ultrasonic sensor modelling for mobile robots...for mobile robots • name: fernando nascimento dias...
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Ultrasonic Sensor Modellingfor Mobile Robots
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• Name: Fernando Nascimento Dias Carneiro• Age: 22• Mechatronics Engineering BSc student –Federal University of Minas Gerais (Belo Horizonte, Brazil)
• Enrolled at Óbuda University for the 2013/2014 academic year
About me
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We can define mobile robot as an automaticmachine that is capable of movement in any givenenvironment.• Classification The environment in which they can travel The device they use to move
• NavigationManually teleoperated, line-following car,
autonomosouly randomized robot and autonomosoulyguided robot .
Mobile Roboting
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• First Semester define the system and the disposable devices mathematical models for general ultrasonic sensor mathematical model for the given ultrasonic sensor propose dislocation of the sensors around the Mobile Robot
• Second Semester developing an algorithm for determining the position of the
obstacle around the MR elaborate a scanning algorithm, for the given PIC P, which
will sequentially scanning the US sensors and collecting thedates from them.
The Task
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• Mobile Robot (MobiRobi)
Devices
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• PIC - Peripheral Interface Controller
Devices
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• Speed of sound
In general: c .
In dry air: 331.3 1 .
• Object Distance
Ultrasonic Sensor Modelling
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• Technical data:
• Operation modes
SFR05
Parameter Value UnitDimensions 43 x 20 x 17 mmOperating voltage 5 VccCurrent consumption 4 mAWorking frequency 40 KHzMaximum range 4000 mmMinimum range 10 mmMinimum trigger pulse's time 10 µsMinimum waiting time between to samples 20 ms
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• Calculating Distance
• Beam pattern
SFR05
• μ /58• Can be triggered in 50 mS intervals
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Acircle = π*r2 = 5.5418*105 cm2
Ablind = 221719.1619 cm2
%blind = (Ablind / Acircle)*100 = 40%Dhigher = 400 cm
Sensor Displacement
Acircle = π*r2 = 5.5418*105 cm2
Ablind = 7631.8816 cm2
%blind = (Ablind / Acircle)*100 = 1.38%Asuperposition = 101099.5284 cm2
%superposition = (Asuperposition / Acircle)*100 = 18.24%Dhigher = 85.79 cm
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648 ∗ tan α
Sensor Displacement
Ablind = 3522.0606 cm2
%blind = (Ablind / Acircle)*100 = 0.64%Asuperposition = 262956.0573 cm2
%superposition = (Asuperposition / Acircle)*100 = 47.45%Dhigher = 41.33 cm
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References
• 1.Rayleigh, J.W.S., The Theory of Sound, Vols. 1 and 2, Dover Publications, New York,1945.
• 2.Pain, H.J., The Physics of Vibrations and Waves, John Wiley & Sons, New York, 1968.
• 3.Kinsler, L.E., Frey, A.R., Coppens, A.B., and Sanders, J.V., Fundamentals of Acoustics, John Wiley & Sons, New York, 2000.
• 4.Beyer, R.T. and Letcher, S.V., Physical Ultrasonics, Academic Press, New York, 1969.
• 5.Schaaffs, W., Zur Bestimmung von Molekulradien organischer Flssigkeiten aus Schallgeschwindigkeit und Dichte, Z. Physik, 114, 110, 1939.