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Design and Test of an Imaging System for UWB Breast Cancer Detection

  • Marko Helbig EMAIL logo , Katja Dahlke , Ingrid Hilger , Martin Kmec and Jürgen Sachs
Published/Copyright: December 12, 2012
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Frequenz
From the journal Frequenz Volume 66 Issue 11-12

Abstract

Electromagnetic ultra-wideband (UWB) sensing and imaging provide perspectives for early-stage breast cancer detection. This paper deals with practical challenges of real measurements. We present an experimental setup for breast phantom trials based on M-sequence radar technology and short active dipole antennas. It combines short impulse responses, appropriate fidelity and very small antenna dimension and allows array construction with sufficient number of antennas around the breast. The basic approach and obtained imaging results are presented. Furthermore, in this extended paper version continuative development steps are described and measurement results reflecting specific performance aspects are discussed.

Keywords: UWB; M-sequence radar technology; breast cancer detection; short dipoles; breast phantoms
Institute for Information Technology, Ilmenau University of Technology, 98684 Ilmenau, Germany
Received: 2012-07-31
Published Online: 2012-12-12
Published in Print: 2012-12-12

©[2012] by Walter de Gruyter Berlin Boston

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https://doi.org/10.1515/freq-2012-0103
Keywords for this article
UWB; M-sequence radar technology; breast cancer detection; short dipoles; breast phantoms

Articles in the same Issue

  1. Masthead
  2. Editorial
  3. Slew-Rate and Efficiency Trade-off in Slow Envelope Tracking Power Amplifiers
  4. A Four-Antenna 802.11a Receiver integrated in 0.25 µm SiGe BiCMOS with Spatial Weighting
  5. Investigation of GaN-HEMT Based Switches
for Hybrid Switching Amplifier Supply-Modulators
  6. Reconfigurable 4 × 4 Switch Matrix for Ka-Band Geo-Stationary Satellite Mission
  7. On-Orbit Verification of a 4 × 4 Switch Matrix for Space Applications based on the Low Temperature Co-fired Ceramics Technology
  8. A Novel Sequential Monte Carlo Method Based Synthetic Aperture Reconstruction Approach for Real-Time 3D Wireless Local Positioning
  9. Extraction of Micro-Doppler Signatures using Automotive Radar Sensors
  10. Non-Contacting Moisture Sensing using a Dedicated UWB Time Domain Instrument
  11. Design and Test of an Imaging System for UWB Breast Cancer Detection
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