J. Lilley, J. Yang, H. Balakrishnan, S. Seshan, A Unified Header Compression Framework for Low-Bandwidth Links in Proc. of 6th International Conference on Mobile Computing and Networking, Mobicom 2000, Boston, MA. Home/Search Document Details and Download
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Energy Aware Lossless Data Compression - Barr, Asanovic (2003) (9 citations) (Correct)
....of uniform header structure and selfsimilarity over the course of a particular networked conversation, 40 byte headers can be compressed to 3 5 bytes. Three byte headers are the common case. An all purpose header compression scheme (not confined to TCP IP or any particular protocol) appears in [24]. TCP IP payloads can be compressed as well with IPComp [39] but this can be wasted effort if data has already been compressed at the application layer. The Low Bandwidth File System (LBFS) exploits similarities between the data stored on a client and server, to exchange only data blocks which ....
J. Lilley, J. Yang, H. Balakrishnan, and S. Seshan. A unified header compression framework for low-bandwidth links. In 6th ACM MOBICOM, Aug. 2000.
The Design And Evaluation Of Web Prefetching and Caching Techniques - Davison (2002) (1 citation) (Correct)
....timing characteristics, and because it is well known by researchers. A longer version of this trace has been analyzed in depth by Gribble and Brewer [GB97] but the public version described here has also been used in numerous published papers (e.g. FCAB98, JBC98, BCF 99, THVK99, FJCL99, BS00, LYBS00, MIB00, PF00, RID00] 154 8.3.1 Background As mentioned previously in Chapter 4, the UC Berkeley Home IP HTTP Traces [Gri97] are a record of Web tra#c collected by Steve Gribble as a graduate student in November 1996. Gribble used a snooping proxy to record tra#c generated by the UC Berkeley ....
Jeremy Lilley, Jason Yang, Hari Balakrishnan, and Srinivasan Seshan. A unified header compression framework for low-bandwidth links. In Proceedings of MobiCom: Sixth Annual International Conference on Mobile Computing and Networking, Boston, August 2000.
Energy Aware Lossless Data Compression - Barr (2000) (9 citations) (Correct)
....of uniform header structure and self similarity over the course of a particular networked conversation, 40 byte 17 headers can be compressed to 3 5 bytes. Three byte headers are the common case. An allpurpose header compression scheme (not confined to TCP IP or any particular protocol) appears in [33]. TCP IP payloads can be compressed as well with IPComp [45] but this can be wasted effort if data has already been compressed at the application layer. The Low Bandwidth File System (LBFS) exploits similarities between the data stored on a client and server, to exchange only data blocks which ....
J. Lilley, J. Yang, H. Balakrishnan, and S. Seshan. A unified header compression framework for low-bandwidth links. In Proceedings of 6th ACM MOBICOM, Aug. 2000.
Three problems with Internetworking in cellular networks - Larzon (Correct)
....describes new or updated functionality is one suggested use of Active Networks [54] While the motivation for active networks is similar to our proposed framework, there are important di#erences. We focus on a very specific task header compression which significantly reduces complexity. In [32], Lilley et al. propose a unified header compression framework that includes a high level protocol description language. A platform independent protocol description is compiled into C code that compresses and decompresses headers of the described protocol. Their framework generalizes header ....
J. Lilley, J. Yang, H. Balakrishnan, and S. Seshan. A unified header compression framework for low-bandwidth links. In Proceedings of ACM MOBICOM 2000.
FLIP: a Flexible Protocol for Efficient Communication.. - Solis, Marcos, Obraczka (2001) (Correct)
....of viewing the network layer. In this case they propose an architecture where nodes select probabilistically unique address which aim to uniquely identify data flows at any point in time. There has also been work on header compression. The recently proposed Unified Header Compression Framework [16] aims at creating a standard way in which protocols in general can define header compression. Previous work [17] 18] targeted specific protocols such as TCP IP. 8 VII. CONCLUSION AND FUTURE WORK This paper described the design and implementation of FLIP, a network protocol whose goal is to ....
Jeremy Lilley, Jason Yang, Hari Balakrishnan and Srinivasan Seshan, "A unified header compression framework for lowbandwidth links," in 6th International Conference on Mobile Computing and Networking (MobiCom). ACM, August 2000.
