随着通信网用户数量的激增以及宽带业务的迅猛发展，能耗问题已成为限制通信产业发展的重要因素之一，在通信网总能耗中，接入网能耗所占比重已经高达70%左右。本课题面向国家发展低能耗网络的重大需求，围绕通信网中能耗最大的接入网的能耗问题，开展节能光纤接入网的关键技术研究。研究建立全面精确的光纤接入网能效预测模型，实现接入网能耗的优化；研究自适应流量管理机制，分析并优化动态资源调度算法，建立高能效高实时性的动态网络资源调度机制，在达到对网络资源的充分利用的同时减小硬件占用率，降低网络能耗；全面研究基于ONU休眠/唤醒、ONU分组、低功耗及无源ONU的ONU节能技术；前瞻性地探索研究NG-PON2关键技术的节能机制。课题的研究成果有望在实现光纤接入网节能机制和技术上的有效突破，为发展节能光纤接入网奠定理论基础，为我国下一代光接入网技术标准的制定提供参考，促进我国通信网节能降耗战略的实施与发展。

As the sharp increasing of the number of communication network users and the rapid development of wideband service, the energy consumption has turned to be a key issue that would limit the development of communication networks. It has been proved that the access network currently consumes around 70% of the total energy consumption of communication networks. According to the national urgent demand of developing the low energy consumption networks, this project focuses on the energy consumption of the optical-fiber access network (OFAN) that consumes the most energy in communication ntetworks and systematically research the key technologies for the energy-efficient OFAN. In this project, an accurate energy-efficiency prediction model for the OFAN is firstly established by a systematic study on the OFAN energy consumption, and it is used to optimize the energy-efficiency of OFAN. Secondly, by investigating the energy-efficient effects of the load adative technology and optimizing the dynamic bandwidth (or wavelength) allocation algorithm, an energy-efficient and high real-time control resource (bandwith or welength) allocation mechanism is established. Thirdly, several energy efficient techonogies for optical network units (ONUs) based on the studies on the rapid ONU sleep/wake, ONU grouping, low-power ONU and passive ONU. Finally, a prospective study on the energy-efficient mechanisms for the key technologies of NG-PON2 (TWDM-PON, WDM-PON, and OFDM-PON) is presented. These studies are expected to perform great innovations and breakthrough for the energy-saving mechanism and technology in OFAN and build a theoretical basis for the development of energy-efficient optical-fiber access network and provide some references for formulating the standardization of low energy consumption OFAN in China. This project would promote the implementation and progress of the energy consumption reduction strategy of the communication network, and it also shows great significance for promoting the evolution of next-generation OFAN in China.