IPE 06-18 Bachelor, HIWI or internship: Development of a fast breast depth detection mode for 3D USCT II

Karlsruhe Institute of Technology (KIT) - KIT - Helmholtz Association

Karlsruhe, Germany

Work group:

Institute for Data Processing and Electronics (IPE)

Area of research:

Work placement

Job description:

For an innovative imaging method, called 3DUSCTII, we acquire ultrasound pressure signals over time to reconstruct a reflectivity volume of the female breast for early breast cancer diagnosis. The demonstrator consists of hundreds of ultrasound transducers which can act as receiver or emitter and are positioned around a measurement container (see Fig.1).


In the USCT signal acquiring step good positioning of the breast is crucial for the imaging quality. The breast should be positioned centrally and as deep as possible inside the aperture’s imaging sweet-spot. Currently a B-Scan like imaging modality is provided to the USCT operator (see Fig.2). This allows patient feedback with movement instructions for improved positioning. While this B-scan like mode fulfils the requirements on robustness and imaging speed, the images are hard to read and require an experienced operator.


The goal of this work is the implementation of an Z-mode (depth detection) alternative mode based on the USCT main modality, reflectivity imaging (see Fig.3) but with a significantly reduced data set or the existing B-Scan like mode. While reduced image quality for positioning of the breast is acceptable, a high temporal resolution of the images is required (>1 FPS), requiring a different communication architecture in contrast to the usual USCT measurement approach. Solution approaches could be a compressed or reduced data format implemented directly before the data transfer bottleneck (inside Apache C-module) or even on step deeper in the FPGA where the DAQ takes place.


Introduction to USCT hardware und softwareDesign and simulation of the solution approaches in MATLABImplementing the approachEvaluation with already existing patient data sets and experimental positioning evaluation with a breast-phantomWriting of the report and documentationScientific working style: State-of-the-Art, simulation and test design, experimentation and evaluationKnowledge: programming required (specifically MATLAB and C), communication architectures, signal processing, eventually VHDL)

Contract Duration

3 to 6 months

Contact person

Michael Zapf       michael.zapf@kit.edu, Tel. +49 0721 608 25677



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Quote Reference: Helmholtz-1702