Under reduced manning policies now proposed for U.S. military naval vessels, continuity of on-duty crew alertness may become a major problem. We propose an integrated hardware and software system for fatigue and alertness management of military shipboard personnel, which would involve: (1) continuous, noninvasive monitoring of crew sleep history via wristband activity monitor; (2) dynamic work/rest scheduling software for optimizing crew schedules under changing missions and personnel demands; (3) real time, objective alertness monitoring of on-duty crew in key work stations using electroencephalographic (EEG) signals recorded via noninvasive dry electrodes built into a cap or audio headset. The system would allow commanders to make operational decisions based on objective knowledge of their crew's state of fatigue and alertness, to maximize human-system efficiency and safety.
Proposal for Integrated Shipboard Alertness Management
1996
12 pages
Report
Keine Angabe
Englisch
Anatomy , Physiology , Stress Physiology , Marine Engineering , Shipboard , Sleep deprivation , Electroencephalography , Fatigue(Physiology) , Computer programs , Military personnel , Integrated systems , Policies , Decision making , Fatigue life , Naval vessels , Monitoring , Real time , Moisture content , Reduction , Manpower , Electrodes , Crews , Ship personnel , History , Low level , Work stations , Attention , Alertness management
Alertness management in industry.
NTRS | 1966
|ALERTNESS ASSISTANCE DEVICE AND ALERTNESS ASSISTANCE METHOD
Europäisches Patentamt | 2023
|Alertness Management in Flight Operations
British Library Conference Proceedings | 1994
|ALERTNESS DEVICE, SEAT, AND METHOD FOR DETERMINING ALERTNESS
Europäisches Patentamt | 2016
|ALERTNESS DEVICE, SEAT, AND METHOD FOR DETERMINING ALERTNESS
Europäisches Patentamt | 2019
|