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Course Criteria
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3.00 Credits
Lecture, 3 hrs. Optical resonators, interaction of photons with materials, LEDs, laser diodes, optical amplifiers, optical noise, photoconductors, electro-optic modulators, photonic switches, nonlinear optical materials, and devices. The course requires lab and/or project activity. Prerequisite: CES 430 or equivalent.
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3.00 Credits
Characteristics of base-band and bandpass channels, optimum signaling sets, and receivers for digital communications; effect of noise and intersymbol interference on probability of error; channel capacity; introduction to phase-locked loop analysis for timing and carrier synchronization. Prerequisites: CES 400 and 440, or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Time/frequency analysis of discrete-time signals and systems. Fast implementations of the DFT and its relatives. IIR and FIR digital filter design, implementation, and quantization error analysis. Decimation, interpolation, and multirate processing. Prerequisite: CES 400 or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Lightwave fundamentals; optical fiber as transmission media; losses and bandwidth; fiber cables. Optical sources, detectors. Optical components such as switches, access couplers, wavelength multiplexers and demultiplexers. Analog and digital transmission techniques; line coding techniques; optic heterodyne receivers; thermal and shot noise; bit error rates; optical transmission system design. Optical T-carrier systems and SONET; future directions. The course may require significant lab and/or project activity. Prerequisites: ES 230-231 and CES 440 or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Introduction to mobile/wireless communication systems; cellular communication; data transmission and signaling; noise and interference; analog and digital techniques; multiple-access architecture. The course requires lab and/or project activity. Prerequisites: ES 230-231 and CES 440, or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Information theory, models, lossless compression (statistical, dictionary, static, dynamic, huffman, arithmetic, context-modeling), lossy compression (scalar quantization, vector quantization, differential encoding, subband, transform, predictive), compression standards (JPEG, MPEG). Prerequisites: MATH 345 and CS 315, or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Review of switching techniques; synchronous and asynchronous transfer modes (i.e., STM and ATM); various switch architectures. Multi-rate and multipoint-to-multipoint switching; ATM switching, signaling and call set-up; ATM switch-architectures and their performance evaluation; multicasting techniques. VLSI implementation considerations, future directions. The course may require significant lab and/or project activity. Prerequisites: MATH 345, ES 230-231, and CES 440, or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Information types and signals; definitions of services and integration; narrowband ISDN and frame relay protocols; broadband ISDN concept and protocol. Integrated environment and ATM; principles of SONET and ATM transmission; broadband ATM networking; future trends. The course may require significant lab and/or project activity. Prerequisite: CES 440 or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. ISO model, review of the physical and data link layers, network layer, and routing including for Internet; multicast routing; TCP and UDP protocols and their characteristics, performance and limitations; TCP/IP stack; applications such as FTP, e-mail, and DNS, voice over IP. The course may require significant lab and/or project activity. Prerequisite: CES 440 or consent of instructor. Page 182 Engineering Science Sonoma State University 2006-2008 Catalog
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3.00 Credits
Lecture, 3 hrs. Review of ISDN and B-ISDN Protocols; digital subscriber loops; digital modems. The xDSL technology; xDSL family of protocols; ADSL standardization, its architecture, operation, implementation, and management; ATM; TCP/IP; Ethernet transmissions using ADSL; optical access. The course may require significant lab and/or project activity. Prerequisite: CES 440 or consent of instructor.
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