ELECTRICAL ENGINEERING / 143 EE 514-AUTOMATIC SPEECH PROCESSING. 3 credits EE 516-CYBERNETICS. 5 credits EE 522-TRANSISTOR ELECTRONICS. 3 credits EE 523-TRANSISTOR ELECTRONICS LABORATORY. 1 credit EE 524-PULSE CIRCUITS LABORATORY. 1 credit EE 525-PULSE CIRCUITS. 3 credits EE 526-APPLICATIONS OF PULSE CIRCUITS. 3 credits EE 527-INTEGRATED CIRCUITS. 4 credits EE 528-PHYSICAL ELECTRONICS FOR ENGINEERS 1. 4 credits EE 529-PHYSICAL ELECTRONICS FOR ENGINEERS 2. 4 credits EE 533-COMPUTATIONAL TECHNIQUES FOR CIRCUIT ANALYSIS. 4 credits EE 551-ANTENNA SYSTEMS. 3 credits EE 555-MICROWAVE LABORATORY. 1 credit EE 556-MICROWAVE TECHNIQUES. 4 credits EE 558-APPLICATIONS OF MAGNETISM. 3 credits EE 561-DIGITAL COMPUTER PRINCIPLES 1. 4 credits EE 562-DIGITAL COMPUTER PRINCIPLES 2. 4 credits EE 563-DIGITAL COMPUTER PRINCIPLES 3. 4 credits EE 564-PRINCIPLES OF SOFTWARE SYSTEMS. 4 credits EE 565-PRINCIPLES OF INFORMATION SCIENCE. 3 credits EE 570-CONTROL SYSTEM THEORY AND PRACTICE. 4 credits EE 571-SYNTHESIS OF LINEAR CONTROLS. 3 credits EE 581-ELECTRIC ENERGY SYSTEM INSTRUMENTATION. 3 credits EE 591-SPECIAL TOPICS IN ELECTRICAL ENGINEERING 1. 1 to 4 credits Maximum 12 credits including EE 592. EE 592-SPECIAL TOPICS IN ELECTRICAL ENGINEERING 2. 1 to 4 credits Maximum 12 credits including EE 591. GRADUATE COURSES EE 600-ELEMENTS OF LINEAR SYSTEMS. 3 credits Prerequisite: MS 503 or consent of instructor. Properties of systems. Convolu- tion and transform theory for continuous and discrete-time signals in linear systems. EE 601-ADVANCED SYSTEM THEORY 1. 4 credits Matrix theory required for the study of complex linearized dynamic systems and electric networks; stability theory; illustrative examples. EE 602-ADVANCED SYSTEM THEORY 2. 3 credits Prerequisite: EE 601. Further application of matrix methods to dynamic systems and electric networks; extension to discrete, nonlinear, and non-stationary systems. Markov processes. EE 611-PHYSICAL OPTICS FOR ENGINEERS. 3 credits Identical with ASE 621. Physical optics, spread and transfer functions, effects of spectrum limitations, noise, lens design specifications, optimization of lens systems. EE 613-QUANTUM ELECTRO-OPTICS 1. 3 credits Prerequisite: PS 541. Stimulated emission processes from a quantum theory viewpoint. Dipole transitions, resonant processes, and lasers. EE 614-QUANTUM ELECTRO-OPTICS 2. 3 credits Prerequisite: EE 613. Electro-optical devices from a quantum theory view- point. Nonlinear effects in quantized media; applications.