Mobility in heterogeneous networks (E1)
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Mobility in heterogeneous networks (E1)
Course | UNIK4700, UNIK9700 |
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Title | Security in heterogeneous networks |
Lecture date | 2014/11/21 0900-1200 |
presented | by Mikhail Yakubovich, Josef Noll |
Objective | Present the first ideas of the scenario
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Learning outcomes | |
Pensum (read before) | |
References (further info) | Mobility |
Keywords | Heterogeneous networks, 5G, Mobile Security, Mobility |
this page was created by Special:FormEdit/Lecture, and can be edited by Special:FormEdit/Lecture/Mobility in heterogeneous networks (E1).
Agenda
- Presentation by Mikhail on security in heterogeneous networks File:Security heterogeneous networks Mikhail.pdf
- Title
- UNIK4700/UNIK9700 Mobility
- Author
- Josef Noll,
- Footer
- Mobility in heterogeneous networks (E1)
- Subfooter
- UNIK4700/UNIK9700
⌘ E1 - Mobile Network mobility
⌘ Mobility principles
- Continuous mobility enables continuous availability of services while the user moves
- Discrete mobility enables the availability of services within certain areas and for certain access points, e.g home and office, but not while moving from one area to another.
- Portability is an example of discrete terminal mobility, where it is only allowed to move a terminal from one plug to another.
⌘ Handover
Handover: Changing the point of connection while communicating
- When a mobile user travels from one area of coverage or cell to another cell within a call’s duration the call should be transferred to the new cell’s base station
Why handover is needed?
- Mobility
⌘ GSM Handover types
Network-controlled, mobile terminal assisted handover
- The network takes the handover decisions
- The mobile terminal supervises and reports its signal quality
Four types of handover
- Intra BTS handover
- Intra-BSC handover
- Inter-BSC handover
- Inter-MSC handover
⌘ GSM Handover
Mechanisms for requesting hand-over
- power lever in handset is too low
- signal/noise ratio is too low
- bit-error-rate is too high
- ...
Procedure
- handset requires hand-over
- base-station decides
Alternatives
- hand-over to neighbour cell
- hand-over to different RNC/BSC
- first registration (roaming)
⌘ Handover in UMTS
For purely inter W-CDMA technology, there are three basic types of handover:
- Hard Handover
- Soft Handover
- Softer Handover
⌘ Hard Handover
- Break Before Make
- The network decides a handover is required dependent upon the signal strengths of the existing link, and the strengths of broadcast channels of adjacent cells.
- The link between the existing NodeB and the UE is broken.
- A new link is established between the new NodeB and the UE.
⌘ Soft Handover
- Occurs when the ME is moving in the overlapping coverage area.
- The ME communicate and receive the signals from the NodeB’s which their signals are overlapping.
- The rake receiver is needed in the UE (ME) to combine the two signals
- In the uplink , the best quality frame of the two signals is selected. The selection is made by the outer loop power control algorithm measurement.
- Negatives: It need to indicate rescources(capacity) on both NodeBs
⌘ Softer Handover
- Softer handover is a special case of soft handover where the radio links that are added and removed belong to the same Node B.
- In softer Handover , the NodeB can receive the signal in macro diversity with maximum ratio combining.
- In soft handover macro diversity with selection combining is selected.
⌘ UMTS to GSM handover
- Compressed mode handover: Using compressed mode handover the UE uses the gaps in transmission that occur to analyse the reception of local GSM base stations. The UE uses the neighbour list provided by the UMTS network to monitor and select a suitable candidate base station. Having selected a suitable base station the handover takes place, but without any time synchronisation having occurred.
- Blind handover: This form of handover occurs when the base station hands off the UE by passing it the details of the new cell to the UE without linking to it and setting the timing, etc of the mobile for the new cell. In this mode, the network selects what it believes to be the optimum GSM based station. The UE first locates the broadcast channel of the new cell, gains timing synchronisation and then carries out non-synchronised intercell handover.
⌘ GSM to UMTS
- Handover from GSM to UMTS : This form of handover is supported within GSM and a "neighbour list" was established to enable this occur easily. As the GSM / 2G network is normally more extensive than the 3G network, this type of handover does not normally occur when the UE leaves a coverage area and must quickly find a new base station to maintain contact.
