Profile

New User

New to Graphy Publications? Create an account to get started today.

Registered Users

Have an account? Sign in now.

How to Cite | Author Information | Publication History | Funding Information
International Journal of Computer & Software Engineering Volume 4 (2019), Article ID 4:IJCSE-140, 9 pages
https://doi.org/10.15344/2456-4451/2019/140
Research Article
A Proposal of Transmission Power Minimization Extension in Active Access-Point Configuration Algorithm for Elastic Wireless Local-Area Network System

Md. Manowarul Islam1, Nobuo Funabiki1*, Minoru Kuribayashi1, Mousumi Saha1, Kwenga Ismael Munene1, Rahardhita Widyatra Sudibyo1 and Wen-Chung Kao2

1Department of Electrical and Communication Engineering, Okayama University, Okayama, Japan
2Department of Electrical Engineering, National Taiwan Normal University, Taipei, Taiwan
Prof. Nobuo Funabiki, Department of Electrical and Communication Engineering, Okayama University, Okayama, Japan; E-mail: funabiki@okayama-u.ac.jp
14 November 2018; 17 January 2019; 19 January 2019
Islam MM, Funabiki N, Kuribayashi M, Saha M, Munene KI, et al. (2019) A Proposal of Transmission Power Minimization Extension in Active Access-Point Configuration Algorithm for Elastic Wireless Local-Area Network System. Int J Comput Softw Eng 4: 140. doi: https://doi.org/10.15344/2456-4451/2019/140
This work is partially supported by JSPS KAKENHI (16K00127).
© 2019 Islam et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

References

  1. Crow BP, Widjaja I, Kim JG, Sakai PT (1997) IEEE 802.11 wireless local area networks. IEEE Commun Mag 35: 116-126. View
  2. Balazinska M, Castro P (2003) Characterizing mobility and network usage in a corporate wireless local-area network. Proc Int Conf Mobi Syst Appl Serv 3: 303-316. View
  3. Mittal K, Belding EM, Suri S (2008) A game-theoretic analysis of wireless access point selection by mobile users. Comput. Commun 31: 2049-2062. View
  4. Kotz D, Essien K (2005) Analysis of a campus-wide wireless network. Wireless Networks 11: 115-133.
  5. Nadeem F, Leitgeb E, Awan MS, Chessa S (2009) Comparing the life time of terrestrial wireless sensor networks by employing hybrid FSO/RF and only RF access networks. Proc Int Conf Wireless Mobi Commun.
  6. Electricity sector in Bangladesh. View
  7. Electricity to transform rural Myanmar. View
  8. Mamun MSA, Islam ME, Funabiki N (2016) An active access-point configuration algorithm for elastic wireless local-area network system using heterogeneous devices. Int J Netw Comput 6: 395-419. View
  9. Mamun MSA, Funabiki N, Lwin KS, Islam ME, Kao WC, et al. (2017) A channel assignment extension of active access-point configuration algorithm for elastic WLAN system and its implementation using Raspberry Pi. Int J Netw Comput 7: 248-270. View
  10. Islam MM, Funabiki N, Kuribayashi M, Debnath SK, Kwenga IM, et al. (2018) Dynamic access-point configuration approach for elastic wireless localarea network system and its implementation using Raspberry Pi. Int J Netw Comput 8: 254-281. View
  11. Qiao D, Choi S, Shin KG (2007) Interference analysis and transmit power control. IEEE/ACM Trans Networking 15: 1007-1020. View
  12. Lwin KS, Funabiki N, Taniguchi C, Zaw KK, Mamun MSA, et al. (2017) A minimax approach for access point setup optimization. Int J Netw Comput 7: 187-207. View
  13. Funabiki N (2018) Wireless mesh networks. In Tech-Open Access Pub. View
  14. Bejerano Y, Han SJ, Li LE (2007) Fairness and load balancing in wireless LANs using association control. IEEE/ACM Trans Networking 15: 560-573. View
  15. Bejerano Y, Han SJ, Li LE (2004) Fairness and load balancing in wireless LANs using association control. Proc Int Conf Mobile Comput Netw. View
  16. So A, Liang B (2005) An efficient algorithm for the optimal placement of wireless extension points in rectilineal wireless local area networks. Proc Int Conf Quality Service Hetero Wired/Wireless Netw. View
  17. Broustis I, Papagiannaki K, Krishnamurthy SV, Faloutsos M, Mhatre VP (2010) Measurement-driven guidelines for 802.11 WLAN design. IEEE/ACM Trans Networking 18: 722-735. View
  18. Tang S, Ma L, Xu Y (2016) A novel AP placement algorithm based on user distribution for indoor WLAN system. China Commun 13: 108-118. View
  19. Miyata S, Murase T, Yamaoka K (2012) Novel access-point selection for user QoS and system optimization based on user cooperative moving. IEICE Trans Commun 95: 1953-1964. View
  20. Lundsgaard SK, Bhally MS, Di Prizio GM, Lee T (2014) Selection of a prepared access point from among a plurality of access points. US Patent. View
  21. Seok YH (2015) Method for providing information of access point selection. US Patent. View
  22. Gong H, Kim J (2008) Dynamic load balancing through association control of mobile users in WiFi networks. IEEE Trans Consumer Electronics 54: 342- 348. View
  23. Chen X, Zhao Y, Peck B, Qiao D (2012) SAP: Smart access point with seamless load balancing multiple interfaces. Proc INFOCOM. View
  24. Gong X, Plets D, Tanghe E, Pessemier TD, Martens L, et al. (2018) An efficient genetic algorithm for large-scale transmit power control of dense and robust wireless networks in harsh industrial environments. Appl Soft Comput 65: 243-259. View
  25. 8 reasons to turn down the transmit power of your Wi-Fi. View
  26. Ultimate guide to Raspberry Pi (2015) Comp Shop 324: 104-119. View
  27. Wolsey LA (1982) An analysis of the greedy algorithm for the submodular set covering problem. Combinatorica 2: 385-393. View
  28. Williamson DP, Shmoys DB (2011) The design of approximation algorithms. Cambridge Univ Press. View
  29. Faria DB (2005) Modeling signal attenuation in IEEE 802.11 wireless LANs. Tech Report TRKP06-0118, Stanford Univ. View
  30. iPerf - the TCP, UDP and SCTP network bandwidth measurement tool. View
  31. Understanding modulation and coding schemes. View
Best viewed in Mozilla Firefox, Google Chrome, Safari, Above IE 9.0 version
Privacy Policy | Copyright & Permissions
Copyright © 2013-2024 Graphy Publications, All Rights Reserved.