Real-time Corridor Recognition for Autonomous Vehicle

Minami, Mamoru; Agbanhan, Julien; Suzuki, Hidekazu; Asakura, Toshiyuki

doi:10.20965/jrm.2001.p0357

Cited by 6 publications

(7 citation statements)

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“…Specifically, the surface model evaluates the fitness for the facial region (circular skin-colored region) which is the object of extraction, and the strips model evaluates it for the background (region not skin-colored). In a previous study by the authors it was verified that the surface-strips model is robust to noise other than the object, and to changes of the illumination environment, since the evaluation is based on the difference between the object and the background [12]. This property is utilized in this study.…”

Section: Evaluation Of Human Image By Color and Shape Informationmentioning

confidence: 90%

“…In addition, the surface-strips model is used as a shape evaluation model in this study; this model can estimate the position more accurately by combining an evaluation for the object and an evaluation for the background. By a previous study by the authors [11,12], it was verified that the surface-strips model is robust to noise and changes of the environment, since the evaluation is based on difference information between the object and the background. By the above processing, the problem of recognition of multiple pedestrians in an input image is replaced by an optimization problem of searching for multiple local maxima of the evaluation function [13].…”

Section: Introductionmentioning

confidence: 89%

“…Consequently, this study uses the Step-GA search in order to perform the search efficiently in real time [12,13]. The Step-GA search has the feature that the generation change procedure is not repeated for each input image frame until the convergence of the GA.…”

Section: Step-ga Searchmentioning

confidence: 99%

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Real‐time recognition of multiple pedestrians using car‐mounted camera

Suzuki

Minami

2005

Electron Comm Jpn Pt III

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SUMMARYIn ITS, there has recently been emphasis on the importance of developing a driving assistance system which can detect pedestrians with a car-mounted camera and warn of their presence in order to assure pedestrian safety. In particular, the ability to detect multiple pedestrians in real time (at a video rate of 30 fps) is indispensable from the practical point of view. Consequently, this study proposes a method of recognizing multiple moving objects (pedestrians) in real time using dynamic scene input from a car-mounted camera, as a basic technology for the driving assistance system. The presence of a pedestrian is evaluated on the basis of hue information in the HSI color representation system and model-based matching using a circular approximation model. Thus, in terms of the evaluation function, the problem of recognition of multiple pedestrians is replaced by the problem of search for multiple local maxima. However, it is difficult to realize the process in real time if the evaluation value is calculated for the whole image. This paper considers the "attention," which is a function that reduces the burden of human visual information processing, and proposes a method in which a pseudoattention function is realized by using a hybrid GA, allowing multiple local maxima to be retrieved efficiently in real time.A real-time experiment on the recognition of multiple pedestrians in dynamic images obtained from a carmounted camera was used to verify the effectiveness of the proposed method. In addition, the practical performance of the system was investigated by an experiment on the recognition of suddenly appearing pedestrians.

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Section: Evaluation Of Human Image By Color and Shape Informationmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 89%

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Real‐time recognition of multiple pedestrians using car‐mounted camera

Suzuki

Minami

2005

Electron Comm Jpn Pt III

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“…An evolutionary recognition process for dynamic image is that the GA is applied only one time to the newly input raw image. The difference from the GA recognition method for static image is simply that the image input process is included in the GA iteration loop, therefore every input image is evaluated only one time, and we named it as "1-step GA" (6) .…”

Section: B Recognition For Dynamic Imagementioning

confidence: 99%

“…Considering the varied length of the markers, an adaptive model with variable length is presented to solve the problem. In order to avoid scanning the whole search region, a genetic algorithm (GA) [6] is utilized in the research. The position of target to be identified in the whole search region is determined by exploring the optimum solution for object function.…”

Section: Introductionmentioning

confidence: 99%

Evolutionary recognition of marker using adaptive model-based matching

Gao

Hong-Ying

et al. 2008

2008 IEEE International Conference on Industrial Technology

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In order to ensure recognizing automatically and traveling stably for a mobile robot traveling along corridor and to confirm its capability in intelligence, the research presents a corridor recognition method using genetic algorithm with the adaptive model length based on the surface-strips model. The feasibility and stability of the proposed real-time detection method for the corridor's markers with high robustness against the noises such as lighting condition varieties and obstacles are discussed. The robustness of the method against environmental noises and the effectiveness of the method for real-time recognition with the adaptive model have been verified using real corridor images.

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