Object Detection and Classification Framework for Analysis of Video Data Acquired from Indian Roads

Aayushi Padia; Aryan T. N.; Sharan Thummagunti; Vivaan Sharma; Manjunath K. Vanahalli; Prabhu Prasad B. M.; Girish G. N.; Yong-Guk Kim; Pavan Kumar B. N.

doi:10.3390/s24196319

Sensors (Sep 2024)

Object Detection and Classification Framework for Analysis of Video Data Acquired from Indian Roads

Aayushi Padia,
Aryan T. N.,
Sharan Thummagunti,
Vivaan Sharma,
Manjunath K. Vanahalli,
Prabhu Prasad B. M.,
Girish G. N.,
Yong-Guk Kim,
Pavan Kumar B. N.

Affiliations

Aayushi Padia: Department of DSAI, Indian Institute of Information Technology, Dharwad 580009, India
Aryan T. N.: Department of DSAI, Indian Institute of Information Technology, Dharwad 580009, India
Sharan Thummagunti: Department of DSAI, Indian Institute of Information Technology, Dharwad 580009, India
Vivaan Sharma: Department of DSAI, Indian Institute of Information Technology, Dharwad 580009, India
Manjunath K. Vanahalli: Department of DSAI, Indian Institute of Information Technology, Dharwad 580009, India
Prabhu Prasad B. M.: Department of CSE, Indian Institute of Information Technology, Dharwad 580009, India
Girish G. N.: Department of CSE, Indian Institute of Information Technology, Dharwad 580009, India
Yong-Guk Kim: Department of Computer Engineering, Sejong University, Seoul 05006, Republic of Korea
Pavan Kumar B. N.: Computer Science and Engineering Group, Indian Institute of Information Technology, Sri City 517646, India

DOI: https://doi.org/10.3390/s24196319
Journal volume & issue: Vol. 24, no. 19
p. 6319

Abstract

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Object detection and classification in autonomous vehicles are crucial for ensuring safe and efficient navigation through complex environments. This paper addresses the need for robust detection and classification algorithms tailored specifically for Indian roads, which present unique challenges such as diverse traffic patterns, erratic driving behaviors, and varied weather conditions. Despite significant progress in object detection and classification for autonomous vehicles, existing methods often struggle to generalize effectively to the conditions encountered on Indian roads. This paper proposes a novel approach utilizing the YOLOv8 deep learning model, designed to be lightweight, scalable, and efficient for real-time implementation using onboard cameras. Experimental evaluations were conducted using real-life scenarios encompassing diverse weather and traffic conditions. Videos captured in various environments were utilized to assess the model’s performance, with particular emphasis on its accuracy and precision across 35 distinct object classes. The experiments demonstrate a precision of 0.65 for the detection of multiple classes, indicating the model’s efficacy in handling a wide range of objects. Moreover, real-time testing revealed an average accuracy exceeding 70% across all scenarios, with a peak accuracy of 95% achieved in optimal conditions. The parameters considered in the evaluation process encompassed not only traditional metrics but also factors pertinent to Indian road conditions, such as low lighting, occlusions, and unpredictable traffic patterns. The proposed method exhibits superiority over existing approaches by offering a balanced trade-off between model complexity and performance. By leveraging the YOLOv8 architecture, this solution achieved high accuracy while minimizing computational resources, making it well suited for deployment in autonomous vehicles operating on Indian roads.

Published in Sensors

ISSN: 1424-8220 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Chemical technology
Website: http://www.mdpi.com/journal/sensors

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