ASPI Related Courses Complete List

For students interested in exploring topics related to autonomous systems policy, the following courses at Syracuse University are offered periodically.

To find out when the following  might be offered next, please check with the Department or MySlice.

Undergraduate

  • EAR 479/GEO 479: Introduction to Unmanned Aerial Vehicles: Research & Applications
  • CIS467: Introduction to Artificial Intelligence
  • CIS 543/ELE 516: Control of Robots
  • GET 235: Leveraging Emerging Technologies
  • HNR 360: Working in the Digital Economy or My boss is a bot and all my coworkers are, too
  • IDS 401: What's the Big Idea: Technology Innovation
  • IST343: Data in Society
  • PAI 400:  Ethics of Emerging Technology
  • PAF 410.5: Smart Cities
  • PSY 420: Using Robots to Understand the Mind
  • WRT 426: Rhetoric and Robots 
  • MAE 321: Dynamics of Mechanical Systems
  • MAE 322: Control Systems for MAE
  • MAE 427: Aircraft Performance and Dynamics
  • MAE 457: Automotive Engineering for ECS Students

Graduate

  • CIS 543/ELE 516: Control of Robots
  • CIS 563: Introduction to Data Science
  • CIS 667/CSE 684: Introduction to Artificial Intelligence
  • CIS 787: Analytical Data Mining
  • EAR 679/GEO 679: Introduction to Unmanned Aerial Vehicles: Research & Applications
  • ECN 776/PAI 776: Economics of Science and Technology
  • IST664/CIS 668:Natural Language Processing
  • IST 700: Deep Learning, NLP and Computational Social Science
  • LAW 792: Privacy Law
  • LAW 815: Technology Commercialization Research Center
  • LAW 844, Emerging Technologies and Global Security
  • LAW 868: Smart Grid: Sec. Prov. & Ecn
  • MFE 735: Artificial Intelligence in Manufacturing Systems
  • PAI 730:  Ethics of Emerging Technology  
  • PAI 730:  Ethics of Big Data  
  • PAI 730:  Technological Innovation in the Public Sector 
  • PAI 771: Technology Development and Policy  
  • PSY 620: Using Robots to Understand the Mind
  • MAE 527: Helicopter Dynamics (relevant for rotorcraft aerial vehicles)
  • MAE 530: Introduction to Design Optimization
  • AEE 577: Introduction to Space Flight
  • MAE 628: Linear Control Systems 
  • AEE 630: Spacecraft Dynamics and Controls 
  • MEE 725: Advanced Engineering Dynamics
  • MAE 728: Geometric and Optimal Control