BSI PD ISO/IEC TR 29181-4:2013

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Information technology. Future Network. Problem statement and requirements – Mobility

Published By	Publication Date	Number of Pages
BSI	2013	30

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Categories: 35.100.30 - Network layer, BSI

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This part of ISO/IEC TR 29181 describes the problem statements of current network and the requirements for Future Network in the mobility perspective. This part of ISO/IEC TR 29181 mainly specifies

problems of the current network in mobile environment, and
requirements for mobility support in Future Network.

In addition, this part of ISO/IEC TR 29181 gives information on

existing mobility control schemes in the current network,
examples of high-level mobility control architecture for Future Network,
distributed mobility control in the Proxy Mobile IPv6 networks, and
additional considerations for Future Network mobility.

PDF Catalog

PDF Pages	PDF Title
6	Foreword
7	Introduction
8	Section sec_1 Section sec_2 Section sec_3 Section sec_3.1 1 Scope 2 Normative references 3 Terms and definitions
9	Section sec_3.2 Section sec_3.3 Section sec_3.4 Section sec_4 4 Abbreviations
10	Section sec_5 Section sec_5.1 Figure fig_1 5 General 5.1 Mobile environment in FN
11	Figure fig_2 Section sec_5.2 5.2 Related works on mobility in FN
12	Section sec_6 Section sec_6.1 Section sec_6.2 Section sec_6.3 Section sec_6.4 6 Problem statement of current network in mobile environment 6.1 Overloaded semantics of IP address 6.2 Single common protocol for heterogeneous networks 6.3 Integration of data delivery and control function 6.4 Centralized mobility control
13	Section sec_7 Section sec_7.1 Section sec_7.2 Section sec_7.3 Section sec_7.4 Section sec_8 Section sec_8.1 7 Architectural requirements for mobility support in FN 7.1 Separation of identifier and locator 7.2 Support of heterogeneous access networks 7.3 Separation of mobility control function from user data delivery 7.4 Support of distributed mobility control 8 Functional requirements for mobility support in FN 8.1 Location management
14	Section sec_8.2 Section sec_8.3 8.2 Route optimization 8.3 Handover control
15	Annex sec_A Annex sec_A.1 Annex sec_A.1.1 Annex sec_A.1.2 Annex A (informative) Existing IP-based mobility control protocols
16	Annex sec_A.1.3 Figure fig_A.1 Annex sec_A.2 Annex sec_A.2.1
17	Annex sec_A.2.2
18	Annex sec_A.3 Annex sec_A.3.1 Annex sec_A.3.2
19	Figure fig_A.2
20	Figure fig_A.3
21	Annex sec_B Annex sec_B.1 Figure fig_B.1 Annex sec_B.2 Annex sec_B.3 Annex B (informative) High-level architecture of mobility control in FN
22	Figure fig_B.2 Annex sec_B.4
23	Figure fig_B.3
24	Figure fig_B.4
25	Annex sec_C Annex sec_C.1 Annex sec_C.2 Figure fig_C.1 Annex C (informative) Distributed mobility control in Proxy MIPv6 networks
26	Annex sec_C.3 Figure fig_C.2 Figure fig_C.3
27	Annex sec_D Annex sec_D.1 Annex sec_D.2 Annex D (informative) Additional considerations for FN mobility
28	Reference ref_1 Reference ref_2 Reference ref_3 Reference ref_4 Reference ref_5 Reference ref_6 Reference ref_7 Reference ref_8 Reference ref_9 Reference ref_10 Reference ref_11 Reference ref_12 Reference ref_13 Reference ref_14 Reference ref_15 Reference ref_16 Reference ref_17 Reference ref_18 Reference ref_19 Reference ref_20 Reference ref_21 Reference ref_22 Reference ref_23 Bibliography