Add to ORKGThe phase response of an High-Impedance Surface (HIS) to an incident plane wave linearly polarized is employed in order to realize a chipless RFID with phase-only encoding. The encoding is obtained by using stubs of different length applied to each single loop included in the unit cell. The information is encoded in the difference between the TE and TM phase response of the tag. Possible improvements of the proposed structure in terms of increased bit capacitance and robustness are also investigated
International audienceThe chipless RFID tag presented exploits the advantage offered by polarization...
Aim of this paper is to design a fundamental building block of a spectral domain chipless RFID syste...
The architectures of two innovative compact orientation independent chipless radio frequency identif...
The phase response of an High-Impedance Surface (HIS) to an incident plane wave linearly polarized i...
A novel encoding paradigm for chipless RFID tags based on phase quantization is presented. The most ...
This paper reviews the main features of chipless RFID tags realized with High-Impedance Surfaces. Th...
A reliable encoding/detection scheme for chipless radio frequency identification (RFID) tags, free f...
The transmission of the interrogating signal and the collection of the backscattered field are the t...
A novel normalization-free reading scheme to recover data encoded in chipless radio frequency ident...
Radio Frequency Identification (RFID) is a widespread tool used in a large spectrum of application s...
A novel robust encoding mechanism for spectral-domain chipless tags is proposed. The idea is based o...
International audienceDesigning a reader for chipless RFID is a hard task since both the polarizatio...
The paper proposes an encoding mechanism for chipless RFID relying on two orthogonally polarized mea...
A miniaturized, polarization insensitive, and fully passive chipless radio frequency identification ...
Two efficient reading approaches for chipless RFID are compared. The first approach uses a linear po...
International audienceThe chipless RFID tag presented exploits the advantage offered by polarization...
Aim of this paper is to design a fundamental building block of a spectral domain chipless RFID syste...
The architectures of two innovative compact orientation independent chipless radio frequency identif...
The phase response of an High-Impedance Surface (HIS) to an incident plane wave linearly polarized i...
A novel encoding paradigm for chipless RFID tags based on phase quantization is presented. The most ...
This paper reviews the main features of chipless RFID tags realized with High-Impedance Surfaces. Th...
A reliable encoding/detection scheme for chipless radio frequency identification (RFID) tags, free f...
The transmission of the interrogating signal and the collection of the backscattered field are the t...
A novel normalization-free reading scheme to recover data encoded in chipless radio frequency ident...
Radio Frequency Identification (RFID) is a widespread tool used in a large spectrum of application s...
A novel robust encoding mechanism for spectral-domain chipless tags is proposed. The idea is based o...
International audienceDesigning a reader for chipless RFID is a hard task since both the polarizatio...
The paper proposes an encoding mechanism for chipless RFID relying on two orthogonally polarized mea...
A miniaturized, polarization insensitive, and fully passive chipless radio frequency identification ...
Two efficient reading approaches for chipless RFID are compared. The first approach uses a linear po...
International audienceThe chipless RFID tag presented exploits the advantage offered by polarization...
Aim of this paper is to design a fundamental building block of a spectral domain chipless RFID syste...
The architectures of two innovative compact orientation independent chipless radio frequency identif...