Publication result detail

From Biology to Bytes: Predicting the Path of Ultrasound Waves Through the Human Body

TREEBY, B.; JAROŠ, J.; MARTIN, E.; COX, B.

Original Title

From Biology to Bytes: Predicting the Path of Ultrasound Waves Through the Human Body

English Title

From Biology to Bytes: Predicting the Path of Ultrasound Waves Through the Human Body

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

Computer simulations in acoustics are ubiquitous, but what makes a good model, and how are models used in biomedical ultrasound?

English abstract

Computer simulations in acoustics are ubiquitous, but what makes a good model, and how are models used in biomedical ultrasound?

Keywords

Modelling, ultrasound, therapy, metrology, convergence, nonlinear, absorption, computer code, software engineering, validation, hydrophone

Key words in English

Modelling, ultrasound, therapy, metrology, convergence, nonlinear, absorption, computer code, software engineering, validation, hydrophone

Authors

TREEBY, B.; JAROŠ, J.; MARTIN, E.; COX, B.

RIV year

2020

Released

24.06.2019

ISBN

1557-0223

Periodical

Acoustics Today

Volume

15

Number

2

State

United States of America

Pages from

36

Pages to

44

Pages count

9

URL

https://acousticstoday.org/from-biology-to-bytes-predicting-the-path-of-ultrasound-waves-through-the-human-body-bradley-e-treeby/

BibTex

@article{BUT158070,
  author="TREEBY, B. and JAROŠ, J. and MARTIN, E. and COX, B.",
  title="From Biology to Bytes: Predicting the Path of Ultrasound Waves Through the Human Body",
  journal="Acoustics Today",
  year="2019",
  volume="15",
  number="2",
  pages="36--44",
  doi="10.1121/AT.2019.15.2.36",
  issn="1557-0223",
  url="https://acousticstoday.org/from-biology-to-bytes-predicting-the-path-of-ultrasound-waves-through-the-human-body-bradley-e-treeby/"
}

Documents

Acoustics Today