On balancing energy efficiency for network operators and mobile users in dynamic planning


The high energy consumption of network operators and mobile users has raised environmental, monetary, and quality-of-expertise concerns. These considerations have renewed the research efforts in developing inexperienced Communication methods for energy economical wireless network operation. Network operators employ dynamic designing to save lots of energy at low decision traffic load by switching off a number of their base stations (BSs), and mobile users are served by the remaining active BSs. The existing analysis investigates energy potency of dynamic coming up with approaches only from the network operator perspective. Dynamic planning, if not carefully designed, will result in higher energy consumption for the mobile users within the uplink, that in turn degrades the uplink service quality due to mobile terminals' battery depletion. In this text we have a tendency to propose a dynamic planning framework with balanced energy potency that accounts for the energy consumption of the mobile users within the uplink in addition to that of the network operators in the downlink. We tend to discuss the associated challenges and implementation issues. A dynamic planning approach primarily based on a multi-time scale decision method is proposed to attain the balanced energy potency framework. Numerical results demonstrate the improved energy efficiency performance for the uplink mobile users as compared with the traditional dynamic planning approach.

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