Hostname: page-component-848d4c4894-v5vhk Total loading time: 0 Render date: 2024-06-29T12:06:50.216Z Has data issue: false hasContentIssue false
  • English
  • Français

Novel measurement technique to detect breast tumor based on the smallest form factor of UWB patch antenna

Published online by Cambridge University Press:  07 March 2022

Fatima-Ezzahra Zerrad ,
Mohamed Taouzari ,
El Mostafa Makroum ,
Jamal Aoufi ,
Hanane Nasraoui ,
Fadima Gülsever Aksoy ,
Muharrem Karaaslan Open the ORCID record for Muharrem Karaaslan [Opens in a new window]  and
Md Tarikul Islam
Fatima-Ezzahra Zerrad
Affiliation:
Hassan First University of Settat, Faculty of Sciences and Techniques, Laboratory IMII, 26000, Settat, Morocco
Mohamed Taouzari
Affiliation:
Hassan First University of Settat, National School of Applied Sciences, Laboratory LISA, 26100, Berrechid, Morocco
El Mostafa Makroum
Affiliation:
Hassan First University of Settat, Faculty of Sciences and Techniques, Laboratory IMII, 26000, Settat, Morocco
Jamal Aoufi
Affiliation:
Laboratory of Aeronautical & Telecommunication, Mohammed VI, International Academy of Civil Aviation, Casablanca, Morocco
Hanane Nasraoui
Affiliation:
Laboratory of Aeronautical & Telecommunication, Mohammed VI, International Academy of Civil Aviation, Casablanca, Morocco
Fadima Gülsever Aksoy
Affiliation:
Department of Audiology, Cappadocia University School of Graduate Studies and Research, Nevşehir, Turkey
Muharrem Karaaslan*
Affiliation:
Electrical-Electronics Engineering, Iskenderun Technical University, Hatay, Turkey
Md Tarikul Islam
Affiliation:
Department of Bioengineering, University of Illinois at Chicago, Chicago, Illinois, USA
*
Author for correspondence: Muharrem Karaaslan, E-mail: muharrem.karaaslan@iste.edu.tr
Get access Rights & Permissions [Opens in a new window]

Abstract

A small ultra-wideband (UWB) patch antenna for microwave breast imaging (MWI) applications is shown off in this paper. However, to improve the antenna performance relating to the bandwidth (BW), the radiating element of the suggested antenna is modified by adding slits in the patch as well as the ground plane. The proposed prototype has a relatively small size of 20 × 19 × 1.6 mm3 and it accomplishes a return loss below −10 dB (S11< −10 dB) at an overall BW of 7 GHz (4–11 GHz) with more than 3 dBi realized gain. The antenna is designed and simulated by using a finite integration technique-based simulator. In this way, the characteristics of the fabricated antenna are measured to examine the antenna performance. Indeed, the fidelity factor of face-to-face (FtF) and side-by-side (SbS) scenarios are also noticed for the same frequency range. In the final analysis, a simulation model of the antennas, that operate as a transceiver, and a breast phantom model with tumor sample is proposed for detecting cancerous tumor cells within the breast. Hence, the proposed approach is suitable for UWB based MWI applications in tumor cell detection.

Keywords

Breast tumormicrowave imaging (MWI)ultra-wideband (UWB)
Type
Biomedical Applications
Information
International Journal of Microwave and Wireless Technologies , Volume 15 , Issue 2 , March 2023 , pp. 227 - 235
Check for updates
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press in association with the European Microwave Association

