Martijn Ijtsma

1971 Neil Ave
ColumbusOH 43210-1210

ijtsma.1@osu.edu

See my personal website for more information

 


About

Ph.D. Aerospace Engineering, Georgia Institute of Technology, 2019

M.Sc. Aerospace Engineering, Delft University of Technology, The Netherlands, 2016

B.Sc. Aerospace Engineering, Delft University of Technology, The Netherlands, 2013

Dr. Martijn IJtsma is an assistant professor in the Department of Integrated Systems Engineering at the Ohio State University. He received a BSc and MSc in aerospace engineering from the Delft University of Technology, The Netherlands, and a Ph.D. degree in aerospace engineering from the Georgia Institute of Technology. Martijn’s research interests include modeling of human-automation/robot teaming, designing for adaptation and coordination in complex work systems, and cognitive systems engineering.


Chapters

2019

  • 2019. “Analysis of Work Dynamics for Objective Function Allocation in Manned Spaceflight Operations.” In Improving Aviation Performance through Applying Engineering Psychology: Advances in Aviation Psychology, edited by Vidulich, M.; Tsang, P.,

Journal Articles

2019

  • IJtsma, M.; Ma, L.M.; Pritchett, A.R.; Feigh, K.M.2019, “Computational Methodology for the Allocation of Work and Interaction in Human-Robot Teams.” Journal of Cognitive Engineering and Decision Making 13, no. 4221-241 – 221-241

2016

  • Pritchett, A.R.; Bhattacharyya, R.P.; IJtsma, M.2016, “Computational Assessment of Authority and Responsibility in Air Traffic Concepts of Operation.” Journal of Air Transportation 24, no. 393-101 – 93-101

Papers in Proceedings

2021

  • Barrett, E.; IJtsma, M.I. “Modeling Contingency Management in Unmanned Air Traffic Management.” in International Symposium on Aviation Psychology. (5 2021). 

2020

  • Ma, L.; Ye, S.; Ijtsma, M.; Feigh, K. et al. “An experimental refinement of computational models of human-robot teams.” (1 2020). 

2019

  • Ijtsma, M.; Lassiter, W.; Feigh, K.M.; Savelsbergh, M. et al. “An Integrated System for Mixed-Initiative Planning of Manned Spaceflight Operations.” (3 2019). 
  • IJtsma, M.I.; Ye, S.; Feigh, K.; Pritchett, A. “Simulating Human-Robot Teamwork Dynamics for Evaluation of Work Strategies in Human-Robot Teams.” in International Symposium on Aviation Psychology. (5 2019). 

2018

  • Ijtsma, M.; Ma, L.M.; Feigh, K.M.; Pritchett, A.R. “Demonstration of the “work Models that Compute” Simulation Framework for Objective Function Allocation.” (1 2018). 
  • Ma, L.M.; Ijtsma, M.; Feigh, K.M.; Paladugu, A. et al. “Modelling and evaluating failures in human-robot teaming using simulation.” (6 2018). 
  • Baltrusaitis, M.; Feigh, K.; IJtsma, M.I.; Pritchett, A. et al. “Technologies for Mixed-Initiative Plan Management for Human Space Flight.” in The 28th International Conference on Automated Planning and Scheduling. (6 2018). 

2017

  • IJtsma, M.I.; Borst, C.; Mercado-Velasco, G.; Mulder, M. et al. “Adaptive Automation Based on Air Traffic Controller Decision-Making.” in 19th International Symposium on Aviation Psychology. (5 2017). 
  • IJtsma, M.I.; Ma, L.; Pritchett, A.; Feigh, K. “Work Dynamics of Task Work and Teamwork in Function Allocation for Manned Spaceflight Operations.” in 19th International Symposium on Aviation Psychology. (5 2017). 
  • IJtsma, M.I.; Lanssie, M.; Pritchett, A.; Feigh, K. “Modeling Human-Robot Interaction to Inform Function Allocation in Manned Spaceflight Operations.” in Robotics: Science and Systems, Workshop: Bridging the Gap in Space Robotics. (7 2017). 

2015

  • IJtsma, M.; Hoekstra, J.; Bhattacharyya, R.P.; Pritchett, A. “Computational assessment of different air-ground function allocations.” (1 2015). 
  • IJtsma, M.I.; Bhattacharyya, R.; Pritchett, A. “Computational Simulation of Authority-Responsibility Mismatches in Air-Ground Function Allocation.” in 18th International Symposium on Aviation Psychology. (5 2015). 

Unknown

  • Albert, K.; IJtsma, M.I. “Modeling the Effects of Machine Rigidities on Joint Work Strategies.” 
  • Keller, J.; IJtsma, M.I. “Requirements for Computational Approaches to Evaluating Resilience in Human-Machine Teams.” 
  • Barrett, E.; IJtsma, M.I. “Modeling Contingency Management in Unmanned Air Traffic Management.” 

Research Projects

NSF CAREER: Making Robots More Cooperative Agents: Controlling Costs of Coordination Through Graph-Based Models of Joint Activity

Contextual Human-Robot Collaboration in Dynamic and Unstructured Environment

FAA: Reliance on Automated or Complex Flight Deck Systems in Commercial Aircraft

Contingency Planning Toolkit for Advanced Air Mobility (AAM)

Contingency Management in UAS Traffic Management

Advanced Air Mobility

Rapid Mission Planning For Disaster Response