Solving occlusion problem in 3D human motion reconstruction

Author

Roudsarabi, Nadiya ; Behrad, Ali Reza

Author_Institution

Fac. of Eng., Shahed Univ., Tehran

fYear

2008

fDate

27-28 Aug. 2008

Firstpage

701

Lastpage

706

Abstract

One of the important problems in human motion analysis is the 3D reconstruction of human motion, which utilizes the anatomic pointpsilas positions. These points can uniquely define the position and orientation of all anatomical segments. In the proposed algorithm, joint tracking is performed based on a n*n block of DCTs coefficient (descriptor matrix). Then we correct the false tracked joint such as occluded joint using an energy function which can estimate false joints using the length of limbs and other joint location. We divided the problem into two parts: 1) Torso correction; 2) Hand and Leg correction. It leads to correct location of all joints even when the occlusion occurs for a part of time. Finally, 3D reconstruction is performed using Taylor method. Algorithm is robust in human turning and temporal occluded limbs. Experimental results showed the promise of the algorithm.

Keywords

computer graphics; discrete cosine transforms; image motion analysis; image reconstruction; matrix algebra; 3D human motion reconstruction; DCT coefficient; Taylor method; anatomic point position; descriptor matrix; energy function; hand-leg correction; human motion analysis; joint tracking; occlusion problem; robust algorithm; torso correction; Biological system modeling; Data engineering; Discrete cosine transforms; Humans; Image reconstruction; Joints; Motion analysis; Skeleton; Streaming media; Tracking; 3D Reconstruction; DCT Coefficient; Descriptor Matrix; Energy Function; Human Motion; Occlusion;

fLanguage

English

Publisher

ieee

Conference_Titel

Telecommunications, 2008. IST 2008. International Symposium on

Conference_Location

Tehran

Print_ISBN

978-1-4244-2750-5

Electronic_ISBN

978-1-4244-2751-2

Type

conf

DOI

10.1109/ISTEL.2008.4651391

Filename

4651391