Demo: Dynamic Adaptations of WiFi Channel Widths Without TX/RX Coordination
Authors: 
Alice Lo Valvo, Ilenia Tinnirello, Fabrizio Giuliano, Giuseppe SantaromitaAuthors Info & Claims
Alice Lo Valvo, Ilenia Tinnirello, Fabrizio Giuliano, Giuseppe SantaromitaAuthors Info & ClaimsPages 507 - 509
Abstract
Most modern standards for wireless communications support physical layer adaptations, in terms of dynamic selection of channel central frequency, transmission power, modulation format, etc., in order to increase link robustness under time-varying propagation and interference conditions. In this demo, we demonstrate that another powerful solution for extending physical layer flexibility in OFDM-based technologies is the dynamic adaptation of the channel width. Although some standards already define the possibility of utilizing multiple channel widths (e.g. 20MHz, 10MHz, 5MHz for IEEE 802.11a standards), such an utilization is limited to a static configuration of a value defined during the network set-up. Conversely, we demonstrate that channel width adaptations can be performed in real-time during network operation, even on a per-packet basis. To this purpose, we propose an innovative and efficient receiver design, which allows the transmitter to take decisions about the channel width without explicitly informing the receiver.
References
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Index Terms
- Demo: Dynamic Adaptations of WiFi Channel Widths Without TX/RX Coordination
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Information & Contributors
Information
Published In
October 2017
628 pages
ISBN:9781450349161
DOI:10.1145/3117811
- General Chair:
- Kobus Van der Merwe,
- Program Chairs:
- Ben Greenstein,
- Kannan Srinivasan
Copyright © 2017 Owner/Author.
Permission to make digital or hard copies of part or all of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for third-party components of this work must be honored. For all other uses, contact the Owner/Author.
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Association for Computing Machinery
New York, NY, United States
Publication History
Published: 04 October 2017
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Author Tags
Qualifiers
- Demonstration
Funding Sources
- WiSHFUL
- Flex5Gware
Conference
MobiCom '17
Sponsor:
MobiCom '17: The 23rd Annual International Conference on Mobile Computing and Networking
October 16 - 20, 2017
Utah, Snowbird, USA
Acceptance Rates
MobiCom '17 Paper Acceptance Rate 35 of 186 submissions, 19%;
Overall Acceptance Rate 440 of 2,972 submissions, 15%
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