laboratory of communication and telematics ip in wsn mar model

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Wireless Sensor Networks in 4G Integration

Tiago CamiloTiago CamiloProf. F. Boavida, Prof. J. SáSilva

Laboratory of Communications and TelematicsDepartment of Informatics Engineering

University of CoimbraPortugal

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Laboratory of Communication and Telematics

IP in WSN

MAR Model

Overview

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LCT Research Topics

QoS in communication systems Multicast (6MNet model) Mobility IPv6 Network management New generation networks

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IP Networks vs. IP Networks vs. WSN**

IP Networks WSN

Networking Mode Application-independent

Application-specific

Routing Paradigms Address-centric Data/location-centric

Data Rate High (Mbps) Low (Kbps)

Resource constrains Bandwidth Energy, limited processing and memory

Network Lifetime Long (years-decades) Short (days-monhts)

Operation Administered Self-configured

* Zuniga M., Krishnamachari, B.,* Zuniga M., Krishnamachari, B., “ “Integrating Future Large-scale Wireless Sensor Networks with the Internet”Integrating Future Large-scale Wireless Sensor Networks with the Internet”

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MAR Project

Mar’s Model Header Compression Anycast Anycast Routing Protocol Auto-configuration Mobility

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Using

Offering

Integrating

Supporting

MAR Project

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Related Work

SICS Contiki µIP

IETF Group – LoWPAN 6LoWPAN: Overview, Assumptions, Problem Statement and Goals Transmission of IPv6 Packets over IEEE 802.15.4 Networks

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Mar’s Keys Research Topics

Sensor RoutersIPv6AnycastAnt Colony Optimization

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MAR Model

Integrating WSN in 4G systems using IPv6 advantages

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MAR Model

The use of Sensor RoutersNetwork ManagementMobile capabilitiesSeveral interfaces

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MAR Model

The use of IPv6 in the communicationMIPv6 SR-BSThinIPv6 SR-SN

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IPv6 Header Compression*

IPv6 source address, 2 bits; IPv6 destination address, 2 bits; Traffic Class and Flow Label, 1 bit; Next Header, 2 bits; HC2 encoding, 1 bit;

* * Kushalnagar NKushalnagar N., Montenegro, G.,., Montenegro, G., “ “6LoWPAN: Overview, Assumptions, Problem Statement and Goals6LoWPAN: Overview, Assumptions, Problem Statement and Goals””

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IPv6 Anycast

Image Sound Energy Radioactivity Humidity Luminosity Temperature Movement

Anycast as a Service Discovery:

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IPv6 Anycast

Static LocationsGardenWest Zone

Mobile Locations

BusDog

Anycast as a Geographic Locator:

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IPv6 Anycast

The Home Anycast Router Approach*:

*Ata, S., Hashimoto, M., Kitamura, H., Murata, M., “Mobile IPv6-based Global *Ata, S., Hashimoto, M., Kitamura, H., Murata, M., “Mobile IPv6-based Global Anycasting”, draft-ata-anycast-mip6-00, Anycasting”, draft-ata-anycast-mip6-00, February February 20052005

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IPv6 Anycast

The Home Anycast Router Approach*:

*Ata, S., Hashimoto, M., Kitamura, H., Murata, M., “Mobile IPv6-based Global *Ata, S., Hashimoto, M., Kitamura, H., Murata, M., “Mobile IPv6-based Global Anycasting”, draft-ata-anycast-mip6-00, Anycasting”, draft-ata-anycast-mip6-00, February February 20052005

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Optimization methodology based on ant behaviors, optimizing:Limited MemoryLimited ProcessingLimited Power Limited Radio spectrum

Anycast Routing Protocol

Ant Colony Optimization:

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IPv6 Auto-configuration

Is needed when*:

*Thomson, S., Narten, T., Jinmei, T., “IPv6 Stateless Address Autoconfiguration”, *Thomson, S., Narten, T., Jinmei, T., “IPv6 Stateless Address Autoconfiguration”, draft-ietf-ipv6-rfc2462bis-07, draft-ietf-ipv6-rfc2462bis-07, DecemberDecember 2004; 2004;

The interface is initialized at system startup time.

The interface is reinitialized after a temporary interface failure.

The interface attaches to a link for the first time.

The interface is moved from a Sensor Router spectrum to another.

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IPv6 Auto-configuration

Network Prefix

Anycast Identifier

Mac Address

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Mobile IPv6

Sensor Router Mobility:

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Mobile IPv6

Sensor Nodes Mobility:

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Evaluation Studies

SimulationNRL's Sensor Network Extension to NS-2*

TestbedTests in real scenarios (ScatterWeb platform**)

*http://nrlsensorsim.pf.itd.nrl.navy.mil/*http://nrlsensorsim.pf.itd.nrl.navy.mil/**http://www.scatterweb.com/**http://www.scatterweb.com/

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Future Work

Continuing the design of MAR modelStudy MAR approach in Simulation EnvironmentsIntegrate MAR model into BATMAN TestbedTests in real scenarios

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References

Zuniga M., Krishnamachari, B., “Integrating Future Large-scale Wireless Sensor Networks with the Internet”;

Kushalnagar N., Montenegro, G., “6LoWPAN: Overview, Assumptions, Problem Statement and Goals”;

Ata, S., Hashimoto, M., Kitamura, H., Murata, M., “Mobile IPv6-based Global Anycasting”, draft-ata-anycast-mip6-00, February 2005;

Thomson, S., Narten, T., Jinmei, T., “IPv6 Stateless Address Autoconfiguration”, draft-ietf-ipv6-rfc2462bis-07, December 2004;

http://www.sics.se/ http://nrlsensorsim.pf.itd.nrl.navy.mil/; http://www.scatterweb.com/;