aircraft; military computing; remotely operated vehicles; task analysis; user interfaces; airborne battle management system; autonomous operation; crew co-ordination; future naval capability; human multi-tasking; interrupted task; man-machine interface; unmanned air vehicle; Communication system control; Communication system operations and management; Humans; Intelligent sensors; Intelligent vehicles; Payloads; Reconnaissance; Surveillance; Uncertainty; Unmanned aerial vehicles;
Conference_Titel :
Digital Avionics Systems, 2001. DASC. 20th Conference
Conference_Location :
Daytona Beach, FL
Print_ISBN :
0-7803-7034-1
DOI :
10.1109/DASC.2001.963385
