Article Title,Year,Volume,Issue,Page Range,Author
A Bayesian Recognitional Decision Model,2009,3,2,111-130,Mueller
Augmenting Context-Dependent Memory,2007,1,4,391-404,Stefanucci
Capturing the Context of Use to Inform System Design,2008,2,3,181-203,Muller
Cognitive Engineering in Radiation Screening for Homeland Security,2008,2,3,204-219,Parasuraman
Cognitive Task Analysis for Developing Unmanned Aerial Vehicle Wilderness Search Support,2009,3,1,1-26,Adams
Effects of Automatic Detection on Dynamic Decision Making,2008,2,4,328-348,Gonzalez
How Anomaly Response Is Distributed Across Functionally Distinct Teams in Space Shuttle Mission Control,2007,1,4,405-433,Woods
Immediacy Trust and Remote Command and Control,2008,2,2,105-117,Smith
Interaction-Based Measures of Cognitive Systems,2009,3,1,27-46,Cooke
Polychronicity and Information Acquisition in Pilot Decision Making,2008,2,2,89-104,Harris
Shooting Decisions by Police Firearms Officers,2007,1,4,375-390,Flin
Situation Awareness and the Decision-Making Process in a Dynamic Situation: Avoiding Collisions at Sea,2008,2,1,1-23,Chauvin
Situation Awareness Mental Workload and Trust in Automation: Viable Empirically Supported Cognitive Engineering Constructs,2008,2,2,140-160,Parasuraman
Staying Up to Speed: Four Design Principles for Maintaining and Recovering Situation Awareness,2008,2,2,118-139,St. John
The Effect of Uncertainty Visualizations on Decision Making in Weather Forecasting,2008,2,1,24-47,Nadav-Greenberg
The Impact of Time Pressure and Experience on Information Search and Decision-Making Processes,2008,2,4,275-294,Khoo
Visual Representations of Meta-Information,2009,3,1,67-91,Bisantz
Augmented Multisensory Interface Design (AMID): A Human-Centric Approach to Unisensory and Multisensory Augmented Reality Design,2009,3,4,362-388,Stone
Epistemological Self-Confidence in Human Factors Research,2010,4,1,27-38,Dekker
Exploring the Concept of Team Situation Awareness in a Simulated Air Combat Environment,2009,3,4,309-330,Wickens
Measuring and Predicting Shared Situation Awareness in Teams,2009,3,3,280-308,Gonzalez
Modeling Work for Cognitive Work Support System Design in Operational Control Centers,2010,4,1,1-26,Pritchett
On the Measurement of Situation Awareness for Effective Human-Robot Interaction in Teleoperated Systems,2010,4,1,69-98,Gatsoulis
System Dynamics Modeling of the Time Course of the Recognition-Primed Decision Model,2009,3,3,253-279,Winterbottom
Training Robust Decision Making in Immersive Environments,2009,3,4,331-361,Bell
Uncertainty Forecasts Improve Decision Making Among Nonexperts,2009,3,3,209-227,Nadav-Greenberg
What Is a Good Plan? Cultural Variations in Expert Planners'Concepts of Plan Quality,2009,3,3,228-252,Rasmussen
Measuring relative cue strength as a means of validating an inventory of expert offender profiling cues,2012,7,2,211-226,Wiggins
Military cognitive readiness at the operational and strategic levels: a theoretical model for measurement development,2012,6,4,358-392,Grier
Support requirements for cognitive readiness in complex operations,2012,6,4,393-426,Ducharme
The effect of information analysis automation display content on human judgment performance in noisy environments,2013,7,1,49-65,Bass
Using eye-based psychophysiological cues to enhance screener vigilance,2013,7,1,83-95,Langhals
Human-systems integration design process of the air traffic control tower flight data manager,2012,7,3,273-292,Reynolds
Automation task and context features impacts on pilots' judgments of human-automation interaction,2013,7,4,377-399,Mosier
Integration of cognitive task analysis and design thinking for autonomous helicopter displays,2015,9,4,283-294,Papautsky
Probabilistic graphical modeling of terrorism threat recognition using Bayesian networks and Monte Carlo simulation,2015,9,4,295-311,Regens
Divergence between flight crew mental model and aircraft system state in auto-throttle mode confusion accident and incident cases,2015,9,4,312-328,Hansman
Information search and decision making in computer-based wildfire simulations,2015,9,3,229-240,Drews
Cultural practices and cognition in debriefing the case of aviation,2015,9,3,263-278,Roth
Situation awareness misconceptions and misunderstandings,2015,9,1,4-32,Endsley
A situated approach to the understanding of dynamic situations,2015,9,1,33-43,Strybel
The divergence of objective and subjective situation awareness: a meta-analysis,2020,14,1,34-53,Endsley
Calibrating trust in automation through familiarity with the autoparking feature of a Tesla Model X,2019,13,4,279-294,Finomore
On the bridges: insight into the current and future use of automated systems as seen by Royal Navy personnel,2019,13,3,127-145,Alison
What do we tell the drivers? Toward minimum driver training standards for partially automated cars,2019,13,2,55-66,Casner
Flying off the handle: affective influences on decision making and action tendencies in real-world aircraft maintenance engineering scenarios,2019,13,2,81-101,Naweed
Situation awareness in aircraft ground handling: the impact of auditory and visual notification cues,2019,13,2,102-122,Nadj
Cognitive processes of the construction engineer: planning and decision making in production and safety,2019,13,1,30-46,Fonseca
Where failures may occur in automated driving: a fault tree analysis approach,2022,ePub,ePub,ePub,Chen
Drivers' understanding of artificial intelligence in automated driving systems: a study of a malicious stop sign,2022,16,4,237-251,Hu
Exploring the relationship between ethics and trust in human-artificial intelligence teaming: a mixed methods approach,2022,16,4,252-281,Zhang
Understanding human decision processes: inferring decision strategies from behavioral data,2022,16,4,301-325,Feigh
Perceptual-cognitive expertise in law enforcement: an object-identification task,2022,16,3,157-176,Suss
Using human-machine interfaces to convey feedback in automated driving,2022,16,1,29-42,McGehee
Modeling the process by which people try to explain complex things to others,2021,15,4,213-232,Klein
Levels of what? Investigating drivers' understanding of different levels of automation in vehicles,2021,15,2-3,116-132,Strömberg
Addressing driver disengagement and proper system use: human factors recommendations for level 2 driving automation design,2021,15,1,3-27,Reagan
Teaming with your car: redefining the driver-automation relationship in highly automated vehicles,2023,17,1,49-74,Lee
Impact of transparency and explanations on trust and situation awareness in human-robot teams,2023,17,1,75-93,Chiou