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MPAP: virtualization architecture for heterogenous wireless APs

Authors:

Yong He,

Ji Fang,

Jiansong Zhang,

Haichen Shen,

Kun Tan,

Yongguang ZhangAuthors Info & Claims

SIGCOMM '10: Proceedings of the ACM SIGCOMM 2010 conference

Pages 475 - 476

https://doi.org/10.1145/1851182.1851271

Published: 30 August 2010 Publication History

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Abstract

This demonstration shows a novel virtualization architecture, called Multi-Purpose Access Point (MPAP), which can virtualize multiple heterogenous wireless standards based on software radio. The basic idea is to deploy a wide-band radio front-end to receive wireless signals from all wireless standards sharing the same spectrum band, and use separate software base-bands to demodulate information stream for each wireless standard. Based on software radio, MPAP consolidates multiple wireless devices into single hardware platform, and allows them to share the same general-purpose computing resource. Different software base-bands can easily communicate and coordinate with one another. Thus, it also provides better coexistence among heterogenous wireless standards. As an example, we demonstrate to use non-contiguous OFDM in 802.11g PHY to avoid the mutual interference with narrow-band ZigBee communication.

References

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J. A. C. Bingham. Multicarrier modulation for data transmission: An idea whose time has come. IEEE Communications Magazine, 1990.

Digital Library

Google Scholar

[3]

J. D. Poston and W. D. Horne. Discontiguous ofdm considerations for dynamic spectrum access in idle tv channels. In DySpan 05, 2005.

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K. Tan, J. Zhang, J. Fang, H. Liu, Y. Ye, S. Wang, Y. Zhang, H. Wu, W. Wang, and G. M. Voelker. Sora: High performance software radio using general purpose multi-core processors. In NSDI 2009.

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Cited By

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Gvozdenovic SBecker JMikulskis JStarobinski D(2022)Multi-Protocol IoT Network Reconnaissance2022 IEEE Conference on Communications and Network Security (CNS)10.1109/CNS56114.2022.9947261(118-126)Online publication date: 3-Oct-2022
https://doi.org/10.1109/CNS56114.2022.9947261
Wang WLiu XYao YChi ZPan YZhu T(2021)Coexistent Routing and Flooding Using WiFi Packets in Heterogeneous IoT NetworkIEEE/ACM Transactions on Networking10.1109/TNET.2021.310194929:6(2807-2819)Online publication date: Dec-2021
https://doi.org/10.1109/TNET.2021.3101949
Chi ZLi YLiu XYao YZhang YZhu TGanti RJiang XPicco GZhou X(2019)Parallel inclusive communication for connecting heterogeneous IoT devices at the edgeProceedings of the 17th Conference on Embedded Networked Sensor Systems10.1145/3356250.3360046(205-218)Online publication date: 10-Nov-2019
https://dl.acm.org/doi/10.1145/3356250.3360046
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Index Terms

MPAP: virtualization architecture for heterogenous wireless APs
1. Networks
  1. Network types
    1. Mobile networks
    2. Wireless access networks

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Information & Contributors

Information

Published In

SIGCOMM '10: Proceedings of the ACM SIGCOMM 2010 conference

August 2010

500 pages

ISBN:9781450302012

DOI:10.1145/1851182

General Chairs:
Shiv Kalyanaraman
IBM Research, India
,
Venkat Padmanabhan
Microsoft Research, India
,
K. K. Ramakrishnan
IBM Research, India
,
Rajeev Shorey
NIIT University, India
,
Program Chairs:
K. K. Ramakrishnan
IBM Research, India
,
Geoffrey M. Voelker
University of California, San Diego, USA

ACM SIGCOMM Computer Communication Review Volume 40, Issue 4
SIGCOMM '10
October 2010
481 pages
ISSN:0146-4833
DOI:10.1145/1851275
Issue’s Table of Contents

Publisher

Association for Computing Machinery

New York, NY, United States

Publication History

Published: 30 August 2010

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Demonstration

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SIGCOMM '10

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SIGCOMM

SIGCOMM '10: ACM SIGCOMM 2010 Conference

August 30 - September 3, 2010

New Delhi, India

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Overall Acceptance Rate 462 of 3,389 submissions, 14%

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Citations

Cited By

View all

Gvozdenovic SBecker JMikulskis JStarobinski D(2022)Multi-Protocol IoT Network Reconnaissance2022 IEEE Conference on Communications and Network Security (CNS)10.1109/CNS56114.2022.9947261(118-126)Online publication date: 3-Oct-2022
Wang WLiu XYao YChi ZPan YZhu T(2021)Coexistent Routing and Flooding Using WiFi Packets in Heterogeneous IoT NetworkIEEE/ACM Transactions on Networking10.1109/TNET.2021.310194929:6(2807-2819)Online publication date: Dec-2021
Chi ZLi YLiu XYao YZhang YZhu TGanti RJiang XPicco GZhou X(2019)Parallel inclusive communication for connecting heterogeneous IoT devices at the edgeProceedings of the 17th Conference on Embedded Networked Sensor Systems10.1145/3356250.3360046(205-218)Online publication date: 10-Nov-2019
Li PYan YYang PLi XLin Q(2019)Coexist WiFi for ZigBee Networks With Fine-Grained Frequency ApproachIEEE Access10.1109/ACCESS.2019.29419637(135363-135376)Online publication date: 2019
Yan YYang PLi XZhang YLui JWang XWolf ALiu YHu C(2017)COFFEE: coexist wifi for ZigBee networksProceedings of the ACM Turing 50th Celebration Conference - China10.1145/3063955.3064001(1-6)Online publication date: 12-May-2017
Kitindi EFu SJia YKabir AWang Y(2017)Wireless Network Virtualization With SDN and C-RAN for 5G Networks: Requirements, Opportunities, and ChallengesIEEE Access10.1109/ACCESS.2017.27446725(19099-19115)Online publication date: 2017
Yubo Yan Panlong Yang Xiang-Yang Li Yafei Zhang Jianjiang Lu Lizhao You Jiliang Wang Jinsong Han Yan Xiong (2015)WizBee: Wise ZigBee Coexistence via Interference Cancellation with Single AntennaIEEE Transactions on Mobile Computing10.1109/TMC.2014.235967314:12(2590-2603)Online publication date: 1-Dec-2015
Yun SQiu L(2015)Supporting WiFi and LTE co-existence2015 IEEE Conference on Computer Communications (INFOCOM)10.1109/INFOCOM.2015.7218451(810-818)Online publication date: Apr-2015
Bansal TLi DSinha P(2014)Opportunistic Channel Sharingin Cognitive Radio NetworksIEEE Transactions on Mobile Computing10.1109/TMC.2013.5913:4(852-865)Online publication date: 1-Apr-2014
Gollakota S(2014)Embracing Interference in Wireless SystemsundefinedOnline publication date: 16-Jun-2014
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MPAP: virtualization architecture for heterogenous wireless APs

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