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Design and Implementation of an Inclusive Ubiquitous Access

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Abstract

The development towards ubiquitous network access requires innovative solutions to get remote areas included, especially rural areas of developing regions. The challenges include robustness of network components, poor or non-existent power supply and sustainable business models. We argue that large scale user-driven community networks are becoming technically viable to deploy in areas that are short of supply of telecommunication services due to little or no commercial interest. To support this claim, we discuss the design of key network elements and careful power management based on alternative energy sources and storage. We also provide a status report from ongoing field-tests regarding provisioning of broadband network services in Serengeti, Tanzania, and outline briefly our strategy to achieve sustainability. On the technical side, we first discuss an affordable, high-performance, low-effect router based on open source software and standard off-the-shelf hardware offering both copper and fibre links. Our design is capable of forwarding more than 700 kpps at 22.3 W. The power consumption is considerably less than all alternatives in our comparison. Then we discuss power management and the use of batteries and super-capacitors as backup and storage solutions.

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References

  1. Broadband Commission for Digital Development. (2011). Online, accessed April 2011. http://www.broadbandcommission.org/terms.html.

  2. Surana, S., Patra, R., & Brewer, E. (2007). Simplifying fault diagnosis in locally managed rural WiFi networks. In Proceedings of the 1st workshop on networked systems for developing regions (NSDR), Kyoto, Japan, August 2007.

  3. Raman B., Chebrolu K. (2007) Experiences in using WiFi for rural internet in India. IEEE Communications on Magazine 45(1): 104–110

    Article  Google Scholar 

  4. Nungu, A., Genes, N., & Pehrson, B. (2008). Serengeti broadband. In The 2nd ACM SIGCOMM workshop on networked systems for developing regions (NSDR), Seattle, August 2008.

  5. Bolla, R., Bruschi, R., & Ranieri, A. (2009). Performance and power consumption modelling for green COTS software router. COMSNETS.

  6. Bianco, A., Finochietto, J. M., Galante, G., Mellia, M., & Neri, F. (2005). OpenSource PC based software routers: A viable approach to high performance packet switching (p. 353366). In LNCS 3375. Berlin, Heidelberg: Springer.

  7. Idzikowski, F. (2009). Power consumption of network elements in IP over WDM networks. TKN technical report TKN-09-00.

  8. Nordman, B., & Christensen, K. (2010). Proxying: The next step in reducing it energy use. Computer Society.

  9. Hagsand, O., Olsson, R., & Grden, B. (2008). Towards 10 Gbps open source routing. Hamburg: Linux Kongress.

  10. Egi, N., et al. (2008). Towards high performance virtual routers on commodity hardware. In ACM CoNEXT, 2008.

  11. Gillett, S. E., Lehr, W. H., & Osorio, C. (2004). Local government broadband initiatives. Telecommunications Policy, 28(7–8). In A selection of papers from the 31st annual telecommunications policy research conference, August–September 2004.

  12. Szabó C., Farkas K., Horváth Z. (2008) Motivations, design and business models of wireless community networks. Mobile Networks and Applications 13: 147–159

    Article  Google Scholar 

  13. Telecentre. (2012). Online, accessed January 2012. Available: http://www.telecentre.org/.

  14. Nepal Wireless Networking Project. (2012). Online, accessed January 2012. http://www.nepalwireless.net/.

  15. Information and Communication Technology for Rural Development (ICT4RD) Tanzania. (2012). Online, accessed January 2012. http://www.ict4rd.ne.tz/.

  16. Mellanox Technologies, Inc. (2003). Understanding PCI bus, PCI-express and infiniband architecture (white paper).

  17. Olsson, R., Wassen, H., & Pedersen, E. (2008). Open source routing in high-speed production use. Hamburg: Linux Kongress, October 2008.

  18. Nungu, A., Olsson, R., & Pehrson, B. (2010). On the design of affordable and green high-performance routers for community networks. In The 4th ACM workshop on networked systems for developing regions (NSDR), USA, June 2010.

  19. Nungu, A., Olsson, R., & Pehrson, B. (2011). Powering communication networks in developing regions. In 16th IEEE symposium on computers and communications (IEEE ISCC 2011), Kerkyra (Corfu), Greece, June 2011.

  20. Maxwell BCAP1500 datasheet. (2012). Online, accessed January 2012. http://www.maxwell.com/ultracapacitors/.

  21. Microsoft Corporation. (2004). Scalable networking: Eliminating the receive processing bottleneck—Introducing RSS. WinHEC 2004, version—April 14, 2004.

  22. RFC 2544. Benchmarking methodology for network interconnect devices. http://www.ietf.org/rfc/rfc2544.txt.

  23. Nungu, A. (2011). Analysis of the serengeti broadband network. KTH-technical report, ISBN: 978-91-7501-088-5, August 2011.

  24. Agrawal, P., et al. (2010). Analytical models for energy consumption in infrastructure WLAN STAs carrying TCP traffic. In Second international conference on communication systems and networks (COMSNETS).

  25. Chabarek, J., Sommers, J., Barford, P., Estan, C., Tsiang, D., & Wright, S. (2008). Power awareness in network design and routing (pp. 457–465). In Proceedings of the 27th conference on computer communications (INFOCOM), April 2008.

  26. Minimal network element (MinNE), student project website: www.tslab.ssvl.kth.se/csd/projects/0921191/.

  27. Communication systems design, a problem oriented project-driven environment integrating development and learning. www.tslab.ssvl.kth.se/csd/.

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Authors and Affiliations

  1. Computer Studies Department, Dar Es Salaam Institute of Technology, P.O. Box 2958, Dar Es Salaam, Tanzania

    Amos Nungu

  2. Telecommunication Systems Lab, KTH Royal Institute of Technology, Forum 120, 164 40, Kista, Sweden

    Robert Olsson & Björn Pehrson

Authors
  1. Amos Nungu
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  2. Robert Olsson
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  3. Björn Pehrson
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Correspondence to Amos Nungu.

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Nungu, A., Olsson, R. & Pehrson, B. Design and Implementation of an Inclusive Ubiquitous Access. Wireless Pers Commun 67, 79–94 (2012). https://doi.org/10.1007/s11277-012-0801-5

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  • DOI: https://doi.org/10.1007/s11277-012-0801-5

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