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1 Yue Qiao Computer Science and Engineering Email: qiaoyu@cse.ohio-state.eduqiaoyu@cse.ohio-state.edu Sep. 10 2015 AirExpress: Enabling Seamless In-band Wireless Multi-hop Transmission Joint work with Bo Chen, Ouyang Zhang, and Kannan Srinivasan
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2 Wired Ethernet 00011011 01011100 Cut-through Routing Source Router A Router B Router C Client
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3 Problem Source Router A Router B Router C Destination Increased Throughput Decreased Latency
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4 Wireless In-band Cut-through Routing? AirExpress
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5 Challenges Various types of interference Self Interference Forwarder Interference Cross-Hop Interference Source Router A Router B Router CDestination Full-Duplex Measure Each Interfereing Channel?Inefficient and Impractical AirExpress: Estimate Channel Only Once at One Node
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6 Received Signal Forwarder Interference ABCD Self Interference SI FI time
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7 Received Signal Forwarder Interference ABCD Self Interference SI FI time
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8 Received Signal Forwarder Interference ABCD Self Interference SI FI Measure the Superposed Channel? time
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9 Forwarding Channel DACADC DACADC Node C Node B Forwarding Channel No frequency offset for the forwarding channel!Measure the Superposed Channel is Possible!
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10 Our Solution Self Interference Forwarder Interference Cross-Hop Interference Full-Duplex Technique Superposed Channel
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11 Cross-Hop Interference Challenge: Various cross-hop channels (1) ABCDE ABCDE ABCDEABCDE (2) (3) Causal Non-causal
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12 Unified Cancellation Module Design Philosophy Causal: cancel out (SI, FI and CHI) Non-causal: multipath components Method: Hierarchical Cancellation Structure ABCDE Training Transmitting Receiving Inactive Forwarding
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13 Unified Cancellation Module Design Philosophy Causal: cancel out (SI, FI and CHI) Non-causal: multipath components Method: Hierarchical Cancellation Structure ABCDE Training Transmitting Receiving Inactive Forwarding
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14 Unified Cancellation Module Design Philosophy Causal: cancel out (SI, FI and CHI) Non-causal: multipath components Method: Hierarchical Cancellation Structure ABCDE Training Transmitting Receiving Inactive Forwarding
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15 Unified Cancellation Module Design Philosophy Causal: cancel out (SI, FI and CHI) Non-causal: multipath components Method: Hierarchical Cancellation Structure ABCDE Training Transmitting Receiving Inactive Forwarding
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16 Have Successfully Dealt with Interference Simultaneous Transmission Possible
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17 Noise accumulation Error propagation 10010010010001 10010010010011 10010100010011 11110100010011 11110100001111 10010010010001 11110100001111 Packet Discarded due to high Error rate Drawback
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18 Virtual-Hop Design Long paths are divided into smaller Hops 1Long paths are divided into smaller Virtual-Hops Other considerations: bottleneck link, latency.... Virtual-Hop 1 Virtual-Hop 2
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19 MAC and Routing Matching MAC and Routing Algorithms are designed for the AirExpress. Radios in the network can support AirExpress system through distributed coordination. It also includes the Hierarchical Cancellation Structure realization and multi-hop link build and release Details in paper
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20 Implementation NI PXIe 1082 2.4GHz center frequency and 20MHz bandwidth Unified cancellation block
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21 Implementation Indoor: 20 locations, single flow
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22 Throughput Gain over TDMA 1.71 2.392.75 Throughput gain increases as the number of hops increases Hierachical cancellation structure works nicely!
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23 Large Network Evaluation NS3, 100 nodes in a 1000m X 1000m area, multi flows TDMA vs AirExpress Virtual hop size: 2~5 The cancellation residue interference information is based on the real testbed measurements
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24 Throughput performance of AirExpress and TDMA Network Performance 4-hop AirExpress outperforms TDMA by ~2X on average
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25 Network Performance Delay performance of AirExpress andTDMA TDMA has a 3X delay over 4-hop AirExpress
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26 Throughput gain of AirExpress with different virtual-hop size Network Performance >4 did not further increase the performance due to noise accumulation
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27 Throughput performance of AirExpress under different routing algorithm Network Performance
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28 Throughput gain of AirExpress, TDMA and Perfect D&F Network Performance
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29 Delay performance of AirExpress, TDMA and perfect D&F Network Performance
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30 Conclusion and Looking forward AirExpress: First fully functional in-band wireless cut-through system The fundamental description of transmission pattern in wireless ad hoc network is challenged. A building block of future multi-hop network architecture
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31 Q&A Thanks
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