Evolutionary algorithms in theory and practice: evolution strategies, evolutionary programming, genetic algorithms
Plate tectonics and convection in the earth's mantle: Toward a numerical simulation
Computing in Science and Engineering
Reflectance processing of remote sensing spectroradiometer data
Computers & Geosciences
The theory of evolution strategies
The theory of evolution strategies
Ant Colony Optimization
Introduction to Machine Learning (Adaptive Computation and Machine Learning)
Introduction to Machine Learning (Adaptive Computation and Machine Learning)
ICHIT '06 Proceedings of the 2006 International Conference on Hybrid Information Technology - Volume 02
Rosenbrock artificial bee colony algorithm for accurate global optimization of numerical functions
Information Sciences: an International Journal
Guest editorial: special section on ant colony optimization
IEEE Transactions on Evolutionary Computation
Biogeography-Based Optimization
IEEE Transactions on Evolutionary Computation
Damage detection based on improved particle swarm optimization using vibration data
Applied Soft Computing
Which environmental variables should I use in my biodiversity model?
International Journal of Geographical Information Science - Second Special Issue on Spatial Ecology
Artificial bee colony algorithm and pattern search hybridized for global optimization
Applied Soft Computing
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This work proposes a biogeography and geo-sciences based soft computing technique which is an extension of original biogeography based feature extraction algorithm using the concept of entropy inspired from the geo-sciences phenomenon of mantle convection and dynamics of the earth. This algorithm uses surface entropy in the relevant band of multi-spectral images as the basis of calculating the habitat suitability index which in turn forms the basis of identifying different terrain features in the satellite image. The proposed work has been primarily developed for the purpose of finding the applications of geo-sciences in developing computationally intelligent models. This may lead to another concept of process randomization, generation of virtual scenarios, etc. which are important ingredients in battlefield assessment. The proposed feature extractor algorithm has been applied on the datasets of Alwar region in Rajasthan and Patalganga area in Shivalik ranges. The results indicate that our proposed geo-sciences based classifier is highly efficient in extracting land cover features. Further when integrated with hybrid bio-inspired intelligent classifier proposed in our previous work, it improves its classification efficiency and outperforms the earlier probabilistic classifiers, recent soft computing classifiers such as membrane computing, hybrid FPAB/BBO, extended non-linear BBO, etc. and the very recent hybrid ACO2/PSO/BBO classifier proposed by us [16,21]. Our results conclude that the classifier based on our proposed model is the best known classifier developed till date. The proposed model is flexible and can adapt itself to suit to a large number of classification problems including mixed pixel resolution, face recognition, pattern recognition, etc. whereby entropy can be simply calculated in any other band or according to its standard definition and hence feature extraction can be made.