標題: 以多部由外朝內之KINECT快速建構立體人物模型
Fast 3D Human Modeling from Outside-In Views Using Multiple KINECT Devices
作者: 郭晉佑
Kuo, Jin-Yo
蔡文祥
Tsai, Wen-Hsiang
多媒體工程研究所
關鍵字: 3D掃描;深度感測器;人物建模;校正;3D scanning;depth-sensor;human modeling;calibration
公開日期: 2013
摘要: 隨著3D掃描技術的發展,有越來越多基於3D掃描器的應用,而最近最熱門的3D掃描應用就是人物建模。大部分的人物建模方法都必須花費相當的時間在人物取像以及模型建構上。本研究建造出了一個快速3D人物取像及建模系統,此系統由六部KINECT以人物所站位置為圓心排列成一個圓。3D建模之後,模型即可由3D列印機印出。 基於針孔相機原理,本研究首先提出一個座標轉換系統,可將KINECT得到的深度影像轉換為一3D空間中的點集合,藉以將KINECT得到的彩色影像及深度影像組合成一3D影像。此外,本研究亦對3D影像的彎曲現象做幾何校正。接著,本研究使用一「考慮色彩資訊的距離加權相關度(distance-weighted correlation, DWC)」對3D影像作比對,來校正相鄰KINECT的關係參數。另外,本研究也提出一方法,藉以使用校正後所得到的參數,來整合3D影像成為3D人物模型。 由於原始KINECT深度影像擁有許多類型的雜訊,會造成系統校正及模型建構上的問題。所以,本研究在建造人物模型前使用一些濾波器來處理不同種類的雜訊,讓深度影像更平滑及更少雜訊;並且提出一個方法找出最佳化的KINECT彩色影像,利用該影像對所建模型表面進行著色。最後,建構出的人物模型可經由3D列印機印出。 上述方法的實驗結果皆甚為良好,顯示本研究所提出的系統確實可行。
With the advance of 3D scanning technology, there are lots of applications based on the use of 3D scanners. Recently, a very popular application of 3D scanning is human modeling. But most of the existing modeling methods spend very much time in image scanning as well as in the subsequent works of system calibration and model construction. So, in this study, a fast 3D imaging system accompanied by a 3D modeling method is proposed. The fast 3D imaging system is composed of six KINECT devices, which together are arranged to form a circle to take KINECT images of a human standing in the middle. And the 3D modeling method can be used to construct human models which can finally be printed out by a 3D printer. For the proposed imaging system, at first based on the pinhole camera model, a method is employed to construct 3D images from the color and depth images acquired with a KINECT device. Also, a scheme is employed to correct the bending phenomenon existing in the constructed 3D image by geometric correction. Next, a method for calibrating the relationship between every two neighboring KINECT image frames is proposed, which is based on 3D image matching using the distance-weighted correlation (DWC) measure as well as the color information of the KINECT color images. Also proposed is a method for merging the constructed 3D images according to the calibrated relation parameters, resulting in a 3D human model. The original depth image acquired from the KINECT device usually includes many types of noise that may cause problems in the system calibration and model construction processes. A method for dealing with such noise before constructing the final human model is therefore proposed, which applies various types of filtering to each depth image to get a smoother and noise-reducing result. Also proposed is a method for finding an optimal KINECT color image for use in assigning colors to the surface pixels of the constructed model. The constructed human model is printed out finally with a 3D printer. Good experimental results are also shown to prove the feasibility of the proposed methods for real applications.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT070156618
http://hdl.handle.net/11536/75282
顯示於類別:畢業論文