Reprint
Selected papers from the 2019 IEEE International Workshop on Metrology for AeroSpace
Edited by
April 2021
446 pages
- ISBN978-3-0365-0058-4 (Hardback)
- ISBN978-3-0365-0059-1 (PDF)
This book is a reprint of the Special Issue Selected papers from the 2019 IEEE International Workshop on Metrology for AeroSpace that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Summary
This book is devoted to recent developments of instrumentation and measurement techniques applied to the aerospace field. It includes 23 selected papers from the 2019 IEEE International Workshop on Metrology for AeroSpace. Measurements are essential for obtaining a deeper knowledge of a phenomenon or an asset, as well as for making proper decisions and proposing new and efficient solutions, and this is especially true in environments as complex as aerospace. The research contributions included in the book can raise the interest of a wide group of researchers, operators and decision-makers from metrology and aerospace fields by presenting the most innovative solutions in this field from the scientific and technological points of view.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
precise point positioning; GNSS; time transfer; frequency transfer; Galileo; constrained PPP; integer PPP; DEMETRA; time service; SpaceFibre; SpaceWire; instrumentation; test equipment; EGSE; PXI; LabVIEW; FPGA; field programmable gate arrays; spacecraft; communications; serial communications; MicroMED instrument; ExoMars 2020 mission; CFD; Mars; air data system; flight dynamics; state observer; synthetic sensor; virtual sensor; analytical redundancy; avionics; neural network; radar; research radar; high-speed ballistic objects tracking; radar field tests; GPS applications; wireless local positioning; secondary radar; radar beacons; autonomous robot navigation; autonomous landing; space exploration; airfield performance; landing and takeoff distances; rolling resistance coefficient; GNSS/INS sensor; optical sensor; measurement; grassy airfield; electromagnetic fields (EMFs); dosimeter; high frequencies; aircraft operation; environment; airfield performance; landing gear; wheel; force and moment measurement; strain gage; wheel force sensor; wireless data transfer; grassy airfield; GARFIELD System; attitude determination; horizon sensor; ellipsoid; radar cross-sections; multipath; radar calibration; unmanned aerial vehicles; magnetometers; magnetic bias; magnetic heading; multi-UAV cooperation; vision-based relative sensing; GNSS-based relative sensing; Levenberg-Marquardt; ultrasonic NDE; autonomous inspection; ultrasonic phased array; NDT; composite materials; depth resolution; defect sizing; MicroMED; thermo-mechanical design; Dust Suite; ExoMars 2020; flight model; qualification testing; COTS; cubesat; radiation test; receiver; RF; satellite; active magnetic suspension; jet engine; wireless measurement system; UAV; structural monitoring; health-management; piezoelectricity; actuators; sensors; energy harvesters; modeling; testing; LiDAR technology; 2D LiDARs; 3D LiDARs; optical VHR data; WorldView-2; environmental monitoring; analysis and classification; building feature extraction; Object-Based Image Analysis (OBIA); miniature UAV; autopilot; on-board sensors; miniature propulsion; GNSS; autonomous railway traffic; uncertainty; accuracy; positioning error; 5G; quadcopter; flight controller; regulator tuning; control loop; UAV; remote sensing; UAV; helicopter; image acquisition; precise flight; UAV; load test; structural integrity; numerical simulation; panel method