Abstract :
A general energy-efficient multi-user management framework for incremental redundancy (IR) HARQ is proposed. We first develop a basic tradeoff between energy efficiency, power, bandwidth and delay of IR-HARQ, which reveals that frequency domain, rather than power domain, offers a larger space for exploiting energy efficiency with delay constraints. Based on the basic tradeoff, the proposed energy-efficient multi-user management framework, consisting of user scheduling and power/bandwidth allocation, optimizes energy efficiency (EE) in both power and frequency domain. It is shown that while achieving EE, power-domain optimization is more effective and provide higher throughput for large-bandwidth scenarios, and frequency-domain optimization produces shorter delay in small bandwidth scenarios.
Keywords :
Long Term Evolution; energy conservation; multi-access systems; optimisation; IR-HARQ; energy-efficient multi-user resource management; frequency domain; frequency-domain optimization; incremental redundancy HARQ; large-bandwidth scenarios; power-domain optimization; Bandwidth; Bismuth; Channel allocation; Delay; Energy efficiency; Resource management; Throughput;
