Adaptive technique for contrast enhancement of leading vehicle tracks

Document Type

Journal Article

Publication Title

Defence Science Journal

Volume

73

Issue

6

First Page

656

Last Page

665

Publisher

Defence Scientific Information & Documentation Centre

School

School of Engineering

RAS ID

64535

Comments

Kalra, M. K., Trivedi, A., & Shukla, S. K. (2023). Adaptive technique for contrast enhancement of leading vehicle tracks. Defence Science Journal, 73(6), 656-665. https://doi.org/10.14429/DSJ.73.18765

Abstract

During movement in various unpaved terrain conditions, the track impressions left over by the leading vehicles provide guiding and safe routes in the area. The delineation of these tracks captured by the images can extend immense support for guidance in real time. These tracks that look like edges in coarse-resolution images take the shape of elongated areas in fine-resolution images. In such a scenario, the high pass and edge detection filters give limited information to delineate these tracks passing through different surroundings. However, the distinct texture of these tracks assists in the delineation of these tracks from their surroundings. Gray level co-occurrence matrix (GLCM) representing the spatial relation of pixels is employed here to define the texture. The authors investigated the influence of different resolutions on the distinguishability of these tracks. The study revealed that texture plays an increasing role in distinguishing objects as the image resolution improves. The texture analysis extended to investigate the track impressions left over by the leading vehicle brings out an ample scope in delineating these tracks. The measures could improve the track contrast even better than conventional techniques. To select the most optimal contrast enhancement measure in a given scenario, authors proposed a quantified measure of track index. An investigation is made on the difference-based track index (TI) representing the mean contrast value of the track vis-à-vis off-track areas. The results show an increase in the quantified contrast from 7.83 per cent to 29.06 per cent. The proposed technique highlights the image with the highest track contrast in a given scenario. The study can lead to onboard decision-making for the rut following vehicles moving in low-contrast terrain.

DOI

10.14429/DSJ.73.18765

Access Rights

free_to_read

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