Multiple Stage Residual Model for Accurate Image Classification

Abstract

AbstractImage classification is an important topic in computer vision. As a key procedure, encoding the local features to get a compact representation for image affects the final classification accuracy largely. There is no doubt that encoding procedure leads to information loss, due to the existence of quantization error. The residual vector, defined as the difference between the local image feature and its corresponding visual word, is the chief culprit that should be responsible for the quantization error. Many previous algorithms consider it as a coding issue, and focus on reducing the quantization error by reconstructing the feature with more than one visual words, or by the so-called soft-assignment strategy. In this paper, we consider the problem from a different view, and propose an effective and efficient model, which is called Multiple Stage Residual Model (MSRM), to make full use of the residual vector to generate a multiple stage code. Our proposed model is a generic framework, which can be built upon many coding algorithms and improves the image classification performance of the coding algorithms significantly. The experimental results on the image classification benchmarks, such as UIUC 8-Sport, Scene-15, Caltech-101 image dataset, confirm the validity of MSRM.KeywordsVisual WordImage ClassificationQuantization ErrorResidual VectorFeature CodeThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.