theory and experiments on peano and hilbert curve rfid tags In this work, we give an overview of our work on the space-filling curves and the potential for utilizing the electrically small, resonant characteristics of these curves for use in . $66.49
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1 · Theory and experiments on Peano and Hilbert curve RFID tags
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3 · Sci
4 · Fully printable chipless RFID multi
5 · Design rules for chipless RFID tags based on multiple scatterers
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The reading methods of RFID tags of various types, system perspective design, and analyses, detection techniques, sensor nodes for RFID system, security risk and vulnerability . In this work, we give an overview of our work on the space-filling curves and the potential for utilizing the electrically small, resonant characteristics of these curves for use in .
This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically .Recently, we proposed the use of Hilbert and Peano space-filling curves in the design of completely passive RFID tags and presented some preliminary results [1]. In this paper, we present some design rules to create a chipless RFID tag that encodes the information in the frequency domain. Some criterions are introduced to make the .
We investigate the radiation characteristics of the Peano antenna, i.e., a single antenna made of a thin wire, patterned after a special type of space-filling curve known as the .Theory and experiments on Peano and Hilbert curve RFID tags. Wireless Sensing and Processing. doi:10.1117/12.666911II. PRINTED PEANO AND HILBERT ARRAYS FOR RFID TAGS The “compact resonator” behavior of the Peano and Hilbert curves may allow for relatively small resonant passive tags .
This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically . This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically . The reading methods of RFID tags of various types, system perspective design, and analyses, detection techniques, sensor nodes for RFID system, security risk and vulnerability of the RFID.
In this work, we give an overview of our work on the space-filling curves and the potential for utilizing the electrically small, resonant characteristics of these curves for use in RFID technologies with an emphasis on the challenging issues involved when attempting to tag conductive objects.
University of Pennsylvania
This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically small RFID tags that may also radiate efficiently, within close proximity of large conductive objects.Recently, we proposed the use of Hilbert and Peano space-filling curves in the design of completely passive RFID tags and presented some preliminary results [1]. In this paper, we present some design rules to create a chipless RFID tag that encodes the information in the frequency domain. Some criterions are introduced to make the best choice concerning the elementary scatterers that act like signal processing antennas. We investigate the radiation characteristics of the Peano antenna, i.e., a single antenna made of a thin wire, patterned after a special type of space-filling curve known as the Peano curve.
Theory and experiments on Peano and Hilbert curve RFID tags. Wireless Sensing and Processing. doi:10.1117/12.666911II. PRINTED PEANO AND HILBERT ARRAYS FOR RFID TAGS The “compact resonator” behavior of the Peano and Hilbert curves may allow for relatively small resonant passive tags with comparably large scattering characteristics. The relatively narrow bandwidth inherent to these geometries may prove useful in allocating the narrow resonances as the
This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically small RFID tags that may also radiate efficiently, within close proximity of large conductive objects.
This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically small RFID tags that may also radiate efficiently, within close proximity of large conductive objects. The reading methods of RFID tags of various types, system perspective design, and analyses, detection techniques, sensor nodes for RFID system, security risk and vulnerability of the RFID. In this work, we give an overview of our work on the space-filling curves and the potential for utilizing the electrically small, resonant characteristics of these curves for use in RFID technologies with an emphasis on the challenging issues involved when attempting to tag conductive objects. This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically small RFID tags that may also radiate efficiently, within close proximity of large conductive objects.
Recently, we proposed the use of Hilbert and Peano space-filling curves in the design of completely passive RFID tags and presented some preliminary results [1]. In this paper, we present some design rules to create a chipless RFID tag that encodes the information in the frequency domain. Some criterions are introduced to make the best choice concerning the elementary scatterers that act like signal processing antennas. We investigate the radiation characteristics of the Peano antenna, i.e., a single antenna made of a thin wire, patterned after a special type of space-filling curve known as the Peano curve.Theory and experiments on Peano and Hilbert curve RFID tags. Wireless Sensing and Processing. doi:10.1117/12.666911
II. PRINTED PEANO AND HILBERT ARRAYS FOR RFID TAGS The “compact resonator” behavior of the Peano and Hilbert curves may allow for relatively small resonant passive tags with comparably large scattering characteristics. The relatively narrow bandwidth inherent to these geometries may prove useful in allocating the narrow resonances as the This work investigates the possible use of these tags in conjunction with high impedance ground-planes made of Hilbert or Peano curve inclusions to develop electrically small RFID tags that may also radiate efficiently, within close proximity of large conductive objects.
Theory and experiments on Peano and Hilbert curve RFID tags
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