J
Jørgen Arendt Jensen
Researcher at Technical University of Denmark
Publications - 672
Citations - 18704
Jørgen Arendt Jensen is an academic researcher from Technical University of Denmark. The author has contributed to research in topics: Imaging phantom & Vector flow. The author has an hindex of 54, co-authored 642 publications receiving 16537 citations. Previous affiliations of Jørgen Arendt Jensen include National Institute of Occupational Health & University of Oslo.
Papers
More filters
Journal ArticleDOI
Calculation of pressure fields from arbitrarily shaped, apodized, and excited ultrasound transducers
TL;DR: A method for simulation of pulsed pressure fields from arbitrarily shaped, apodized and excited ultrasound transducers is suggested, which relies on the Tupholme-Stepanishen method for calculating pulsing pressure fields and can also handle the continuous wave and pulse-echo case.
Journal ArticleDOI
Synthetic Aperture Ultrasound Imaging
TL;DR: The paper describes the use of synthetic aperture (SA) imaging in medical ultrasound, where data is acquired simultaneously from all directions over a number of emissions, and the full image can be reconstructed from this data.
Book
Estimation of Blood Velocities Using Ultrasound: A Signal Processing Approach
TL;DR: In this article, the authors used phase shift estimation and time shift estimation for color flow mapping in medical ultrasound systems, including pulsed wave systems and continuous wave systems, to estimate color flow.
Journal ArticleDOI
A new method for estimation of velocity vectors
Jørgen Arendt Jensen,Peter Munk +1 more
TL;DR: A new method for determining the velocity vector of a remotely sensed object using either sound or electromagnetic radiation based on the principle of using transverse spatial modulation for making the received signal influenced by transverse motion is described.
Journal ArticleDOI
Use of modulated excitation signals in medical ultrasound. Part I: basic concepts and expected benefits
TL;DR: This paper, the first from a series of three papers on the application of coded excitation signals in medical ultrasound, discusses the basic principles and ultrasound-related problems of pulse compression and the selection of coded waveforms suitable for ultrasound imaging.