C. K. Aanandan scite author profile

Abstract-Active microwave imaging is explored as an imaging modality for early detection of breast cancer. When exposed to microwaves, breast tumor exhibits electrical properties that are significantly different from that of healthy breast tissues. The two approaches of active microwave imaging -confocal microwave technique with measured reflected signals and microwave tomographic imaging with measured scattered signals are addressed here. Normal and malignant breast tissue samples of same person are subjected to study within 30 minutes of mastectomy. Corn syrup is used as coupling medium, as its dielectric parameters show good match with that of the normal breast tissue samples. As bandwidth of the transmitter is an important aspect in the time domain confocal microwave imaging approach, wideband bowtie antenna having 2:1 VSWR bandwidth of 46% is designed for the transmission and reception of microwave signals. Same antenna is used for microwave tomographic imaging too at the frequency of 3000 MHz. Experimentally obtained time domain results are substantiated by finite difference time domain (FDTD) analysis. 2-D tomographic images are reconstructed with the collected scattered data using distorted Born iterative method. Variations of dielectric permittivity in breast samples are distinguishable from the obtained permittivity profiles.

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Design of Compact Reconfigurable Dual Frequency Microstrip Antennas Using Varactor Diodes

Shynu¹,

Augustin²,

Aanandan³

et al. 2006

PIER

103

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Abstract-The design of a compact, single feed, dual frequency dual polarized and electronically reconfigurable microstrip antenna is presented in this paper. A square patch loaded with a hexagonal slot having extended slot arms constitutes the fundamental structure of the antenna. The tuning of the two resonant frequencies is realized by varying the effective electrical length of the slot arms by embedding varactor diodes across the slots. A high tuning range of 34.43% (1.037-1.394 GHz) and 9.27% (1.359-1.485 GHz) is achieved for the two operating frequencies respectively, when the bias voltage is varied from 0 to −30 V. The salient feature of this design is that it uses no matching networks even though the resonant frequencies are tuned in a wide range with good matching below −10 dB. The antenna has an added advantage of size reduction up to 80.11% and 65.69% for the two operating frequencies compared to conventional rectangular patches.

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Broad-band gap coupled microstrip antenna

Aanandan

Mohanan

Nair

1990

IEEE Trans. Antennas Propagat.

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An Electronically Reconfigurable Microstrip Antenna With Switchable Slots for Polarization Diversity

Nishamol

Sarin

Tony

et al. 2011

IEEE Trans. Antennas Propagat.

106

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Dielectric Studies of Corn Syrup for Applications in Microwave Breast Imaging

Bindu¹,

Lonappan²,

Thomas³

et al. 2006

PIER

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Abstract-Permittivity and conductivity studies of corn syrup in various concentrations are performed using coaxial cavity perturbation technique over a frequency range of 250 MHz-3000 MHz. The results are utilized to estimate relaxation time and dipole moments of the samples. The stability of the material over the variations of time is studied. The measured specific absorption rate of the material complies with the microwave power absorption rate of biological tissues. This suggests the feasibility of using corn syrup as a suitable, cost effective coupling medium for microwave breast imaging. The material can also be used as an efficient breast phantom in microwave breast imaging studies.

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C. K. Aanandan

Active Microwave Imaging for Breast Cancer Detection

Design of Compact Reconfigurable Dual Frequency Microstrip Antennas Using Varactor Diodes

Broad-band gap coupled microstrip antenna

An Electronically Reconfigurable Microstrip Antenna With Switchable Slots for Polarization Diversity

Dielectric Studies of Corn Syrup for Applications in Microwave Breast Imaging

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