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the road traffic system is an uncertain system, the occurrence of traffic accidents is also an uncertain system with partial information known and the other unknown. Therefore, it’s suitable to apply the gray model theory to predict the traffic accidents. This paper expounds the principles of gray model and gives an example to show the feasibility and practicability of the gray model applied in the forecasting of traffic accidents. Gray Feature of Traffic Accidents Traffic accidents often result in serious consequences, such as casualties, vehicle damage, road congestion and other serious consequences. It’s necessary to explore the development trend of road traffic accidents and the development trend of future traffic accidents to prevent and reduce the occurrence of accidents and the loss of traffic accidents. Traffic accident prediction is based on the statistics, analysis and treatment of accident data, and based on the accident causes and development law. Through scientific analysis, we can see that it is not clear that the accident in advance to make logical reasoning. Traffic accident prediction is a key problem in road traffic safety planning, decision making and traffic engineering project benefit evaluation. It has important practical significance to predict the correct or not directly related to the construction of traffic facilities, the formulation of traffic management policies and the allocation of investment funds. Correctly analyzing the characteristics of road traffic accidents and establishing a high quality forecasting model is the key to predict the traffic accidents. Probability statistics, fuzzy mathematics and gray system theory are the three most commonly used uncertainty systems. Probability statistics mainly uses the regression forecasting model to forecast road traffic accident. The shortcoming of the regression forecasting model is that the establishment of the model needs a lot of traffic accident history data, leaving a large amount of data support, the determination of the equation parameters is very difficult to have the power of persuasion. And the gray prediction method can overcome the above shortcomings, it does not require a large amount of data support, and do not need data to obey the typical probability distribution, even in the case of only a few data can be established to predict the model. The occurrence of road traffic accidents is not obvious. It is a random change. It has the characteristics of random and fuzzy. The occurrence time of traffic accident, the occurrence, the law of the occurrence, the damage is not expected. For random variable, random process, people often use the method of probability statistics. And the method of probability statistics requires that data is large, it must be found out from a large amount of data, and can solve the problem. The gray system theory, then, is considered to be a gray quantity of the change in a certain range, and the random process can be seen as a gray process that changes in a certain range. The gray amount is not from the perspective of statistical rules, through large sample size, but with the data processing method, the chaos of the original data into a more regular pattern of production and then do research. If we consider road traffic in a region as a certain system, the system is gray with some certain factors (white information), such as road conditions, signal signs, etc., and some uncertain factors (black information), such as vehicle condition, climate, driver's psychological state, etc. It can be considered as a gray system which can be used to deal with gray system theory. 4th International Conference on Computer, Mechatronics, Control and Electronic Engineering (ICCMCEE 2015) © 2015. The authors Published by Atlantis Press 71 Establishment of Gray Model Overview of the Method Firstly, we suppose the road traffic accident data sequence is (0) (0) (0) (0) 1 2 { , , , } n x x x x = 2 . We use the gray system theory to establish the GM (1, 1): (1) (1) ( 1) [ (1) ] t b b x t x e μ μ μ − + = − + . The expression is the predicted values of the generated sequence. However, what we need is the predictive value of the original sequence. Therefore, it’s necessary of accumulated generating operation to achieve the predictive value of the original sequence: (0) (1) (1) (1) (1) (1) (1) 1 2 { , , , } n x a x a x a x = 2 . In the above expression, (1) (1) (1) (1) (0) 1 1 t t t a x x x x − = − = . Accuracy Test The test of residual error, that is ( ) E t : (0) (0) ( ) ( ). ( ) E t x t x t ∆ = . The relative residual error is: (0) ( ) ( ) ( ) E t e t x t = . The test of posteriori error: Suppose the mean of the original sequence and the residual errors respectively are x , E . Suppose the mean square error of the original sequence and the residual errors respectively are 2 1 S , 2 2 S . Therefore, the ratio of posteriori error i
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Published on 01/01/2015
Volume 2015, 2015
DOI: 10.2991/iccmcee-15.2015.15
Licence: Other
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