ROBOMECH Journal (Apr 2024)

Development and flight-test verification of two-dimensional rotational low-airspeed sensor for small helicopters

  • Daigo Fujiwara,
  • Takumi Tonoike

DOI
https://doi.org/10.1186/s40648-024-00274-2
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 15

Abstract

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Abstract This paper describes the development and the verification of flight test results of a differential pressure-based, two-dimensional low-airspeed sensor designed for the navigation or disturbance detection in small helicopters. The compact and lightweight sensor is integrated with the main rotor of a small helicopter and comprises two probes at both arm ends, a differential pressure sensor, rotary encoder with one magnet and two sensors, microcomputer, a wireless data link, and battery. It measures the differential pressure between the total pressures captured by two total-pressure probes at each rotor angle, instead of using static pressure probes. Thus, the airspeed of the fuselage can be evaluated from the low speed. Flight tests were conducted employing a reference ultrasonic two-dimensional airspeed sensor for comparison. The results demonstrated that the magnitude error of the airspeed is less than 2 m/s for low-airspeed flights ( $$<\sim$$ < ∼ 23 m/s) when utilizing Pitot-type probes. The error in wind angle approximated 30 $$^\circ$$ ∘ , and the delay was less than or equal to that observed with a global navigation satellite system sensor.

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