Paper Info
Title
A Safety Computer System Based on Multi-Sensor Data Processing.
Abstract
The safety computer in the train control system is designed to be the double two-vote-two architecture. If safety-critical multi-input data are inconsistent, this may cause non-strict multi-sensor data problems in the output. These kinds of problems may directly affect the decision making of the safety computer and even pose a serious threat to the safe operation of the train. In this paper, non-strict multi-sensor data problems that exist in traditional safety computers are analyzed. The input data are classified based on data features and safety computer features. Then, the input data that cause non-strict multi-sensor data problems are modeled. Fuzzy theory is used in the safety computer to process multi-sensor data and to avoid the non-strict multi-sensor problems. The fuzzy processing model is added into the onboard double two-vote-two architecture safety computer platform. The fuzzy processing model can be divided into two parts: improved fuzzy decision tree and improved fuzzy weighted fusion. Finally, the model is verified based on two kinds of data. Verification results indicate that the fuzzy processing model can effectively reduce the non-strict identical problems and improve the system efficiency on the premise of ensuring the data reliability.
Year
DOI
Venue
2019
10.3390/s19040818
SENSORS
Keywords
Field
DocType
safety computer,non-strict multi-sensor identical problems,fuzzy decision tree,fuzzy weighted fusion
Data mining,Architecture,Data processing,Data reliability,Fuzzy logic,Premise,Electronic engineering,Engineering,Control system,Fuzzy decision tree
Journal
Volume
Issue
ISSN
19
4
1424-8220
Citations 
PageRank 
References 
1
0.35
3
Authors
3
Name
Order
Citations
PageRank
Yuan Cao17310.39
Hongkang Lu210.35
Tao Wen32712.07