Implementation, Comparison and Literature Review of Spatio-temporal and Compressed domains Object detection. By Gokul Krishna Srinivasan Submitted to Dr.

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Implementation, Comparison and Literature Review of Spatio-temporal and Compressed domains Object detection. By Gokul Krishna Srinivasan Submitted to Dr K.R.Rao Implementation, Comparison and Literature Review of Spatio-temporal and Compressed domains Object detection. By Gokul Krishna Srinivasan Submitted to Dr K.R.Rao

Object detection in a moving video stream is playing a prominent role in every branch of science and research [1]. Objection detection or tracking is done by two different methods Spatio-temporal domain Compression domain This project will deal with both the domains in order to bring out the advantages and disadvantages of each and every method in terms of complexity in computations and efficiency.

Compressed Domain Exploits the encoded information like motion vectors, discrete cosine transform (DCT) [1] coefficients, and macroblock types which are generated as a compressed bit stream [1, 2, 3 & 6] Uses motion vectors or DCT coefficients as resources in order to perform object detection and tracking [6]. The five different blocks are reference block B r, current block B c, background block B b, moving block B m and unmoving block B u The algorithm consists of four different steps initial region extraction, moving region detection, unmoving region creation and updating and modification of vector featured regions [2].

Figure 1 shows the initial region extracted from the motion vector values, in fig 2 the label f n-2, f n-1, and f n represent the corresponding frame and each block in the frame represents a macro block motion vector value. The initial regions are formed by one to one mapping of the previous and the next corresponding frame. Fig.1: Each block in the figure represents a macro block motion vector value, [2].

Fig.2: Extraction of moving and unmoving regions, [2].

Spatio-Temporal Object Detection: Identifies moving objects from portion of a video frame that differs significantly from a background model There are four main steps in a background subtraction algorithm [5], they are preprocessing, background modeling, foreground detection and data validation as shown in fig.3. Figure 3 : Steps in background subtraction algorithm

Non-recursive technique uses a sliding window method and it stores a buffer of the previous L video frames, and estimates the background image based on the temporal variation of each pixel within the buffer [5, 7]. Recursive technique is a non-adaptive technique and does not use past input frame information. Foreground detection just compares the input frame with the background model and uses a threshold value as in binary classification [5, 7]. Data validation is the process of improving the candidate foreground mask based on information obtained from outside the background model. All the background models have three main limitations, first, they ignore any correlation between neighboring pixels; second, the rate of adaption may not match the moving speed of the foreground objects; and third, non-stationary pixels from moving objects are easily mistaken as true foreground objects. These limitations of background model are reduced in foreground detection and the possibility of false detection is also reduced.

1.Qiya Z and Zhicheng L, “Moving object detection algorithm for H.264/AVC compressed video stream”, ISECS International Colloquium on Computing Communication, control and management, vol. 1, pp , Sep, Yokoyama T, Iwasaki T, and Watanabe T,” Motion vector based moving object detection and tracking in the MPEG Compressed Domain”, Seventh International Workshop on content based Multimedia Indexing, pp , Digital Object Identifier: /CBMI , Aug, /CBMI Kapotas K and Skodras A. N,” Moving object detection in the H.264 compressed domain”, International Conference on Imaging systems and techniques, pp ,, Digital Object Identifier: /IST , Aug, /IST Sen-Ching S. C and Kamath C,” Robust techniques for background subtraction in urban traffic video” Center for Applied Scientific Computing, Lawrence Livermore National Laboratory, vol. 1, pp , Jul 2004.

5.Elhabian S. Y, El-Sayed K. M,” Moving object detection in spatial domain using background removal techniques- state of the art”, Recent patents on computer science, Vol. 1, pp , Apr, Sukmarg O and Rao K. R,” Fast object detection and segmentation in MPEG compressed domain”, TENCON 2000, proceedings, vol. 3, pp , Mar, Thompson W. B and Ting-Chuen P,” Detecting moving objects”, International journal of computer vision, vol. 6, pp , Jun, 1990.