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Routing Protocols of On- Demand Dynamic Source Routing (DSR) Ad-Hoc On-Demand Distance Vector (AODV)

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Presentation on theme: "Routing Protocols of On- Demand Dynamic Source Routing (DSR) Ad-Hoc On-Demand Distance Vector (AODV)"— Presentation transcript:

1 Routing Protocols of On- Demand Dynamic Source Routing (DSR) Ad-Hoc On-Demand Distance Vector (AODV)

2 Outline DSR Introduction Route Discovery Route Maintenance AODV Introduction Route Discovery Route Maintenance Comparison

3 Dynamic Source Routing (DSR) Route Cache A packet carries the list of routers in the path Two main operation Route Discovery Route Maintenance No periodic messages

4 DSR Assumptions Small network diameter Speed of mobility is moderate Choice of promiscuous receive mode Links may or may not be bi-directional

5 DSR Route Discovery RREQ (Route Request) [Initiator, Target, Request id, Path] RREP (Route Reply) Target sends ROUTE REPLY if it knows route to sender Target initiates ROUTE REQUEST to sender and piggybacks the ROUTE REPLY to avoid infinite recursion Target uses the reverse route from the recorded route RRER (Route Error)

6 DSR Route Discovery A B C D EG F H [A,G,ID,A] [A,G,ID,AB] [A,G,ID,ABE] [A,G,ID,AC] Node E drop the packet because it has forward the same ID packet Source A forward data to destination G

7 DSR Route Reply A B C D EG F H [A,B,E] Node A stores the route from A to G in its route cache

8 DSR Route Maintenance Use low-level acknowledgements to detect broken links; inform sender via route error packet If no route to the source exists Use piggybacking Send out a route request and buffer route error Sender truncates all routes which use nodes mentioned in route error Initiate route discovery

9 DSR Route Error A B C D EG F H E sends a route error to A along route E-B-A RERR [E-G] Nodes hearing RERR update their route cache to remove link E-G

10 Optimizations for efficiency Route Cache Store the recent information Each forwarding host can add route information to cache All source routes learned by a node are kept in Route cache reduces cost of route discovery

11 Optimizations for efficiency ABCD Step1: Discovery A->D E Step2: Discovery A->E Step3: Discovery, find A->C only single host BCD CE CD CE

12 Optimizations for efficiency Piggybacking Data is piggybacked on Route Request Packet and Route Reply Packet Reflecting shorter routes ABCD BCDCD

13 DSR Advantages Routes maintained only between nodes who need to communicate reduces overhead of route maintenance Route caching can further reduce route discovery overhead

14 DSR Disadvantages Packet header size grows with route length due to source routing Flood of route requests may potentially reach all nodes in the network Care must be taken to avoid collisions between route requests propagated by neighboring nodes

15 Ad-hoc On-demand Distance Vector (AODV) Improved over DSDV algorithm minimize the number of required broadcast by creating routes on a demand basis AODV retains the desirable feature of DSR that routes are maintained only between nodes which need to communicate DSR resulting large headers can sometimes degrade performance Nodes (not on a selected path) don’t maintain routing information or participate in routing table exchanges. AODV uses sequence numbers

16 AODV Route table entry Destination Next hop Number of hops (metric) Sequence number for the destination Active neighbors for this route Expiration time for the route table entry

17 AODV RREQ Route Requests (RREQ) are forwarded in a manner similar to DSR A node re-broadcasts a Route Request, it sets up a reverse path pointing towards the source

18 AODV RREP Route Reply travels along the reverse path set-up when Route Request is forwarded RERR (Route Error) Periodic forward messages to detect link Hello Message Neighboring nodes periodically exchange hello message

19 AODV Route Discovery A B C D EG F H Source A forward data to destination G A broadcast RREQ sets up a reverse path

20 AODV Route Discovery A B C D EG F H

21 A B C D EG F H

22 AODV Route RREP A B C D EG F H

23 AODV Reverse Path Reverse path setup Forward RREP Destination IP address Source IP address Broadcast_id Expiration time for reverse path route entry Source node ’ s sequence number

24 DSR VS AODV Difference DSR forward greater packets than AODV AODV periodically forward Hello Message to neighbors, DSR not. Similarity Node (not on a select path) do not maintain routing information Only forward the first copy packet RREQ, RREP, RRER

25 Reference D. B. Johnson and D. A. Maltz. “ Dynamic Source Routing in Ad Hoc Wireless Networks ”,1996 C. E. Perkins, E. RM. Royer, and Samir R. Das. “ Ad Hoc On-Demand Distance Vector ”,2000

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