Abstract:
The specification and test requirements for a linear, single-axis, nongyroscopic accelerometer for use in inertial navigation, guidance, and leveling systems are defined....Show MoreScope:The specification and test requirements for a linear, single-axis, nongyroscopic accelerometer for use in inertial navigation, guidance, and leveling systems are defined....Show More
Purpose:A standard specification format guide is provided, along with a compilation of recommended test procedures for the preparation of a linear, single-axis, nongyroscopic acc...Show More
Metadata
Abstract:
The specification and test requirements for a linear, single-axis, nongyroscopic accelerometer for use in inertial navigation, guidance, and leveling systems are defined. A standard specification guide and a compilation of recommended test procedures for such accelerometers are provided. Informative annexes are given on the various types of such accelerometers (force or pendulous torque rebalance with analog or digital output, vibrating beam, and micromechanical) and error effects, on filtering, noise, and transient analysis techniques, and on calibration and modeling techniques (multipoint tumble analysis, vibration and shock test analyses, and geophysical effects in inertial instrument testing).
Scope:
The specification and test requirements for a linear, single-axis, nongyroscopic accelerometer for use in inertial navigation, guidance, and leveling systems are defined. A standard specification format guide and a compilation of recommended test procedures for such accelerometers are provided. Informative annexes are given on the various types of such accelerometers (force or pendulous torque rebalance with analog or digital output, vibrating beam, and micromechanical) and error effects, on filtering, noise, and transient analysis techniques, and on calibration and modeling techniques (multipoint tumble analysis, vibration and shock test analyses, and geophysical effects in inertial instrument testing).
Purpose:
A standard specification format guide is provided, along with a compilation of recommended test procedures for the preparation of a linear, single-axis, nongyroscopic accelerometer specification. These test procedures are derived from those currently in use in the industry.
Date of Publication: 28 February 2019
Electronic ISBN:978-1-5044-5524-4
Persistent Link: https://ieeexplore.ieee.org/servlet/opac?punumber=8653542
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- IEEE Keywords
- Index Terms
- Testing Procedure ,
- Inertial Navigation ,
- Standard Conditions ,
- Scaling Factor ,
- Normal Operation ,
- Nonlinear Optical ,
- Least-squares Fitting ,
- Peak-to-peak ,
- Temperature Sensor ,
- Test Setup ,
- Testing Purposes ,
- Test Equipment ,
- Repeat Steps ,
- Mass Calibration ,
- Average Acceleration ,
- Acceleration Level ,
- Standard Test Conditions ,
- Mean Time To Failure ,
- Input Excitation ,
- Acceleration Range ,
- Accelerometer Output ,
- Input Acceleration ,
- Negative Acceleration ,
- Power Spectral Density ,
- Operating Temperature Range ,
- Positive Input ,
- Residual Standard Deviation ,
- Kalman Filter For Estimation ,
- Changes In Output ,
- Frequency Response
- Author Keywords
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Testing Procedure ,
- Inertial Navigation ,
- Standard Conditions ,
- Scaling Factor ,
- Normal Operation ,
- Nonlinear Optical ,
- Least-squares Fitting ,
- Peak-to-peak ,
- Temperature Sensor ,
- Test Setup ,
- Testing Purposes ,
- Test Equipment ,
- Repeat Steps ,
- Mass Calibration ,
- Average Acceleration ,
- Acceleration Level ,
- Standard Test Conditions ,
- Mean Time To Failure ,
- Input Excitation ,
- Acceleration Range ,
- Accelerometer Output ,
- Input Acceleration ,
- Negative Acceleration ,
- Power Spectral Density ,
- Operating Temperature Range ,
- Positive Input ,
- Residual Standard Deviation ,
- Kalman Filter For Estimation ,
- Changes In Output ,
- Frequency Response
- Author Keywords