Space and Naval Warfare Systems Center, San Diego (SSC San Diego) has developed an unmanned vehicle and sensor operator control interface capable of simultaneously controlling and monitoring multiple sets of heterogeneous systems. The modularity, scalability and flexible user interface of the Multi- robot Operator Control Unit (MOCU) accommodates a wide range of vehicles and sensors in varying mission scenarios. MOCU currently controls all of the SSC San Diego developmental vehicles (land, air, sea, and undersea), including the SPARTAN Advanced Concept Technology Demonstration (ACTD) Unmanned Surface Vehicle (USV), the iRobot PackBot, and the Family of Integrated Rapid Response Equipment (FIRRE) vehicles and sensors. This paper will discuss how software and hardware modularity has allowed SSC San Diego to create a single operator control unit (OCU) with the capability to control a wide variety of unmanned systems.
Multi-Robot Operator Control Unit
2006
9 pages
Report
Keine Angabe
Englisch
Computer Software , Quality Control & Reliability , Human Factors Engineering , Bionics & Artificial Intelligence , Computer programs , Control systems , Robots , Man machine systems , Vehicles , Scenarios , Detectors , Interfaces , Missions , Ground vehicles , Heterogeneity , Operators(Personnel) , Range(Extremes) , Naval warfare , User needs , Unmanned , Modular construction , Navy , Monitoring , Quick reaction , Integrated systems , Multi-robot operator control unit , Mocu(Multi-robot operator control unit)
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