A novel content based image retrieval (CBIR) algorithmusing relevant feedback is presented. The proposed frameworkhas three major contributions: a novel feature descriptor calledcolor spectral histogram (CSH) to ...A novel content based image retrieval (CBIR) algorithmusing relevant feedback is presented. The proposed frameworkhas three major contributions: a novel feature descriptor calledcolor spectral histogram (CSH) to measure the similarity betweenimages; two-dimensional matrix based indexing approach proposedfor short-term learning (STL); and long-term learning (LTL).In general, image similarities are measured from feature representationwhich includes color quantization, texture, color, shapeand edges. However, CSH can describe the image feature onlywith the histogram. Typically the image retrieval process starts byfinding the similarity between the query image and the imagesin the database; the major computation involved here is that theselection of top ranking images requires a sorting algorithm to beemployed at least with the lower bound of O(n log n). A 2D matrixbased indexing of images can enormously reduce the searchtime in STL. The same structure is used for LTL with an aim toreduce the amount of log to be maintained. The performance ofthe proposed framework is analyzed and compared with the existingapproaches, the quantified results indicates that the proposedfeature descriptor is more effectual than the existing feature descriptorsthat were originally developed for CBIR. In terms of STL,the proposed 2D matrix based indexing minimizes the computationeffort for retrieving similar images and for LTL, the proposed algorithmtakes minimum log information than the existing approaches.展开更多
文摘A novel content based image retrieval (CBIR) algorithmusing relevant feedback is presented. The proposed frameworkhas three major contributions: a novel feature descriptor calledcolor spectral histogram (CSH) to measure the similarity betweenimages; two-dimensional matrix based indexing approach proposedfor short-term learning (STL); and long-term learning (LTL).In general, image similarities are measured from feature representationwhich includes color quantization, texture, color, shapeand edges. However, CSH can describe the image feature onlywith the histogram. Typically the image retrieval process starts byfinding the similarity between the query image and the imagesin the database; the major computation involved here is that theselection of top ranking images requires a sorting algorithm to beemployed at least with the lower bound of O(n log n). A 2D matrixbased indexing of images can enormously reduce the searchtime in STL. The same structure is used for LTL with an aim toreduce the amount of log to be maintained. The performance ofthe proposed framework is analyzed and compared with the existingapproaches, the quantified results indicates that the proposedfeature descriptor is more effectual than the existing feature descriptorsthat were originally developed for CBIR. In terms of STL,the proposed 2D matrix based indexing minimizes the computationeffort for retrieving similar images and for LTL, the proposed algorithmtakes minimum log information than the existing approaches.
