1 / 9

Movement Detection in Mobile IPv6

Movement Detection in Mobile IPv6. JinHyeock Choi, Samsung AIT jinchoe@samsung.com 2003.07.18. Contents. MD Overview MD Process MD Methods MD Problems MD Requirement & Further Steps. Internet. AR1. AR2. MN. AP1. AP2. MD, rough sketch. 1. MN is attached to AR1 via AP1.

samson
Download Presentation

Movement Detection in Mobile IPv6

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Movement Detectionin Mobile IPv6 JinHyeock Choi, Samsung AIT jinchoe@samsung.com 2003.07.18

  2. Contents • MD Overview • MD Process • MD Methods • MD Problems • MD Requirement & Further Steps

  3. Internet AR1 AR2 MN AP1 AP2 MD, rough sketch 1. MN is attached to AR1 via AP1

  4. Internet AR1 AR2 MN AP1 AP2 MD, rough sketch 1. MN is attached to AR1 via AP1 2. MN changes its attachment to AR2 via AP2. 3. MN receives some hint that it might have moved. 4. MN checks whether it can still reach the current Access Router, AR1 using NS/ NA exchange. 5. MN checks it can still use the current CoA using RS/ RA exchange. 6. If a MN can no longer use its current CoA, it gets another CoA and sends BU.

  5. Internet AR1 AR2 MN AP1 AP2 MD, rough sketch 1. MN is attached to AR1 via AP1 2. MN changes its attachment to AR2 via AP2. 3. MN receives some hint that it might have moved. 4. MN checks whether it can still reach the current Access Router, AR1 using NS/ NA exchange. 5. MN checks it can still use the current CoA using RS/ RA exchange. 6. If a MN can no longer use its current CoA, it gets another CoA and sends BU.

  6. MD Process • Step1: Hint • Step2: Checking the reachability of current AR. • Step3: Checking the validity of current CoA • Step4: Router Discovery with all the necessary information

  7. MD methods • Hint • L2 trigger • New RA message • RA beaconing • Checking the reachability of current AR • NUD (3 NS probes) • One NS and timeout • RA beaconing • Checking the validity of the current CoA • RS/ RA exchange • Checking whether the prefix of the current CoA is in RA. • Router Discovery with all the necessary information • RS/ RA exchange

  8. MD Problems • The inconsistency of RA information • Link local scope of router address • Some prefix may be omitted. • The delay to check the reachability of current CoA • It’s difficult to detect something is NOT there. • Roughly 3 secs for NUD • Random Delay in RS/ RA exchange • Erroneous detection/ Unnecessary signaling • ECS without L2 support

  9. MD Requirements & further steps • MD scheme requirements • Fast: low time delay • Precise/ Secure: Little error • Efficient: limit signaling (NS/NA or RS/RA) • Further Step • A Basic MD scheme as a guideline for MIPv6 implementators • A Optimized MD scheme capable of seamless handoff

More Related