plat a physical-layer tag searching protocol in large rfid systems For many RFID-enabled applications, fast searching a particular group of products is practically important in a large-scale RFID system. Different from previous searching protocols, we propose a physical layer tag searching (PLAT) protocol, which makes three fundamental improvements. Download: NFC Credit Card Reader (EMV) APK (App) - Latest Version: 1.10 - .
0 · PLAT: A Physical
NFC is a set of short-range wireless technologies, typically requiring a separation of 10 cm (3+7⁄8 in) or less. NFC operates at 13.56 MHz on ISO/IEC 18000-3 air interface and at rates ranging from 106 kbit/s to 424 kbit/s. NFC always involves an initiator and a target; the initiator actively generates an RF field that can power a passive target. This enables NFC targets to take very simple form factors such as unpowered tags, stickers, key fobs, or cards. NFC peer-to-peer co.
For many RFID-enabled applications, fast searching a particular group of products is practically important in a large-scale RFID system. Different from previous searching protocols, we .In this paper, we propose a physical layer tag searching (PLAT) protocol to address the searching problem in an efficient way. In PLAT, three novel design ideas are pro-posed to make a .For many RFID-enabled applications, fast searching a particular group of products is practically important in a large-scale RFID system. Different from previous searching protocols, we propose a physical layer tag searching (PLAT) protocol, which makes three fundamental improvements.
In this paper, we propose a physical layer tag searching (PLAT) protocol to address the searching problem in an efficient way. In PLAT, three novel design ideas are pro-posed to make a fundamental improvement on the protocol performance.
PLAT: A Physical
To address the tag searching efficiency in large-scale RFID systems, this paper proposes several algorithms to meet the stringent delay requirement in developing fast tag searching.Search ACM Digital Library. Search Search. . Proceedings; 2016 13th Annual IEEE International Conference on Sensing, Communication, and Networking (SECON) PLAT: A Physical-Layer Tag Searching Protocol in Large RFID Systems; research-article . Free Access. Share on. PLAT: A Physical-Layer Tag Searching Protocol in Large RFID Systems.
PLAT : a physical-layer tag searching protocol in large RFID systems: Authors: Zhu, F Xiao, B Liu, J Liu, X Chen, LJ: Issue Date: 2016: Source: 2016 13th Annual IEEE International Conference on Sensing, Communication, and Networking (SECON), 27 - . A physical layer tag searching (PLAT) protocol, which makes three fundamental improvements: First, PLAT can exactly pinpoint the search result without false positives at a small delay expense, speeding up the execution of tag searching.DC Field Value Language; dc.contributor: Department of Computing-dc.creator: Zhu, F: en_US: dc.creator: Xiao, B: en_US: dc.creator: Liu, J: en_US: dc.creator: Liu, X .
To effectively avoid the tag collision problem and improve the reading performance of RFID systems, two advanced tag identification algorithms namely Adaptive M-ary tree slotted Aloha (AMTS) based on the characteristics of Aloha-based .For many RFID-enabled applications, fast searching a particular group of products is practically important in a large-scale RFID system. Different from previous searching protocols, we propose a physical layer tag searching (PLAT) protocol, which makes three fundamental improvements.PLAT: A Physical-Layer Tag Searching Protocol in Large RFID Systems. In 13th Annual IEEE International Conference on Sensing, Communication, and Networking, SECON 2016, London, United Kingdom, June 27-30, 2016 .
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For many RFID-enabled applications, fast searching a particular group of products is practically important in a large-scale RFID system. Different from previous searching protocols, we propose a physical layer tag searching (PLAT) protocol, which makes three fundamental improvements.In this paper, we propose a physical layer tag searching (PLAT) protocol to address the searching problem in an efficient way. In PLAT, three novel design ideas are pro-posed to make a fundamental improvement on the protocol performance.
To address the tag searching efficiency in large-scale RFID systems, this paper proposes several algorithms to meet the stringent delay requirement in developing fast tag searching.Search ACM Digital Library. Search Search. . Proceedings; 2016 13th Annual IEEE International Conference on Sensing, Communication, and Networking (SECON) PLAT: A Physical-Layer Tag Searching Protocol in Large RFID Systems; research-article . Free Access. Share on. PLAT: A Physical-Layer Tag Searching Protocol in Large RFID Systems.
PLAT : a physical-layer tag searching protocol in large RFID systems: Authors: Zhu, F Xiao, B Liu, J Liu, X Chen, LJ: Issue Date: 2016: Source: 2016 13th Annual IEEE International Conference on Sensing, Communication, and Networking (SECON), 27 - . A physical layer tag searching (PLAT) protocol, which makes three fundamental improvements: First, PLAT can exactly pinpoint the search result without false positives at a small delay expense, speeding up the execution of tag searching.DC Field Value Language; dc.contributor: Department of Computing-dc.creator: Zhu, F: en_US: dc.creator: Xiao, B: en_US: dc.creator: Liu, J: en_US: dc.creator: Liu, X .
To effectively avoid the tag collision problem and improve the reading performance of RFID systems, two advanced tag identification algorithms namely Adaptive M-ary tree slotted Aloha (AMTS) based on the characteristics of Aloha-based .For many RFID-enabled applications, fast searching a particular group of products is practically important in a large-scale RFID system. Different from previous searching protocols, we propose a physical layer tag searching (PLAT) protocol, which makes three fundamental improvements.
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plat a physical-layer tag searching protocol in large rfid systems|PLAT: A Physical