中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
12期
3008-3017
,共10页
谢敏%吴亚雄%闫圆圆%诸言涵
謝敏%吳亞雄%閆圓圓%諸言涵
사민%오아웅%염원원%제언함
模糊Petri网%BP算法%故障诊断%电力系统%容错性
模糊Petri網%BP算法%故障診斷%電力繫統%容錯性
모호Petri망%BP산법%고장진단%전력계통%용착성
fuzzy Petri net%back propagation (BP) algorithm%fault diagnosis%power system%fault tolerance
为减小电网故障诊断过程中人为主观因素造成的误差,提高模糊Petri网模型的容错性和准确性,提出基于改进动态自适应模糊Petri网与BP算法的电网故障诊断方法。首先,在动态自适应模糊Petri网中引入补充弧元组,并利用动态自适应模糊Petri网能动态适应专家系统中模糊知识更新的特性,构建电网故障诊断的通用Petri网模型;其次,利用神经网络中的BP算法对模型中的参数进行训练;最后,分析该故障诊断方法的适应性与容错性。对某8节点测试系统和吉林四平实际电网的仿真结果表明:该算法充分利用了Petri 网的并行处理能力,推理简单且思路清晰,在信息不完备的情况下能给出较准确的诊断结果,具有较好的容错性。
為減小電網故障診斷過程中人為主觀因素造成的誤差,提高模糊Petri網模型的容錯性和準確性,提齣基于改進動態自適應模糊Petri網與BP算法的電網故障診斷方法。首先,在動態自適應模糊Petri網中引入補充弧元組,併利用動態自適應模糊Petri網能動態適應專傢繫統中模糊知識更新的特性,構建電網故障診斷的通用Petri網模型;其次,利用神經網絡中的BP算法對模型中的參數進行訓練;最後,分析該故障診斷方法的適應性與容錯性。對某8節點測試繫統和吉林四平實際電網的倣真結果錶明:該算法充分利用瞭Petri 網的併行處理能力,推理簡單且思路清晰,在信息不完備的情況下能給齣較準確的診斷結果,具有較好的容錯性。
위감소전망고장진단과정중인위주관인소조성적오차,제고모호Petri망모형적용착성화준학성,제출기우개진동태자괄응모호Petri망여BP산법적전망고장진단방법。수선,재동태자괄응모호Petri망중인입보충호원조,병이용동태자괄응모호Petri망능동태괄응전가계통중모호지식경신적특성,구건전망고장진단적통용Petri망모형;기차,이용신경망락중적BP산법대모형중적삼수진행훈련;최후,분석해고장진단방법적괄응성여용착성。대모8절점측시계통화길림사평실제전망적방진결과표명:해산법충분이용료Petri 망적병행처리능력,추리간단차사로청석,재신식불완비적정황하능급출교준학적진단결과,구유교호적용착성。
In order to reduce error caused by artificial subjective factors in power system fault diagnosis process and improve fault tolerance and accuracy of fuzzy Petri net models, a power system fault diagnosis method based on improved dynamic adaptive fuzzy Petri nets and back propagation algorithm was proposed. First, the general Petri net models were built by introducing complementary arcs tuple in dynamic adaptive fuzzy Petri nets, which is able to dynamically adapt to updated fuzzy knowledge in expert systems. Second, the back propagation algorithm of neural network was used to train model parameters. Finally, the adaptability and the fault tolerance of the algorithm were analyzed. Simulation results on 8-bus testing system and Siping actual power system in Jilin province indicate that the proposed method can make full use of the parallel processing capabilities of Petri nets. Simple and clear in derivation, satisfying diagnosis results with incomplete information can be obtained by the proposed algorithm in this paper, also with good fault tolerance.