An intelligent train sound recognition system for designing level crossing control system using /
A level crossing (LX) is an intersection between a railroad line and a public road, which can be either passive or automated based on the protection principle. Accidents, which include deaths and serious injuries to road users and railway passengers, which occur at level crossings are usually severe...
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Format: | Thesis |
Language: | English |
Published: |
Kuala Lumpur :
Kulliyyah of Engineering, International Islamic University Malaysia,
2012
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Subjects: | |
Online Access: | Click here to view 1st 24 pages of the thesis. Members can view fulltext at the specified PCs in the library. |
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Summary: | A level crossing (LX) is an intersection between a railroad line and a public road, which can be either passive or automated based on the protection principle. Accidents, which include deaths and serious injuries to road users and railway passengers, which occur at level crossings are usually severe. Active control at a level crossing uses either flashing lights, bells, barrier arms, gates or a combination of these devices, while the passive control is accomplished by the provision of signs that indicate to the road users to check for the approach of trains prior to crossing the rail lines. Sound recognition is a process of identifying the source or origin of sound and is related to speech recognition. Sounds are unstructured and comparable to noise, variably composed and thus, models are difficult to build for them. There have been several studies on the control of level crossing which have focused more on the active control. The active control has also become automated and this has drastically reduced the loss of lives and properties at the level crossing. This has led to the use of intelligent systems such as fuzzy logic and expert systems. However, there is need for research into alternative means of controlling not only the level crossing gates but also the traffic lights and bell to reduce loss of lives at the level crossing. The aim of this research is to design and implement a robust system that can detect and classify unstructured sound using Artificial Neural Network for the control of level crossing. To achieve this, the samples of sounds of cars, aeroplanes, thunder, rain and train will be collected through field sampling as well as and from online sound databases. The sounds are then preprocessed and the features are extracted. Feature extraction consists of choosing the features which will most effectively preserve class separately. These extracted features will serve as input to the neural network that would be tasked with the classification process. The Mel Frequency Cepstral Coefficient and Perceptual Linear Prediction were used as feature extractors. Both Multilayer Perceptron (MLP) and Recurrent Neural Network (RNN) were utilized as the classifiers. The performance of the system was evaluated using some of the metrics used in pattern recognition such as identification accuracy, Receiver Operating Characteristics and misclassification rate. In an attempt to replicate a real life situation, the sounds were mixed together in twos and threes. For the sound of train, MLP gives a sensitivity of 96.6%, while having a misclassification rate of 7.4%, however, RNN gives a sensitivity of 70%, while having a misclassification rate of 16%. Similarly, for the sound of train+aircraft (T+A), MLP gives a sensitivity of 53.3%, while having a misclassification rate of 51.7%. However, RNN gives a sensitivity of 76.7%, while having a misclassification rate of 15.8%. Furthermore, for the sound of T+A+C, MLP gives a sensitivity of 76.7%, while having a misclassification rate of 58.9%. However, RNN gives a sensitivity of 90%, while having a misclassification rate of 10%. It has been shown by simulation that this novel level crossing control system has a very great potential that can be harnessed by the railway industry to help reduce the damage in form of loss of lives and properties that occur as a result of collusions at the railway crossing. |
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Item Description: | Abstracts in English and Arabic. "A dissertation submitted in fulfilment of the requirement for the degree of Master of Science (Mechatronics Engineering)."--On t.p. An intelligent train sound recognition system for designing level crossing control system--cover page. |
Physical Description: | xv, 129 leaves : ill. charts ; 30cm. |
Bibliography: | Includes bibliographical references (leaves 121-128). |