Title page for 945302019


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Student Number 945302019
Author Wen-hsien Kuo(郭文賢)
Author's Email Address No Public.
Statistics This thesis had been viewed 1744 times. Download 3205 times.
Department Executive Master of Computer Science and Information Engineering
Year 2007
Semester 2
Degree Master
Type of Document Master's Thesis
Language zh-TW.Big5 Chinese
Title 智慧型百萬像素網路攝影機影音串流處理與即時警報訊息傳遞機制之研究
Date of Defense 2008-07-15
Page Count 52
Keyword
  • H.264
  • RTCP
  • RTP
  • RTSP
  • streaming live
  • Abstract The purpose of this study is to design a network camera system to be used in securing user’s environment and safety. The designed system possesses some important characteristics, such as real time, high accuracy, automatic, networking, and digitization. Moreover, the system is simply composed of network camera and personal computer. The intention of this research is to utilize the network camera as a monitoring device to expand the scope of traditional monitor.
    Until recently, video security and surveillance were accomplished using Closed Circuit Television or CCTV which included analog cameras, coaxial cable and video tape recorders. Video security and surveillance started entering the digital age with the advent of CCD sensors which digitized image capture in the camera. However, transmission was still analog via coax to analog VCR's.
    Network camera is a stand-alone device which allows a user to view live and full motion video from anywhere on a computer network. In addition, it can simply allow user to use standard web-browser even over the internet. In general, the entire system has now been digitized with the introduction of network cameras incorporating on board processors and web server software. These network cameras can be connected directly to existing IP networks to eliminate the need of separate and expensive coaxial cable networks. Images can be viewed through the cameras and managed from anywhere via a web browser. With the adding of hard disk on the network, videos can be recorded.
        The main theme of this research is to discuss how the video streaming works under internet environment and consider the remote side to issue alarm message in real time. We have implemented the proposed system practically and the implemented system works as expected.
    Table of Content Abstract                  II
    摘要                  III
    誌謝                  IV
    附圖目錄                  VI
    表格目錄                  VII
    附錄目錄                 VIII
    第一章 緒論              1
    1.1研究動機              1
    1.2相關研究              3
    1.3實驗環境與系統架構          4
    1.4論文架構              6
    第二章 文獻探討              7
    2.1網路傳輸              7
    2.2H.264簡介              11
    第三章 網路攝影機應用平台簡介     18
    3.1系統簡介              18
    3.2系統規格              19
    3.3系統軟體規劃         19
    第四章 影像串流傳輸方法         20
    4.1即時影像串流傳輸機制     20
    4.2網路流量控制機制         25
    4.3影像串流完整性處理機制     29
    4.4即時警報訊息傳遞機制     32
    第五章 實驗設計與分析         34
    5.1即時封包傳遞TCP與UDP比較與分析34
    5.2網路流量控制比較與分析     37
    5.3影像串流完整性比較與分析     41
    5.4即時警報訊息傳遞比較與分析     43
    第六章 結論與未來研究方向         45
    6.1結論              45
    6.2未來研究方向         45
    參考文獻                  47
    附錄                  49
    附錄A GM-8180網路攝影機規格     49
    Reference [1]H. Schulzrinne, “RTP Profile for Audio and Video Conferences with Minimal Control,” RFC 1890, Internet Engineering Task Force, January 1996.
    [2]H. Schulzrinne, S. Casner, R. Frederick, and V. Jacobson, “RTP: A Transport Protocol for Real-Time Applications,” RFC 1889, Internet Engineering Task Force, January 1996.
    [3]Stephan Wenger, “H.264/AVC Over IP,” IEEE Transactions on circuits and systems for video technology, vol. 13, p. 7, July 2003.
    [4]畢厚杰,”新一代視頻壓縮標碼標準-H.264/AVC,”人民郵電出版社,vol. 6,pp. 84-100,September 2007.
    [5]“ITU-T Rec. H.264/ISO/IEC 14 496-10 AVC,” Draft ITU-T Recommendation and Final Draft International Standard of Joint Video Specification , Mar. 2003.
    [6]A. Tamhankar and K. R. Rao, “An overview of H.264/MPEG-4 Part 10,” The 4th EURASIP Conference focused on Video/Image Processing and Multimedia Communications, vol. 1, pp. 1-51 July 2003.
    [7]A. Chang, O. C. An, and Y. M. Yeung, “A novel approach to fast multi-frame selection for H.264 video coding,” Proceedings of 2003 IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 3, pp. 413-416, April 2003.
    [8]http://www.addpac.com/pdf/H.264%20Overview_eng.pdf
    [9]Ostermann, J. Bormans, J. List, P. Marpe, D. Narroschke, M. Pereira, F.Stockhammer and T. Wedi, “Video coding with H.264/AVC: tools, performance, and complexity,” IEEE Trans. Circuits and Systems Magazine IEEE, vol. 4, Issue 1, First Quarter pp.7-28 , 2004.
    [10]T. Wiegand, G. J. Sullivan, G. Bjøntegaard, and A. Luthra, “Overview of the H.264/AVC video coding standard,” IEEE Transactions on Circuits and Systems for Video Technology, vol. 13, no. 7, pp. 560-576, July 2003.
    [11]http://www.vcodex.fsnet.co.uk/h264_overview.pdf
    [12]“GM8180_EVB_UserGuide_v1.3,”Faraday technology corporation, September 2007.
    [13]曾現鈞, “H.264 先進視訊編碼概述.ppt,”國立台北科技大學.
    [14]T. Wiegand, G. J. Sullivan, G. Bjøntegaard, and A. Luthra, “Overview of the H.264/AVC video coding standard, ”IEEE Transactions on Circuits and Systems for Video Technology, vol. 13, no. 7, pp. 560-576, July 2003.
    Advisor
  • Kuo-Chin Fan(范國清)
  • Files
  • 945302019.pdf
  • approve immediately
    Date of Submission 2008-07-17

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