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Ensuring robust and tissue-independent operation of implantable, ingestible, and injectable antennas

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Abstract
In-body bioelectronics relies on antennas to interface with external on-or off-body equipment. In this paper, we address the impedance detuning of in-body antennas caused by nondeterministic electromagnetic properties of biological tissues. The impedance robustness can be improved in two ways. First, by using wideband and multiresonance antennas with an added benefit of higher achievable data rates. Second, by applying specific dielectric-loaded narrow-band microstrip designs that additionally show enhanced radiation performance and robustness to inner components. Fully tissue-independent characteristics can be realized using hybrid slot-patch designs.
Keywords
antenna, bioelectronics, implantable, in-body, ingestible, injectable, microstrip antenna, robustness

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MLA
Nikolayev, Denys, et al. “Ensuring Robust and Tissue-Independent Operation of Implantable, Ingestible, and Injectable Antennas.” 2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT), 2019, pp. 267–70, doi:10.1109/ISMICT.2019.8743831.
APA
Nikolayev, D., Joseph, W., Zhadobov, M., Sauleau, R., & Martens, L. (2019). Ensuring robust and tissue-independent operation of implantable, ingestible, and injectable antennas. 2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT), 267–270. https://doi.org/10.1109/ISMICT.2019.8743831
Chicago author-date
Nikolayev, Denys, Wout Joseph, Maxim Zhadobov, Ronan Sauleau, and Luc Martens. 2019. “Ensuring Robust and Tissue-Independent Operation of Implantable, Ingestible, and Injectable Antennas.” In 2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT), 267–70. https://doi.org/10.1109/ISMICT.2019.8743831.
Chicago author-date (all authors)
Nikolayev, Denys, Wout Joseph, Maxim Zhadobov, Ronan Sauleau, and Luc Martens. 2019. “Ensuring Robust and Tissue-Independent Operation of Implantable, Ingestible, and Injectable Antennas.” In 2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT), 267–270. doi:10.1109/ISMICT.2019.8743831.
Vancouver
1.
Nikolayev D, Joseph W, Zhadobov M, Sauleau R, Martens L. Ensuring robust and tissue-independent operation of implantable, ingestible, and injectable antennas. In: 2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT). 2019. p. 267–70.
IEEE
[1]
D. Nikolayev, W. Joseph, M. Zhadobov, R. Sauleau, and L. Martens, “Ensuring robust and tissue-independent operation of implantable, ingestible, and injectable antennas,” in 2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT), Oslo, Norway, 2019, pp. 267–270.
@inproceedings{8629927,
  abstract     = {{In-body bioelectronics relies on antennas to interface with external on-or off-body equipment. In this paper, we address the impedance detuning of in-body antennas caused by nondeterministic electromagnetic properties of biological tissues. The impedance robustness can be improved in two ways. First, by using wideband and multiresonance antennas with an added benefit of higher achievable data rates. Second, by applying specific dielectric-loaded narrow-band microstrip designs that additionally show enhanced radiation performance and robustness to inner components. Fully tissue-independent characteristics can be realized using hybrid slot-patch designs.}},
  author       = {{Nikolayev, Denys and Joseph, Wout and Zhadobov, Maxim and Sauleau, Ronan and Martens, Luc}},
  booktitle    = {{2019 13TH INTERNATIONAL SYMPOSIUM ON MEDICAL INFORMATION AND COMMUNICATION TECHNOLOGY (ISMICT)}},
  isbn         = {{9781728123424}},
  issn         = {{2326-828X}},
  keywords     = {{antenna,bioelectronics,implantable,in-body,ingestible,injectable,microstrip antenna,robustness}},
  language     = {{eng}},
  location     = {{Oslo, Norway}},
  pages        = {{267--270}},
  title        = {{Ensuring robust and tissue-independent operation of implantable, ingestible, and injectable antennas}},
  url          = {{http://doi.org/10.1109/ISMICT.2019.8743831}},
  year         = {{2019}},
}

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