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SCIT Catalog <br />EE320 DIGITAL SIGNAL PROCESSING <br />4 UNITS <br />This course is an introduction to DSP <br />concepts and Implementation. It starts <br />by explaining the need for digital signal <br />processing and DSP systems. A <br />complete model of a DSP system is <br />examined from the input transducer, <br />through all the stages including: signal <br />conditioning, anti-aliasing filter, analog - <br />to -digital and digital -to -analog <br />conversion, output smoothing filter, and <br />output transducers. Formerly EL465 <br />when taken with EE320L. <br />EE320L DIGITAL SIGNAL PROCESSING <br />LAB <br />2 UNITS <br />COREQUISITE: EE465 <br />This course is allows students to apply <br />concepts learned in EE320 in a lab <br />setting by utilizing tools such as <br />MATLAB. Formerly EL465 when taken <br />with EE320L. <br />EE362 ADVANCED DIGITAL <br />ELECTRONICS <br />2 UNITS <br />PREREQUISITE: EE160 <br />This course introduces students to <br />system design as it relates to the <br />application of topics Introduced in <br />EE142 and EE160, emphasizing <br />combinational circuits and systems <br />where Verilog HOL is used to simulate, <br />verify and synthesize digital systems. <br />Sequential synchronous digital circuits <br />and systems are also introduced. <br />Student study how various electronic <br />components can be assembled to <br />perform operations based on <br />predefined specifications. <br />EE362L ADVANCED DIGITAL <br />ELECTRONICS LAB <br />2 UNITS <br />COREQUISITE: EE362 <br />This course allows students to apply <br />concepts learned in EE362 in a lab <br />setting. <br />EE370 INTODUCTION TO ANALOG <br />COMMUNICATIONS <br />2 UNITS <br />PREREQUISITE: EE220 <br />This course covers carrier <br />communications systems; types of <br />modulation; communication circuits; <br />transmitters and receivers; <br />superheterodyne radio receivers; stereo <br />systems; noise analysis; pulse <br />modulation, design and simulation using <br />MATLAB. <br />EE370L INTODUCTION TO ANALOG <br />COMMUNICATIONS LAB <br />2 UNITS <br />COREQUISITE: EE370 <br />This course allows students to apply <br />concepts learned in EE370 in a lab <br />setting. <br />EE372 INTRODUCTION TO DIGITAL <br />COMMUNICATIONSS <br />2 UNITS <br />PREREQUISITE: EE370 <br />This course covers sampling theorem <br />and abasing error; random process and <br />white noise; source encoders and <br />decoders; Pulse Code Modulation; <br />matched filter; timing considerations; <br />baseband systems; ASK, FSK, PSK; error <br />analysis; design considerations. Design <br />and simulation using MATLAB tools <br />EE372L INTODUCTION TO DIGITAL <br />COMMUNICATIONS LAB <br />2 UNITS <br />COREQUISITE: EE372 <br />This course allows students to apply <br />concepts learned in EE372 in a lab <br />setting. <br />EE472 WIRELESS COMMUNICATIONS <br />AND MOBILE AD HOC NETWORKS <br />4 UNITS <br />PREREQUISITE: EE372 <br />This course covers analysis and design <br />of wireless communication systems at <br />the link level, multiple access <br />techniques, MIMO and Multluser <br />detection techniques, wireless <br />networking, and Introduction to <br />wireless protocols and standards. <br />Principles, practices, and research topics <br />on Ad Hoc Networks and Security. MAC <br />layer design (IEEE802.11, MACAW), <br />routing (DSR, AODV, LAB), cryptography, <br />authentication, access control and <br />security protocols (W EP, W PA). <br />EE475 ANTENNAS <br />4 UNITS <br />PREREQUISITE: EE472 <br />This course covers dipole, loop, <br />aperture, and otherantennas; array <br />theory, antenna patterns, and pattern <br />multiplication; radiation resistance, <br />directivity, and gain; antenna synthesis <br />and design. <br />EE490AL SENIOR DESIGN PROJECT A <br />3 UNITS <br />The course requires students to work in <br />small design teams to solve a significant <br />engineering problem. Students develop, <br />design, and implement a solution to the <br />engineering problem in conjunction <br />with a faculty advisor. The course <br />reinforces principles of the engineering <br />design process and serves as capstone <br />for electrical engineering knowledge <br />obtained in the EE curriculum. The <br />consideration of the ethical and social <br />implications of technology and the basic <br />concepts of business are also aspects of <br />the course. Each student design team is <br />expected to present Information related <br />to their project in both written and oral <br />formats. Preliminary paper design Is <br />followed by implementation in the lab <br />using digital and analog hardware <br />design techniques and through software <br />engineering. It Is expected that a <br />complete or partially working system <br />will be demonstrated at the end of the <br />course. Formerly EL405 when taken <br />with EE490BL. <br />EE490BL SENIOR DESIGN PROJECT B <br />3 UNITS <br />This course is a continuation of EE490AL <br />culminating in a presentation ofthe <br />students senior design project. Formerly <br />EL405 when taken with EE490AL. <br />Page 58 of 69 <br />