Learn to apply control systems in automotive, energy, aerospace, robotics, and manufacturing sectors. Apply feedback control laws to stabilize systems and achieve performance goals. Control systems ...

Advances in linear motors and hybrid actuators are pushing motion systems toward higher precision, speed and efficiency. A ...

Inclusion Principle for Linear Time-Varying Systems, SIAM Journal on Control and Optimization, 42 (2003), 321-341 (with S. S. Stankovic). Stabilization of Nonlinear Systems With Moving Equilibria, ...

Among these applications is a linear actuator used in a throttle control system designed specifically for harsh environments. This particular linear actuator is used to control the power to a cement ...

How linear, rotary, reciprocating and oscillating motion are evolving as customization grows and new capabilities emerge.

Fractional control systems with the Caputo derivative are considered. The modified controllability Gramian and the minimum energy optimal control problem are investigated. Construction of minimizing ...

Quantum control of linear stochastic systems encompasses the rigorous study of controlling quantum devices whose dynamics are inherently influenced by random fluctuations. These systems are described ...

A linear rail system uses a precision lead-screw assembly to provide controlled positioning along the axis of a linear slide. The unit comprises a stationary base with a load bearing carriage that ...

Differential equations and systems analysis. Undergraduate controls and/or signal processing course would satisfy this requirement. A graduate-level systems course is also helpful, but not necessary.