基于多技术操作系统接口(Multi technology operations systems interface,MTOSI)进行新一代传输综合网管系统的建设,实现传输设备全网监控、跟踪和处理,实现传输设备的基础管理、大客户支撑管理、网络运行管理、资源管理、考核管理以...基于多技术操作系统接口(Multi technology operations systems interface,MTOSI)进行新一代传输综合网管系统的建设,实现传输设备全网监控、跟踪和处理,实现传输设备的基础管理、大客户支撑管理、网络运行管理、资源管理、考核管理以及传输网管网系统支撑管理;为进一步提高传输设备集中监控提供有力支撑,为运营商的集中监控提供手段,进一步提高运维效率。展开更多
The addressing and routing algorithm on hexagonal networks is still an open problem so far.Although many related works have been done to resolve this problem to some extent,the properties of hexagonal networks are sti...The addressing and routing algorithm on hexagonal networks is still an open problem so far.Although many related works have been done to resolve this problem to some extent,the properties of hexagonal networks are still not explored adequately.In this paper,we first create an oblique coordinate system and redefine the Euclidean space to address the hexagonal nodes.Then an optimal routing algorithm using vectors and angles of the redefined Euclidean space is developed.Compared with the traditional 3-directions scheme and the Cayley graph method,the proposed routing algorithm is more efficient and totally independent of the scale of networks with two-tuples addresses.We also prove that the path(s) obtained by this algorithm is always the shortest one(s).展开更多
文摘基于多技术操作系统接口(Multi technology operations systems interface,MTOSI)进行新一代传输综合网管系统的建设,实现传输设备全网监控、跟踪和处理,实现传输设备的基础管理、大客户支撑管理、网络运行管理、资源管理、考核管理以及传输网管网系统支撑管理;为进一步提高传输设备集中监控提供有力支撑,为运营商的集中监控提供手段,进一步提高运维效率。
基金supported in part by International Researcher Exchange Project of National Science Foundation of China and Centre national de la recherche scientifique de France(NSFC-CNRS)under Grant No.61211130104national information security project 242 under Grant No.2014A104National Science Foundation of China under Grants No.60932003,61271220,61202266,61172053
文摘The addressing and routing algorithm on hexagonal networks is still an open problem so far.Although many related works have been done to resolve this problem to some extent,the properties of hexagonal networks are still not explored adequately.In this paper,we first create an oblique coordinate system and redefine the Euclidean space to address the hexagonal nodes.Then an optimal routing algorithm using vectors and angles of the redefined Euclidean space is developed.Compared with the traditional 3-directions scheme and the Cayley graph method,the proposed routing algorithm is more efficient and totally independent of the scale of networks with two-tuples addresses.We also prove that the path(s) obtained by this algorithm is always the shortest one(s).