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Pushing the Limits of Wireless Networks Prof. Dina Katabi Jan 9, 2006
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But, wireless still struggle with bandwidth scarcity Need a breakthrough! The future is wireless
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Current Approach Bob Alice Router Alice’s packet Bob’s packet Alice’s packet Requires 4 transmissions Can we do it in 3 transmissions?
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A Network Coding Approach Bob Alice Router Alice’s packet Bob’s packet Alice’s packet 3 transmissions instead of 4 Save bandwidth Increase Throughput XOR = =
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Network Coding Routers mix bits in packets, potentially from different flows
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How to apply network coding? Multicast S R R R Given Sender & Receivers Given Flow Rate & Capacities State-of-the Art Min-Cost Flow Optimization Find the routing, which dictates the encoding
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How to apply network coding? Multicast Given Sender & Receivers Given flow rate & capacities State-of-the Art Min-Cost Flow Optimization Find the routing, which dictates the encoding Unicast Many Unknown Changing Sender & Receivers Unknown and bursty traffic In Practice ?
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How to apply network coding? Multicast Given Sender & Receivers Given flow rate & capacities State-of-the Art Min-Cost Flow Optimization Find the routing, which dictates the encoding In Practice Opportunism Unicast Many Unknown Changing Sender & Receivers Unknown and bursty traffic
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Opportunism (1) Opportunistic Listening: o Every node listens to all packets o It stores all heard packets for a limited time
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Opportunism (1) Opportunistic Listening: o Every node listens to all packets o It stores all heard packets for a limited time D A B
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Opportunism (1) Opportunistic Listening: o Every node listens to all packets o It stores all heard packets for a limited time o Node sends Reception Reports to tell its neighbors what packets it heard Reports are annotations to packets If no packets to send, periodically send reports
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Opportunism (2) Opportunistic Coding: o To send packet p to neighbor A, XOR p with packets already known to A Thus, A can decode o But how to benefit multiple neighbors from a single transmission?
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Efficient Coding Arrows show next-hop D A B C
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Efficient Coding Arrows show next-hop D A B C Bad Coding C will get RED pkt but A can’t get BLUE pkt
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Efficient Coding Arrows show next-hop D A B C Better Coding Both A & C get a packet
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Efficient Coding Arrows show next-hop D A B C Best Coding A, B, and C, each gets a packet To XOR n packets, each next-hop should have the n-1 packets encoded with the packet it wants
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But how does a node know what packets a neighbor has? Reception Reports But reception reports may get lost or arrive too late Use Guessing o If I receive a packet I assume all nodes closer to sender have received it o Yes, error might happen and you recover by encoding and retransmitting
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Putting It Together D A B C
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D A B C
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D A B C
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Opportunism Flows arrive and leave at any time Follow any path No Scheduling O G N A C K M E F B D C K
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Performance
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Simulation Emstar Simulator 100 nodes 800mx800m Senders and receivers are chosen randomly Metric: Total Throughput of the Network
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No Coding Our Scheme Network Throughput (KB/s) No. of Flows No Coding Opportunistic Coding vs. Current (Simulation Results)
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No Coding Our Scheme Network Throughput (KB/s) No. of Flows Opportunistic Coding No Coding Orders of magnitude higher throughput in dense networks
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Now, we also have a prototype implementation Rerun the Alice-and-Bob experiment using our Implementation on 3 Linux PCs
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Preliminary Implementation Results Linux Kernel Roofnet test-bed Alice Relay Bob 3 transmissions instead of 4 25% throughput increase
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Preliminary Results of our Prototype Implementation (Alice and Bob Experiment) Ratio of Throughput with Coding to No-Coding Opportunistic Coding Doubles the Throughput
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Why More than 25%? MAC is fair 1/3 BW for each node Without coding, relay needs twice as much bandwidth as Alice or Bob With coding, all nodes need equal bandwidth Alice Relay Bob
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Conclusion Introduced an opportunistic approach to Network Coding Drastic throughput improvement in dense networks First implementation of network coding in a wireless network Simple, Practical, and It Works!
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Ongoing and Future Work A practical approach to Network Coding in wireless networks, including: Reduce bandwidth consumption Reduce power consumption Security Mobility
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Questions? No Coding Our Scheme No. of Flows Opportunistic Coding No Coding Drastic throughput increase in dense networks Network Throughput (KB/s)
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