A Circuit Fault Inference Method Based on Topological Structure

A three-layer Bayesian intelligent fault inference model (BIFIM) for an inverter is established to infer the probable uncertain faults. The topological structure of the BIFIM includes the inverter’s operation conditions for the first layer, the inverter’s faults for the second layer, and the fault symptoms for the third layer, which combines the field technicians’ knowledge and experiences with historical running data. The prior probability table of the root node is acquired by the method of basic probabilities corrected historical operation data. The conditional probability parameter table of the BIFIM is obtained by the improved maximum expectation algorithm. Four kinds of incomplete evidence were reasoned and verified, including simple evidence with obvious support, incomplete evidence information, complex evidence without obvious support, and evidence with information conflict. The proposed strategy can make use of the available evidences to inference the probabilities of faults, indicating different reasoning abilities under the different degree of completeness of evidence, especially demonstrating the same inference result under some incomplete evidence information as under complete evidence information.

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A Fault Inference Method under Uncertainty: Case Study on Crankshafts in Fracturing Pumps

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/575/1/012010 ◽

2019 ◽

Vol 575 ◽

pp. 012010

Author(s):

X Zhang ◽

L B Zhang ◽

J Q Hu

Keyword(s):

Inference Method ◽

Fault Inference

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An Extended Method of SIRMs Connected Fuzzy Inference Method Using Kernel Method

IEICE Transactions on Fundamentals of Electronics Communications and Computer Sciences ◽

10.1587/transfun.e92.a.2514 ◽

2009 ◽

Vol E92-A (10) ◽

pp. 2514-2521

Author(s):

Hirosato SEKI ◽

Fuhito MIZUGUCHI ◽

Satoshi WATANABE ◽

Hiroaki ISHII ◽

Masaharu MIZUMOTO

Keyword(s):

Fuzzy Inference ◽

Kernel Method ◽

Inference Method

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Uncovering Atherosclerotic Risk Disease Gene Based on Expression and Network Topological Structure*

PROGRESS IN BIOCHEMISTRY AND BIOPHYSICS ◽

10.3724/sp.j.1206.2010.00687 ◽

2010 ◽

Vol 37 (8) ◽

pp. 916-922

Author(s):

Hong WANG ◽

Xiao-Li QU ◽

Yan ZHAO ◽

Jing ZHANG ◽

Li-Na CHEN

Keyword(s):

Topological Structure ◽

Disease Gene

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A Level Inference Method for Aggregated Information of Objects Based on Clustering Analysis

JOURNAL OF ELECTRONICS INFORMATION TECHNOLOGY ◽

10.3724/sp.j.1146.2011.01170 ◽

2012 ◽

Vol 34 (6) ◽

pp. 1432-1437 ◽

Cited By ~ 1

Author(s):

Li-feng Cao ◽

Xing-yuan Chen ◽

Xue-hui Du ◽

Chun-tao Xia

Keyword(s):

Clustering Analysis ◽

Inference Method

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Brief Survey of Biological Network Alignment and a Variant with Incorporation of Functional Annotations

Current Bioinformatics ◽

10.2174/1574893612666171020103747 ◽

2018 ◽

Vol 14 (1) ◽

pp. 4-10

Author(s):

Fang Jing ◽

Shao-Wu Zhang ◽

Shihua Zhang

Keyword(s):

Gene Ontology ◽

Topological Structure ◽

Metabolic Networks ◽

Biological Network ◽

Genomic Sequence ◽

Network Alignment ◽

Future Directions ◽

Functional Annotations ◽

Protein Protein Interaction ◽

Ppi Networks

Background:Biological network alignment has been widely studied in the context of protein-protein interaction (PPI) networks, metabolic networks and others in bioinformatics. The topological structure of networks and genomic sequence are generally used by existing methods for achieving this task.Objective and Method:Here we briefly survey the methods generally used for this task and introduce a variant with incorporation of functional annotations based on similarity in Gene Ontology (GO). Making full use of GO information is beneficial to provide insights into precise biological network alignment.Results and Conclusion:We analyze the effect of incorporation of GO information to network alignment. Finally, we make a brief summary and discuss future directions about this topic.

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SISTEM PAKAR UNTUK DIAGNOSA PENYAKIT ANAK YANG DIDUKUNG OLEH BAHASA PEMOGRAMAN VISUAL

Jurnal Sains dan Informatika ◽

10.22216/jsi.v3i2.2791 ◽

2017 ◽

Vol 3 (2) ◽

pp. 108

Author(s):

Dian Permata Sari

Keyword(s):

Expert System ◽

Expert Systems ◽

Human Knowledge ◽

Inference Method ◽

Medical Field ◽

Forward Chaining ◽

At Home

Sistem pakar merupakan sistem yang mengadopsi pengetahuan manusia ke komputer yang dirancang untuk memodelkan kemampuan menyelesaikan masalah seperti layaknya seorang pakar. Dengan sistem pakar ini, orang awam pun dapat menyelesaikan masalahnya atau hanya sekedar mencari suatu informasi berkualitas yang sebenarnya hanya dapat diperoleh dengan bantuan para ahli di bidangnya. Salah satunya yaitu dibidang medis untuk mendiagnosapenyakit anak. Mengetahui gejala dari suatu penyakit secara dini dapat menjadi bantuan pertama yang dapat dilakukan para orang tua di rumah jika anak mereka terserang penyakit.Basis pengetahuan disusun sedemikian rupa kedalam database dengan beberapa tabel. Penarikan kesimpulan dalam sistem pakar ini menggunakan metode inferensi forward chaining. Sistem pakar akan memberikan pertanyaan-pertanyaan kepada user berupa gejala dari beberapa penyakit dan user akan menjawab pertanyaan tersebut. Hingga user akan mendapatkan solusi dari hasil pertanyaan tadi. Expert systems are systems that adopt human knowledge into computers designed to model the ability to resolve problems like an expert. Through thisexpert systems,commoner cansolvetheproblem orjustlookingfor a qualityinformationthat can onlybeobtainedwiththehelpofexperts in thefield. One ofthemis in the medical field to diagnosethe children's illness.Knowingthesymptomsofanillnessearly can bethefirstaidto parents if their children stricken withthedisease at home.Knowledgebase is arranged into a highlystructureddatabasewithmultipletables. Inferences in this expert system uses forward chaining inference method. Expert systems will provide questions to the user in the form of the symptoms of some diseases and the user will answer that question. Until the user will get the solution of the question.

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Information on evolutionary age in redundancy of complex network

Modern Physics Letters B ◽

10.1142/s0217984919503317 ◽

2019 ◽

Vol 33 (27) ◽

pp. 1950331

Author(s):

Shiguo Deng ◽

Henggang Ren ◽

Tongfeng Weng ◽

Changgui Gu ◽

Huijie Yang

Keyword(s):

Principal Component Analysis ◽

Complex Networks ◽

Metabolic Network ◽

Complex Network ◽

Cellular Networks ◽

Topological Structure ◽

Quantitative Measure ◽

Principal Component ◽

Evolutionary Information ◽

Local Patterns

Evolutionary processes of many complex networks in reality are dominated by duplication and divergence. This mechanism leads to redundant structures, i.e. some nodes share most of their neighbors and some local patterns are similar, called redundancy of network. An interesting reverse problem is to discover evolutionary information from the present topological structure. We propose a quantitative measure of redundancy of network from the perspective of principal component analysis. The redundancy of a community in the empirical human metabolic network is negatively and closely related with its evolutionary age, which is consistent with that for the communities in the modeling protein–protein network. This behavior can be used to find the evolutionary difference stored in cellular networks.

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