The increase in microsystem packaging density sets the requirement for component sizes in the system to become smaller and smaller. The scale decrease makes the analysis more complicated as the corresponding resolutio...
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The increase in microsystem packaging density sets the requirement for component sizes in the system to become smaller and smaller. The scale decrease makes the analysis more complicated as the corresponding resolution should be improved to a great extent. Interconnection in the system is a typical interface structure that widely appear in the packaging system, in which periodic microstructures may be included inside. A homogenization model is developed in this paper, which focuses on the interface behavior. The interface model based on micropolar theory provides a natural way to include the characteristic scale that can reflect the size effect of the considered structure. Computations are carried out as the numerical example of the model, and comparisons of this model with those of the conventional method show its validity and efficiency
With the increasingly extensive applications for the new emerging video coding standard, H.264/AVC, it becomes more and more important that we transport H.264/AVC video over MPEG-2 system by exploiting all the existin...
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With the increasingly extensive applications for the new emerging video coding standard, H.264/AVC, it becomes more and more important that we transport H.264/AVC video over MPEG-2 system by exploiting all the existing large amount of the infrastructure of MPEG-2 systems. In this paper, we propose two solutions for it. The key technologies are as follows: firstly we use an H.264/AVC video as an elementary stream of an MPEG-2 system and multiplex it into a TS (transport stream), then extend the T-STD (transport stream-system target decoder) of MPEG-2 standard, so as to transport MPEG-2 TS through Internet and decode it in the client. Ordinarily, the decoded elementary stream should come from a container (a system layer encapsulation including a compression layer), such as AVI. However, we take MPEG-2 TS as a container herein. We encapsulate the H.264/AVC elementary stream into this container in the server, and extract the H.264/AVC video from it to be decoded and be represented. If we use the UDP (user datagram protocol) as a transport protocol, the streaming process will be a real-time one. The experiment result shows that we get a good result, with less than 5% frames whose PSNR<40 dB. We can even get a robust streaming by using the HTTP/TCP (hyper-text transport protocol/transport control protocol) as a transport protocol. All the streaming solutions that we proposed in this paper can also be used for mobile video.
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