訪問寬度 的英文怎麼說
中文拼音 [fǎngwènkuāndù]
訪問寬度
英文
access width-
Being a widely utilized public ip platform, it is susceptible to security attacks of all nature, as outlined in the following areas : the open nature of the ip internet systems - increase of foreign attacks, for example dos / ddos attacks ; the current weakness of the existing operating system ' s internet protocol ; mainframe, and lack of an evaluation standard for back office systems, the inevitable problem of illegal internal access, the lack of guidelines for record keeping and post attack documentation processes, hi addition, still in existence, are managerial problems including the lack of securit y knowledge amongst the workforce and the inexistence of a complete set of security guidelines. to guarantee china telecom ' s 163 / 169 system ' s reliable functions, to protect the user ' s interests, at the same time, insuring quality service, it is necessary to adapt p2dr model as a solution to the current security issues. supported by the modern secure theory and made the secure implementation abundant project practices, this paper gives the general secure design for the chongqing public ip network using p2dr secure model
中國電信建設的公眾ip網對我國internet的發展起著決定性作用,重慶電信163 / 169網際網路是國家骨幹網在本地的延伸,擁有7個核心節點(採用cisco12012 、 2 * 2 . 5gdpt環) ,三十八個匯接節點,能提供寬帶,窄帶多種接入方式的公眾ip網,現擁有近20萬用戶,佔全市網際網路用戶四分之三以上,作為這樣一個擁有眾多用戶,開放的ip平臺,會受到各種各樣的安全威脅,主要表現在ip網路的開放性,來自外部的攻擊增多,如dos / ddos攻擊;所使用的操作系統運行的網路協議自身的脆弱性;主機、網路設備的配置是否缺乏評估手段;不可避免的內部非法訪問;缺乏必要的攻擊審計作為犯罪取證,出此之外,還有管理上的一些問題,如人員安全意識不強,安全制度不夠健全等多方面原因。The san makes it true that storage resources can be devided from servers, and can provide high performance data pipe with 100 mb / s and shared storage devices managed concentrically. this makes data access, backup and restore will not reduce performance of network largely. this removes people ? misgiving for bandwidth of network
San使存儲資源與服務器分離,可以提供100兆位元組秒的高性能數據管道和共享的集中管理的存儲設備,使得數據的訪問、備份和恢復不會大幅度降低網路性能,消除人們對網路帶寬的顧慮。4. to decrease the usage of network resources by network management systems even more, combined with the fact that the performance of network management is affected by the scheme to collect management information, a new algorithm - gpa ( group - prefetching algorithm ) has been put forward used for retrieving management information from the element level in heterogeneous wan ( wide area network ). gpa can adjust many little retrieving objects into one prefetching group to access by using the schemes of group prefetching, objects of group changed self - adaptively, fault tolerance etc., and thus can decrease the frequency of retrieval, use fewer network resources and decrease the network overhead without alteration of iiop, snmp or cmip too
4 .為進一步減少網路管理系統對網路帶寬的佔用,結合被管對象信息的收集策略直接影響網管系統性能的特點,針對異構大型網路環境下多管理對象的信息收集問題,提出了一種提取多管理對象信息的新演算法?組預取演算法gpa ( group一prefetehingalgorithim ) ,該演算法同樣能在不改變管理協議,如iiop 、 snmp或cmip的情況下,採用組預取策略、組對象自適應擴充策略、組對象自適應收縮策略、容錯策略等,將多個分散的、處于相同或不同被管設備上的、在未來一段時間內的管理對象的訪問組合在一個預取組中進行訪問,減少對管理對象的訪問頻度,從而可以較少佔用網路資源,減小整個網路開銷。Almost any piece of information available at the time of interaction can be seen as context information : identity, spatial information ( e. g., location, orientation, speed and acceleration ), temporal information ( e. g., time of the day, date, and season of the year ), environmental information ( e. g., temperature, air quality, and light or noise level ), social situation ( e. g., who are you with, and people that are nearby ), resources that are nearby ( e. g., accessible devices, and hosts ), availability of resources ( e. g., battery, display, network, and bandwidth ), physiological measurements ( e. g., blood pressure, hart rate, respiration rate, muscle activity, and tone of voice ), activity ( e. g., talking, walking, and running ), schedules and agenda settings
幾乎任何在交互時可用的信息都能被看作環境信息:標識,空間信息(例如:位置,朝向,速度和加速度) ,時間信息(例如:某天的時間,日期,某年的季節) ,環境信息(例如:溫度,空氣質量,光或噪音的級別) ,附近的資源(例如:可訪問的設備,主機) ,可用的資源(例如:電池,顯示,網路和帶寬) ,生理度量(例如:血壓,心率,呼吸頻率,肌肉活動,語調) ,活動(例如:談話,行走,和奔跑) ,日程和內容設定。Almost any information available at the time of interaction can be seen as context information : identity, spatial information ( e. g., location, orientation, speed and acceleration ), temporal information ( e. g., time of the day, date, and season of the year ), environmental information ( e. g., temperature, air quality, and light or noise level ), social situation ( e. g., who are you with, and people that are nearby ), resources that are nearby ( e. g., accessible devices, and hosts ), availability of resources ( e. g., battery, display, network, and bandwidth ), physiological measurements ( e. g., blood pressure, heart rate, respiration rate, muscle activity, and tone of voice ), activity ( e. g., talking, walking, and running ), schedules and agenda settings
幾乎任何在交互過程中可用的信息都能被視為環境信息:標識,空間信息(例如:位置,朝向,速度和加速度) ,時間信息(如:某天的時間,日期和某年的季節) ,環境信息(例如:溫度,空氣質量,光或噪音的級別) ,社交狀態(如:同你一起的人,在附近的人) ,附近的資源(如:可訪問的設備,住所) ,資源的可用性(如:電池,顯示,網路和帶寬) ,生理讀數(如:血壓,心律,呼吸律,肌肉活動,語調) ,活動(如:談話,走動,奔跑) ,計劃和安排。分享友人