HTTP Simulator Validation Using Real Measurements: A Case Study - Davison (2001) (2 citations) (Correct)
....specifically because of its nontrivial length, recorded timing characteristics, and because it is well known by researchers. A longer version of this trace has been analyzed in depth by Gribble and Brewer [13] but the version described here has also been used in numerous published papers (e.g. [8, 16, 9, 2, 24, 1, 18, 19, 21, 22]) 4.1 Background The UC Berkeley Home IP HTTP Traces [12] are a record of Web traffic collected by Steve Gribble as a graduate student in November 1996. Gribble used a snooping proxy to record traffic generated by the UC Berkeley Home IP dialup and wireless users (2.4Kbps, 14.4Kbps, and ....
J. Lilley, J. Yang, H. Balakrishnan, and S. Seshan. A unified header compression framework for low-bandwidth links. In Proc. of MobiCom: Sixth Annual Int'l Conf. on Mobile Computing and Networking, Boston, Aug. 2000.
Efficient Web Browsing for Mobile Clients using HTTP Compression - Krashinsky (2000) (3 citations) (Correct)
....fetching multiple objects by establishing separate connections for each transaction. It would be interesting to evaluate the benefits of streaming compression when used with this protocol. At a lower level, several studies have investigated specific techniques for compressing header information [13, 6]. This compression can be complimentary to the compression of HTTP messages, particularly in the case of TCP headers. Compression has also been performed at the lowest level in data compressing modems [16] This compression is generally not as effective as software based compression schemes [7, ....
J. Lilley, J. Yang, H. Balakrishnan, and S. Seshan. A unified header compression framework for low-bandwidth links. In 6th MobiCom, Boston, MA, August 2000.
Layered IP Header Compression for IP-enabled - Sensor Networks Edric (Correct)
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J. Lilley, J. Yang, H. Balakrishnan, S. Seshan, A Unified Header Compression Framework for Low-Bandwidth Links in Proc. of 6th International Conference on Mobile Computing and Networking, Mobicom 2000, Boston, MA.
Shelley Zhuang Kevin Lai Ion Stoica Randy Katz - Cs Division Eecs (Correct)
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LILLEY, J., YANG, J., BALAKRISHNAN, H., AND SE- SHAN, S. A unified header compression framework for low-bandwidth links. In Proceedings of MobiCOM (2000), pp. 131--142.
FLIP: A Flexible Interconnection Protocol for Heterogeneous.. - Solis, Obraczka (2003) (Correct)
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J. Lilley, J. Yang, H. Balakrishnan and S. Seshan. A unified header compression framework for low-bandwidth links. In International Conference on Mobile Computing and Networking (MobiCom). ACM, August 2000.
FLIP: a Flexible Protocol for Efficient Communication.. - Solis, Obraczka, Marcos (2001) (Correct)
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J. Lilley, J. Yang, H. Balakrishnan and S. Seshan. A unified header compression framework for low-bandwidth links. In 6th International Conference on Mobile Computing and Networking (MobiCom). ACM, August 2000.
The Case for a Flexible-Header Protocol in Power - Constrained Networks Ignacio (Correct)
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J. Lilley, J. Yang, H. Balakrishnan and S. Seshan, "A unified header compression framework for low-bandwidth links," in 6th International Conference on Mobile Computing and Networking (MobiCom). ACM, August 2000.
Host Mobility Using an Internet Indirection Infrastructure - Shelley Zhuang Kevin (2002) (8 citations) (Correct)
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Jeremy Lilley, Jason Yang, Hari Balakrishnan, and Srinivasan Seshan, "A unified header compression framework for lowbandwidth links," in Proceedings of MobiCOM, 2000, pp. 131--142.
Host Mobility Using an Internet Indirection Infrastructure - Shelley Zhuang Kevin (2003) (8 citations) (Correct)
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Jeremy Lilley, Jason Yang, Hari Balakrishnan, and Srinivasan Seshan, "A Unified Header Compression Framework for Low-Bandwidth Links," in Proceedings of MobiCOM, 2000.
Poster: A Robust Header Compression Technique for.. - Ranjani Sridharan.. (2003) (Correct)
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J. Lilley, J. Yang, H. Balakrishnan, and S. Seshan, "A Unified Header Compression Framework for LowBandwidth Links" Proc. of the Sixth Annual ACM/IEEE International Conference on Mobile Computing and Networking, August 2000
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