AMS : An Adaptive TCP Bandwidth Aggregation Mechanism for Multi-homed Mobile Hosts(<Special Section>New Technologies and their Applications of the Internet IV)
スポンサーリンク
概要
- 論文の詳細を見る
Recently, the number of multi-homed hosts is getting large, which are equipped with multiple network interfaces to support multiple IP addresses. Although there are several proposals that aim at bandwidth aggregation for multi-homed hosts, few of them support mobility. This paper proposes a new framework called AMS: Aggregate-bandwidth Multi-homing Support. AMS provides functions of not only bandwidth aggregation but also mobility by responding to the changes of the number of connections during communication without the support of underlying infrastructure. To achieve efficient data transmission, AMS introduces a function called address pairs selection to select an optimal combination of addresses of the peer nodes. We implemented AMS in the kernel of NetBSD and evaluated it in our test network, in which dummynet was used to control bandwidth and delay. The measured results showed that AMS achieved ideal bandwidth aggregation in three TCP connections by selecting optimal address pairs.
- 社団法人電子情報通信学会の論文
- 2006-12-01
著者
-
TERAOKA Fumio
Keio University
-
Saito Shunsuke
Keio University
-
TANAKA Yasuyuki
Communication Plateform Laboratory, R & D Center
-
KUNISHI Mitsunobu
Keio University
-
NISHIDA Yoshifumi
Sony Computer Science Laboratories, Inc.
-
Teraoka Fumio
Keio Univ. Yokohama‐shi Jpn
-
Teraoka Fumio
Faculty Of Science And Technology Keio University
-
Kunishi Mitsunobu
Faculty Of Science And Technology Keio University
-
Nishida Yoshifumi
Sony Computer Science Laboratories Inc.
-
Tanaka Yasuyuki
Faculty Of Science And Technology Keio University
-
TERAOKA Fumio
Faculty of Science and Technology, Keio University
関連論文
- SCTPmx: An SCTP Fast Handover Mechanism Using a Single Interface Based on a Cross-Layer Architecture
- AMS : An Adaptive TCP Bandwidth Aggregation Mechanism for Multi-homed Mobile Hosts(New Technologies and their Applications of the Internet IV)
- SCTPmx : An SCTP Fast Handover Mechanism Using a Single Interface Based on a Cross-Layer Architecture
- LINA: A New Approach to Mobility Support in Wide Area Networks (Special Issue on Internet Technology)
- Performance Enhancement of Transport Layer Handover on Single-Homed Mobile Nodes(New Challenge for Internet Technology and its Architecture)
- χLIN6-NEMO: A Network Mobility Protocol Based on LIN6(Internet Technology VI)
- HIGHLY PURIFIED NATURAL RUBBER II. EFFECT OF SMALL RUBBER PARTICLES
- HIGHLY PURIFIED NATURAL RUBBER I. PREPARATION OF ANIONIC LATEX AND ITS PHYSICAL PROPERTIES
- HIGHLY PURIFIED NATURAL RUBBER III. BIOLOGICAL PROPERTIES
- PMPATH : A Policy Routing System for Multihomed End-Hosts(Policy Routing, New Technologies and their Applications of the Internet III)
- vLIN6 : An Integrated Mobility Protocol in IPv6
- Epoxidized Natural Rubber Bionanocomposite : A Model Case of Bionanocomposite Using Nanofibrous Chitosan and Its Consequent Functional Properties
- FOREWORD
- A Multi-Domain Access Control Infrastructure Based on Diameter and EAP
- PNEMO: A Network-Based Localized Mobility Management Protocol for Mobile Networks
- ZNP: A New Generation Network Layer Protocol Based on ID/Locator Split Considering Practical Operation
- FOREWORD
- ZNP : A New Generation Network Layer Protocol Based on ID/Locator Split Considering Practical Operation