radio resource allocation meaning in Chinese
无线资源分配
Examples
- In this paper , a novel scheme of radio resource allocation and scheduling and its system model is proposed through the time - scale decomposition approach
本文提出了分时间尺度( time - scaledecomposition )的无线资源分配与调度策略和系统模型。 - Radio resource allocation and scheduling is one of key functions to provide qos guarantees in wireless networks . current research focuses on design of efficient algorithms taking into account the special characteristics of the wireless environment such as time - varying channel capacity and location - dependent errors . these algorithms shall maximize the utilization of the wireless channels and guarantee qos for the users , while providing certain fairness between users
其中,无线资源的分配与调度是提供qos保证的关键,当前的研究集中在针对无线信道容量的时变和位置依赖特性,设计算法来有效利用宝贵的无线资源,支持用户的qos要求,同时满足一定的公平性。 - In this thesis , we address this challenge in detail and design solutions to it and evaluate the performance of them by simulation . based on the traditional structure of cellular network and methods of radio resource allocation , we propose a novel synchronous single frequency cellular network ( sfcn ) system , which is more proper for 4g
本文围绕第四代移动通信( 4g )及其核心技术ofdm (正交频分复用)的要求和特点,在传统的蜂窝系统结构和无线资源管理方法的基础上,独创地提出一种适用于4g的新型单频蜂窝系统( sfcn , singlefrequencynetworkcellularnetwork ) 。 - Future wireless communication systems trend to provide multi - services to mobile users . cdma technique is adopted by the 3rd generation mobile communication systems due to its flexibility in supporting multi - services . how to keep qos of heterogeneous services and utilize the scarce radio spectrum resources is challenging for 3rd generation mobile communication systems in this thesis we developed a radio resource allocation framework for wireless code division access ( cdma ) networks that support multi - class traffic with different data rates and bit error rate requirements . we proposed a new resource allocation scheme using joint adaptive power control and mmse multiuser receiver in multipath fading system
为移动用户提供多种业务服务是未来无线通信网络的主要发展方向。由于cdma技术具有灵活支持多种业务的优点,因而被第三代移动通信系统所采纳。如何在恶劣的无线传播环境里以及用户运动且相互干扰的情况下为为各类业务提供qos保证,同时充分利用珍贵的无线频谱资源,是基于cdma技术的第三代蜂窝通信系统必须致力解决的问题。