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A Scalable Architecture for Distributed Transmit Beamforming with Commodity Radios: Design and Proof of Concept
We describe a fully-wireless prototype of distributed transmit beamforming on a software-defined radio platform. Distributed beamforming is a cooperative transmission technique that can achieve orders of magnitude increases in range or energy efficiency of wireless communication systems. However, th...
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| Published in: | IEEE transactions on wireless communications 2013-03, Vol.12 (3), p.1418-1428 |
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| Main Authors: | , , , |
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| cites | cdi_FETCH-LOGICAL-c399t-6ee3eced3119ea4c2497d91af8086c5ce602537b907333f21d0a7d30dba5e0253 |
| container_end_page | 1428 |
| container_issue | 3 |
| container_start_page | 1418 |
| container_title | IEEE transactions on wireless communications |
| container_volume | 12 |
| creator | Quitin, F. Rahman, M. M. U. Mudumbai, R. Madhow, U. |
| description | We describe a fully-wireless prototype of distributed transmit beamforming on a software-defined radio platform. Distributed beamforming is a cooperative transmission technique that can achieve orders of magnitude increases in range or energy efficiency of wireless communication systems. However, this technique requires precise synchronization of the radio frequency signal from each transmitter. The significance of our prototype is in demonstrating that this requirement can be satisfied using digital signal processing methods on commodity hardware with low-quality oscillators. Our synchronization approach scales to large numbers of transmitters: each transmitter runs independent algorithms based on periodically transmitted feedback packets from the receiver. A key simplification is the decoupling of the algorithms for frequency locking and beamsteering at each transmitter, even though both processes use the same feedback packets. Frequency locking employs an Extended Kalman filter to track the local oscillator offset between a transmitter and the receiver, using frequency offset measurements based on the feedback packet waveform, while the phase adjustments for beamsteering are determined using a one-bit feedback algorithm based on the feedback packet it payload. Our prototype demonstrates that distributed transmit beamforming can be incorporated into wireless networks without requiring hardware innovations, and provides open-source building blocks for future research and development. |
| doi_str_mv | 10.1109/TWC.2013.012513.121029 |
| format | article |
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M. U. ; Mudumbai, R. ; Madhow, U.</creator><creatorcontrib>Quitin, F. ; Rahman, M. M. U. ; Mudumbai, R. ; Madhow, U.</creatorcontrib><description>We describe a fully-wireless prototype of distributed transmit beamforming on a software-defined radio platform. Distributed beamforming is a cooperative transmission technique that can achieve orders of magnitude increases in range or energy efficiency of wireless communication systems. However, this technique requires precise synchronization of the radio frequency signal from each transmitter. The significance of our prototype is in demonstrating that this requirement can be satisfied using digital signal processing methods on commodity hardware with low-quality oscillators. Our synchronization approach scales to large numbers of transmitters: each transmitter runs independent algorithms based on periodically transmitted feedback packets from the receiver. A key simplification is the decoupling of the algorithms for frequency locking and beamsteering at each transmitter, even though both processes use the same feedback packets. Frequency locking employs an Extended Kalman filter to track the local oscillator offset between a transmitter and the receiver, using frequency offset measurements based on the feedback packet waveform, while the phase adjustments for beamsteering are determined using a one-bit feedback algorithm based on the feedback packet it payload. Our prototype demonstrates that distributed transmit beamforming can be incorporated into wireless networks without requiring hardware innovations, and provides open-source building blocks for future research and development.</description><identifier>ISSN: 1536-1276</identifier><identifier>EISSN: 1558-2248</identifier><identifier>DOI: 10.1109/TWC.2013.012513.121029</identifier><identifier>CODEN: ITWCAX</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Algorithms ; Applied sciences ; Array signal processing ; Beamforming ; Commodities ; Detection, estimation, filtering, equalization, prediction ; Distributed MIMO ; Exact sciences and technology ; Feedback ; Frequency estimation ; Frequency synchronization ; Information, signal and communications theory ; Packet transmission ; Prototypes ; R&D ; Radiocommunication specific techniques ; Radiocommunications ; Receivers ; Receivers & amplifiers ; Research & development ; Signal and communications theory ; Signal, noise ; Synchronism ; Synchronization ; Systems, networks and services of telecommunications ; Telecommunications ; Telecommunications and information theory ; Transmission and modulation (techniques and equipments) ; Transmitters ; Transmitters. 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U.</creatorcontrib><creatorcontrib>Mudumbai, R.</creatorcontrib><creatorcontrib>Madhow, U.</creatorcontrib><title>A Scalable Architecture for Distributed Transmit Beamforming with Commodity Radios: Design and Proof of Concept</title><title>IEEE transactions on wireless communications</title><addtitle>TWC</addtitle><description>We describe a fully-wireless prototype of distributed transmit beamforming on a software-defined radio platform. Distributed beamforming is a cooperative transmission technique that can achieve orders of magnitude increases in range or energy efficiency of wireless communication systems. However, this technique requires precise synchronization of the radio frequency signal from each transmitter. The significance of our prototype is in demonstrating that this requirement can be satisfied using digital signal processing methods on commodity hardware with low-quality oscillators. Our synchronization approach scales to large numbers of transmitters: each transmitter runs independent algorithms based on periodically transmitted feedback packets from the receiver. A key simplification is the decoupling of the algorithms for frequency locking and beamsteering at each transmitter, even though both processes use the same feedback packets. Frequency locking employs an Extended Kalman filter to track the local oscillator offset between a transmitter and the receiver, using frequency offset measurements based on the feedback packet waveform, while the phase adjustments for beamsteering are determined using a one-bit feedback algorithm based on the feedback packet it payload. Our prototype demonstrates that distributed transmit beamforming can be incorporated into wireless networks without requiring hardware innovations, and provides open-source building blocks for future research and development.