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Karam, SAS, O'Loughlin, D, Oliveira, BL, O'Halloran, M and Asl, BM (2021) Weighted delay-and-sum beamformer for breast cancer detection using microwave imaging. Measurement 177, 19.Google Scholar
Mahmud, MZ, Islam, MT, Misran, N, Kibria, S and Samsuzzaman, M (2018) Microwave imaging for breast tumor detection using uniplanar AMC based CPW-fed microstrip antenna. IEEE Access 6, 4476344775.CrossRefGoogle Scholar
Fallenberg, EM, Dromain, C, Diekmann, F, Engelken, F, Krohn, M, Singh, JM, Ingold-Heppner, B, Winzer, KJ, Bick, U and Renz, DM (2014) Contrast-enhanced spectral mammography versus MRI: initial results in the detection of breast cancer and assessment of tumour size. European Radiology 24, 256264.CrossRefGoogle ScholarPubMed
Khalesi, B, Sohani, B, Ghavami, N, Ghavami, M, Dudley, S and Tiberi, G (2019) A phantom investigation to quantify Huygens principle-based microwave imaging for bone lesion detection. Electron 8, 112.CrossRefGoogle Scholar
Vispa, A, Sani, L, Paoli, M, Bigotti, A, Raspa, G, Ghavami, N, Ghavami, M and Tiberi, G (2019) UWB Device for breast microwave imaging: phantom and clinical validations. Measurement 146, 582589.CrossRefGoogle Scholar
Borja, B, Tirado, JA and Jardón, H (2018) An overview of UWB antennas for microwave imaging systems for cancer detection purposes. Progress In Electromagnetics Research B 80, 173198.CrossRefGoogle Scholar
Federal communications Commission, Washington, DC, USA, First Report and Order in the Matter of Revision of Part 15 of the Commission's Rules Regarding Ultra-Wideband Transmission Systems, ET-Docket 98–153, February 2002.Google Scholar
Zerrad, F, Taouzari, M, Makroum, M, Aoufi, J, Islam, MT, Özkaner, V, Abdulkarim, Y and Karaaslan, M (2022) Multilayered metamaterials array antenna based on artificial magnetic conductor's structure for the application diagnostic breast cancer detection with microwave imaging. Medical Engineering & Physics 99, 103737.CrossRefGoogle ScholarPubMed
Pandey, GK, Singh, HS, Bharti, PK and Meshram, MK (2014) Metamaterial-based UWB antenna. Electronics Letters 50, 12661268.CrossRefGoogle Scholar
Abbak, M, Akinci, MN, Çayören, M and Akduman, I (2017) Experimental microwave imaging with a novel corrugated Vivaldi antenna. IEEE Transactions on Antennas and Propagation 65, 33023307.CrossRefGoogle Scholar
Perhirin, S and Auffret, Y (2013) Microwave and optical technology letters. Microwave and Optical Technology Letters 55, 25622568.Google Scholar
Islam, MT, Samsuzzaman, M, Rahman, MN and Islam, MT (2018) A compact slotted patch antenna for breast tumor detection. Microwave and Optical Technology Letters 60, 16001608.CrossRefGoogle Scholar
Abdulkarim, YI, Dalgaç, Ş, Alkurt, FO, Muhammadsharif, FF, Awl, HN, Saeed, SR, Altıntaş, O, Li, C, Bakır, M, Karaaslan, M, Ameen, M, RK, Chaudhary and Luo, H (2021) Utilization of a triple hexagonal split ring resonator (SRR) based metamaterial sensor for the improved detection of fuel adulteration. Journal of Materials Science: Materials in Electronics 32, 2425824272.Google Scholar
Ali, HO, Al-Hindawi, AM, Abdulkarim, YI, Nugoolcharoenlap, E, Tippo, T, Alkurt, , Altıntaş, O and Karaaslan, M (2021) Simulated and experimental studies of multi-band symmetric metamaterial absorber with polarization independent for radar applications. Chinese Physics B.Google Scholar
Karatepe, A, Akgöl, O, Abdulkarim, YI, Dalgac, Ş, Awl, HN, Muhammadsharif, FF, Karaaslan, M, Ünal, E, Saeed, SR, Luo, H and Huang, SX (2021) A monopole microwave-assisted electrochemical sensor for the detection of liquid chemicals. Digest Journal of Nanomaterials & Biostructures (DJNB) 16, 765776.CrossRefGoogle Scholar
