Charles E. Perkins, Mobile IP - Design Principles and Practices, Addison-Wesley Wireless Communications Series, 1998.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....Upcoming next generation mobile communications networks aim not only to offer Internet Protocol (IP) connectivity to customers, but also to be designed themselves on the basis of the Internet Protocol suite. One important development in this direction is the deployment of the Mobile IP protocol [17, 18, 22] in the Radio Access Network (RAN) of next generation cellular networks. However, there still remain some open questions regarding the realization of the authentication of mobile devices during handover operations, which are currently subject to intensive research and development efforts inside ....

C. Perkins. Mobile IP Design Principles and Practices. Number ISBN: 0-201-63469. AddisonWesley Longman, Reading, MA, USA, 1998.

....to carrying computers while traveling around to enjoy the tremendous services on the Internet. Ubiquitous computing has added a new feature, mobility, to the world of computing and communications. We have observed two strong growths of interests related to this trend. The first one is Mobile IP [15], which supports mobile hosts roaming from subnet to subnet without need of changing IP addresses. Mobile (home and foreign) agents are used to support seamless handoffs. The next generation IPv6 will include features of Mobile IP as inherent functionality. Another emerging wireless network ....

....Representative reactive protocols include DSR [5] ZRP [3] CBR [4] and AODV [11] A review of unicast routing protocols for MANET is in [18] Multicast is studied in [1] 2] Broadcasting issues are studied in [7] 8] 9] B. Mobile IP The Mobile IP is defined by IETF to support IP mobility [15]. Transparent to TCP and UDP, it allows sessions to remain connected when mobile hosts roam from subnet to subnet without the need of changing IP addresses. HA FA Foreign network Internet MH Data packet Encapsulated header MH sHome network Fig. 1. The transmission scenario of Mobile ....

C. E. Perkins. Mobile IP Design Principles and Practices. Addison-Wesley, 1997.

....that have to maintain routing tables for their operation. For example, in advanced P2P systems ad hoc connections to peers have to be established in the query routing process which is only possible if the receiving peer has a permanent IP address. This problem would be solved if Mobile IP [12] or IPv6 [13] were in place and available at a large scale because they take into account mobility (dynamicity) and offer a much larger address space. However, this requires considerable changes in the networking infrastructure of the complete Internet and it cannot be foreseen at the moment when ....

C. E. Perkins, B. Woolf, and S. R. Alpert. Mobile IP Design Principles and Practices. Prentice Hall PTR, 1998.

....logical identification of the peers participating in the overlay. For routing this logical identification is mapped onto an IP address in the routing tables. Since IP addresses are scarce most peers will have dynamic IP addresses that my change over time. This problem would be solved if Mobile IP [17] or IPv6 [24] were in place and available at a large scale because they take into account mobility (dynamism) and offer a much larger address space. However, this requires considerable changes in the basic networking infrastructure of the complete Internet and it cannot be foreseen at the moment ....

C. E. Perkins, B. Woolf, and S. R. Alpert. Mobile IP Design Principles and Practices. Prentice Hall PTR, 1998.

....3, in which we explain how location information is spread across the collection of servers that implement the service. The results of our simulations are discussed in Section 4. This section also compares the hierarchical approach to the more traditional and widely applied home based approaches [14, 15] and we demonstrate that hierarchical solutions are often better. We come to conclusions in Section 5. 2 The Globe Location Service The Globe location service is representative for many hierarchical location services. In this section, we briefly discuss its organization and concentrate only on ....

....the smallest aggregated distance is chosen as the center. A simple, effective, and widely applied strategy for locating mobile objects is to introduce a single server for each object and let that server keep track of an object s current location. These home based approaches are used in mobile IP [15], but also wireless telephony [14] Our discussion on hierarchical solutions makes sense only if these solutions show to be better than home based approaches. For this reason, we also consider the strategy MAP HOME, by which all requests for an object are always forwarded to a server running on a ....

C. Perkins. Mobile IP: Design Principles and Practice. Addison-Wesley, Reading, MA, 1997.

....Management, QoS in Wireless Network, Smooth Handoff. I. INTRODUCTION The Internet has attachment points at the edges that connect wireless mobile users to the Internet. The primary aim of Mobile IP is to adapt IP to achieve a robust communication between users who change their attachment points [1]. A major problem in Mobile IP arises in providing real time services while achieving certain QoS requirements. The high bandwidth required for real time services is only be solved through smaller cells. However, small wireless cells cause frequent handoffs. Frequent handoffs in non overlapping ....

