Measurement of body temperature is the most fre quent medical screening performed in both hospital and domestic environments. Dual-heat-flux (DHF) thermometry provides an indirect method to estimate deep body temperature, which is unpractical and uncomfortable to be measured, from the easily accessible surface of the skin, by exploiting four temperature sampling points on a same device. This paper combines, for the first time, the DHF method with the flexible epidermal Ultra High Frequency (UHF) Radio Frequency IDentification (RFID) technology to replace bulky and wired state-of-the-art DHF devices. Four RFID Integrated Circuits (ICs) with embedded temperature sensors are used in place of the wired temperature probes so that they will be in charge of both sensing and wireless transmission of the data by means of four small antennas also embedded in the device. By integrating the antennas within elastomeric substrates, a highly conformable plaster-like device is achieved. It is flexible and soft, and can be read from a distance of more than 15 cm regardless of the curvature of the body region where it is placed, and also in case of moderate displacement (±5 cm) with respect to the external interrogator.
Panunzio, N., Diamanti, A., Marrocco, G. (2022). Flexible and Wireless Multi-Point Epidermal Temperature Sensor. IEEE JOURNAL ON FLEXIBLE ELECTRONICS, 14(8), 1-9 [10.1109/JFLEX.2022.3229282].
Flexible and Wireless Multi-Point Epidermal Temperature Sensor
Marrocco, Gaetano
2022-01-01
Abstract
Measurement of body temperature is the most fre quent medical screening performed in both hospital and domestic environments. Dual-heat-flux (DHF) thermometry provides an indirect method to estimate deep body temperature, which is unpractical and uncomfortable to be measured, from the easily accessible surface of the skin, by exploiting four temperature sampling points on a same device. This paper combines, for the first time, the DHF method with the flexible epidermal Ultra High Frequency (UHF) Radio Frequency IDentification (RFID) technology to replace bulky and wired state-of-the-art DHF devices. Four RFID Integrated Circuits (ICs) with embedded temperature sensors are used in place of the wired temperature probes so that they will be in charge of both sensing and wireless transmission of the data by means of four small antennas also embedded in the device. By integrating the antennas within elastomeric substrates, a highly conformable plaster-like device is achieved. It is flexible and soft, and can be read from a distance of more than 15 cm regardless of the curvature of the body region where it is placed, and also in case of moderate displacement (±5 cm) with respect to the external interrogator.File | Dimensione | Formato | |
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