A Novel Method for Efficient Optimization of Energy for LTE with QoS Constraints

2017 IEEE 7th International Advance Computing Conference (IACC) Pub Date : 1900-01-01 DOI:10.1109/IACC.2017.0067

Owk. Srinivasulu, P. R. Kumar

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Abstract

It is well known that besides the QoS, the potency for energy is additionally a new key technology in coming up for estimating broadband wireless mobile communications. The associated energy potency method is analyzed first for MIMO-OFDM technologies in the transmission system of mobile for applied mathematics. Nature of administration issues utilizing the channel framework SVD system for subchannels unit arranged by their attributes of the channels. Besides, the multi-direct joint change drawback in ordinary MIMO-OFDM correspondence frameworks is redesigned into a multi-target single channel change drawback by gathering all sub channels. In this manner, a shut frame arrangement of the vitality intensity change springs for MIMO-OFDM versatile Multimedia correspondence frameworks. As an outcome, relate vitality effectiveness improved power allotment (EEOPA) algorithmic administer is anticipated to upgrade the vitality strength of MIMO-OFDM versatile transmission correspondence frameworks. Recreation examinations accept that the anticipated EEOPA algorithmic lead will ensure the predefined QoS with high vitality strength in MIMO-OFDM portable transmission correspondence frameworks.

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一种具有QoS约束的LTE高效能量优化方法

众所周知，在宽带无线移动通信评估中，除了QoS之外，能量潜能也是一项新的关键技术。首先从应用数学的角度分析了移动通信系统中MIMO-OFDM技术的关联能量势法。利用信道框架的性质管理问题SVD系统对子信道单元按其信道属性进行排列。此外，将普通MIMO-OFDM通信框架中的多直接联合变换缺陷重新设计为通过集合所有子信道实现的多目标单信道变换缺陷。在这种方式下，一个闭帧安排的活力强度变化簧MIMO-OFDM多功能多媒体通信框架。因此，相关活力有效性改进功率分配(EEOPA)算法管理有望提升MIMO-OFDM通用传输通信框架的活力强度。重新测试接受预期的EEOPA算法领先将确保MIMO-OFDM便携式传输通信框架中具有高活力强度的预定义QoS。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 7th International Advance Computing Conference (IACC)

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