C. Perkins, Mobile Ip Design Principles and Practices, Addison-Wesley Wireless Communication Series ,1997.

....between network systems. The GPRS network should consider this by using additional Mobile IP functions. MOBILE IP The system architecture of Mobile IP consists of several mobile agents, namely a Home Agent (HA) several Foreign Agents (FA) the Correspondent Node (CN) and a Mobile Node (MN) [2]. The Mobile Node receives the data traffic from a Correspondent Node via the Home Agent. The Home Agent manages the data flow to the Mobile Node. When the Mobile Node is located at the home network, the Home Agent acts as a normal router. If the Mobile Node moves from the home network to a ....

Charles E. Perkins, Mobile IP - Design Principles and Practices, Addison-Wesley Wireless Communications Series, 1998.

....for an interactive voice communication are presented. 1 Introduction The Internet has attachment points at the edges that connect wireless mobile users to the Internet. The primary aim of Mobile IP is to adapt IP to achieve a robust communication between users who change their attachment points [1]. A major problem in Mobile IP arises in providing real time services while achieving certain QoS requirements. The high bandwidth required for realtime services is only be solved through smaller cells. However, small wireless cells cause frequent hando#s. Frequent hando#s in non overlapping ....

C. Perkins, Mobile Ip Design Principles and Practices, Addison-Wesley Wireless Communication Series ,1997.

....and independent of the IP like hierarchical addressing. The main reason is the need for frequent network addressing updates caused by node mobility. With IP, when a node moves from one subnetwork to another, the network hierarchical addressing must be continuously updated. The Mobile IP [1] solution works well if there is a fixed infrastructure supporting the concept of home agent . When all nodes move, including the home agent, such a strategy cannot be directly applied. An interesting technique is to use multi home agents in the same network, where the corresponding database is ....

....participating in the network. Note that by setting p as the whole virtual addressing space V , p = 2 , f(U ) accomplishes with our purposes of distributing location information of nodes in the entire topology. The role of the home node is similar to the one of a home agent in Mobile IP [1]. Nevertheless, our approach has a dynamic nature any node can be responsible for the information about the location of other nodes in the network. Additionally, the control region of each node in Tribe topology determines the virtual addresses and the associated location information which the ....

C. E. Perkins, Mobile IP: Design Principles and Practices. Addison-Wesley, 1997.

....both wired and wireless communication links exist. There is a great amount of ongoing work on provisioning the current Internet with wireless accessibility and associated quality of service (QoS) Most of the research efforts are concentrated on the IP protocol layer problems such as mobile IP [13, 16] and routing protocols in MANET [4, 7] while some of them are focused 1 Department of Electrical and Computer Engineering and the CAIP Centex , Rutgers The State University of New Jersey, 94 Brett Road, Piscataway, NJ 08854, USA; Tel: 1 732 445 0600, Fax: 1 732 4454775; e mail: ....

C. E. Perkins, Mobile IP: Design Principles and Practice, Addison-Wesley: Reading, 1997.

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Charles E. Perkins, Mobile IP - Design Principles and Practices, Addison-Wesley Wireless Communications Series, 1998.

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C. E. Perkins, B. Woolf, and S. R. Alpert. Mobile IP Design Principles and Practices. Prentice Hall PTR, 1998.

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C. E. Perkins, Mobile IP: Design Principles and Practices, Prentice Hall PTR, ISBN: 0-201-63469-4, 1998

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C. E. Perkins. Mobile IP: Design Principles and Practices. Addison-Wesley, Reading, Massachusetts, 1998.

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C. E. Perkins, `Mobile IP, Design Principles and Practices', Addison Wesley, (1998).

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Perkins C., "Mobile IP, Design Principles and Practices.", Addison Wesley, (1998).

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C. E. Perkins, `Mobile IP, Design Principles and Practices', Addison Wesley, (1998).

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C. E. Perkins, B. Woolf, and S. R. Alpert. Mobile IP Design Principles and Practices. Prentice Hall PTR, 1998.

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Charles E. Perkins. Mobile IP: Design Principles and Practices. Addison-Wesley Longman, Inc., Berkeley, CA, 1997.

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Perkins C., "Mobile IP, Design Principles and Practices.", Addison Wesley, (1998).

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C. Perkins, Mobile IP: Design Principles and Practices. Reading, MA: Addison-Wesley, 1998.

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Perkins, Charles E., Mobile IP Design Principles and Practices, Addison-Wesley, 1998.

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C. E. Perkins, Mobile IP: Design Principles and Practices, Addison Wesley 1998.

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C. E. Perkins, Mobile IP: Design Principles and Practices (Addison-Wesley Wireless Communications Series). Reading, MA: Addison Wesley, 1998.

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Charles Perkins. Mobile IP Design Principles and Practices. Addison Wesley Longman, 1997.

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