Dalgac, S, Akdogan, V, Kiris, S, Incesu, A, Akgol, O, Unal, E, Basar, MT and Karaaslan, M (2021) Investigation of methanol contaminated local spirit using metamaterial based transmission line sensor. Measurement 178, 109360.CrossRefGoogle Scholar
Abdulkarim, YI, Awl, HN, Alkurt, FO, Muhammadsharif, FF, Saeed, SR, Karaaslan, M, Bakır, M and Luo, H (2021) A thermally stable and polarization insensitive square-shaped water metamaterial with ultra-broadband absorption. Journal of Materials Research and Technology 13, 11501158.CrossRefGoogle Scholar
Alkurt, FO, Erkinay Ozdemir, M, Akgol, O and Karaaslan, M (2021) Ground plane design configuration estimation of 4.9 GHz reconfigurable monopole antenna for desired radiation features using artificial neural network. International Journal of RF and Microwave Computer-Aided Engineering 31, e22734.CrossRefGoogle Scholar
Kacin, S, Ozturk, M, Sevim, UK, Mert, BA, Ozer, Z, Akgol, O, Unal, E and Karaaslan, M (2021) Seismic metamaterials for low-frequency mechanical wave attenuation. Natural Hazards 107, 213229.CrossRefGoogle Scholar
Sağık, M, Altıntaş, O, Ünal, E, Özdemir, E, Demirci, M, Çolak, Ş and Karaaslan, M (2021) Optimizing the gain and directivity of a microstrip antenna with metamaterial structures by using artificial neural network approach. Wireless Personal Communications 118, 109124.CrossRefGoogle Scholar
Gibbins, D, Klemm, M, Craddock, IJ, Leendertz, JA, Preece, A and Benjamin, R (2010) A comparison of a wide-slot and a stacked patch antenna for the purpose of breast cancer detection. IEEE Transactions on Antennas and Propagation 58, 665674.CrossRefGoogle Scholar
Khraisat, YSH, Hmood, KA and Al-mofleh, A (2012) Analysis of the radiation resistance and gain of full-wave dipole antenna for different feeding design. Journal of Electromagnetic Analysis and Applications 4, 235242.Google Scholar
Tiwari, RN, Singh, P and Kanaujia, BK (2019) A modified microstrip line fed compact UWB antenna for WiMAX/ISM/WLAN and wireless communications. AEU – International Journal of Electronics and Communications 104, 5865.CrossRefGoogle Scholar
Koohestani, M, Moreira, AA and Skrivervik, AK (2014) Fidelity concepts used in UWB systems. IEEE Antennas Propag. Soc. AP-S Int. Symp., pp. 824825. doi: 10.1109/APS.2014.6904740CrossRefGoogle Scholar
Tarikul Islam, M, Samsuzzaman, M, Faruque, MRI, Singh, MJ and Islam, MT (2019) Microwave imaging based breast tumor detection using compact wide slotted UWB patch antenna. Optoelectronics and Advanced Materials – Rapid Communications 13, 448457.Google Scholar
Islam, MS, Kibria, S and Islam, MT (2018) Experimental breast phantoms for estimation of breast tumor using microwave imaging systems. IEEE Access 6, 7858778597.CrossRefGoogle Scholar
Saeidi, T, Ismail, I, Alhawari, ARH and Wen, WP (2019) Near-field and far-field investigation of miniaturized UWB antenna for imaging of near-field and far-field investigation of miniaturized UWB antenna for imaging of wood. AIP Advances 9, 035232.CrossRefGoogle Scholar
Adnan, S, Abd-Alhameed, RA, Hraga, HI, Elfergani, ITE, Noras, JM and Halliwell, R (2011) Microstrip antenna for microwave imaging application. Prog. Electromagn. Res. Symp., no. January 2015, pp. 431434.Google Scholar
Kibria, S, Islam, T, Mahmud, Z, Misran, N and Islam, MT (2019) Breast phantom imaging using iteratively corrected coherence factor delay and Sum. IEEE Access 7, 4082240832.CrossRefGoogle Scholar
Kumar, V and Gupta, B (2016) On-body measurements of SS-UWB patch antenna for WBAN applications. AEUE – International Journal of Electronics and Communications 70, 668675.CrossRefGoogle Scholar