- TCP Fast Start Thus far we have developed two different solutions ---PHTTP and TCP session ---to address the
- Wireless data services have thus far been more promising than successful. We believe that future mobile information
- This is a slightly expanded version of a paper that appeared at NOSSDAV '99. Coordinating Congestion Management and Bandwidth Sharing for
- Using Differentiated Services Mechanisms to Improve Network Protocol and Application Performance
- A Comparison of Mechanisms for Improving TCP Performance over Wireless Links
- 9. Acknowledgments We are grateful to several people for their help in setting up and
- A Proposal for Supporting Lots of Unicast Multiplexed Sessions (SLUMS)1 Venkata N. Padmanabhan
- Addressing the Challenges of Web Data Transport Venkata Narayana Padmanabhan
- TCP Improvements for Heterogeneous Networks: The Daedalus Approach Hari Balakrishnan*, Venkata N. Padmanabhan*, Srinivasan Seshan+, Mark Stemm*, Elan Amir*, Randy H. Katz*
- TCP Session In Chapter 4 and Chapter 5, we analyzed the performance of HTTP/1.0 and PHTTP and identified
- Performance Lakshminarayanan,
- Background and Related Work In this chapter, we present background information relevant to our work. We also survey related
- POINT TO POINT COMMUNICATION USING VIRTUAL CHANNEL FLOW CONTROL AND
- [103] J. Touch. TCP Control Block Interdependence. RFC, April 1997. RFC2140. [104] J. Touch. The LSAM Proxy Cache a Multicast Distributed Virtual Cache. In Proc. 3rd
- Improving World Wide Web Latency \Lambda Venkata N. Padmanabhan
- Baltzer Journals December 1998 Fast and Scalable Wireless Handoffs
- bandwidth # PacketPair
- Implementing TCP Session B.1 Introduction
- Analysis of HTTP Performance In this chapter, we present a performance analysis of the Hypertext Transfer Protocol (HTTP), the
- Methodology In this chapter, we describe our research methodology. Given the wide diversity of networks and
- Asymmetric Access Networks In previous chapters, we considered performance problems that arise due to bandwidth limitations
- A Proposal for Supporting Lots of Unicast Multiplexed Sessions (SLUMS) 1 Venkata N. Padmanabhan
- Addressing the Challenges of Web Data Transport Venkata Narayana Padmanabhan
- Performance Analysis Tools In this appendix, we describe briefly the software tools that we used for our performance analysis.
- Using Differentiated Services Mechanisms to Improve Network Protocol and Application Performance
- RADAR: An InBuilding RFbased User Location and Tracking System Paramvir Bahl and Venkata N. Padmanabhan
- Bandwidth Estimation in Broadband Access Networks
- PersistentConnection HTTP In this chapter, we present our initial solution to the performance problems that arise from the
- [8] DirecPC Web page. http://www.direcpc.com, [9] A. D. Falk. A System Design for a Hybrid
- This is a slightly expanded version of a paper that appeared at NOSSDAV '99. Coordinating Congestion Management and Bandwidth Sharing for
- Addressing the Challenges of Web Data Transport Venkata N. Padmanabhan1 Randy H. Katz
- Introduction The decade of the 1990s has seen unprecedented growth in widearea data networks. This period
- Using Predictive Prefetching to Improve World Wide Web Latency
- Conclusions and Future Work We begin this chapter by recapitulating the challenges of Web data transport and the solutions we
- TCP Behavior of a Busy Internet Server: Analysis and Improvements Hari Balakrishnan*, Venkata N. Padmanabhan*, Srinivasan Seshan+, Mark Stemm*, Randy H. Katz*
- The Content and Access Dynamics of a Busy Web Server: Findings and Implications
- A Comparison of Mechanisms for Improving TCP Performance over Wireless Links
- Network Architecture for Heterogeneous Mobile Computing Brewer, Randy Katz
- their Web accesses via the proxy, much of the performance ben efit of fast start can be had without having to modify the thou
- Some Findings on the Network Performance of Broadband Hosts
- Fast and Scalable Handoffs for Wireless Internetworks Ram'on C'aceres Venkata N. Padmanabhan
- TCP Session: Advanced Issues In this chapter, we build on the TCP session technique we developed in Chapter 6 with a discus
