Indian Journal of Computer Science

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Night Time Headlight Detection using CNN Based Object Tracking


Affiliations
1 Student, Manipal Prolearn, 3rd Floor, Salarpuria Symphony, 7, Service Road, Pragathi Nagar, Electronics City Post, Bengaluru – 560 100, India
2 Application Development Analyst, Sri Manoj Women's Hostel, Near Paradise Restaurant, Indira Nagar, Gachibowli, Hyderabad - 500 032, Telangana, India

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Due to bad visibility many accidents take place at night time. High beams used by oncoming vehicles produce glare and pose discomfort to people, thereby contributing to a big portion of these accidents. Our main goal is to detect and track the oncoming vehicle's headlights from the images extracted from a camera by using a trained CNN model and switch the lighting of the vehicle from high beam to low beam. When there is no oncoming vehicle, the lighting automatically switches to high beam. This will reduce the discomfort caused to the oncoming vehicle's driver and improve visibility for both the vehicles greatly, thereby reducing the risk of an accident.

Keywords

Frames Extraction, Labeling, TF Object Detection API.

Manuscript Received: November 2, 2019; Revised: November 14, 2019; Accepted: November 17, 2019. Date of Publication: December 5, 2019.

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  • Night Time Headlight Detection using CNN Based Object Tracking

Abstract Views: 149  |  PDF Views: 0

Authors

Sushruth Badri
Student, Manipal Prolearn, 3rd Floor, Salarpuria Symphony, 7, Service Road, Pragathi Nagar, Electronics City Post, Bengaluru – 560 100, India
Vemuri Rani Mounika
Application Development Analyst, Sri Manoj Women's Hostel, Near Paradise Restaurant, Indira Nagar, Gachibowli, Hyderabad - 500 032, Telangana, India

Abstract


Due to bad visibility many accidents take place at night time. High beams used by oncoming vehicles produce glare and pose discomfort to people, thereby contributing to a big portion of these accidents. Our main goal is to detect and track the oncoming vehicle's headlights from the images extracted from a camera by using a trained CNN model and switch the lighting of the vehicle from high beam to low beam. When there is no oncoming vehicle, the lighting automatically switches to high beam. This will reduce the discomfort caused to the oncoming vehicle's driver and improve visibility for both the vehicles greatly, thereby reducing the risk of an accident.

Keywords


Frames Extraction, Labeling, TF Object Detection API.

Manuscript Received: November 2, 2019; Revised: November 14, 2019; Accepted: November 17, 2019. Date of Publication: December 5, 2019.




DOI: https://doi.org/10.17010/ijcs%2F2019%2Fv4%2Fi6%2F150425