整合動靜態視覺資訊的側邊盲點車輛偵測

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姓名

陳威伸(Wei-Shen Chen) 查詢紙本館藏

畢業系所

資訊工程學系

論文名稱

整合動靜態視覺資訊的側邊盲點車輛偵測
(Blind-spot Vehicle Detection with Dynamic and Static Visual Clues)

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摘要(中)

近年來交通事故日益嚴重，已有許多廠商和研究機構為了行車的安全，陸續開發和研究即時安全車輛系統。車輛行駛中，駕駛本身與後照鏡的視野相當有限，因此無法清楚地觀察兩邊的盲點區域。當駕駛變換車道時，若來車處於盲點區域無法看到，就很容易發生碰撞的意外。因此為了改善這種情況，在本研究中，我們在車側的後照鏡下方裝設一台攝影機，發展電腦視覺偵測技術，協助駕駛偵測側邊盲點區域的來車。系統會即時偵測對本車有威脅的後方來車;當車輛由盲點區域接近時，系統會發出警示提醒駕駛注意，以達到避免後方來車追撞的問題。
我們的系統分為七個部份，各別是定義偵測區域、偵測與篩選特徵點、估算光流向量、光流向量篩選、光流向量群聚、車底陰影偵測、及等速車輛偵測。為了效率因素的考量，先定義出一個偵測區域，並且在偵測區域篩選出特徵點後，估算光流向量，然後再將光流向量依照各光流所在位置的歐幾里得距離及光流長度群聚成移動中的物件。當偵測有移動物件靠近時，再並且利用車底陰影確認車輛後，即發出警示。當來車與主體車等速時，光流向量會趨近於零，因此無法透過動態資訊偵測到來車，這時我們再利用靜態資訊來判斷是否有等速車輛存在;若有等速車輛，系統也即發出警示提醒駕駛。
我們所提出的側邊盲點偵測演算法可適應多種天氣變異與行車狀況，在各種情況下平均偵測率 (accuracy) 為 96%，在 TI (Texas Instrument) DaVinci DM6437下執行效能可達每秒10張畫面，而在個人電腦下則可達每秒 30 到 35 張畫面。

摘要(英)

In these decades, traffic accidents have increased year after year. For traffic safety, many companies and research institutes developed real-time vehicle safety systems. When driving on the road, the view fields beside the host vehicle are limited and the drivers can not clearly observe both sides of the blind spot area; then accidents may occur when the driver changes lane. In order to avoid the accidents, we use a camera mounted under a side-view mirror and detect the vehicles with computer-vision technology.
The proposed blind-spot detection system consists of seven stages: defining the detection zone, feature point detection and filtering, optical flow estimation, optical flow filtering, optical flow grouping, vehicle underneath shadow detection, and still object detection. The dynamic information can detect moving objects, but can not detect vehicles which are still relative to the host vehicle. Thus, we include static information to assist detecting these objects.
The proposed detection system has been test in various weather conditions including sunny, cloudy, rainy day, night, etc. In experiments, the detection rate is about 97% in sunny day, 95% in cloudy day and 92% in night. The performance of the proposed system reaches 30 frames per second on an Intel? Core 2 Duo? E8300 2.83 GHz CPU, 2GB DDR RAM running on Microsoft? Windows 7.

關鍵字(中)

★ 側邊盲點車輛偵測

關鍵字(英)

★ Blind-spot Vehicle Detection

論文目次

摘要 ii
Abstract iii
誌謝 iv
目錄 v
圖目錄 vii
表目錄 xi
第一章緒論 1
1.1 研究動機 1
1.2 系統架構 2
1.3 論文架構 3
第二章相關研究 5
2.1 以特徵為基礎的偵測方法 5
2.2 以光流為基礎的偵測方法 10
2.3 以感測器為基礎的偵測方法 17
第三章特徵擷取與最小平方誤差光流估計 19
3.1 定義偵測區域 19
3.2 特徵擷取 21
3.3 最小平方誤差光流估計 22
3.4 光流篩選 30
3.5 光流向量分群 32
3.6 正負光流判定 35
第四章靜態資訊的偵測 36
4.1 車底陰影 36
4.1.1 去除白色地面標誌與物件 37
4.1.2 剩餘像素之灰階水平累積 38
4.1.3 水平累積數值分群 39
4.1.4 補償路面的不均勻亮度 40
4.1.5 尋找水平累積曲線的波峰與波谷 41
4.1.6 分析波峰與波谷的關係以確認波谷為陰影 42
4.2 等速車輛偵測 44
第五章實驗 47
5.1 實驗環境 47
5.2 實驗結果 49
5.3 實驗效能與效率分析 58
第六章結論與未來展望 60
6.1 結論 60
6.2 未來展望 61
參考文獻 62

