Mobility Support in IPv6.
01 Jan 2004-Vol. 3775, pp 1-165
About: The article was published on 2004-01-01 and is currently open access. It has received 3653 citations till now. The article focuses on the topics: Mobility management.
Citations
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01 Mar 2006
TL;DR: The Datagram Congestion Control Protocol is a transport protocol that provides bidirectional unicast connections of congestion-controlled unreliable datagrams that is suitable for applications that transfer fairly large amounts of data.
Abstract: The Datagram Congestion Control Protocol (DCCP) is a transport
protocol that provides bidirectional unicast connections of
congestion-controlled unreliable datagrams. DCCP is suitable for
applications that transfer fairly large amounts of data and that can
benefit from control over the tradeoff between timeliness and
reliability. [STANDARDS-TRACK]
714 citations
Book•
21 Dec 2009
TL;DR: 6LoWPAN: The Wireless Embedded Internet is an invaluable reference for professionals working in fields such as telecommunications, control, and embedded systems, and Advanced students and teachers in electrical engineering, information technology and computer science will also find this book useful.
Abstract: "It is stunningly thorough and takes readers meticulously through the design, conguration and operation of IPv6-based, low-power, potentially mobile radio-based networking" Vint Cerf, Vice President and Chief Internet Evangelist, Google This book provides a complete overview of IPv6 over Low Power Wireless Area Network (6LoWPAN) technology In this book, the authors provide an overview of the 6LoWPAN family of standards, architecture, and related wireless and Internet technology Starting with an overview of the IPv6 Internet of Things, readers are offered an insight into how these technologies fit together into a complete architecture The 6LoWPAN format and related standards are then covered in detail In addition, the authors discuss the building and operation of 6LoWPAN networks, including bootstrapping, routing, security, Internet ingration, mobility and application protocols Furthermore, implementation aspects of 6LoWPAN are covered Key Features: Demonstrates how the 6LoWPAN standard makes the latest Internet protocols available to even the most minimal embedded devices over low-rate wireless networks Provides an overview of the 6LoWPAN standard, architecture and related wireless and Internet technology, and explains the 6LoWPAN protocol format in detail Details operational topics such as bootstrapping, routing, security, Internet integration, mobility and application protocols Written by expert authors with vast experience in the field (industrial and academic) Includes an accompanying website containing tutorial slides, course material and open-source code with examples (http://6lowpannet ) 6LoWPAN: The Wireless Embedded Internet is an invaluable reference for professionals working in fields such as telecommunications, control, and embedded systems Advanced students and teachers in electrical engineering, information technology and computer science will also find this book useful
689 citations
Book•
01 Jan 2010
TL;DR: Interconnecting Smart Objects with IP is the first book that takes a holistic approach to the revolutionary area of IP-based smart objects, offering an in-depth examination of relevant IP protocols to build large scale smart object networks in support of a myriad of new services.
Abstract: Smart object technology, sometimes called the Internet of Things, is having a profound impact on our day-to-day lives. Interconnecting Smart Objects with IP is the first book that takes a holistic approach to the revolutionary area of IP-based smart objects. Smart objects are the intersection of networked embedded systems, wireless sensor networks, ubiquitous and pervasive computing, mobile telephony and telemetry, and mobile computer networking. This book consists of three parts, Part I focuses on the architecture of smart objects networking, Part II covers the hardware, software, and protocols for smart objects, and Part III provides case studies on how and where smart objects are being used today and in the future. The book covers the fundamentals of IP communication for smart objects, IPv6, and web services, as well as several newly specified low-power IP standards such as the IETF 6LoWPAN adaptation layer and the RPL routing protocol. This book contains essential information not only for the technical reader but also for policy makers and decision makers in the area of smart objects both for private IP networks and the Internet.
