[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.22937/IJCSNS.2020.22.2.28

Remote Sensing Image Classification for Land Cover Mapping in Developing Countries: A Novel Deep Learning Approach

Lynda, Nzurumike Obianuju (Department of Computer Science, Nile University of Nigeria)
Nnanna, Nwojo Agwu (Department of Computer Science, Nile University of Nigeria)
Boukar, Moussa Mahamat (Department of Computer Science, Nile University of Nigeria)

Publication Information

International Journal of Computer Science & Network Security / v.22, no.2, 2022 , pp. 214-222 More about this Journal

Abstract

Convolutional Neural networks (CNNs) are a category of deep learning networks that have proven very effective in computer vision tasks such as image classification. Notwithstanding, not much has been seen in its use for remote sensing image classification in developing countries. This is majorly due to the scarcity of training data. Recently, transfer learning technique has successfully been used to develop state-of-the art models for remote sensing (RS) image classification tasks using training and testing data from well-known RS data repositories. However, the ability of such model to classify RS test data from a different dataset has not been sufficiently investigated. In this paper, we propose a deep CNN model that can classify RS test data from a dataset different from the training dataset. To achieve our objective, we first, re-trained a ResNet-50 model using EuroSAT, a large-scale RS dataset to develop a base model then we integrated Augmentation and Ensemble learning to improve its generalization ability. We further experimented on the ability of this model to classify a novel dataset (Nig_Images). The final classification results shows that our model achieves a 96% and 80% accuracy on EuroSAT and Nig_Images test data respectively. Adequate knowledge and usage of this framework is expected to encourage research and the usage of deep CNNs for land cover mapping in cases of lack of training data as obtainable in developing countries.

Keywords

Convolutional neural network; remote sensing image classification; Land cover mapping; medium-resolution;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	D. Lu and Q. Weng, "A survey of image classification methods and techniques for improving classification performance," vol. 1161, 2007.
2	F. Oluwabunmi, A. Joan, A. Alaga, and A. Debora, "Geospatial Analysis of Landuse and Landcover Dynamics In," Int. J. Sci. Res. Comput. Sci. Eng. Inf. Technol., vol. 1, no. 2, pp. 149-157, 2016.
3	S. Basu, S. Ganguly, and S. Mukhopadhyay, "DeepSat - A Learning framework for Satellite Imagery DeepSat - A Learning framework for Satellite Imagery," no. September, 2015.
4	H. Song, Y. Kim, and Y. Kim, "A Patch-Based Light Convolutional Neural Network for Land- Cover Mapping Using Landsat-8 Images," pp. 1- 19, 2019.
5	F. Ponzio, G. Urgese, E. Ficarra, and S. Di Cataldo, "Dealing with lack of training data for convolutional neural networks: The case of digital pathology," Electron., vol. 8, no. 3, 2019.
6	R. P. De Lima and K. Marfurt, "Convolutional Neural Network for Remote - Sensing Scene Classification: Transfer Learning Analysis," 2020.
7	Z. Chen, T. Zhang, and C. Ouyang, "End-to-end airplane detection using transfer learning in remote sensing images," Remote Sens., vol. 10, no. 1, pp. 1-15, 2018.
8	S. P. Kannojia and G. Jaiswal, "Effects of Varying Resolution on Performance of CNN based Image Classification An Experimental Study," Int. J. Comput. Sci. Eng., vol. 6, no. 9, pp. 451-456, 2018.
9	J. Zhang, W. Li, P. Ogunbona, and D. Xu, "Recent advances in transfer learning for cross-dataset visual recognition: A problem-oriented perspective," ACM Comput. Surv., vol. 52, no. 1, pp. 1-35, 2019.
10	J. Song, S. Gao, Y. Zhu, and C. Ma, "A survey of remote sensing image classification based on CNNs," Big Earth Data, vol. 3, no. 3, pp. 232-254, 2019. DOI
11	M. Xie, N. Jean, M. Burke, D. Lobell, and S. Ermon, "Transfer Learning from Deep Features for Remote Sensing and Poverty Mapping," 2014.
12	M. Pashaei and H. Kamangir, "Review and Evaluation of Deep Learning Architectures for Efficient Land Cover Mapping with UAS Hyper- Spatial Imagery: A Case Study Over a Wetland," 2020.
13	A. Sharma, X. Liu, X. Yang, and D. Shi, "A patch- based convolutional neural network for remote sensing image classification," Neural Networks, vol. 95, pp. 19-28, 2017. DOI
14	L. Alzubaidi et al., Review of deep learning: concepts, CNN architectures, challenges, applications, future directions, vol. 8, no. 1. Springer International Publishing, 2021.
15	O. Day and T. M. Khoshgoftaar, "A survey on heterogeneous transfer learning," J. Big Data, vol. 4, no. 1, 2017. DOI
16	R. P. De Lima, A. Bonar, D. D. Coronado, K. Marfurt, and C. Nicholson, "Deep convolutional neural networks as a geological image classification tool," no. Dl.
17	S. M. Herrmann, M. Brandt, K. Rasmussen, and R. Fensholt, "Accelerating land cover change in West Africa over four decades as population pressure increased," Commun. Earth Environ., vol. 1, no. 1, pp. 1-10, 2020. DOI