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An INS/GPS Navigation System with MEMS Inertial Sensors for Small Unmanned Aerial Vehicles 56367 Masaru Naruoka The University of Tokyo 1.Introduction.

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Presentation on theme: "An INS/GPS Navigation System with MEMS Inertial Sensors for Small Unmanned Aerial Vehicles 56367 Masaru Naruoka The University of Tokyo 1.Introduction."— Presentation transcript:

1 An INS/GPS Navigation System with MEMS Inertial Sensors for Small Unmanned Aerial Vehicles 56367 Masaru Naruoka The University of Tokyo 1.Introduction and Background 2.Method 3.Numerical Simulations and Results

2 Introduction and Background Needs for a new navigation system of small UAVs –Small UAV About 1 m wingspan Easy operation –Hope for Autonomy –The existing ones = expensive, big, heavy What’s new? = Low cost, small, light

3 Features –Low cost –Small –Light Unit 1.Inertial Navigation System (INS) with MEMS inertial sensors 2.Global Positioning System (GPS) Method(1) Navigation System for Small UAVs

4 Method (2) INS with MEMS inertial sensors MEMS inertial sensors Acceleration Angular ratio INS Position Velocity Attitude Low cost, small, light, but low accuracy. Integrate

5 Method (3) GPS and the Kalman Filter The Kalman Filter INS GPS Position Velocity Attitude Position Velocity Position Velocity Attitude High update ratio. But, high accuracy?

6 Numerical Simulations Sensor Model (1)Sensor Model (2) + + True Valu e White Noise + + True Valu e White Noise + Rando m Drift IdealMore real Not Assumed !

7 Results

8 Conclusion My new navigation system –Low cost, small, light, fit for small UAVs. –A certain level of precision. Short term operation … –good estimation. However, long term operation … –Failed and error accumulation. –Need to improve the algorithm.

9 Appendix (1) Numerical Simulation Condition Whole simulation time = 240 sec. Rotating Radius = 200 meter. Sensor Model –Accelerometer = ADXL202 (Analog Devices) –Gyro = ADXRS150 (Analog Devices) Update Ratio –INS = 50 Hz –GPS = 1 Hz

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