Accession Number : AD1021748


Title :   Evaluation of Physiologically-Based Artificial Neural Network Models to Detect Operator Workload in Remotely Piloted Aircraft Operations


Descriptive Note : Technical Report,01 Aug 2015,08 Jul 2016


Corporate Author : Oak Ridge Institute for Science and Education Belcamp United States


Personal Author(s) : Hoepf,Michael ; Middendorf,Matt ; Mead,Jonathan ; Gruenwald,Christina ; Credlebaugh,Chelsey ; Middendorf,Paul ; Galster,Scott


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/1021748.pdf


Report Date : 13 Jul 2016


Pagination or Media Count : 51


Abstract : The current research focuses on preventing performance decrements associated with mental overload during remotely piloted aircraft (RPA) operations. This can be accomplished using physiological signals to sense moments of high cognitive workload and providing augmentation to reduce workload and improve performance. Two RPA operators were interviewed to identify factors that impact workload in RPA, surveillance and target tracking missions. Performance, subjective workload, cortical, cardiac, respiration, voice stress, and ocular data were collected. Several physiological measures were sensitive to changes in workload as evidenced by performance and subjective workload data. In addition, several real-time workload models were evaluated. Potential future applications of this research include closed loop systems that employ advanced augmentation strategies, such as adaptive automation. By identifying physiological measures well suited for monitoring workload in a realistic simulation, this research advances the literature toward real-time workload mitigation in RPA field operations.


Descriptors :   cognitive workload , unmanned aerial vehicles , pilots , OPERATORS (PERSONNEL) , PHYSIOLOGICAL PHENOMENA , surveillance , target tracking , artificial neural networks , ANALYSIS OF VARIANCE , human factors engineering


Distribution Statement : APPROVED FOR PUBLIC RELEASE