CEC333 Advanced Wireless Communication Techniques Syllabus:
CEC333 Advanced Wireless Communication Techniques Syllabus – Anna University Regulation 2021
COURSE OBJECTIVES
● To understand the evolving paradigm of cooperative communication
● To understand concepts related to green wireless communication
● To enable the student to understand the different power saving strategies and energy efficient signal, system and network design.
● To expose the student to the energy saving techniques adopted in existing wireless components
● To provide understanding on protocols and networks related to green future wireless communication technologies.
UNIT I COOPERATIVE COMMUNICATIONS AND GREEN CONCEPTS
Network architectures and research issues in cooperative cellular wireless networks ; Cooperative communications in OFDM and MIMO cellular relay networks: issues and approaches; Fundamental trade-offs on the design of green radio networks, Green modulation and coding schemes.
UNIT II COOPERATIVE TECHNIQUES
Cooperative techniques for energy efficiency, Cooperative base station techniques for cellular wireless networks; Turbo base stations; Antenna architectures for cooperation; Cooperative communications in 3GPP LTE-Advanced, Partial information relaying and Coordinated multi-point transmission in LTE-Advanced.
UNIT III RELAY-BASED COOPERATIVE CELLULAR NETWORKS
Distributed space-time block codes ; Collaborative relaying in downlink cellular systems ; Radio resource optimization; Adaptive resource allocation ; Cross-layer scheduling design for cooperative wireless two-way relay networks ; Network coding in relay-based networks.
UNIT IV GREEN RADIO NETWORKS
Base Station Power-Management Techniques- Opportunistic spectrum and load management, Energy-saving techniques in cellular wireless base stations , Power-management for base stations in smart grid environment, Cooperative multi cell processing techniques for energy-efficient cellular wireless communications.
UNIT V ACCESS TECHNIQUES FOR GREEN RADIO NETWORKS
Cross-layer design of adaptive packet scheduling for green radio networks; Energy-efficient relaying for cooperative cellular wireless networks ; Energy performance in TDD-CDMA multihop cellular networks ; Resource allocation for green communication in relay-based cellular networks ; Green Radio Test-Beds and Standardization Activities.
TOTAL: 45 PERIODS
COURSE OUTCOMES:
CO1: The student would be able to appreciate the necessity and the design aspects of cooperative communication
CO2: The student would be able to appreciate the necessity and the design aspects of green wireless communication.
CO3: The student would be able to evolve new techniques in wireless communication
CO4: The students would be able to demonstrate the feasibility of using mathematical models using simulation tools.
CO5: The student would be able to demonstrate the impact of the green engineering solutions in a global, economic, environmental and societal context.
TEXT BOOKS
1. Ekram Hossain, Dong In Kim, Vijay K. Bhargava , “Cooperative Cellular Wireless Networks”,Cambridge University Press, 2011.
2. Ekram Hossain, Vijay K. Bhargava(Editor), Gerhard P. Fettweis (Editor), “Green Radio Communication Networks”, Cambridge University Press, 2012.
REFERENCES
1. F. Richard Yu, Yu, Zhang and Victor C. M. Leung “Green Communications and Networking”, CRC press, 2012.
2. Ramjee Prasad and Shingo Ohmori, Dina Simunic, “Towards Green ICT”, River Publishers,2010.
3. Jinsong Wu, Sundeep Rangan and Honggang Zhang, “Green Communications: Theoretical Fundamentals, Algorithms and Applications”, CRC Press, 2012.