Shows in detail how connecting smart objects impacts our lives with practical implementation examples and case studies
Provides an in depth understanding of the technological and architectural aspects underlying smart objects technology
Offers an in-depth examination of relevant IP protocols to build large scale smart object networks in support of a myriad of new services
Table of Contents
Part I: The Architecture Chapter 1: What are Smart objects? Chapter 2: The IP protocol architecture Chapter 3: Why IP for smart objects? Chapter 4: IPv6 for Smart Object Networks and The Internet of Things Chapter 5: Routing Chapter 6: Transport Protocols Chapter 7: Service Discovery Chapter 8: Security for Smart Objects Chapter 9: Web services For Smart Objects Chapter 10: Connectivity models for smart object networks
Part II: The Technology Chapter 11: What is a Smart Object? Chapter 12: Low power link layer for smart objects networks Chapter 13: uIP A Lightweight IP Stack Chapter 14: Standardization Chapter 15: IPv6 for Smart Object Networks - A Technology Refresher Chapter 16: The 6LoWPAN Adaptation Layer Chapter 17: RPL Routing in Smart Object Networks Chapter 18: The IPSO Alliance Chapter 19: Non IP Technology
Part III: The Applications Chapter 20: Smart Grid Chapter 21: Industrial Automation Chapter 22: Smart Cities and Urban Networks Chapter 23: Home Automation Chapter 24: Building Automation Chapter 25: Structural Health Monitoring Chapter 26: Container Tracking
429 citations
TL;DR: This work aims to provide a review of the routing protocols in the Internet of Vehicles from routing algorithms to their evaluation approaches, and provides five different taxonomies of routing protocols.
Abstract: This work aims to provide a review of the routing protocols in the Internet of Vehicles (IoV) from routing algorithms to their evaluation approaches. We provide five different taxonomies of routing protocols. First, we classify them based on their transmission strategy into three categories: unicast, geocast, and broadcast ones. Second, we classify them into four categories based on information required to perform routing: topology-, position-, map-, and path-based ones. Third, we identify them in delay-sensitive and delay-tolerant ones. Fourth, we discuss them according to their applicability in different dimensions, i.e., 1-D, 2-D, and 3-D. Finally, we discuss their target networks, i.e., homogeneous and heterogeneous ones. As the evaluation is also a vital part in IoV routing protocol studies, we examine the evaluation approaches, i.e., simulation and real-world experiments. IoV includes not only the traditional vehicular ad hoc networks, which usually involve a small-scale and homogeneous network, but also a much larger scale and heterogeneous one. The composition of classical routing protocols and latest heterogeneous network approaches is a promising topic in the future. This work should motivate IoV researchers, practitioners, and new comers to develop IoV routing protocols and technologies.
334 citations
Cites methods from "Mobility Support in IPv6."
...According to [57], a mobility issue is usually addressed by using Mobile IPv6 [58] with Network Mobility extension [59]....
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...addressed by using Mobile IPv6 [58] with Network Mobility extension [59]....
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06 Jun 2004
TL;DR: The use of a novel and efficient discovery method using neighbor graphs and non-overlap graphs that reduces the total number of probed channels as well as the total time spent waiting on each channel and reduces the overall probe time significantly.
Abstract: The 802.11 IEEE Standard has enabled low cost and effective wireless LAN services (WLAN). With the sales and deployment of WLAN based networks exploding, many people believe that they will become the fourth generation cellular system (4G) or a major portion of it. However, the small cell size of WLAN creates frequent hand-offs for mobile users. If the latency of these hand-offs is high, as previous studies have shown, then the users of synchronous multimedia applications such as voice over IP (VoIP) will experience excessive jitter. The dominating factor in WLAN hand-offs has been shown to be the discovery of the candidate set of next access points. In this paper, we describe the use of a novel and efficient discovery method using neighbor graphs and non-overlap graphs. Our method reduces the total number of probed channels as well as the total time spent waiting on each channel. Our implementation results show that this approach reduces the overall probe time significantly when compared to other approaches. Furthermore, simulation results show that the effectiveness of our method improves as the number of non-overlapping channels increases, such as in the 5 GHz band used by the IEEE 802.11a standard.
330 citations
Cites background from "Mobility Support in IPv6."
...[26] D. B. Johnson, C. E. Perkins, and J. Arkko, Mobility Support in IPv6, Internet Draft draft-ietf-mobileip-ipv6-18.txt, Internet Engineering Task Force (IETF), Jun. 2002....
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...[34] R. Koodli, Fast Handovers for Mobile IPv6, Internet Draft draft-ietf-mobileip-fast-mipv6-08.txt, Internet Engineering Task Force (IETF), Oct. 2003....
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...Fast hando. schemes in layer-3, especially with Mobile IPv6 have been suggested in [34] and [6]....
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...[6] T. Cornall, B. Pentland, and P. Khee, Improved Handover Performance in Wireless Mobile IPv6, in Communication Systems, 2002....
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...In addition, they measured Layer-3 (Mobile IPv6 [26]) hando. latencies between 2.9 and 4.7 seconds....
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