Abstract
Hyperspectral image classification with a limited number of training samples without loss of accuracy is desirable, as collecting such data is often expensive and time-consuming. However, classifiers trained with limited samples usually end up with a large generalization error. To overcome the said problem, we propose a fuzziness-based active learning framework (FALF), in which we implement the idea of selecting optimal training samples to enhance generalization performance for two different kinds of classifiers, discriminative and generative (e.g. SVM and KNN). The optimal samples are selected by first estimating the boundary of each class and then calculating the fuzziness-based distance between each sample and the estimated class boundaries. Those samples that are at smaller distances from the boundaries and have higher fuzziness are chosen as target candidates for the training set. Through detailed experimentation on three publically available datasets, we showed that when trained with the proposed sample selection framework, both classifiers achieved higher classification accuracy and lower processing time with the small amount of training data as opposed to the case where the training samples were selected randomly. Our experiments demonstrate the effectiveness of our proposed method, which equates favorably with the state-of-the-art methods.
Highlights
Remote sensing is a mature field of science and extensively studied to extract the meaningful information from earth surface or objects of interest based on their radiance acquired by the given sensors at short or medium distance [1] [2]
In general active learning approaches, the samples are selected through step 7 (B), but we propose to select the samples using step 7 (A) and compare the accuracies obtained by both ways in experimental and results section
We set the minimum training sample size as 5% for the first experiment and in each experiment, we increase the size with 5% newly selected samples
Summary
Remote sensing is a mature field of science and extensively studied to extract the meaningful information from earth surface or objects of interest based on their radiance acquired by the given sensors at short or medium distance [1] [2]. Fuzziness-based active learning framework for hyperspectral image classification design, data collection and analysis, decision to publish, or preparation of the manuscript
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