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April 12, 2013 - June 15, 2026

Available Issues

April 12, 2013 - June 15, 2026

A Data-Mining-Based Prefetching Approach to Caching for Network Storage Systems

Published Online:1 May 2006https://doi.org/10.1287/ijoc.1050.0142

References

  • Agrawal R., Srikant R. Mining sequential patterns. Proc. 1995 Internat. Conf. Data Engrg. (1995) Taipei, Taiwan:3–14CrossrefGoogle Scholar
  • Barish G., Obraczka K. World Wide Web caching: Trends and techniques. IEEE Comm. Magazine (2000) 38:178–185CrossrefGoogle Scholar
  • Bertsekas D., Gallagher R. G.Data Networks (1995) 2nd ed.(Prentice Hall, Englewood Cliffs, NJ) Google Scholar
  • Breslau L., Cao P., Fan L., Phillips G., Shenker S. Web caching and Zipf-like distributions: Evidence and implications. Proc. 1999 IEEE INFOCOMM (1999) New York:126–134CrossrefGoogle Scholar
  • Cao P., Irani S. Cost-aware WWW proxy caching algorithm. Proc. 1997 USENIX Sympos. Internet Tech. Systems (1997) Monterey, CA:193–206Google Scholar
  • Cao P., Liu C. Maintaining strong cache consistency in the World Wide Web. IEEE Trans. Comput. (1998) 47:445–457CrossrefGoogle Scholar
  • Chang C., Chen M. Web cache replacement by integrating caching and prefetching. Proc. ACM Internat. Conf. Inform. Knowledge Management (2002) McLean, VA:632–634Google Scholar
  • Chinen K., Yamaguchi S. An interactive prefetching proxy server for improvement of WWW latency. Proc. INET’97 (1997) Kuala Lumpur, MalaysiaGoogle Scholar
  • Cooley R., Mobasher B., Srivastava J. Data preparation for mining World Wide Web browsing patterns. Knowledge Inform. Systems (1999) 1:1–27CrossrefGoogle Scholar
  • Crovella M., Barford P. The network effects of prefetching. Proc. 1998 IEEE INFOCOM (1998) San Francisco, CA:1232–1240CrossrefGoogle Scholar
  • Davison B. D. NCS: Network and cache simulator—An introduction. (2001) . Technical report DCS-TR-444, Department of Computer Science, Rutgers University, New Brunswick, NJGoogle Scholar
  • Davison B. D. Predicting Web actions from html content. Proc. 2002 ACM Hypertext Conf. (2002) College Park, MD:159–168CrossrefGoogle Scholar
  • Dias G. V., Cope G., Wijayaratne R. A smart Internet caching system. Proc. INET’96 (1996) Montreal, CanadaGoogle Scholar
  • Fan L., Jacobson Q., Cao P., Lin W. Web prefetching between low-bandwidth clients and proxies: Potential and performance. Proc. 1999 Joint Internat. Conf. Measurement Model. Comput. Systems (1999) Atlanta, GACrossrefGoogle Scholar
  • Fang X., Sheng O. A monitoring algorithm for incremental association rule mining. Proc. 10th Workshop Inform. Tech. Systems (2000) Brisbane, AustraliaGoogle Scholar
  • Feldmann A., Caceres R., Douglis F., Glass G., Rabinovich M. Performance of Web proxy caching in heterogeneous bandwidth environments. Proc. 1999 IEEE INFOCOMM (1999) New York:107–116CrossrefGoogle Scholar
  • Ganti V., Gehrke J., Ramakrishnan R. DEMON: Mining and monitoring evolving data. IEEE Trans. Knowledge Data Engrg. (2001) 13:50–63CrossrefGoogle Scholar
  • Gibson G., Meter R. Network attached storage architecture. Comm. ACM (2000) 43:37–45CrossrefGoogle Scholar
  • Gwertzman J., Seltzer M. The case for geographically push-caching. Proc. 1995 Workshop Hot Oper. Systems (1995) Orcas Island, WA:51–55Google Scholar
  • Horng Y., Lin W., Mei H. Hybrid prefetching for www proxy servers. Proc. 1998 IEEE Internat. Conf. Parallel Distributed Systems (1998) Tainan, Taiwan:541–548Google Scholar
  • Jin S., Bestavros A. Popularity-aware greedy dual-size Web proxy caching algorithms. Proc. ICDCS’2000 (2000) Taipei, Taiwan:254–261Google Scholar
  • Kim S., Kim J., Hong J. A statistical, batch, proxy-side Web prefetching scheme for efficient Internet bandwidth usage. Proc. 2000 Networld + Interop Engrg. Conf. (2000) Las Vegas, NVGoogle Scholar
  • Kroeger T. M., Long D. D. E., Mogul J. C. Exploring the bounds of Web latency reduction from caching and prefetching. Proc. USENIX Sympos. Internet Techn. Systems (1997) Monterey, CA:13–22Google Scholar
  • Law A. M., Kelton W. D.Simulation Modeling and Analysis (2000) 3rd ed.(McGraw-Hill, New York) Google Scholar
  • Lee E. K., Thekkath C. A. Petal: Distributed virtual disks. Proc. 8th ACM Internat. Conf. Architectural Support Programming Languages Oper. Systems (1996) Cambridge, MA:84–92CrossrefGoogle Scholar
  • Liu Sheng O. R. Analysis of optimal file migration policies in distributed computer systems. Management Sci. (1992) 38:459–482LinkGoogle Scholar
  • Lou W., Lu H. Efficient prediction of Web access on a proxy server. Proc. ACM Internat. Conf. Inform. Knowledge Management (2002) McLean, VAGoogle Scholar
  • Markatos E., Chronaki C. E. A top-10 approach to prefetching on the Web. Proc. INET’98 (1998) Geneva, SwitzerlandGoogle Scholar
  • Padmanabhan V. N., Mogul J. C. Using predictive prefetching to improve World Wide Web latency. Proc. SIGCOMM’96 Conf. (1996) Stanford, CACrossrefGoogle Scholar
  • Paxson V., Floyd S. Wide-area traffic: The failure of poisson modeling. IEEE/ACM Trans. Networking (1995) 3:226–244CrossrefGoogle Scholar
  • Steinke S. Network delay and signal propagation. Network Magazine (2001) . http://www.networkmagazine.comGoogle Scholar
  • Tanenbaum A. S., Woodhull A. S.Operating Systems: Design and Implementation (1997) (Prentice-Hall, Englewood Cliffs, NJ) Google Scholar
  • Thekkath C. A., Mann T., Lee E. K. Frangipani: A scalable distributed file system. Proc. 16th ACM Sympos. Oper. Systems Principles (1997) Saint-Malo, France:224–237CrossrefGoogle Scholar
  • Yin J., Alvisi L., Dahlin M., Iyengar A. Engineering Web caching consistency. ACM Trans. Internet Tech. (2002) 2:224–259CrossrefGoogle Scholar
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