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6LoWPAN

6LoWPAN. Advisor: Quincy Wu Speaker: Kuan-Ta Lu Date: Aug. 19, 2010. Outline. Wireless Technologies 802.15.4 IPv6 6LoWPAN Reference. Wireless Technologies. Wireless Technologies. Cellular (2.5G & 3G - > 10,000m) EDGE/HSDPA (Cingular) EV-DO (Verizon,Sprint/Nextel)

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6LoWPAN

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  1. 6LoWPAN Advisor: Quincy Wu Speaker: Kuan-Ta Lu Date: Aug. 19, 2010

  2. Outline Wireless Technologies 802.15.4 IPv6 6LoWPAN Reference

  3. Wireless Technologies

  4. Wireless Technologies • Cellular (2.5G & 3G - > 10,000m) • EDGE/HSDPA (Cingular) • EV-DO (Verizon,Sprint/Nextel) • MAN (Municipal Area Network - 10,000m) • 802.16 WiMax - Worldwide Interoperability for Microwave Access • LAN (Local Area Network – 30 to 100m) • 802.11 a,b,g,n WiFi • PAN (Personal Area Network > 30m) • 802.15.4 / Zigbee / 6LoWPAN • RFID & Bluetooth

  5. Wireless Issues & Concerns • Batteries • Replacement labor • Environmental Issues • New battery and power technologies • Loss of Service • We deal with it every day • Must be considered • Self healing networks and smart routing

  6. What is 802.15.4? • IEEE standard for low cost, low speed, low power wireless communication • Targeted at device to device communication • Supports multiple frequencies, including the worldwide unlicensed 2.4 GHz band • Sixteen 802.15.4 channels • Shares spectrum with 802.11 (WiFi) and Bluetooth • 250 kbit/s data rate @ 2.4 GHz • 127 bytes max packet length • Each device has a unique 8 byte identifier (MAC address)

  7. 802.15.4 Networks • 802.15.4 specification defines methods by which devices can form networks • Networks are known as Personal Area Networks (PANs) • Each network has a unique PAN ID • Three type of nodes – coordinator, routers, end device • Network is managed by the “coordinator” • When end devices start up, they broadcast a request to associate with a network • Coordinator will respond to association request and assigns address to device, updates routing tables throughout the network • Multiple network topologies supported, but not specified by standard. • types include star, tree, linear and mesh • Each topology requires a different routing algorithm

  8. Mesh Network Each node dynamically determines best path to other nodes, changing its routing as paths fail or degrade Most complicated routing algorithm, requires largest code and memory footprint All devices that perform mesh routing must be powered

  9. Wireless Appliance Architecture

  10. IPv6 • Next generation of Internet Protocol (IP) addressing scheme • Expands address space from 4 bytes to 16 bytes • 2128 bits worth of address space • ~3.4 x 1038 addresses • Lots of address space = well suited for addressing devices and M2M applications • Every switch, lamp, appliance, etc. in your home can now have its own IP address • Uses different notation for specifying addresses • IPv4 - 192.168.0.1 • IPv6 - 2001:0db8:0000:0000:a526:2962:3960:c0e1

  11. What is 6LoWPAN? • 6LoWPAN = IPv6 over Low power Wireless Personal Area Networks • Internet standard defined by IETF • RFC4944 – Transmission of IPv6 packets over IEEE802.15.4 • http://www.ietf.org/rfc/rfc4944.txt • Large open community concerned with evolution of the Internet architecture – network designers, operators, vendors, researchers • Enables 802.15.4 wireless devices to interoperate with other IP-enabled devices using standard protocols • An extension of wired IP into the wireless domain….. • Benefits: global addressing / routing – it’s a Standard.. • Devices have globally unique addresses

  12. 6LoWPAN - Purpose • To extend IP services down to low power, embedded wireless devices – sensors, controls, actuators • Enabling IP and wireless to work together • Small packet sizes, low power consumption, a protocol stack suitable for embedded devices – small footprint, efficient • 6LoWPAN defines IPv6 packets over IEEE802.15.4 • Packet fragmentation, header compression, multi-hopping • Compact and efficient implementation for low power wireless • Clusters of wireless nodes connected to the wired infrastructure • Nodes within a cluster talk wirelessly • Nodes on different clusters talk through the wired domain • Benefits from reuse of existing IP infrastructure • Simple integration and deployment

  13. Why use 6LoWPAN? • Leverages existing standards • IP is the field-proven protocol winner • Generic solution regardless of device or application type • Permits integrating 802.15.4 devices without requiring gateway cognizant of the application • A programming tool can communicate directly to a device without special application software and mapping, communications are simply routed through the network! • Works with wired and wireless devices, just like the computer world, just like the telecom world. • A smart 6LoWPAN router can present an IPv4 address. In this case the router will have a configuration table to handle mapping the extended address to IPv4 addresses.

  14. 6LoWPAN Overview

  15. 6LoWPAN Stack Architecture

  16. 6LoWPAN : Adaptation Layer The adaptation layer is the main component of 6LoWPAN. The first major function of this layer is the TCP/IP header compression. TCP/IP headers are too large for 802.15.4, which has a maximum packet size of 127 bytes; instead IPv6 header size is 40 bytes, UDP and ICMP header sizes are both 4 bytes, TCP header size is 20. Without compression, 802.15.4 is not possible to transmit any payload effectively. A second major function of the adaptation layer is to handle packet fragmentation and reassembling. IEEE 802.15.4 has a maximum frame size of 127 bytes, while IPv6 requires a minimum MTU of 1280 bytes. This mismatch has to be handled in the adaptation layer.

  17. 6LoWPAN : Adaptation Layer continued... • The third major function of the adaptation layer is routing. The border nodes of the WSN should be able to route IPv6 packets into the WSN nodes from outside and route inside packets to outside IP network. • Different routing protocols of adaptation layer are shown in table. • There are other functions of the adaptation layer on networking related things like neighbor discovery and multicast support.

  18. 6LoWPAN : Adaptation Layer continued... • Routing per se is a two phased problem that is being considered for 6LoWPAN. • 1)Mesh Routing in the PAN Space • 2)Routability of packets to/from the IPv6 domain from/to the PAN domain • Some of the routing protocols currently being developed by 6LoWPAN Community, those are LOAD, DYMO-LOW, Hi-Low.

  19. 6LoWPAN Communications

  20. Reference http://ms11.voip.edu.tw/~jryan/ref/6LoWPAN Technical Overview.pdf http://ms11.voip.edu.tw/~jryan/ref/A Review of 6LoWPAN Routing Protocols.pdf http://ms11.voip.edu.tw/~jryan/ref/IPv6 over Low Power Wireless Personal Area Network (6LoWPAN).pdf http://ms11.voip.edu.tw/~jryan/ref/SedonaFrameworkand6loWPAN.pdf

  21. The End Q&A

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