參考文獻

[1] Achler, O. and M. M. Trivedi, "Vehicle wheel detector using 2D filter banks," in Proc. IEEE Intelligent Vehicles Symp., Parma, Italy, Jun.14-17, 2004, pp.25-30.
[2] Alonso, J. D., E. R. Vidal, A. Rotter, and M. Muhlenberg, "Lane-change decision aid system based on motion-driven vehicle tracking," IEEE Trans. on Vehicular Technology, vol.57, no.5, pp.2736-2746, 2008.
[3] Barron, J. L., D. J. Fleet, and S. S. Beauchemin, "Performance of optical flow techniques," Int. Journal of Computer Vision, vol.12, no.1, pp.43-77, 1994.
[4] Batavia, P. H., D. A. Pomerleau, and C. E. Thorpe, "Overtaking vehicle detection using implicit optical flow," in Proc. IEEE Conf. on Intelligent Transportation Systems, Pittsburgh, PA, Nov.9-12, 1997, pp.729-734.
[5] Becker, L. P., A. Debski, D. Degenhardt, M. Hillenkamp, and I. Hoffmann, eds., Overtaking Vehicle Detection using Implicit Optical Flow, Springer-Verlag, Berlin, 2005.
[6] Blanc, N., B. Steux, and T. Hinz, "LaRASideCam - a fast and robust vision-based blindspot detection system," in Proc. IEEE Intelligent Vehicles Symp., Istanbul, Turkey, Jun.13-15, 2007, pp.480-485.
[7] Bouguet, J. Y., eds., Pyramidal Implementation of the Lucas Kanade Feature Tracker Description of the algorithm, Intel Microprocessor Research Labs., 2007.
[8] Chung, E. Y., H. C. Jung, E. Chang, and I. S. Lee, "Vision based for lane change decision aid system," in Proc. 1st Int. Forum On Strategic Technology, Ulsan, Korea, Oct.18-20, 2006, pp.10-13.
[9] David, L. S., Z. Wu, and H. Sun, "Contour-based motion estimation," Computer Vision, Graphics, and Image Processing, vol.23, no.3, pp.313-326, 1983.
[10] Horn, B. K. P. and B. G. Schunck, "Determining optical flow," Int. Journal of Artificial Intelligence, vol.17, pp.185-204, 1981.
[11] Jin, J. S., Z. Zhu, and G. Xu, "A stable vision system for moving vehicles," IEEE Trans. on Intelligent Transportation Systems, vol.1, no.1, pp.32-39, 2000.
[12] Ko, S.-J., S.-H. Lee, and K.-H. Lee, "Digital image stabilizing algorithms based on bit-plane matching," IEEE Trans. on Consumer Electronics, vol.44, no.3, pp.617-622, 1998.
[13] Krips, M., J. Velten, A. Kummert, and A. Teuner, "AdTM tracking for blind spot collision avoidance," in Proc. IEEE Intelligent Vehicles Symp., Parma, Italy, Jun.14-17, 2004, pp.544-548.
[14] Lucas, B. D. and T. Kanade, "An iterative image registration technique with an application to stereo vision," in Proc. 7th Int. Joint Conf. on Artificial Intelligence, Vancouver, Canada, Aug.24-28, 1981, pp.674-679.
[15] Mota, S., E. Ros, J. Diaz, G. Botella, F. Vargas-Martin, and A. Prieto, "Motion driven segmentation scheme for car overtaking sequences," in Proc. 10th Int. Conf. on Vision in Vehicles, Granada, Spain, Sep.7-10, 2003, pp.1-6.
[16] Mota, S., E. Ros, E. M. Ortigosa, and F. J. Pelayo, "Bio-inspired motion detection for a blind spot overtaking monitor," Int. Journal of Robotics and Automation, vol.19, no.4, pp.190-196, 2004.
[17] Paik, J. K., Y. C. Park, and D. W. Kim, "An adaptive motion decision system for digital image stabilizer based on edge pattern matching," IEEE Trans. on Consumer Electronics, vol.38, no.3, pp.607-616, 1992.
[18] Ratakonda, K., "Real-time digital video stabilization for multi-media applications," in Proc. IEEE Int. Symp. on Circuits and Systems, Univ. of Illinois at Urbana-Champaign, IL, May 31-Jun.3, 1998, pp.69-72.
[19] Reichardt, W., "Autocorrelation, a principle for the evaluation of sensory information by the central nervous system," in Proc. Sensory Communication, Wiley, New York, 1961, pp.303-317.
[20] Ruder, M., W. Enkelmann, and R. Garnitz, "Highway lane change assistant," in Proc. IEEE Intelligent Vehicle Symp., Versailles, France, Jun.17-21, 2002, pp.240-244.
[21] Sotelo, M. A., J. Barriga, D. Fernandez, I. Parra, J. E. Naranjo, M. Marron, S. Alvarez, and M. Gavilan, "Vision-based blind spot detection using optical flow," in Proc. 11th Int. Conf. on Computer Aided Systems Theory, Las Palmas, Spain, 2007, pp.1113-1118.
[22] Uomori, K., A. Morimura, H. Ishii, T. Sakaguchi, and Y. Kitamura, "Automatic image stabilizing system by full-digital signal processing," IEEE Trans. on Consumer Electronics, vol.36, no.3, pp.510-519, 1990.
[23] Wang, J., G. Bebis, and R. Miller, "Overtaking vehicle detection using dynamic and quasi-static background modeling," in Proc. IEEE Conf. on Computer Vision and Pattern Recognition, Reno, Nevada, Jun.20-26, 2005, pp.64-71.
[24] Wu, B.-F., W.-H. Chen, C.-W. Chang, C.-J. Chen, and M.-W. Chung, "A new vehicle detection with distance estimation for lane change warning systems," in Proc. IEEE Intelligent Vehicles Symp., Istanbul, Turkey, Jun.13-15, 2007, pp.698-703.
[25] Zhou, J., D. Gao, and D. Zhang, "Moving vehicle detection for automatic traffic monitoring," IEEE Trans. on Vehicular Technology, vol.56, no.1, pp.51-59, 2007.

指導教授

曾定章(Din-Chang Tseng)

審核日期

2012-7-17

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