The course introduces the principles of dynamic system modeling, analysis, and feedback control design with extensive, hands-on computer simulation. Modeling and analysis of dynamic systems. Description of interconnected systems via transfer functions and block/signal-flow diagrams. System response characterization as transient and steady-state responses and error considerations. Stability of dynamical systems: Routh-Hurwitz criterion. Controller design using root-locus and Bode-diagrams (frequency domain). Introduction to modern state-space controller designs. Computer-aided feedback control design for mechanical, aerospace, robotic, thermo-fluid, and other electrical systems.
Engineering (Undergraduate) 4 credits - 15 Weeks
Sections (Fall 2025)
ENGR-UH 4610-000 (13268)08/25/2025 - 12/10/2025 Tue,Thu12:00 AM - 2:00 PM (Early afternoon)at Abu DhabiInstructed by Tzes, Anthony
ENGR-UH 4610-000 (13265)08/25/2025 - 12/10/2025 Fri2:00 PM - 5:00 PM (Early afternoon)at Abu DhabiInstructed by Avdeev, Alexander
NYU Department: Fall 2025, IMA Major Electives, Physical Computing & Experimental Interfaces (Old Structure), Undergraduate
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