| Title | Computationally Efficient Time-Recursive IAA-Based Blood Velocity Estimation |
| Authors | Andreas Jakobsson, George Glentis, Erik Gudmundson |
| Full-text | Available as PDF |
| Alternative Location | http://dx.doi.org/10.1109/T..., Restricted Access |
| Publication | IEEE Transactions on Signal Processing |
| Year | 2012 |
| Volume | 60 |
| Issue | 7 |
| Pages | 3853 - 3858 |
| Document type | Article |
| Status | Published |
| Quality controlled | Yes |
| Language | eng |
| Publisher | IEEE |
| Abstract English | High-resolution spectral Doppler is an important and pow- erful non-invasive tool for estimation of velocities in blood vessels using medical ultrasound scanners. Such estimates are typically formed using an averaged periodogram technique, resulting in well-known limitations in the resulting spectral resolution. Recently, we have proposed tech- niques to instead form high-resolution data-adaptive estimates exploiting measurements along both depth and emission. The resulting estimates gives noticeably superior velocity estimates as compared to the standard technique, but suffers from a high computational complexity, making it interesting to formulate computationally efficient implementations of the estimators. In this work, by exploiting the rich structure of the iterative adaptive approach (IAA) based estimator, we examine how these estimates can be efficiently implemented in a time-recursive manner using both exact and approximate formulations of the method. The resulting algorithms are shown to reduce the necessary computational load with several orders of magnitude without noticeable loss of performance. |
| Keywords | Blood velocity estimation, medical ultrasound, irregular sampling, spectral estimation, iterative adaptive approach (IAA), fast algorithms., |
| ISBN/ISSN/Other | ISSN: 1941-0476 (online) |
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