</description><subject>Algorithms</subject><subject>Applied sciences</subject><subject>Array signal processing</subject><subject>Beamforming</subject><subject>Commodities</subject><subject>Detection, estimation, filtering, equalization, prediction</subject><subject>Distributed MIMO</subject><subject>Exact sciences and technology</subject><subject>Feedback</subject><subject>Frequency estimation</subject><subject>Frequency synchronization</subject><subject>Information, signal and communications theory</subject><subject>Packet transmission</subject><subject>Prototypes</subject><subject>R&D</subject><subject>Radiocommunication specific techniques</subject><subject>Radiocommunications</subject><subject>Receivers</subject><subject>Receivers & amplifiers</subject><subject>Research & development</subject><subject>Signal and communications theory</subject><subject>Signal, noise</subject><subject>Synchronism</subject><subject>Synchronization</subject><subject>Systems, networks and services of telecommunications</subject><subject>Telecommunications</subject><subject>Telecommunications and information theory</subject><subject>Transmission and modulation (techniques and equipments)</subject><subject>Transmitters</subject><subject>Transmitters. Receivers</subject><subject>Wireless communications</subject><subject>wireless networks</subject><issn>1536-1276</issn><issn>1558-2248</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNpdkVFrFDEQxxdRsFY_gSABEXzZM5Nskotv59ZWoaDoiY8hl8y2KbubM8ki_fbm2NIHITCB_2-GYX5N8wboBoDqD_vf_YZR4BsKTNQCDCjTT5ozEGLbMtZtn57-XLbAlHzevMj5jlJQUoizJu7IT2dHexiR7JK7DQVdWRKSISZyEXJJ4bAU9GSf7JynUMgntFMNpzDfkL-h3JI-TlP0odyTH9aHmD-SC8zhZiZ29uR7inEg9fVxdngsL5tngx0zvnqo582vy8_7_kt7_e3qa7-7bh3XurQSkaNDzwE02s6xTiuvwQ5bupVOOJSUCa4OmirO-cDAU6s8p_5gBZ6i8-b9OveY4p8FczFTyA7H0c4Yl2xAKhBMq45W9O1_6F1c0ly3M8BZJ4XUuquUXCmXYs4JB3NMYbLp3gA1Jw-mejAnD2b1YFYPtfHdw3ib66WHekcX8mM3UxXTAJV7vXIBER9j2XWaCcX_AZ8akMo</recordid><startdate>20130301</startdate><enddate>20130301</enddate><creator>Quitin, F.</creator><creator>Rahman, M. M. 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U. ; Mudumbai, R. ; Madhow, U.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c399t-6ee3eced3119ea4c2497d91af8086c5ce602537b907333f21d0a7d30dba5e0253</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2013</creationdate><topic>Algorithms</topic><topic>Applied sciences</topic><topic>Array signal processing</topic><topic>Beamforming</topic><topic>Commodities</topic><topic>Detection, estimation, filtering, equalization, prediction</topic><topic>Distributed MIMO</topic><topic>Exact sciences and technology</topic><topic>Feedback</topic><topic>Frequency estimation</topic><topic>Frequency synchronization</topic><topic>Information, signal and communications theory</topic><topic>Packet transmission</topic><topic>Prototypes</topic><topic>R&D</topic><topic>Radiocommunication specific techniques</topic><topic>Radiocommunications</topic><topic>Receivers</topic><topic>Receivers & amplifiers</topic><topic>Research & development</topic><topic>Signal and communications theory</topic><topic>Signal, noise</topic><topic>Synchronism</topic><topic>Synchronization</topic><topic>Systems, networks and services of telecommunications</topic><topic>Telecommunications</topic><topic>Telecommunications and information theory</topic><topic>Transmission and modulation (techniques and equipments)</topic><topic>Transmitters</topic><topic>Transmitters. 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The significance of our prototype is in demonstrating that this requirement can be satisfied using digital signal processing methods on commodity hardware with low-quality oscillators. Our synchronization approach scales to large numbers of transmitters: each transmitter runs independent algorithms based on periodically transmitted feedback packets from the receiver. A key simplification is the decoupling of the algorithms for frequency locking and beamsteering at each transmitter, even though both processes use the same feedback packets. Frequency locking employs an Extended Kalman filter to track the local oscillator offset between a transmitter and the receiver, using frequency offset measurements based on the feedback packet waveform, while the phase adjustments for beamsteering are determined using a one-bit feedback algorithm based on the feedback packet it payload. 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| ispartof | IEEE transactions on wireless communications, 2013-03, Vol.12 (3), p.1418-1428 |
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| source | IEEE Electronic Library (IEL) Journals |
| subjects | Algorithms Applied sciences Array signal processing Beamforming Commodities Detection, estimation, filtering, equalization, prediction Distributed MIMO Exact sciences and technology Feedback Frequency estimation Frequency synchronization Information, signal and communications theory Packet transmission Prototypes R&D Radiocommunication specific techniques Radiocommunications Receivers Receivers & amplifiers Research & development Signal and communications theory Signal, noise Synchronism Synchronization Systems, networks and services of telecommunications Telecommunications Telecommunications and information theory Transmission and modulation (techniques and equipments) Transmitters Transmitters. Receivers Wireless communications wireless networks |
| title | A Scalable Architecture for Distributed Transmit Beamforming with Commodity Radios: Design and Proof of Concept |
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