Abstract

An ideal observer model is developed for the task of detecting blood perfusing or flowing through tissue. The ideal observer theory relies on a linear systems model that describes tissue and blood object functions and electronic noise as random processes. When aliasing is minimal, the system is characterized by a quantity similar to Noise-Equivalent Quanta used in photon imaging modalities. A simple 1-D model is used to illustrate the effect of the system and object parameters on task performance. Velocity and decorrelation are seen to be advantageous for detection. Aliasing can degrade performance. The ideal observer model provides a framework for assessing the performance of Power Doppler ultrasound systems, and may aid in their design.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Informational masking in profile analysis: comparing ideal and human observers.
Virginia M Richards ... Tao Zeng
JARO - Journal of the Association for Research in Otolaryngology | VOL. 2
Virginia M Richards, et. al.Virginia M Richards ... Tao Zeng
01 Sep 2001
Author response: A Bayesian and efficient observer model explains concurrent attractive and repulsive history biases in visual perception
Matthias Fritsche ... Floris P De Lange
-
Matthias Fritsche, et. al.Matthias Fritsche ... Floris P De Lange
09 May 2020
A Bayesian and efficient observer model explains concurrent attractive and repulsive history biases in visual perception.
Matthias Fritsche ... Eelke Spaak
eLife | VOL. 9
Matthias Fritsche, et. al.Matthias Fritsche ... Eelke Spaak
01 Jun 2020
Review of several proposed three-class classification decision rules and their relation to the ideal observer decision rule
Darrin C Edwards ... Charles E Metz
-
Darrin C Edwards, et. al.Darrin C Edwards ... Charles E Metz
06 Apr 2005
View more papers

More From: Information processing in medical imaging : proceedings of the ... conference

Paper Title
Journal
Date
Author
Heterogeneous Graph Convolutional Neural Network via Hodge-Laplacian for Brain Functional Data.
Jinghan Huang ... Moo K Chung
Information processing in medical imaging : proceedings of the ... conference | VOL. 13939
Jinghan Huang, et. al.Jinghan Huang ... Moo K Chung
01 Jan 2023
Geometric Deep Learning for Unsupervised Registration of Diffusion Magnetic Resonance Images.
Jose J Bouza ... Chun-Hao Yang
Information processing in medical imaging : proceedings of the ... conference | VOL. 13939
Jose J Bouza, et. al.Jose J Bouza ... Chun-Hao Yang
01 Jan 2023
sEBM: Scaling Event Based Models to Predict Disease Progression via Implicit Biomarker Selection and Clustering.
Raghav Tandon ... Cassie S Mitchell
Information processing in medical imaging : proceedings of the ... conference | VOL. 13939
Raghav Tandon, et. al.Raghav Tandon ... Cassie S Mitchell
01 Jan 2023
OTRE: Where Optimal Transport Guided Unpaired Image-to-Image Translation Meets Regularization by Enhancing.
Wenhui Zhu ... Keshav Nandakumar
Information processing in medical imaging : proceedings of the ... conference | VOL. 13939
Wenhui Zhu, et. al.Wenhui Zhu ... Keshav Nandakumar
01 Jan 2023
View more papers