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Four-Bit Wireless Link Estimation Omprakash Gnawali (USC) with Rodrigo Fonseca (UC Berkeley) Kyle Jamieson (MIT CSAIL) Philip Levis (Stanford) HotNets.

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Presentation on theme: "Four-Bit Wireless Link Estimation Omprakash Gnawali (USC) with Rodrigo Fonseca (UC Berkeley) Kyle Jamieson (MIT CSAIL) Philip Levis (Stanford) HotNets."— Presentation transcript:

1 Four-Bit Wireless Link Estimation Omprakash Gnawali (USC) with Rodrigo Fonseca (UC Berkeley) Kyle Jamieson (MIT CSAIL) Philip Levis (Stanford) HotNets 2007

2 2 Link Estimation: An Enabler Tools to improve wireless performance Routing: ETX, Geographic, Beacon Vector, ExOR Network coding, Packet combining SampleRate, Datalink Streaming Link Estimation a prerequisite for these tools

3 3 Link Quality Estimation Identify good links ETX: Expected Transmission Count [Mobicom 2003] TX ReTX ACK A B 1 ETX(L) = PRR(f) * PRR(b)

4 4 ETX Estimation Example 1.8 Beacons ETX Estimate (alpha = 0.8) 2.0 1.0 t1t3 1.83 1.0 t2 3.0 2.04

5 5 State of the Art Today Not all information used Coupled designs MLQI Physical layer (LQI) Coupled implementation Network Layer Link Layer Physical Layer LE

6 6 Scope Identify the information different layers of the stack can provide Define a narrow interface between the layers and the link estimator Describe an accurate and efficient estimator implemented using the four bit interface

7 7 Layers and Information Better estimator with information from different layers? Physical Layer Packet decoding quality Link Layer Packet Acknowledgements Network Layer Relative importance of links Network Layer Link Layer Physical Layer LE

8 8 PHY Info Not Sufficient Network Layer LE Physical Layer Link Layer Network Layer LE Physical Layer Link Layer Unacked PRR LQI

9 9 Physical Layer Decoding Quality Agile Free Asymmetric (receive) quality Radio-specific Examples LQI, RSSI, SNR Network Layer LE Physical Layer Link Layer

10 10 Link Layer Outcome of unicast packet transmission Higher quality links Successful TX Successful ACK reception Example EAR [Mobicom 2006] A B DATA ACK Network Layer LE Physical Layer Link Layer

11 11 Network Layer Is a link useful? Keep useful links in the table Network layer decides Geographic routing Geographically diverse links Collection Link to the parent Link on a good path SRC DST A Network Layer LE Physical Layer Link Layer

12 12 The Interfaces Link Layer Network Layer Physical Layer LE

13 13 Interface Details WHITE Packets on this channel experience few errors ACK A packet transmission on this link was acknowledged PIN Keep this link in the table COMPARE Is this a useful link?

14 14 Implementing an Estimator 4B estimator for TinyOS CTP Tested with CC2420 radio Using the Four-Bit Interface WHITE, COMPARE, PIN bits: state management ACK bit – Updates ETX based on transmission outcome

15 15 Using ACK Beacons 4B ETX 5.04.3 1.0 3.6 ACK 3.1 1.25 6 3.7 Received/Acked PacketLost/Unacked Packet 1.5

16 16 Dissecting the Bits 4B ACK C+W ACK C+W MLQI ETX

17 17 Discussion Applicable to 802.11? Applicable to all protocols? Need more than four bits?

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