中国舰船研究
中國艦船研究
중국함선연구
CHINESE JOURNAL OF SHIP RESEARCH
2015年
2期
40-46
,共7页
通信系统%电磁兼容性%指标体系%设备性能%隶属函数
通信繫統%電磁兼容性%指標體繫%設備性能%隸屬函數
통신계통%전자겸용성%지표체계%설비성능%대속함수
communication systems%electromagnetic compatibility (EMC)%indicator system%equip-ment performance%membership functions
针对传统AHP-模糊综合评估方法在多级评判中隶属函数应用的不足,提出一种基于设备性能降级曲线特性的隶属函数确定方法,依据设备性能在受到干扰时的实际下降过程,划分评估等级,确定不同等级之间的过渡范围,以及过渡范围内的隶属函数形式,从而得到适用于评估具体设备的隶属函数模型。与传统的隶属函数相比,克服了其依靠专家经验确定所带来的不准确问题,以及将设备性能下降曲线线性化而带来的误差问题,可以更准确地得出设备隶属于不同等级的隶属函数;分析设备权重时,在专家打分确定权重系数的基础上,引入置信因子来分析由专家给出的权重系数的可信程度,最终建立一种基于设备性能下降曲线的通信系统电磁兼容性评估模型。
針對傳統AHP-模糊綜閤評估方法在多級評判中隸屬函數應用的不足,提齣一種基于設備性能降級麯線特性的隸屬函數確定方法,依據設備性能在受到榦擾時的實際下降過程,劃分評估等級,確定不同等級之間的過渡範圍,以及過渡範圍內的隸屬函數形式,從而得到適用于評估具體設備的隸屬函數模型。與傳統的隸屬函數相比,剋服瞭其依靠專傢經驗確定所帶來的不準確問題,以及將設備性能下降麯線線性化而帶來的誤差問題,可以更準確地得齣設備隸屬于不同等級的隸屬函數;分析設備權重時,在專傢打分確定權重繫數的基礎上,引入置信因子來分析由專傢給齣的權重繫數的可信程度,最終建立一種基于設備性能下降麯線的通信繫統電磁兼容性評估模型。
침대전통AHP-모호종합평고방법재다급평판중대속함수응용적불족,제출일충기우설비성능강급곡선특성적대속함수학정방법,의거설비성능재수도간우시적실제하강과정,화분평고등급,학정불동등급지간적과도범위,이급과도범위내적대속함수형식,종이득도괄용우평고구체설비적대속함수모형。여전통적대속함수상비,극복료기의고전가경험학정소대래적불준학문제,이급장설비성능하강곡선선성화이대래적오차문제,가이경준학지득출설비대속우불동등급적대속함수;분석설비권중시,재전가타분학정권중계수적기출상,인입치신인자래분석유전가급출적권중계수적가신정도,최종건립일충기우설비성능하강곡선적통신계통전자겸용성평고모형。
alming at the shortcoming of the membership function being used to evaluate multi-levels in the traditional AHP-fuzzy comprehensive evaluation method, this paper presents an assessment method based on the curve characteristics of equipment performance degradation. Depending on the actual descent of the device performance when disturbed, the level of assessment and the transition range of the member?ship function among different levels are determined, finally obtalning the membership function model that is applicable to the assessment of specific equipment. The method can accurately calculate the specific classes and membership values of different equipment or subsystem and overcome the problem of subjectiv?ity that may cause errors in traditional membership functions. To analyze the weight of the equipment, ex?pert scoring was introduced meanwhile, the credibility of expert weight is analyzed by bringing in the confi?dence factor. A complex communication system evaluation model of the ship is established eventually, whose results of assessment are improved effectively.