Sensors (Jul 2021)

Performance Enhancement of Consumer-Grade MEMS Sensors through Geometrical Redundancy

  • Giorgio de Alteriis,
  • Domenico Accardo,
  • Claudia Conte,
  • Rosario Schiano Lo Moriello

DOI
https://doi.org/10.3390/s21144851
Journal volume & issue
Vol. 21, no. 14
p. 4851

Abstract

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The paper deals with performance enhancement of low-cost, consumer-grade inertial sensors realized by means of Micro Electro-Mechanical Systems (MEMS) technology. Focusing their attention on the reduction of bias instability and random walk-driven drift of cost-effective MEMS accelerometers and gyroscopes, the authors hereinafter propose a suitable method, based on a redundant configuration and complemented with a proper measurement procedure, to improve the performance of low-cost, consumer-grade MEMS sensors. The performance of the method is assessed by means of an adequate prototype and compared with that assured by a commercial, expensive, tactical-grade MEMS inertial measurement unit, taken as reference. Obtained results highlight the promising reliability and efficacy of the method in estimating position, velocity, and attitude of vehicles; in particular, bias instability and random walk reduction greater than 25% is, in fact, experienced. Moreover, differences as low as 0.025 rad and 0.89 m are obtained when comparing position and attitude estimates provided by the prototype and those granted by the tactical-grade MEMS IMU.

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