Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2023, Cilt: 39 Sayı: 3, 497 - 507, 31.12.2023

Öz

Kaynakça

  • 1. Dang T, Zhao M. The application of smart fibers and smart textiles. In: Journal of Physics: Conference Series. IOP Publishing Ltd; 2021.
  • 2. Mikulić D, Šopp E, Bonefačić D, Bartolić J, Šipuš Z. Design and Realization of Wearable Textile Slotted Waveguide Antennas. Sensors [Internet]. 2023 Aug 29;23(17):7509. Available from: https://www.mdpi.com/1424-8220/23/17/7509
  • 3. Lazaro A, Villarino R, Lazaro M, Canellas N, Prieto-Simon B, Girbau D. Recent Advances in Batteryless NFC Sensors for Chemical Sensing and Biosensing. Vol. 13, Biosensors. NLM (Medline); 2023.
  • 4. Potey PM, Tuckley K. Design of wearable textile antenna with various substrate and investigation on fabric selection. In: 2018 3rd International Conference on Microwave and Photonics, ICMAP 2018. Institute of Electrical and Electronics Engineers Inc.; 2018. p. 1–2.
  • 5. Kumar A, Pharwaha APS. Challenges and Issues in the Design of Micro-machined Antennas - A Review. Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering). 2020 Sep 23;14(1):75–89.
  • 6. Salvado R, Loss C, Gon, Pinho P. Textile materials for the design of wearable antennas: A survey. Vol. 12, Sensors (Switzerland). 2012. p. 15841–57.
  • 7. Loss C, Gonçalves R, Lopes C, Pinho P, Salvado R. Smart coat with a fully-embedded textile antenna for IoT applications. Sensors (Switzerland). 2016 Jun 22;16(6).
  • 8. Gardašević G, Katzis K, Bajić D, Berbakov L. Emerging wireless sensor networks and internet of things technologies—foundations of smart healthcare. Sensors (Switzerland). 2020 Jul 1;20(13):1–30.
  • 9. Paradiso R, Loriga G, Taccini N. A wearable health care system based on knitted integrated sensors. IEEE Transactions on Information Technology in Biomedicine. 2005 Sep;9(3):337–44.
  • 10. Sibinski M, Jakubowska M, Sloma M. Flexible temperature sensors on fibers. Sensors. 2010 Sep;10(9):7934–46.
  • 11. Catarinucci L, Colella R, Tarricone L. SMART PROTOTYPING TECHNIQUES FOR UHF RFID TAGS: ELECTROMAGNETIC CHARACTERIZA-TION AND COMPARISON WITH TRADITIONAL AP-PROACHES. Vol. 132, Progress In Electromagnetics Research. 2012.
  • 12. Wang L. Microwave Imaging and Sensing Techniques for Breast Cancer Detection. Vol. 14, Micromachines. Multidisciplinary Digital Publishing Institute (MDPI); 2023.
  • 13. Wang L. Early diagnosis of breast cancer. Sensors (Switzerland). 2017;17(7).
  • 14. Wang L, Al-Jumaily AM, Simpkin R. Imaging of 3-D Dielectric Objects Using Far-Field Holographic Microwave Imaging Technique. Vol. 61, Progress In Electromagnetics Research B. 2014.
  • 15. Abouelnaga TG, Hamad EKI, Khaleel SA, Beiranvand B. Defining Breast Tumor Location Using a Four-Element Wearable Circular UWB MIMO Antenna Array. Applied Sciences (Switzerland). 2023 Jul 1;13(14).
  • 16. Farooqui MF, Shamim A. Low Cost Inkjet Printed Smart Bandage for Wireless Monitoring of Chronic Wounds. Sci Rep. 2016;6:2–3.
  • 17. Kumar R, Singh J, Sohi BS, Chandigarh C, Mohali G. International Journal of Computer Science and Mobile Computing Hexagonal Shaped Body Wearable Textile Antenna on EBG Substrate Material [Internet]. Vol. 5, International Journal of Computer Science and Mobile Computing. 2016. Available from: www.ijcsmc.com
  • 18. Mersani A, Osman L, Ribero JM. Flexible UWB AMC Antenna for Early Stage Skin Cancer Identification. Vol. 80. 2019.
  • 19. Abbosh AM. Directive Antenna for Ultrawideband Medical Imaging Systems. Int J Antennas Propag. 2008;2008:1–6.
  • 20. Sun Y, Cheung SW, Yuk TI. Design of a textile ultra-wideband antenna with stable performance for body-centric wireless communications. IET Microwaves, Antennas and Propagation. 2014 Dec 1;8(15):1363–75.
  • 21. J.C. Wang EGLMLZWKLMYH. Conformal wearable antennas for WBAN applications. In: in Proceedings of the International Multi Conference of Engineers and Computer Scientists. Hong Kong; 2016. p. 1–4.
  • 22. Singh VK, Khan S, Kumar singh V. Textile Antenna Using Jeans Substrate for Wireless Communication Application Microstrip antenna for WLAN and WiMax application View project Energy Harvesting through Rectenna View project Textile Antenna Using Jeans Substrate for Wireless Communication Application [Internet]. 2015. Available from: www.ijetsr.com
  • 23. Bhawna Tiwari1 · Sindhu Hak Gupta1 · Vipin Balyan2. Investigation on Performance of Wearable Flexible On‐Body Ultra‐Wideband Antenna Based on Denim for Wireless Health Monitoring. J Electron Mater. 2021;50:6897–909.
  • 24. Eleshop, LiteVNA 64 (eleshop.eu), accessed:25.12.2023.

Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems

Yıl 2023, Cilt: 39 Sayı: 3, 497 - 507, 31.12.2023

Öz

Recently, there has been a burgeoning demand for wireless health monitoring systems employing flexible wearable antennas to facilitate seamless communication between individuals and their healthcare providers. The principal objective of this scholarly investigation revolves around assessing the operational efficiency of an economically viable, fabric-based flexible wearable antenna design meticulously fashioned on denim, with a specific focus on its applicability in wireless health monitoring. The significant feature of this antenna is its minimal physical size, measuring 50 mm × 35 mm × 1.0 mm, and it also draws attention as an antenna with excellent performance, boasting high efficiencies of approximately 96.7% at 2.44 GHz and 96.2% at 7.66 GHz. It exhibits commendable attributes in high gain and directivity, quantified at 4.32 dBi and 4.87 dBi, respectively, at a frequency of 7.66 GHz. The pivotal highlights of this ultra-wideband (UWB) antenna encompass its compact form factor, lightweight construction, cost-effectiveness, inherent flexibility, straightforward fabrication process, and seamless integration into clothing. These distinctive attributes underscore its suitability as a wearable human body antenna tailor-made for deployment within wireless body area network (WBAN) systems. Notably, both the simulation and measurement outcomes of the abovementioned antenna design corroborate its preeminence and suitability for WBAN applications, particularly in the context of ultra-wideband operations.

Teşekkür

Adana Alparslan Turkes Science and Technology University Research Fund (Project Number: 22119001).

