Advanced Multi-spectral Object detection using Night Vision Surveillance

Authors

  • T. Veena Assistant Professor, Department of CSE-AI & ML, Sri Vasavi Institute of Engineering & Technology, Nandamuru, Andhra Pradesh, India Author
  • Dokku Sesha Joshna UG Student, Department of CSE-AI & ML, Sri Vasavi Institute of Engineering & Technology, Nandamuru, Andhra Pradesh, India Author
  • Mohammad Sattar Basha UG Student, Department of CSE-AI & ML, Sri Vasavi Institute of Engineering & Technology, Nandamuru, Andhra Pradesh, India Author
  • Palagani Bhagyasri UG Student, Department of CSE-AI & ML, Sri Vasavi Institute of Engineering & Technology, Nandamuru, Andhra Pradesh, India Author
  • Chinnam Sairajeev UG Student, Department of CSE-AI & ML, Sri Vasavi Institute of Engineering & Technology, Nandamuru, Andhra Pradesh, India Author

Keywords:

Depth Wise Convolution, Encoder-Decoder Network, Image Fusion, Night Vision Thermal Images, Object Detection

Abstract

Surveillance has become an important task in recent time mainly due to the increasing of crime rates. The existing research on surveillance for day time has achieved better performance by detecting and tracking objects using deep learning algorithms. However, it is difficult to achieve the same performance for night vision mainly due to low illumination and/or bad weather situation. One of the important tasks in surveillance is object detection which results in both class and location of the detected object with clear boundary of the objects from the image. We propose an efficient object detection module using fusion of thermal and visible images. Fusion module consists of encoder-decoder network in which encoder uses depthwise convolution to extracts efficient features from the given thermal and visible images. Then after, fused image is reconstructed using convolutional layers and final map is utilized in object detection algorithm (i.e., mask RCNN). The proposed method shows the effectiveness of utilization of pre-processing module i.e., fusion in object detection algorithm. Here, it is observed that the proposed method performs better for night vision when images are trained carefully with various features. Moreover, proposed method performs better on real time night vision images having no illumination condition.

Downloads

Download data is not yet available.

References

R. Gade and T. B. Moeslund, “Thermal cameras and applications: a survey,” Machine vision and applications, vol. 25, no. 1, pp. 245–262, 2014.

J. Liu, S. Zhang, S. Wang, and D. N. Metaxas, “Multispectral deep neural networks for pedestrian detection,” arXiv preprint arXiv:1611.02644, 2016.

J. Ma, Y. Ma, and C. Li, “Infrared and visible image fusion methods and applications: a survey,” Information Fusion, vol. 45, pp. 153–178, 2019.

D. P. Bavirisetti and R. Dhuli, “Two-scale image fusion of visible and infrared images using saliency detection,” Infrared Physics & Technology, vol. 76, pp. 52–64, 2016.

R. Gao, S. A. Vorobyov, and H. Zhao, “Image fusion with cosparse analysis operator,” IEEE Signal Processing Letters, vol. 24, no. 7, pp. 943–947, 2017.

H. Li and X. Wu, “Densefuse: A fusion approach to infrared and visible images,” IEEE Transactions on Image Processing, pp. 1–10, 2019.

S. Rajkumar, Mouli, and Chandra, “Infrared and visible image fusion using entropy and neuro-fuzzy concepts,” in ICT and Critical Infrastructure: Proceedings of the 48th Annual Convention of Computer Society of India-Vol I. Springer, 2014, pp. 93–100.

J. Zhao, Y. Chen, H. Feng, Z. Xu, and Q. Li, “Infrared image enhancement through saliency feature analysis based on multi-scale decomposition,” Infrared Physics & Technology, vol. 62, pp. 86–93, 2014.

Y. Liu, S. Liu, and Z. Wang, “A general framework for image fusion based on multi-scale transform and sparse representation,” Information Fusion, vol. 24, pp. 147– 164, 2015.

K. R. Prabhakar, V. S. Srikar, and R. V. Babu, “Deepfuse: A deep unsupervised approach for exposure fusion with extreme exposure image pairs,” in 2017 IEEE International Conference on Computer Vision (ICCV). IEEE, 2017, pp. 4724–4732.

G. Huang, Z. Liu, L. Van Der Maaten, and K. Q. Weinberger, “Densely connected convolutional networks,” in 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR). IEEE, 2017, pp. 2261–2269.

T. T. Zin, H. Takahashi, T. Toriu, and H. Hama, “Fusion of infrared and visible images for robust person detection,” Image fusion, pp. 239–264, 2011.

J. H. Kim, G. Batchuluun, and K. R. Park, “Pedestrian detection based on faster r-cnn in nighttime by fusing deep convolutional features of successive images,” Expert Systems with Applications, vol. 114, pp. 15–33, 2018.

D. Guan, Y. Cao, J. Yang, Y. Cao, and M. Y. Yang, “Fusion of multispectral data through illumination-aware deep neural networks for pedestrian detection,” Information Fusion, vol. 50, pp. 148–157, 2019.

International Journal of Scientific Research in Science and Technology

Downloads

Published

26-04-2024

Issue

Vol. 11 No. 2 (2024): March-April

Section

Research Articles

License

Copyright (c) 2024 International Journal of Scientific Research in Science and Technology

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

Advanced Multi-spectral Object detection using Night Vision Surveillance. (2024). International Journal of Scientific Research in Science and Technology, 11(2), 854-861. https://ijsrst.com/index.php/home/article/view/IJSRST24112146

Similar Articles

1-10 of 128

You may also start an advanced similarity search for this article.