- The handover from GSM to UMTS occurs to provide an improvement in performance and can normally take place only when the conditions are right. The neighbour list will inform the UE when this may happen.
⌘ Handoff and performance
- Handoffs are expensive to execute, so unnecessary handoffs should be avoided.
- If the handoff criteria are not chosen appropriately, then in the overlapping region between the two BS coverage area boundaries, the call might be handed back and forth several times between them.
- If the criteria are too conservative, then the call may be lost before the handoff can take place.
- The handoff decision-making criteria become even more critical with the evolution to smaller cell sizes, which is happening to increase the capacity of systems and to reduce power requirements of MSs.
- Unreliable and inefficient handoff procedures will reduce the quality and reliability of the system.
⌘ References
- Handoff in GSM/GPRS Cellular Systems http://www.ieee802.org/21/archived_docs/Documents/OtherDocuments/Handoff_Freedman.pdf
- LTE Handover: http://reference.kfupm.edu.sa/content/d/e/design_and_evaluation_of_a_handover_deci_72726.pdf
- Handover between GSM & UMTS : http://www.ericsson.com/ne/res/thecompany/docs/publications/ericsson_review/2003/2003011.pdf
- Soft Handovers in CDMA tech.: [1]
⌘ Basics of Handover, examples from GSM and UMTS
- Media:Basics_Handover.pdf (by Naji Ahmed Kadah)
- Media:Basics_Handover_comments.pdf
IP Mobility
⌘ E2-IP Mobility
Main components
- Home Agent (HA)
- Foreign Agent (FA)
⌘ Macro versus Micro Mobility
⌘ Mobile IP Mobility
Mobile IP – the long term vision (also for mobile networks)
- HA, FA
- IPv6
- real-time requirements?
Mobile-IP developments
- IDMP - intra-domain mobility protocoll
- Hawaii
- Cellular IP, Cellular IPv6 (CIPv6)
- Hierarchical Mobile IPv6 (HMIPv6)
- Fast Mobile IPv6
⌘ Mobile IPv4 Triangular routing
- Correspondent does not know IP address of "moved" device, thus sends a request to the HA
- HA forwards to the moved device via Foreign Agent (FA)
- Moved device answers directly to the Correspondent
⌘ Mobile IPv4 to Mobile IPv6
- replace triangular routing, keep address
- route optimisation
- defined for low-speed mobility
Intra-domain mobility
- Host based routing
- Data integrity protection,
Security
- Sender authentication,
- Data integrity protection,
- Replay protection
⌘ Heterogeneous network mobility
- combines IP and mobile components
- challenge: credential distribution
⌘ References
- [Ala2000] Sami Ala-Luukko, "Mobility Management in IETF and GPRS Specifications", May 2000, Helsinki University
of Technology, http://www.tml.tkk.fi/Opinnot/Tik-110.551/2000/papers/management_in_IETF/iwork.htm % introductory reading micro-/macro-mobility
- [Paint2000] Frederic Paint, Geir Egeland, "Seamless Mobility in IP Networks", Telektronikk 1.2001, pp 083-091 % introductory reading
- [Akyildiz2004] Ian F. Akylidiz, Jiang Xie, and Shantidev Mohanty, "A survey of Mobility management in Next-Generation all-IP based wireless systems", IEEE Wireless Communications, Aug 2004, pp 16-28
- [Ferreira2008] Ferreira, N.G.; Sargento, S.; Aguiar, R.; Implementation and experimental evaluation of a fast local mobility protocol, Computers and Communications, 2008. ISCC 2008. IEEE Symposium on 6-9 July 2008 Page(s):757 - 763
- [Lee2008] Global Mobility Management Scheme with Interworking between PMIPv6 and MIPv6, Networking and Communications, 2008. WIMOB '08. IEEE International Conference on Wireless and Mobile Computing, 12-14 Oct. 2008 Page(s):153 - 158
- [Aho2008] Aho, K.; Aijanen, J.; Ristaniemi, T.; Impact of Mobility to the VoIP over HSUPA System Level Performance, Vehicular Technology Conference, 2008. VTC Spring 2008. IEEE 11-14 May 2008 Page(s):2091 - 2095