Changes between Version 16 and Version 17 of Projects/Mango_MobiCom_2014_Demo
- Timestamp:
- Sep 15, 2014, 3:23:27 PM (10 years ago)
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Projects/Mango_MobiCom_2014_Demo
v16 v17 3 3 Mango Communications presented a demonstration titled [http://dl.acm.org/citation.cfm?id=2641746 "Real-Time MU-MIMO Channel Analysis with a Custom 802.11 Implementation"] at MobiCom 2014. The demonstration combined [wiki:HardwareUsersGuides/WARPv3 WARP v3] with [wiki:802.11 the 802.11 Reference Design] to let conference attendees use their own Wi-Fi clients to interact with the hardware and witness real-time changes in MU-MIMO channels. This demonstration is one of the many research applications enabled by the Mango Communications 802.11 Reference Design, an open-source, real-time FPGA implementation of the 802.11a/g MAC and PHY. 4 4 5 === Demonstration Details === 6 7 The demonstration consists of 5 WARP v3 nodes running the Mango 802.11 Reference Design: 8 * 1 is a standard AP serving Internet access to Wi-Fi clients. This AP implementation is identical to the [wiki:802.11/MAC/Upper/AP Access Point implementation] part of the 802.11 Reference Design release. 9 * 4 are quad-antenna monitors capturing per-subcarrier channel estimates for real-time analysis. 10 11 Conference attendees join the open AP with their personal Wi-Fi clients (e.g. smartphones/tablets) and use the AP to access the Internet. Once the association process with the AP is complete, the 16-antenna array of WARP boards begins to overhear transmissions from the conference attendees' Wi-Fi clients. The [wiki:802.11/PHY#ReceiverArchitecture OFDM Receiver] in each array element's PHY automatically estimates the channel between the conference attendees' devices and itself. These channels are learned via the two LTS symbols in the preamble of every transmission from the Wi-Fi clients. 12 5 13 [[Image(screenshot.png, 640px)]] 6 14 7 Demonstration Details: 8 * 5 WARP v3 nodes running the Mango 802.11 Reference Design 9 * 1 is a standard AP serving Internet access to Wi-Fi clients 10 * 4 are quad-antenna monitors capturing per-subcarrier channel estimates for real-time analysis 15 16 17 18 11 19 * Custom Python framework coordinates runtime configuration of each node 12 20 * Custom PC application displays real-time channel estimates and SU/MU-MIMO achievable rates 13 21 * Full 802.11 MAC/PHY source available at [http://warpproject.org/802.11 http://warpproject.org/802.11] 14 22 15 Conference handout with additional details: [raw-attachment:Mango_MobiCom_2014_Handout.pdf PDF (660 kB)] 23 All code used in the demonstration corresponds to [source:ReferenceDesigns?rev=3857 SVN revision 3857] 24 25 Conference handout: [raw-attachment:Mango_MobiCom_2014_Handout.pdf PDF (660 kB)] 16 26 17 27 === Photos from the Demo Floor === … … 32 42 33 43 '''(2) [http://dl.acm.org/citation.cfm?id=2641753 An Open-Source Development Platform for Long-Range UHF-Connected WiFi Hotspots]''' - Ryan E. Guerra, Narendra Anand, Edward W. Knightly (Rice University) 34