POWER QUALITY IMPROVEMENT OF THE CUSTOM POWER
... POWER DEVICE WITH PROTECTION OF INVERTER FROM SHORT CIRCUIT FAULT ABSTRACT This paper presents a new synchronous reference frame (SRF)-based control method to compensate power-quality (PQ) problems through a three-phase four wire unified PQ conditioner (UPQC) under unbalanced and distorted load cond ...
... POWER DEVICE WITH PROTECTION OF INVERTER FROM SHORT CIRCUIT FAULT ABSTRACT This paper presents a new synchronous reference frame (SRF)-based control method to compensate power-quality (PQ) problems through a three-phase four wire unified PQ conditioner (UPQC) under unbalanced and distorted load cond ...
B.Eng. Mechatronic Engineering
... create intelligent machines. The degree, which is taught jointly by the Schools of Mechanical & Manufacturing and Electronic Engineering, produces graduates with ability to create the interface between the mechanical, electronic and software elements of systems and devices e.g. automobile control sy ...
... create intelligent machines. The degree, which is taught jointly by the Schools of Mechanical & Manufacturing and Electronic Engineering, produces graduates with ability to create the interface between the mechanical, electronic and software elements of systems and devices e.g. automobile control sy ...
Distributed Signatures: A Policy Switching Approach to the
... Distributed Signatures: A Policy Switching Approach to the Coordination of Protection Schemes Eduardo Cotilla-Sanchez, Assistant Professor, Oregon State University Abstract: In recent years there have been many improvements in the reliability of critical infrastructure systems. Despite these improve ...
... Distributed Signatures: A Policy Switching Approach to the Coordination of Protection Schemes Eduardo Cotilla-Sanchez, Assistant Professor, Oregon State University Abstract: In recent years there have been many improvements in the reliability of critical infrastructure systems. Despite these improve ...
Wassim Michael Haddad
Wassim Michael Haddad (born July 14, 1961) is a Lebanese-Greek-American applied mathematician, scientist, and engineer, with research specialization in the areas of dynamical systems and control. His research has led to fundamental breakthroughs in applied mathematics, thermodynamics, stability theory, robust control, dynamical system theory, and neuroscience. Professor Haddad is a member of the faculty of the School of Aerospace Engineering at Georgia Institute of Technology, where he holds the rank of Professor and Chair of the Flight Mechanics and Control Discipline. Dr. Haddad is a member of the Academy of Nonlinear Sciences for recognition of paramount contributions to the fields of nonlinear stability theory, nonlinear dynamical systems, and nonlinear control and an IEEE Fellow for contributions to robust, nonlinear, and hybrid control systems.