Vector quantization and signal compression
Vector quantization and signal compression
Fuzzy Neural Intelligent Systems: Mathematical Foundation and the Applications in Engineering
Fuzzy Neural Intelligent Systems: Mathematical Foundation and the Applications in Engineering
Computer Vision and Image Understanding - Special issue on event detection in video
An efficient PCA-based color transfer method
Journal of Visual Communication and Image Representation
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This paper presents the information signs compression and classification in vision-based guidance system that apply for Bangkok Train Sky (BTS) virtual blind man tourism navigation system which can have two main roles that first for signs compression and next for signs classification. The algorithms are described here take an advantage of information sign features that their colors and shapes are very different from natural environments. The system are mainly divided into three parts, first for image compression that are proposed the enhanced image coding algorithms called principle component analysis (PCA) plus wavelet transform with system error compensate via vector quantization techniques (VQ). The small bit rates for high-speed data transmission with a small space for data storage are required on Wi-Fi channel. Simultaneously, the peak signal to noise ratio (PSNR) has to be maintained. The shape analysis with a continuous thinning algorithms and image binary data encoding algorithm are used in second part for reduced the sized of data and can be representatives for suitable features data to classify. Finally the back propagation Neural Network (BNN) techniques are used in image recognition and classification the BTS signs. By applying the proposed method, performance has been improved which indicated by lower bit rate and better PSNR, while classify results are satisfied. Some results from the real BTS station scenes are shown that system performance can work well and would be train the virtual blind man guidance to perform some task at that place.