Sensor fusion-based lane detection for LKS+ACC system

H. G. Jung; Y. H. Lee; H. J. Kang; J. Kim

doi:10.1007/s12239-009-0026-0

Sensor fusion-based lane detection for LKS+ACC system

H. G. Jung, Y. H. Lee, H. J. Kang, J. Kim

Department of Electrical and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

This paper discusses the market trends and advantages of a safety system integrating LKS (Lane Keeping System) and ACC (Adaptive Cruise Control), referred to as the LKS+ACC system, and proposes a method utilizing the range data from ACC for the sake of lane detection. The overall structure of lane detection is the same as the conventional method using monocular vision: EDF (Edge Distribution Function)-based initialization, sub-ROI (Region Of Interest) for left/right and distance-based layers, steerable filter-based feature extraction, and model fitting in each sub-ROI. The proposed method adds only the system for confining lane detection ROI to free space that is established by range data. Experimental results indicate that such a simple adaptive ROI can overcome occlusion of lane markings and disturbance of neighboring vehicles.

Original language	English
Pages (from-to)	219-228
Number of pages	10
Journal	International Journal of Automotive Technology
Volume	10
Issue number	2
DOIs	https://doi.org/10.1007/s12239-009-0026-0
Publication status	Published - 2009 Apr

All Science Journal Classification (ASJC) codes

Automotive Engineering

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10.1007/s12239-009-0026-0

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title = "Sensor fusion-based lane detection for LKS+ACC system",

abstract = "This paper discusses the market trends and advantages of a safety system integrating LKS (Lane Keeping System) and ACC (Adaptive Cruise Control), referred to as the LKS+ACC system, and proposes a method utilizing the range data from ACC for the sake of lane detection. The overall structure of lane detection is the same as the conventional method using monocular vision: EDF (Edge Distribution Function)-based initialization, sub-ROI (Region Of Interest) for left/right and distance-based layers, steerable filter-based feature extraction, and model fitting in each sub-ROI. The proposed method adds only the system for confining lane detection ROI to free space that is established by range data. Experimental results indicate that such a simple adaptive ROI can overcome occlusion of lane markings and disturbance of neighboring vehicles.",

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AB - This paper discusses the market trends and advantages of a safety system integrating LKS (Lane Keeping System) and ACC (Adaptive Cruise Control), referred to as the LKS+ACC system, and proposes a method utilizing the range data from ACC for the sake of lane detection. The overall structure of lane detection is the same as the conventional method using monocular vision: EDF (Edge Distribution Function)-based initialization, sub-ROI (Region Of Interest) for left/right and distance-based layers, steerable filter-based feature extraction, and model fitting in each sub-ROI. The proposed method adds only the system for confining lane detection ROI to free space that is established by range data. Experimental results indicate that such a simple adaptive ROI can overcome occlusion of lane markings and disturbance of neighboring vehicles.

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Sensor fusion-based lane detection for LKS+ACC system

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