Francisco Javier Muela scite author profile

Francisco Javier Muela

3Publications

34Citation Statements Received

51Citation Statements Given

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109

Affiliations

Autonomous University of Barcelona

Publications

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High-Density Microwave Encoders for Motion Control and Near-Field Chipless-RFID

et al. 2019

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A novel microwave system for measuring linear displacements and velocities with sub-millimeter resolution and for the implementation of near-field chipless radiofrequency identification (chipless-RFID) systems with very high data capacity is presented. The system is based on a reader, consisting of a half-wavelength straight resonator coupled (through capacitor gaps) to a pair of access lines, and a microwave encoder, in relative motion to the reader and consisting of a linear chain of strips orthogonally oriented to the chain axis. By displacing the encoder over the half-wavelength resonator of the reader, with the encoder strips parallel oriented to the reader axis, the relative velocity and position between the encoder and the reader can be inferred. For that purpose, the reader is fed by a harmonic signal tuned to the resonance frequency that results when an encoder strip is perfectly aligned with the reader. Encoder motion amplitude modulates the feeding signal at the output port, and both the position and the velocity are measured from the peaks, or dips, of the resulting envelope function. Moreover, by making certain strips inoperative, the system can be used for coding purposes. Due to the small period of the encoder (0.6 mm), a high per-unit-length data density in these near-field chipless-RFID tags (i.e., 16.66 bits/cm) is achieved. To illustrate the functionality and potential of the approach, 100-bit chipless-RFID tags with various ID codes are implemented and read.

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Genetics and Cinema: Personal Misconceptions that Constitute Obstacles to Learning

Muela¹,

Armenteros

2013

International Journal of Science Education, Part B

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Untitled

Sánchez‐Lafuente

Valera

Godino

et al. 2001

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