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...
详细信息
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.
Segmentation of moving object in a video sequence is one of the difficult problems in video processing. Moreover, multiple objects segmenting and extracting is more challenging task due to the complexity of multiple m...
详细信息
作者:
ZITZMAN, LHFALATKO, SMPAPACH, JLDr. Lewis H. Zitzman:is the group supervisor of the Advanced Systems Design Group
Fleet Systems Department The Johns Hopkins University Applied Physics Laboratory (JHU/APL). He has been employed at JHU/APL since 1972 performing applied research in computer science and in investigating and applying advanced computer technologies to Navy shipboard systems. He is currently chairman of Aegis Computer Architecture Data Bus and Fiber Optics Working Group from which many concepts for this paper were generated. Dr. Zitzman received his B.S. degree in physics from Brigham Young University in 1963 and his M.S. and Ph.D. degrees in physics from the University of Illinois in 1967 and 1972 respectively. Stephen M. Falatko:was a senior engineering analyst in the Combat Systems Engineering Department
Comptek Research Incorporated for the majority of this effort. He is currently employed at ManTech Services Corporation. During his eight-year career first at The Johns Hopkins University Applied Physics Laboratory and currently with ManTech Mr. Falatko's work has centered around the development of requirements and specifications for future Navy systems and the application of advanced technology to Navy command and control systems. He is a member of both the Computer Architecture Fiber Optics and Data Bus Working Group and the Aegis Fiber Optics Working Group. Mr. Falatko received his B.S. degree in aerospace engineering with high distinction from the University of Virginia in 1982 and his M.S. degree in applied physics from The Johns Hopkins University in 1985. Mr. Falatko is a member of Tau Beta Pi Sigma Gamma Tau the American Society of Naval Engineers and the U.S. Naval Institute. Janet L. Papach:is a section leader and senior engineering analyst in the Combat Systems Engineering Department
Comptek Research Incorporated. She has ten years' experience as an analyst supporting NavSea Spa War and the U.S. Department of State. She currently participates in working group efforts under Aegis Combat System Doctrin
This paper sets forth computer systems architecture concepts for the combat system of the 2010–2030 timeframe that satisfy the needs of the next generation of surface combatants. It builds upon the current Aegis comp...
详细信息
This paper sets forth computer systems architecture concepts for the combat system of the 2010–2030 timeframe that satisfy the needs of the next generation of surface combatants. It builds upon the current Aegis computer systems architecture, expanding that architecture while preserving, and adhering to, the Aegis fundamental principle of thorough systems engineering, dedicated to maintaining a well integrated, highly reliable, and easily operable combat system. The implementation of these proposed computer systems concepts in a coherent architecture would support the future battle force capable combat system and allow the expansion necessary to accommodate evolutionary changes in both the threat environment and the technology then available to effectively counter that threat. Changes to the current Aegis computer architecture must be carefully and effectively managed such that the fleet will retain its combat readiness capability at all times. This paper describes a possible transition approach for evolving the current Aegis computer architecture to a general architecture for the future. The proposed computer systems architecture concepts encompass the use of combinations of physically distributed, microprocessor-based computers, collocated with the equipment they support or embedded within the equipment itself. They draw heavily on widely used and available industry standards, including instruction set architectures (ISAs), backplane busses, microprocessors, computer programming languages and development environments, and local area networks (LANs). In this proposal, LANs, based on fiber optics, will provide the interconnection to support system expandability, redundancy, and higher data throughput rates. A system of cross connected LANs will support a high level of combat system integration, spanning the major warfare areas, and will facilitate the coordination and development of a coherent multi-warfare tactical picture supporting the future combatant command st
暂无评论