SC-FDMA for Mobile Communications
SC-FDMA for Mobile Communications examines single-carrier frequency division multiple access (SC-FDMA). To explain this rapidly evolving system for mobile communications, the book describes the system's advantages and limitations and outlines possible solutions for addressing its current limitations. The authors explore the emerging trend of cooperative communication with SC-FDMA and how it can improve the physical layer security. They also consider the design of distributed coding schemes and protocols for wireless relay networks where users cooperate to send data to the destination.
Supplying you with the required foundation in cooperative communication and cooperative diversity, the book presents an improved discrete cosine transform (DCT)-based SC-FDMA system. It introduces a distributed space–time coding scheme and evaluates its performance and studies distributed SFC for broadband relay channels.The book also:
- Presents relay selection schemes for improving the physical layer
- Introduces a new transceiver scheme for the SC-FDMA system
- Describes space–time/frequency coding schemes for SC-FDMA
- Includes MATLAB codes for all simulation experiments
The book investigates carrier frequency offsets (CFO) for the single-input single-output (SISO) SC-FDMA system, and multiple-input multiple-output (MIMO) SC-FDMA system simulation software. Covering the design of cooperative diversity schemes for the SC-FDMA system in the uplink direction, it also introduces and studies a new transceiver scheme for the SC-FDMA system.
Online Teaching with MATLAB and Simulink
Whether you are transitioning a classroom course to a hybrid model, developing virtual labs, or launching a fully online program, MathWorks can help you foster active learning no matter where it takes place.