Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

A Novel Technique for Dead End and Bump Detection in Indian Road Images Using Color Segmentation and Knowledge Base Object Detection


Affiliations
1 Department of Computer Science, Govt. Degree College, Bijapur, Karnataka, India
2 Department of Computer Science, Gulbarge University, Gulbarga, Karnataka, India
3 Department of Information Science & Engineering, S.D.M. College of Engineering & Technology, Dharwad, Karnataka, India
     

   Subscribe/Renew Journal


Sudden variation in the surface of the road, sharp turn and irregular road makes it very difficult for safe driving and causes lot of accidents. The situation is more critical especially for vehicles moving with high speed. Sudden bumps or visual dead ends pose a very difficult situation and applying sudden break at those juncture leads to many accidents. So, any technique which can avoid such accidents need to be invented on urgent basis. With this background in view we have proposed to undertake a study by which it will be possible to suggest a novel, efficient technique for detecting the road dead ends, sharp turns and bumps. The technique is such that it segments the road part from the rest of the image, detects the end point of the road by using edge and texture properties and analyzes the end points which are at the far end of the image or much closer. The closer ending of the roads are further thresholded for detecting the dead ends. Bumps are detected by extracting the horizontal profile of the roads and by estimating the volume of horizontal profile. System is tested against the images of the roads taken across different parts of India using digital camera from a moving SUV running at a speed of 30km/h. Experiments show promising results in the detection of both bumps and dead ends.

Keywords

Bump Detection, Color Segmentation, Road Image Analysis, Dead End, Vanishing Points, Hough Transform.
User
Subscription Login to verify subscription
Notifications
Font Size

Abstract Views: 238

PDF Views: 1




  • A Novel Technique for Dead End and Bump Detection in Indian Road Images Using Color Segmentation and Knowledge Base Object Detection

Abstract Views: 238  |  PDF Views: 1

Authors

Jyoti Y. Kulkarni
Department of Computer Science, Govt. Degree College, Bijapur, Karnataka, India
P. S. Hiremath
Department of Computer Science, Gulbarge University, Gulbarga, Karnataka, India
Jagadeesh Pujari
Department of Information Science & Engineering, S.D.M. College of Engineering & Technology, Dharwad, Karnataka, India

Abstract


Sudden variation in the surface of the road, sharp turn and irregular road makes it very difficult for safe driving and causes lot of accidents. The situation is more critical especially for vehicles moving with high speed. Sudden bumps or visual dead ends pose a very difficult situation and applying sudden break at those juncture leads to many accidents. So, any technique which can avoid such accidents need to be invented on urgent basis. With this background in view we have proposed to undertake a study by which it will be possible to suggest a novel, efficient technique for detecting the road dead ends, sharp turns and bumps. The technique is such that it segments the road part from the rest of the image, detects the end point of the road by using edge and texture properties and analyzes the end points which are at the far end of the image or much closer. The closer ending of the roads are further thresholded for detecting the dead ends. Bumps are detected by extracting the horizontal profile of the roads and by estimating the volume of horizontal profile. System is tested against the images of the roads taken across different parts of India using digital camera from a moving SUV running at a speed of 30km/h. Experiments show promising results in the detection of both bumps and dead ends.

Keywords


Bump Detection, Color Segmentation, Road Image Analysis, Dead End, Vanishing Points, Hough Transform.