- PICARD PRINCIPAL DEFINITION HOW TO
- PICARD PRINCIPAL DEFINITION SOFTWARE
- PICARD PRINCIPAL DEFINITION SERIES
Myers III, P.L.: Commercial aircraft electronic checklists: benefits and challenges (literature review). The Ohio State University Columbus (1991) In: Proceedings of the Sixth Symposium on Aviation Psychology, pp. Palmer, E., Degani, A.: Electronic checklists: evaluation of two levels of automation. Pélegrin, C.: The never-ending story of proceduralization in aviation. Ĭox, Z., Pfautz, J.: Causal influence models: a method for simplifying construction of bayesian networks. University of California, Berkeley (2002). Murphy, K.P.: Dynamic Bayesian Networks: Representation, Inference and Learning (Dissertation).
PICARD PRINCIPAL DEFINITION SOFTWARE
Ĭao, A., Chintamani, K.K., Pandya, A.K., Ellis, R.D.: NASA TLX: software for assessing subjective mental workload.
PICARD PRINCIPAL DEFINITION HOW TO
Scholkmann, F., Spichtig, S., Muehlemann, T., Wolf, M.: How to detect and reduce movement artifacts in near-infrared imaging using moving standard deviation and spline interpolation.
PICARD PRINCIPAL DEFINITION SERIES
Metz, A.J., Wolf, M., Achermann, P., Scholkmann, F.: A new approach for automatic removal of movement artifacts in near-infrared spectroscopy time series by means of acceleration data. Molavi, B., Dumont, G.A.: Wavelet-based motion artifact removal for functional near-infrared spectroscopy. īracken, B.K., Elkin-Frankston, S., Palmon, N., Farry, M., de B Frederick, B.: A system to monitor cognitive workload in naturalistic high-motion environments (2017)īracken, B.K., Palmon, N., Elkin-Frankston, S., Silva, F.: Portable, Durable, Rugged, Functional Near-Infrared Spectroscopy (fNIRS) Sensor, February 2018 Directing the Future of Adaptive Systems, vol. (eds.) Foundations of Augmented Cognition. īunce, S.C., et al.: Implementation of fNIRS for monitoring levels of expertise and mental workload. Īyaz, H., Shewokis, P.A., Bunce, S., Izzetoglu, K., Willems, B., Onaral, B.: Optical brain monitoring for operator training and mental workload assessment. įerrari, M., Quaresima, V.: A brief review on the history of human functional near-infrared spectroscopy (fNIRS) development and fields of application. Army Research Lab Aberdeen Proving Ground MD Human Research and Engineering Directorate (2009)īoas, D.A., Elwell, C.E., Ferrari, M., Taga, G.: Twenty years of functional near-infrared spectroscopy: introduction for the special issue. Kerick, S.E., Oie, K.S., McDowell, K.: Assessment of EEG signal quality in motion environments. Functional near infrared spectroscopy (fNIRS).Therefore, it is critically important to continue to test and mature tools for unobtrusive measures of human performance like CAPT PICARD. A future vision for real-time, unobtrusive measurement of workload is also to use it in an operational spaceflight environment. Real-time workload data could provide the inputs needed to drive future adaptive displays, (e.g., if an astronaut is experiencing high cognitive workload, this data could cue an option for simplified displays). When issues are identified early, redesigns are more feasible and less costly. The value of workload assessment during developmental testing of a new system is that it allows for early identification of features and designs that result in high workload. The overall results for SA and cognitive workload were mixed however, the CAPT PICARD workload and eye tracking measures (both real-time physiological measures), showed congruous results. This real-time workload tool was validated against the Bedford workload rating scale in this NASA operational study. To allow quantitative, continuous, and objective assessment of cognitive workload, Charles River Analytics designed a system for Cognitive Assessment and Prediction to Promote Individualized Capability Augmentation and Reduce Decrement (CAPT PICARD). It was hypothesized that as the level of integration of system and procedural information increased, situation awareness (SA) and usability would increase, and cognitive workload would decrease. This study validated a physiological workload tool during an investigation of information integration impacts on performance of a NASA electronic procedures task.
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