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Figure 1. Generalized and simplified SDWN Architecture.

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Presentation on theme: "Figure 1. Generalized and simplified SDWN Architecture."— Presentation transcript:

1 Figure 1. Generalized and simplified SDWN Architecture.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

2 Figure 3. Overview of related work and trade-offs of different wireless experimental platforms.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

3 Figure 2. Main components of Mininet-WiFi.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

4 Figure 4. Bicasting over WiFi. (a) Sample topology
Figure 4. Bicasting over WiFi. (a) Sample topology. (b) Bandwidth measurement between STA3 and H4. From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

5 Figure 5. MultiPath TCP. (a) Topology setup. (b) Results.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

6 Figure 6. Realistic experiment in hybrid physical-virtual environments.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

7 Figure 7. Forwarding by SSID.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

8 Figure 8. Experimental validation by using R2lab.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

9 Figure 9. Signal propagation in R2lab and in different indoor propagation models implemented in Mininet-WiFi. From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

10 Figure 10. Sample topology.
From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

11 Figure 11. Replaying network conditions. (a) IEEE 802. 11b
Figure 11. Replaying network conditions. (a) IEEE b. (b) IEEE g. From: How Far Can We Go? Towards Realistic Software-Defined Wireless Networking Experiments Comput J. 2017;60(10): doi: /comjnl/bxx023 Comput J | © The British Computer Society All rights reserved. For Permissions, please

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