Adjunct Faculty, Online Course, MSHF 652 Crew Platform Automation, Design, and Integration, Design,
- Employer
- Embry-Riddle Aeronautical University
- Location
- Florida, United States
- Salary
- Salary Not Specified
- Posted Date
- Aug 9, 2021
View more
- Position Type
- Faculty Positions, Arts, Design & Graphic Arts, Science, Technology & Mathematics, Engineering, Social & Behavioral Sciences, Human Development & Family Sciences, Psychology
- Employment Level
- Adjunct
- Employment Type
- Full Time
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Job Description
We are currently hiring adjunct faculty to teach MSHF 652 Crew Platform Automation, Design, and Integration.
Course Description
Human performance and other human factors considerations involved in the automation, design, and systems integration of crew platforms are examined. The focus of this examination is on the elements enabling improvements in the efficiency, effectiveness, and safety of operations as related to crew platform function. The impact of normal human cognition and physiology as well as variables in human cognitive and physiological performance and limitations on crew platform design, human interface, automation, integration, human error, and operations in both piloted aircraft and unmanned aerial systems (UAS) are also examined.
Qualifications
Applicant Qualifications
A minimum of a Doctorate degree in discipline is required (please see list of acceptable disciplines below), as well as relevant industry experience from within the last 7 years.
Applicable Professional Certification
Certified Systems Engineering Professional (CSEP)
Degrees Within the Teaching Discipline
We are currently hiring adjunct faculty to teach MSHF 652 Crew Platform Automation, Design, and Integration.
Course Description
Human performance and other human factors considerations involved in the automation, design, and systems integration of crew platforms are examined. The focus of this examination is on the elements enabling improvements in the efficiency, effectiveness, and safety of operations as related to crew platform function. The impact of normal human cognition and physiology as well as variables in human cognitive and physiological performance and limitations on crew platform design, human interface, automation, integration, human error, and operations in both piloted aircraft and unmanned aerial systems (UAS) are also examined.
Qualifications
Applicant Qualifications
A minimum of a Doctorate degree in discipline is required (please see list of acceptable disciplines below), as well as relevant industry experience from within the last 7 years.
Applicable Professional Certification
Certified Systems Engineering Professional (CSEP)
Degrees Within the Teaching Discipline
- Psychology: General / Cognitive
- Aeronautical Engineering: Avionics / Automation / Cockpit Design / Man/Machine Interface
- Biomechanical/Biomedical Engineering
- Human Factors
- Neuroscience
- Neuropsychology
- Medicine: Aerospace / Biomedical
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