標題: | 車週監控系統之攝影機校正及影像接合 Camera Calibration and Image Stitching of Vehicle Surrounding Monitoring System |
作者: | 彭俊康 Peng, Chun-Kang 陳永昇 Chen, Yong-Sheng 資訊科學與工程研究所 |
關鍵字: | 監控系統;魚眼攝影機校正;影像接合;Surrounding monitoring system;Fisheye camera calibration;Image stitching |
公開日期: | 2014 |
摘要: | 車週有許多盲點區域會造成駕駛者難以判斷車週情況以導致交通事故的發
生,威脅到駕駛者與行人的安全。為了提高行車安全性,輔助駕駛系統提供了
車週狀況的警告信號及視覺提醒。然而,現今大部分的輔助駕駛系統只能提供
不夠寫實的車週影像。因此我們研發了一個寫實且即時的車週監控系統。而這
個系統中,我們用安裝在車上的四個魚眼攝影機以及一個深度攝影機來擷取車
週影像資訊及深度資訊,並且整合所有的資訊以提供駕駛者一個可轉換視角的
車週影像。
這次的研究分成三個部分,攝影機校正,影像接合以及深度調變混合投影
模型。我們提出了一個精準的攝影機校正方法先將原始扭曲的影像還原成針孔
投影無扭曲的影像,再利用階層式 RANSAC 將所有的攝影機統一到同一個世界座
標上。接著進行影像的接合以整合所有的影像資訊。原理是要使得影像的重疊
區域有個平滑的亮度變化,因此提出了一套亮度均化以及影像融合的程序。而
為了架構出整個可變視角的監控系統並且消除投影在地面的影像扭曲,我們仍
然提供一個立體模型以投影接合完的影像。
簡而言之,我們研發了一套即時的車週影像系統,可以提供駕駛者選擇一
個最適合目前駕駛情況的視角來獲取輔助駕駛的影像資訊。 Vehicles usually have blind spots that make driver difficult to judge the real situation of the surrounding environment and eventually threaten the safety of drivers and pedestrian. For the driving safety, driving assistance systems provide warning signals or visual cues of sur- rounding situation. Most of existing driving assistance system can only provide unrealistic vehicle surrounding images. In this work, we develop a vehicle surrounding monitoring system with realistic perception in real time. In our system, four fisheye cameras and one stereo camera are mounted on the four sides of the vehicle to capture the videos of the vehicle surrounding views. This system integrates all the image information and provides user some vehicle surrounding images in changeable viewpoint. The proposed procedure to construct this system are divided to three part: camera cal- ibration, images stitching, and the depth adaptive hybrid model. We propose a novel and accurate fisheye camera calibration method to dewarp the captured images into perspec- tive projection ones. These images are then spatially transformed to a ground plane with their own homography matrices computed by a hierarchical RANSAC procedure. Then we propose an image stitching technique to integrate all the image information. To smooth the brightness change in the overlapping region, we propose new method for brightness unification and image blending. For variable-viewpoint monitoring, the stitched image on the ground plan is projected to a 3-D hybrid projection model which can eliminate the dis- tortion caused by the homography process and makes the final rendered view look more realistic. Moreover, we have developed an online system in which the driver can choose the appropriate view to look around the surrounding environment of the vehicle. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT070156041 http://hdl.handle.net/11536/75928 |
顯示於類別: | 畢業論文 |