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Hindrance Detection and Avoidance in Driverless Cars Through Deep Learning Techniques

S. Priyanka, Saran Kumar A, V. Praveen, G. Sivapriya, Meenakshi Dhanalakshmi M.

2022Advances in electronic government, digital divide, and regional development book series10 citationsDOI

Abstract

Generally, a technique to detect each shifting and static item concurrently is needed due to the fact the static items inclusive of containers can fall on the street in the front of a vehicle and they may be risky. Obstacles can be detected and avoided by using neural networks. Obstacle detection algorithms have the capability to detect the items that can be out of doors. Irregularities on the street floor that aren't affecting the riding aren't considered. In this case, the detection may be primarily based on looking for unique patterns. In the chapter, a hybrid network based on the combination of stacked auto encoder-based deep belief network is built to detect the obstacles on the road. The system achieves accuracy greater than 90% when compared with existing literature.

Topics & Concepts

DoorsComputer scienceObstacleArtificial intelligenceDeep learningObstacle avoidanceReal-time computingComputer visionArtificial neural networkSimulationGeographyRobotOperating systemMobile robotArchaeologyAdvanced Neural Network ApplicationsAutonomous Vehicle Technology and SafetyVehicle License Plate Recognition
Hindrance Detection and Avoidance in Driverless Cars Through Deep Learning Techniques | Litcius