International audienceIn this paper, the performance of a new design of a piezoelectric Inertial Measurement Unit system (EMU) is evaluated through FEM simulations. This paper compares performance of a new proposed design with a previously reported one. The proposed sensor relies on Coriolis Effect for angular velocity detection and on direct piezoelectric Effect for acceleration measurements. This work addresses the detection improvement of both angular velocity and acceleration motions through a new proposed design. Compared to the reported design, the new structure produces an increase of 37.5% in the output voltage for a z-axis acceleration of 10 g. Similarly, for an angular velocity of 180 deg/s, an output voltage of 1 V is obtained fr...
Inertial Measurement Units (IMUs) are becoming more and more popular in human motion tracking applic...
This work focuses on the proof-mass mechanical structural design improvement of a tri-axial piezores...
Inertial Measurement Units (IMUs) are electronic devices that return a craft\u2019s angular velociti...
International audienceIn this paper, the performance of a new design of a piezoelectric Inertial Mea...
This paper explores the fundamental steps towards the development of a 6-axis piezoelectric Inertial...
International audiencen this paper, a 6-axis piezoelectric Inertial Measurement Unit (IMU) is being ...
International audienceThis paper exhibits operating system and performances of a novel single-mass 6...
International audienceIn this paper, a preliminary analysis of a 6-axis micromachined Inertial Measu...
International audienceThis paper explores steps towards induced stress enhancement of a new improved...
A measurement system includes all components in a chain of hardware and software that leads from a m...
A measurement system includes all components in a chain of hardware and software that leads from a m...
In the field of acceleration sensors, 3-axis acceleration sensors that detect acceleration in 3-dime...
In the recent period, Inertial Measurement Units (IMUs) are widely employed in many applications, su...
Inertial Measurement Units (IMUs) are becoming more and more popular in human motion tracking applic...
This work focuses on the proof-mass mechanical structural design improvement of a tri-axial piezores...
Inertial Measurement Units (IMUs) are electronic devices that return a craft\u2019s angular velociti...
International audienceIn this paper, the performance of a new design of a piezoelectric Inertial Mea...
This paper explores the fundamental steps towards the development of a 6-axis piezoelectric Inertial...
International audiencen this paper, a 6-axis piezoelectric Inertial Measurement Unit (IMU) is being ...
International audienceThis paper exhibits operating system and performances of a novel single-mass 6...
International audienceIn this paper, a preliminary analysis of a 6-axis micromachined Inertial Measu...
International audienceThis paper explores steps towards induced stress enhancement of a new improved...
A measurement system includes all components in a chain of hardware and software that leads from a m...
A measurement system includes all components in a chain of hardware and software that leads from a m...
In the field of acceleration sensors, 3-axis acceleration sensors that detect acceleration in 3-dime...
In the recent period, Inertial Measurement Units (IMUs) are widely employed in many applications, su...
Inertial Measurement Units (IMUs) are becoming more and more popular in human motion tracking applic...
This work focuses on the proof-mass mechanical structural design improvement of a tri-axial piezores...
Inertial Measurement Units (IMUs) are electronic devices that return a craft\u2019s angular velociti...