Validation of a flexible optimal control approach for RF-pulse-design including relaxation effects and SAR

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Original languageEnglish
Title of host publicationUMIT - Lecture Notes in Biomedical Computer Science and Mechatronics
Publisher.
Pages23-24
ISBN (Print)978-3-9503191-3-2
Publication statusPublished - 2014
EventÖGBMT 2014 - Hall in Tirol, Austria
Duration: 19 Sep 201420 Sep 2014

Conference

ConferenceÖGBMT 2014
CountryAustria
CityHall in Tirol
Period19/09/1420/09/14

Fields of Expertise

  • Human- & Biotechnology

Cite this

Aigner, C. (2014). Validation of a flexible optimal control approach for RF-pulse-design including relaxation effects and SAR. In UMIT - Lecture Notes in Biomedical Computer Science and Mechatronics (pp. 23-24). ..

Validation of a flexible optimal control approach for RF-pulse-design including relaxation effects and SAR. / Aigner, Christoph.

UMIT - Lecture Notes in Biomedical Computer Science and Mechatronics. ., 2014. p. 23-24.

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Aigner, C 2014, Validation of a flexible optimal control approach for RF-pulse-design including relaxation effects and SAR. in UMIT - Lecture Notes in Biomedical Computer Science and Mechatronics. ., pp. 23-24, ÖGBMT 2014, Hall in Tirol, Austria, 19/09/14.
Aigner C. Validation of a flexible optimal control approach for RF-pulse-design including relaxation effects and SAR. In UMIT - Lecture Notes in Biomedical Computer Science and Mechatronics. . 2014. p. 23-24
Aigner, Christoph. / Validation of a flexible optimal control approach for RF-pulse-design including relaxation effects and SAR. UMIT - Lecture Notes in Biomedical Computer Science and Mechatronics. ., 2014. pp. 23-24
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