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Comparison of several MANET routing protocols

Comparison of several MANET routing protocols. AODV, OLSR Final presentation By teams 2&3. Table of content. Context and Objectives Failed attempts Solutions Environment Measurements: results Conclusion. Context and objectives. Measurement of network performance

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Comparison of several MANET routing protocols

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  1. Comparison of several MANET routing protocols AODV, OLSR Final presentation By teams 2&3

  2. Table of content • Context and Objectives • Failed attempts • Solutions • Environment • Measurements: results • Conclusion

  3. Context and objectives • Measurement of network performance • A working MANET network • Understand which protocol to use in a given situation

  4. Failed Attempts • Linux installation of AODV involved a Linux kernel recompilation and strange underground libraries were missing • The NTP synchronization appeared to be more obscure than we thought it would be • OLSR was running well though • Using Windows, we didn’t have anymore tool to measure Jitter • No jitter measurement

  5. Solutions • MS Windows • OLSR implementation : • http://olsr.org/ • AODV implementation : • http://moment.cs.ucsb.edu/AODV/aodv-windows.html • The same implementation as used in the last lab experiment • Iperf • http://dast.nlanr.net/Projects/Iperf/ • MS ping

  6. 3rd floor Environment : LG semicolon (N24) • Purpose: effective transmission and measurements between 1 and 4 • Static (codenamed Chappe) • 4 moving towards 2 in a 30s laps time (codenamed Salmon) 4 3 1 2 2’s coverage ends here 4th floor

  7. Checking interferences • Use netstumbler to check the surrounding wireless network • Channels 1, 10, 11 are used so we decide to use the non overlapping free channel: 6 • No interferences !

  8. Checking the operation of the protocolsStart configuration : “Same room”

  9. 4 3 1 2 Checking the operation of the protocolsEnd configuration : “Chappe”

  10. 4 3 1 2 Throughput • Chappe : • 4 and 2 communicate • No movement • Salmon : • 4 runs in the direction of 2, changing the routing tables

  11. Ping (delay) results • Based on 20 consecutive ping requests • Unit of time: ms

  12. Internet access distribution • One laptop shares the Internet connection to the others • 1 ethernet interface is connected directly to the internet • 1 wireless interface is connected to the ad-hoc meshed network • The station runs a NAT service to provide the internet access • Skype worked and gave us the feeling that the jitter was not too bad

  13. Conclusion • Overall, the OLSR implementation was more user-friendly and worked with less headaches • Moreover, the throughput is better, the average delay is identical • AODV takes more time to build the routing table • But BEWARE ! This could change according to the implementation you are using. • Finally, both were working quite well, we recommend those implementations • We tried other implementations that didn’t work at all

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