项目名称: 基于无框架网络架构的5G无线组网架构及组网策略研究
项目编号: No.61471068
项目类型: 面上项目
立项/批准年度: 2015
项目学科: 无线电电子学、电信技术
项目作者: 许晓东
作者单位: 北京邮电大学
项目金额: 80万元
中文摘要: 针对如何在高密度异构混合无线网络部署环境下实现干扰可控与资源可管的容量有效提升这一关键科学问题,本项目将开展基于无框架网络架构的5G无线组网架构演进及组网策略研究,重新设计新型的无线组网架构并重塑其组网策略,提出集中式无线资源管理方案、自适应业务卸载与组网适配方案、以用户为中心的移动性管理方案及高密度异构混合网络干扰管理方案等。以支持未来高密度异构混合无线网络部署场景,实现高效的无线网络干扰管理与资源管理,最终适应5G系统的发展需求并提高网络整体容量。项目组也将进行支持无框架网络架构的高密度异构混合无线网络系统级仿真平台、试验平台的研发,通过仿真评估及外场试验来验证所提出方案的性能,同时积极参加3GPP、IMT-2020等面向5G演进的标准化工作,力争从标准源头参与5G竞争,推动我国在移动通信产业领域继续保持优势地位。
中文关键词: 无框架网络架构;5G;无线组网策略;系统级仿真平台;试验平台
英文摘要: In order to solve the key scientific issue that how to increase the system capacity with effective interference control and resource management in high-density heterogeneous hybrid wireless network deployment environment, this project will carry out the research on 5G wireless network architecture evolution and networking strategy based on the Frameless Network Architecture. The wireless network architecture will be redesigned and the corresponding networking strategies will be reshaped with the proposed centralized Radio Resource Management, Adaptive Offloading and Network Matching, User-centric Mobility Management and Interference Management schemes. The research aims focus on supporting future high-density heterogeneous hybrid network deployment scenario, enabling efficient Interference Management and Radio Resource Management, and ultimately solving the requirements of 5G systems with improving the network capacity. The project will also conduct research on system-level simulation platform and the trial network for Frameless Network Architecture based high-density heterogeneous hybrid wireless network deployment environment. The performance of the proposed schemes will be verified by simulation and field tests. We will actively attend the 3GPP and IMT-2020 standard work for 5G, strive to participate in the competition of 5G from the beginning of standards, promote our country to maintain the dominant position in the mobile communications industry.
英文关键词: Frameless Network Architecture;5G;Wireless Networking Strategy;System-level Simulation Platform;Trial Network