Kaynakça

  • 1. Dang T, Zhao M. The application of smart fibers and smart textiles. In: Journal of Physics: Conference Series. IOP Publishing Ltd; 2021.
  • 2. Mikulić D, Šopp E, Bonefačić D, Bartolić J, Šipuš Z. Design and Realization of Wearable Textile Slotted Waveguide Antennas. Sensors [Internet]. 2023 Aug 29;23(17):7509. Available from: https://www.mdpi.com/1424-8220/23/17/7509
  • 3. Lazaro A, Villarino R, Lazaro M, Canellas N, Prieto-Simon B, Girbau D. Recent Advances in Batteryless NFC Sensors for Chemical Sensing and Biosensing. Vol. 13, Biosensors. NLM (Medline); 2023.
  • 4. Potey PM, Tuckley K. Design of wearable textile antenna with various substrate and investigation on fabric selection. In: 2018 3rd International Conference on Microwave and Photonics, ICMAP 2018. Institute of Electrical and Electronics Engineers Inc.; 2018. p. 1–2.
  • 5. Kumar A, Pharwaha APS. Challenges and Issues in the Design of Micro-machined Antennas - A Review. Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering). 2020 Sep 23;14(1):75–89.
  • 6. Salvado R, Loss C, Gon, Pinho P. Textile materials for the design of wearable antennas: A survey. Vol. 12, Sensors (Switzerland). 2012. p. 15841–57.
  • 7. Loss C, Gonçalves R, Lopes C, Pinho P, Salvado R. Smart coat with a fully-embedded textile antenna for IoT applications. Sensors (Switzerland). 2016 Jun 22;16(6).
  • 8. Gardašević G, Katzis K, Bajić D, Berbakov L. Emerging wireless sensor networks and internet of things technologies—foundations of smart healthcare. Sensors (Switzerland). 2020 Jul 1;20(13):1–30.
  • 9. Paradiso R, Loriga G, Taccini N. A wearable health care system based on knitted integrated sensors. IEEE Transactions on Information Technology in Biomedicine. 2005 Sep;9(3):337–44.
  • 10. Sibinski M, Jakubowska M, Sloma M. Flexible temperature sensors on fibers. Sensors. 2010 Sep;10(9):7934–46.
  • 11. Catarinucci L, Colella R, Tarricone L. SMART PROTOTYPING TECHNIQUES FOR UHF RFID TAGS: ELECTROMAGNETIC CHARACTERIZA-TION AND COMPARISON WITH TRADITIONAL AP-PROACHES. Vol. 132, Progress In Electromagnetics Research. 2012.
  • 12. Wang L. Microwave Imaging and Sensing Techniques for Breast Cancer Detection. Vol. 14, Micromachines. Multidisciplinary Digital Publishing Institute (MDPI); 2023.
  • 13. Wang L. Early diagnosis of breast cancer. Sensors (Switzerland). 2017;17(7).
  • 14. Wang L, Al-Jumaily AM, Simpkin R. Imaging of 3-D Dielectric Objects Using Far-Field Holographic Microwave Imaging Technique. Vol. 61, Progress In Electromagnetics Research B. 2014.
  • 15. Abouelnaga TG, Hamad EKI, Khaleel SA, Beiranvand B. Defining Breast Tumor Location Using a Four-Element Wearable Circular UWB MIMO Antenna Array. Applied Sciences (Switzerland). 2023 Jul 1;13(14).
  • 16. Farooqui MF, Shamim A. Low Cost Inkjet Printed Smart Bandage for Wireless Monitoring of Chronic Wounds. Sci Rep. 2016;6:2–3.
  • 17. Kumar R, Singh J, Sohi BS, Chandigarh C, Mohali G. International Journal of Computer Science and Mobile Computing Hexagonal Shaped Body Wearable Textile Antenna on EBG Substrate Material [Internet]. Vol. 5, International Journal of Computer Science and Mobile Computing. 2016. Available from: www.ijcsmc.com
  • 18. Mersani A, Osman L, Ribero JM. Flexible UWB AMC Antenna for Early Stage Skin Cancer Identification. Vol. 80. 2019.
  • 19. Abbosh AM. Directive Antenna for Ultrawideband Medical Imaging Systems. Int J Antennas Propag. 2008;2008:1–6.
  • 20. Sun Y, Cheung SW, Yuk TI. Design of a textile ultra-wideband antenna with stable performance for body-centric wireless communications. IET Microwaves, Antennas and Propagation. 2014 Dec 1;8(15):1363–75.
  • 21. J.C. Wang EGLMLZWKLMYH. Conformal wearable antennas for WBAN applications. In: in Proceedings of the International Multi Conference of Engineers and Computer Scientists. Hong Kong; 2016. p. 1–4.
  • 22. Singh VK, Khan S, Kumar singh V. Textile Antenna Using Jeans Substrate for Wireless Communication Application Microstrip antenna for WLAN and WiMax application View project Energy Harvesting through Rectenna View project Textile Antenna Using Jeans Substrate for Wireless Communication Application [Internet]. 2015. Available from: www.ijetsr.com
  • 23. Bhawna Tiwari1 · Sindhu Hak Gupta1 · Vipin Balyan2. Investigation on Performance of Wearable Flexible On‐Body Ultra‐Wideband Antenna Based on Denim for Wireless Health Monitoring. J Electron Mater. 2021;50:6897–909.
  • 24. Eleshop, LiteVNA 64 (eleshop.eu), accessed:25.12.2023.

Ayrıntılar

Birincil Dil İngilizce
Konular Biyomedikal Bilimler ve Teknolojiler, Biyomedikal Mühendisliği (Diğer), Mühendislik Elektromanyetiği
Bölüm Makaleler
Yazarlar

Emine AVŞAR AYDIN

Proje Numarası Adana Alparslan Turkes Science and Technology University Research Fund (Project Number: 22119001).
Erken Görünüm Tarihi 31 Aralık 2023
Yayımlanma Tarihi 31 Aralık 2023
Gönderilme Tarihi 10 Kasım 2023
Kabul Tarihi 27 Aralık 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 39 Sayı: 3

Kaynak Göster

APA AVŞAR AYDIN, E. (2023). Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi, 39(3), 497-507.
AMA AVŞAR AYDIN E. Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi. Aralık 2023;39(3):497-507.
Chicago AVŞAR AYDIN, Emine. “Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems”. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi 39, sy. 3 (Aralık 2023): 497-507.
EndNote AVŞAR AYDIN E (01 Aralık 2023) Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi 39 3 497–507.
IEEE E. AVŞAR AYDIN, “Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems”, Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi, c. 39, sy. 3, ss. 497–507, 2023.
ISNAD AVŞAR AYDIN, Emine. “Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems”. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi 39/3 (Aralık 2023), 497-507.
JAMA AVŞAR AYDIN E. Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi. 2023;39:497–507.
MLA AVŞAR AYDIN, Emine. “Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems”. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi, c. 39, sy. 3, 2023, ss. 497-0.
Vancouver AVŞAR AYDIN E. Denim-Based Wearable Fork-Shaped Ultra-Wideband Antenna for Wireless Skin Cancer Monitoring Systems. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi. 2023;39(3):497-50.

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