Title :
Dynamic global-principal component analysis sparse representation for distributed compressive video sampling
Author :
Wu Minghu ; Chen Rui ; Li Ran ; Zhou Shangli
Author_Institution :
Sch. of Electr. & Electron. Eng., Hubei Univ. of Technol., Wuhan, China
Abstract :
Video reconstruction quality largely depends on the ability of employed sparse domain to adequately represent the underlying video in Distributed Compressed Video Sensing (DCVS). In this paper, we propose a novel dynamic global-Principal Component Analysis (PCA) sparse representation algorithm for video based on the sparse-land model and nonlocal similarity. First, grouping by matching is realized at the decoder from key frames that are previously recovered. Second, we apply PCA to each group (sub-dataset) to compute the principle components from which the sub-dictionary is constructed. Finally, the non-key frames are reconstructed from random measurement data using a Compressed Sensing (CS) reconstruction algorithm with sparse regularization. Experimental results show that our algorithm has a better performance compared with the DCT and K-SVD dictionaries.
Keywords :
compressed sensing; data compression; discrete cosine transforms; principal component analysis; sampling methods; singular value decomposition; video coding; DCT; DCVS; K-SVD dictionaries; PCA sparse representation algorithm; compressed sensing reconstruction algorithm; distributed compressed video sensing; distributed compressive video sampling; dynamic global-principal component analysis sparse representation; employed sparse domain; nonlocal similarity; sparse regularization; sparse-land model; video reconstruction quality; Dictionaries; Image reconstruction; Principal component analysis; Quality of service; Video sequences; distributed video compressive sampling; global-PCA sparse representation; nonlocal similarity; sparse-land model;
Journal_Title :
Communications, China
DOI :
10.1109/CC.2013.6520935
