Publication detail

ODIN-Optimising Design for Inspection

HADAŠ, Z.

Original Title

ODIN-Optimising Design for Inspection

English Title

ODIN-Optimising Design for Inspection

Language

en

Original Abstract

Continuous monitoring of critical aerospace structures by integrating ultrasonic wave based non-destructive evaluation (NDE), energy harvesting and wireless sensor technologies at the design conception phase. Optimization (of sensors and structures), computational modelling, advanced signal processing and advanced design approaches will be integrated to produce a novel framework, design tools and guidelines for the delivery of the first generation of self-sensing aircraft capable of delivering accurate structural prognosis.

English abstract

Continuous monitoring of critical aerospace structures by integrating ultrasonic wave based non-destructive evaluation (NDE), energy harvesting and wireless sensor technologies at the design conception phase. Optimization (of sensors and structures), computational modelling, advanced signal processing and advanced design approaches will be integrated to produce a novel framework, design tools and guidelines for the delivery of the first generation of self-sensing aircraft capable of delivering accurate structural prognosis.

Keywords

energy harvesting, vibration, sensing

Released

02.10.2019

Pages count

15

Documents

BibTex


@misc{BUT168224,
  author="Zdeněk {Hadaš}",
  title="ODIN-Optimising Design for Inspection",
  annote="Continuous monitoring of critical aerospace structures by integrating ultrasonic wave based non-destructive evaluation (NDE), energy harvesting and wireless sensor technologies at the design conception phase.

Optimization (of sensors and structures), computational modelling, advanced signal processing and advanced design approaches will be integrated to produce a novel framework, design tools and guidelines for the delivery of the first generation of self-sensing aircraft capable of delivering accurate structural prognosis.",
  chapter="168224",
  howpublished="online",
  year="2019",
  month="october"
}