a multi-antenna rfid reader with blind adaptive beamforming A passive ultra-high frequency (UHF) RF identification (RFID) system is proposed that employs multiple antennas at the reader and single antenna at each tag. FeliCa's encryption key is dynamically generated each time mutual authentication is performed, preventing fraud such as impersonation. FeliCa is externally powered, i.e. it does not need a battery to operate. The card uses power supplied from the special FeliCa card reader when the card comes in range. When the data transfer is complete, the reader will stop the supply o.
0 · A Multiantenna RFID Reader with Blind Adaptive Beamforming
1 · A Multiantenna RFID Reader With Blind Adaptive Beamforming
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A Multiantenna RFID Reader with Blind Adaptive Beamforming
A passive ultra-high frequency (UHF) RF identification (RFID) system is proposed that employs multiple antennas at the reader and single antenna at each tag. Chen et al. [32] have proposed a multi-antenna RFID system that employs blind adaptive beamforming (BABF) algorithm to improve the interrogation range and the error rate .
A passive ultra-high frequency (UHF) RF identification (RFID) system is proposed that employs multiple antennas at the reader and single antenna at each tag.
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Chen et al. [32] have proposed a multi-antenna RFID system that employs blind adaptive beamforming (BABF) algorithm to improve the interrogation range and the error rate performance in. A blind adaptive beamforming (BABF) algorithm that does not require the channel state information (CSI) is presented to improve both the interrogation range and the data transmission performance of the RFID system in both the full- and half-duplex configurations.- "A Multiantenna RFID Reader With Blind Adaptive Beamforming" Fig. 5. RCS plots based on the reception of the replied RN16s of tags: (a) two tags replying simultaneously resulting in four clusters and (b) three tags replying simultaneously resulting in eight clusters.communication and WPT. In Chapter 2, we consider a backscatter RFID system with the multi-antenna reader and propose a blind transmit and receive adaptive beamforming algorithm. The interrogation range and data transmission performance
We have built a prototype of mReader on USRP X310 and demonstrated for the first time that a two-antenna reader can read two commercial off-the-shelf (COTS) tags simultaneously. Numerical results further show that mReader can improve the tag reading rate by 45% compared to existing RFID readers.Figure 1: (a) In traditional multi-antenna beamforming, a beam forms towards a particular direction; (b) PushID’s distributed MIMO beams create multiple energy peaks and troughs over space resulting in complex energy distributions.
A Universal Software Radio Peripheral (USRP)-based prototype system is implemented to validate the interrogation range improvement by employing multiple-antenna readers with several beamforming schemes.A Multiantenna RFID Reader With Blind Adaptive Beamforming Shaoyuan Chen , Shan Zhong , Siyi Yang , Xiaodong Wang . IEEE Internet of Things Journal , 3(6): 986-996 , 2016.
A Multiantenna RFID Reader With Blind Adaptive Beamforming. IEEE Internet of Things Journal, 3(6), 986–996. doi:10.1109/jiot.2016.2542242 A passive ultra-high frequency (UHF) RF identification (RFID) system is proposed that employs multiple antennas at the reader and single antenna at each tag. Chen et al. [32] have proposed a multi-antenna RFID system that employs blind adaptive beamforming (BABF) algorithm to improve the interrogation range and the error rate performance in. A blind adaptive beamforming (BABF) algorithm that does not require the channel state information (CSI) is presented to improve both the interrogation range and the data transmission performance of the RFID system in both the full- and half-duplex configurations.
- "A Multiantenna RFID Reader With Blind Adaptive Beamforming" Fig. 5. RCS plots based on the reception of the replied RN16s of tags: (a) two tags replying simultaneously resulting in four clusters and (b) three tags replying simultaneously resulting in eight clusters.communication and WPT. In Chapter 2, we consider a backscatter RFID system with the multi-antenna reader and propose a blind transmit and receive adaptive beamforming algorithm. The interrogation range and data transmission performance
We have built a prototype of mReader on USRP X310 and demonstrated for the first time that a two-antenna reader can read two commercial off-the-shelf (COTS) tags simultaneously. Numerical results further show that mReader can improve the tag reading rate by 45% compared to existing RFID readers.
Figure 1: (a) In traditional multi-antenna beamforming, a beam forms towards a particular direction; (b) PushID’s distributed MIMO beams create multiple energy peaks and troughs over space resulting in complex energy distributions.
A Universal Software Radio Peripheral (USRP)-based prototype system is implemented to validate the interrogation range improvement by employing multiple-antenna readers with several beamforming schemes.A Multiantenna RFID Reader With Blind Adaptive Beamforming Shaoyuan Chen , Shan Zhong , Siyi Yang , Xiaodong Wang . IEEE Internet of Things Journal , 3(6): 986-996 , 2016.
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a multi-antenna rfid reader with blind adaptive beamforming|A Multiantenna RFID Reader With Blind Adaptive Beamforming