Daniel Flores-Tapia scite author profile

Daniel Flores-Tapia

4Publications

125Citation Statements Received

73Citation Statements Given

How they've been cited

110

124

How they cite others

Affiliations

CancerCare Manitoba, University of Manitoba

Publications

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Real time breast microwave radar image reconstruction using circular holography: A study of experimental feasibility

Flores-Tapia

Pistorius

2011

Med. Phys.

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The results show that circular holography is capable of forming accurate images with signal to noise levels higher than 8 dB in quasi real time. Compared to BMR reconstruction algorithms tested on datasets containing dense tissue structures, the holographic approach generated images of similar spatial accuracy with higher signal to noise ratios and an acceleration factor of one order of magnitude.

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A planar ultrawideband elliptical monopole antenna with reflector for breast microwave imaging

Latif

Flores-Tapia

Pistorius

et al. 2014

Microw. Opt. Technol. Lett.

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A printed elliptical monopole antenna operating at 1–4 GHz frequency for biomedical imaging applications is presented in this article. To reduce the reflection of the microwave signal from breast, glycerin is used as the coupling medium (εr = 9, σ = 0.4 S/m, tan δ = 0.28) whose electrical properties are close to those of breast tissue. Directional patterns and reduced back radiations are achieved using a reflector. The antenna has wide impedance bandwidth from 1 GHz to over 6 GHz (over 140%), suitable for radar‐based imaging. The antenna demonstrates S21 > −60 dB from 1 to 4 GHz in the coupling medium. © 2014 Wiley Periodicals, Inc. Microwave Opt Technol Lett 56:808–813, 2014

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A Wavefront Reconstruction Method for 3-D Cylindrical Subsurface Radar Imaging

Flores-Tapia

Gabriel

Pistorius

2008

IEEE Trans. on Image Process.

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In recent years, the use of radar technology has been proposed in a wide range of subsurface imaging applications. Traditionally, linear scan trajectories are used to acquire data in most subsurface radar applications. However, novel applications, such as breast microwave imaging and wood inspection, require the use of nonlinear scan trajectories in order to adjust to the geometry of the scanned area. This paper proposes a novel reconstruction algorithm for subsurface radar data acquired along cylindrical scan trajectories. The spectrum of the collected data is processed in order to locate the spatial origin of the target reflections and remove the spreading of the target reflections which results from the different signal travel times along the scan trajectory. The proposed algorithm was successfully tested using experimental data collected from phantoms that mimic high contrast subsurface radar scenarios, yielding promising results. Practical considerations such as spatial resolution and sampling constraints are discussed and illustrated as well.

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Initial classification of breast tumour phantoms using a UWB radar prototype

Conceição¹,

Medeiros

O’Halloran

et al. 2013

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