Add to ORKGInternational audienceThis paper explores the performance of object localization using chipless tags. We show that it is possible to localize a tag (or an object attached to it) by measuring the phase offset between a known position and the position to estimate. This method provides a better accuracy compared to classical ones based on received signal strength indicator (RSSI). We show that sub-millimeter precision can be achieved for distance measurement with a correct localization probability higher than 99%. These results point the way toward new user interfaces using chipless tags which can be con-tactless and 3D
International audienceThis article presents the feasibility of measuring sub-millimeter displacement...
Abstract--- By processing the phase of the backscattered field from an RFID-UHF tag antenna, physica...
International audienceThis paper presents theoretical and practical implementation of the chipless R...
This paper explores the performance of object localization using chipless tags. We show that it is p...
International audienceIn this paper, we present an accurate method to localize an object on a 2D pla...
This paper presents a 2d localization system for UHF RFID tags. By measuring the phase between the t...
RFID is an emerging technology, which is widely used in many areas, especially in tracking and local...
Performance of a phase-based localization technique for UHF-RFID tags moving on a conveyor belt are ...
Many object localization applications need the relative locations of a set of objects as oppose to t...
This paper presents a novel phase-based method for UHF-RFID tag localization in outdoor scenario. Ph...
For many commercial applications it is of interest to identify and localize objects. The most tradit...
A novel localization method is proposed and demonstrated which exploits the phase profile combined w...
Radio Frequency Identification (RFID) technology is widely used to achieve indoor object tracking an...
The use of radio frequency identification (RFID) technology for the traceability of products through...
Radio frequency identification (MD) technology brings tremendous advancement in Internet-of-Things, ...
International audienceThis article presents the feasibility of measuring sub-millimeter displacement...
Abstract--- By processing the phase of the backscattered field from an RFID-UHF tag antenna, physica...
International audienceThis paper presents theoretical and practical implementation of the chipless R...
This paper explores the performance of object localization using chipless tags. We show that it is p...
International audienceIn this paper, we present an accurate method to localize an object on a 2D pla...
This paper presents a 2d localization system for UHF RFID tags. By measuring the phase between the t...
RFID is an emerging technology, which is widely used in many areas, especially in tracking and local...
Performance of a phase-based localization technique for UHF-RFID tags moving on a conveyor belt are ...
Many object localization applications need the relative locations of a set of objects as oppose to t...
This paper presents a novel phase-based method for UHF-RFID tag localization in outdoor scenario. Ph...
For many commercial applications it is of interest to identify and localize objects. The most tradit...
A novel localization method is proposed and demonstrated which exploits the phase profile combined w...
Radio Frequency Identification (RFID) technology is widely used to achieve indoor object tracking an...
The use of radio frequency identification (RFID) technology for the traceability of products through...
Radio frequency identification (MD) technology brings tremendous advancement in Internet-of-Things, ...
International audienceThis article presents the feasibility of measuring sub-millimeter displacement...
Abstract--- By processing the phase of the backscattered field from an RFID-UHF tag antenna, physica...
International audienceThis paper presents theoretical and practical implementation of the chipless R...