Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Rofan Aziz, Karsid, Dedi Suwandi, Basari

Judul : Perancangan Antena Tekstil Tiga Slot Untuk Peralatan IoT Wearable Bidang Medis

Abstrak :
Wearable IoT bidang medis saat ini berkembang dengan pesat. Selain kecepatan transfer data, pemilihan jenis antena juga menjadi isu utama. Pemilihan bahan tekstil yang digunakan untuk antena karena fleksibel, mudah didapatkan dan murah. Pada penelitian ini dilakukan perancangan antena tekstil dengan tiga slot disusun segitiga untuk aplikasi wearable IoT bidang medis. Pada penelitian ini diperoleh hasil perancangan antena dengan bandwidth 2,58 GHz (1,97 GHz – 4,55 GHz), Gain antena 2,409 dBi.

Kata Kunci : tekstil antena, antena wearable, wearable IoT

Tahun : 2018 Media Publikasi : prosiding

Kategori : Prosiding No/Vol/Tahun : - / - / 2018

ISSN/ISBN : 2252-701X

PTN/S : Universitas Pakuan Program Studi : TEKNIK ELEKTRO

Bibliography :

J. Farhat, A. Shamayleh, and H. Al-Nashash, “Medical equipment efficient failure management in IoT environment,” in 2018 Advances in Science and Engineering Technology International Conferences (ASET), 2018, pp. 1–5.

M. S. Uddin, J. B. Alam, and S. Banu, “Real time patient monitoring system based on Internet of Things,” in 2017 4th International Conference on Advances in Electrical Engineering (ICAEE), 2017, pp. 516–521.

P. S. Hall, Antennas and Propagation for Body-Centric Wireless Communications, Second Edition. Artech House, 2012.

C. Loss, R. Gonçalves, C. Lopes, P. Pinho, and R. Salvado, “Smart Coat with a Fully-Embedded Textile Antenna for IoT Applications,” Sensors, vol. 16, no. 6, Jun. 2016.

A. Sabban, “Small wearable antennas for wireless communication and medical systems,” in 2018 IEEE Radio and Wireless Symposium (RWS), Anaheim, CA, 2018, pp. 161–164.

M. S. A. Nordin, N. H. A. Rahman, M. T. Ali, A. A. S. A. Shah, and M. R. Ahmad, “Full-wave electromagnetic simulation of antenna on electro-textile and accurate measurement of dielectric properties through precise adjustable jig,” in 2017 IEEE Asia Pacific Microwave Conference (APMC), Kuala Lumpar, 2017, pp. 169–172.

J. Zhong, A. Kiourti, T. Sebastian, Y. Bayram, and J. L. Volakis, “Conformal Load-Bearing Spiral Antenna on Conductive Textile Threads,” IEEE Antennas Wirel. Propag. Lett., vol. 16, pp. 230–233, 2017.

N. H. A. Rahman, Y. Yamada, and M. S. A. Nordin, “Reliability of Strip Line Method for Determination of Conductivity for Lossy Conductive Materials,” IEEE Access, vol. 6, pp. 64630–64638, 2018.

“IEEE Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirement Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low-Rate Wireless Personal Area Networks (WPANs),” IEEE Std 802154a-2007 Amend. IEEE Std 802154-2006, pp. 1–203, 2007.

S. Agneessens, “Coupled Eighth-Mode Substrate Integrated Waveguide Antenna: Small and Wideband With High-Body Antenna Isolation,” IEEE Access, vol. 6, pp. 1595–1602, 2018.

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Detail Karya Ilmiah Dosen

Rofan Aziz, Karsid, Dedi Suwandi, Basari

Judul	:	Perancangan Antena Tekstil Tiga Slot Untuk Peralatan IoT Wearable Bidang Medis
Abstrak	:	Wearable IoT bidang medis saat ini berkembang dengan pesat. Selain kecepatan transfer data, pemilihan jenis antena juga menjadi isu utama. Pemilihan bahan tekstil yang digunakan untuk antena karena fleksibel, mudah didapatkan dan murah. Pada penelitian ini dilakukan perancangan antena tekstil dengan tiga slot disusun segitiga untuk aplikasi wearable IoT bidang medis. Pada penelitian ini diperoleh hasil perancangan antena dengan bandwidth 2,58 GHz (1,97 GHz – 4,55 GHz), Gain antena 2,409 dBi. Kata Kunci : tekstil antena, antena wearable, wearable IoT
Tahun	:	2018	Media Publikasi	:	prosiding
Kategori	:	Prosiding	No/Vol/Tahun	:	- / - / 2018
ISSN/ISBN	:	2252-701X
PTN/S	:	Universitas Pakuan	Program Studi	:	TEKNIK ELEKTRO
Bibliography	:	J. Farhat, A. Shamayleh, and H. Al-Nashash, “Medical equipment efficient failure management in IoT environment,” in 2018 Advances in Science and Engineering Technology International Conferences (ASET), 2018, pp. 1–5. M. S. Uddin, J. B. Alam, and S. Banu, “Real time patient monitoring system based on Internet of Things,” in 2017 4th International Conference on Advances in Electrical Engineering (ICAEE), 2017, pp. 516–521. P. S. Hall, Antennas and Propagation for Body-Centric Wireless Communications, Second Edition. Artech House, 2012. C. Loss, R. Gonçalves, C. Lopes, P. Pinho, and R. Salvado, “Smart Coat with a Fully-Embedded Textile Antenna for IoT Applications,” Sensors, vol. 16, no. 6, Jun. 2016. A. Sabban, “Small wearable antennas for wireless communication and medical systems,” in 2018 IEEE Radio and Wireless Symposium (RWS), Anaheim, CA, 2018, pp. 161–164. M. S. A. Nordin, N. H. A. Rahman, M. T. Ali, A. A. S. A. Shah, and M. R. Ahmad, “Full-wave electromagnetic simulation of antenna on electro-textile and accurate measurement of dielectric properties through precise adjustable jig,” in 2017 IEEE Asia Pacific Microwave Conference (APMC), Kuala Lumpar, 2017, pp. 169–172. J. Zhong, A. Kiourti, T. Sebastian, Y. Bayram, and J. L. Volakis, “Conformal Load-Bearing Spiral Antenna on Conductive Textile Threads,” IEEE Antennas Wirel. Propag. Lett., vol. 16, pp. 230–233, 2017. N. H. A. Rahman, Y. Yamada, and M. S. A. Nordin, “Reliability of Strip Line Method for Determination of Conductivity for Lossy Conductive Materials,” IEEE Access, vol. 6, pp. 64630–64638, 2018. “IEEE Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirement Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low-Rate Wireless Personal Area Networks (WPANs),” IEEE Std 802154a-2007 Amend. IEEE Std 802154-2006, pp. 1–203, 2007. S. Agneessens, “Coupled Eighth-Mode Substrate Integrated Waveguide Antenna: Small and Wideband With High-Body Antenna Isolation,” IEEE Access, vol. 6, pp. 1595–1602, 2018.
URL	:	-