Abstract
There are differences between real and virtual scene information displayed on a virtual reality platform, not a true reflection of the reality of the real-time information. On the basis of virtual reality platform, how to collect, organize and publish the corresponding real-time virtual reality scene scenes information is becoming a new problem. In this essay, we will explain how to input, distribute and display real scene information based on the virtual reality system, a distributed virtual reality system. The current real-time video information corresponded with the specified scene object in the virtual reality system is recorded by the client, released to the streamer server and then distributed via content distribution server. The live streaming information displayed on the virtual reality client increases the fidelity and real-time of the virtual reality. The system is timely published, scalable and is capable of supporting remote deployment and distribution. The goal is to provide a reliable and effective real scene information dissemination and presentation of the real scene platforms based on the virtual reality environment.
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References
Wang, G.: ViWoSG: Ultra-large-scale Distributed Virtual Environment. SCIENCE CHINA Information Sciences 39(1), 96–106 (2009)
Caudell, T.: AR at boeing (EB/ OL) (1990), http://www.ipo.tue.nl/homepages/mrauterb/presentations/HCI2history/tsld096.html
Quinn, B., Ajmeroth, K.: IP multicast applications: Challenges and Solutions (EB/OL), http://www.ietf.org/rfc/rfc3170.txt (February 20, 2011)
Tran, D.A., Hua, K.A., et al.: A Peer-to-peer Architecture for Media Streaming. IEEE Journal on Selected Areas in Communications 22(1) (2004)
Vakali, A., et aI.: Content Distribution Networks Status and Trends. IEEE Internet Computing, 68–74 (November 2003)
Mulerikkal, et aI.: An Architecture for Distributed Content Delivery Network. IEEE (2007)
Lazar, I., Terrill, W.: Exploring Content Delivery Networking. IT Professional 3(4), 47–49 (2001)
Wong, K.-Y., Rao, A., Lanphier, R.: Web Cache Replacement Policies: A Pragmatic Approach, Macao Polytechnic Institute. IEEE Network (January 2006)
Cao, P., Irani, S.: Cost-Aware WWW Proxy Caching Algorithms. In: Proc. USENIX Symp. on Internet Tech. and Sys., pp. 193–206 (December 1997)
Adobe System Inc. Real-Time Messaging Protocol Specification (2009)
Pantos, R., May, W.: HTTP Live Streaming. IETF Draft (June 2010)
Tian, X., Chen, S.: Proxy Cache Replacement Algorithms for Streaming Meda Based on Smallest Cache Utility. Journal of Computer Applications 27(3), 733–736 (2007)
Yu, J., Liu, W., Wang, T.: Survey on Proxy Caching Technologies for Streaming Media. Computer Science 33(1), 18–21 (2006)
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Zhang, C., Wang, G. (2014). Distribution and Rendering of Real-Time Scene Based on the Virtual Reality System. In: Tan, T., Ruan, Q., Wang, S., Ma, H., Huang, K. (eds) Advances in Image and Graphics Technologies. IGTA 2014. Communications in Computer and Information Science, vol 437. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-45498-5_22
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DOI: https://doi.org/10.1007/978-3-662-45498-5_22
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-662-45497-8
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