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Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

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Page 1: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Using an Electromagnetic and Acoustic Sensing Device to

Determine Direction and Range Part of the Intelligent Ground

Vehicle ProjectMaria Pacana

Page 2: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Objective

• The implementation of an electromagnetic and acoustic sensing device that determines range and direction to enable one autonomous vehicle to follow another.

Page 3: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Sensing array:

• PIC-C microcontroller

• Radio transmitter

• Radio receiver

• Sonar transmitters and receivers

Page 4: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Sonar and Radio Transmitters

• Sonar and radio transmitted together

• Controlled by an LMC 555 CMOS

Timer at 1.66 Hz

• Rolling code radio transmitter, hard

to electronically ‘crack’.

Page 5: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

The Radio And Sonar Receivers

• The sonar receiver must transmit in order to receive.

• When the radio receiver gets a signal, it initializes the sonar and enables it to receive.

The Radio and Sonar Recievers

•The sonar receiver must transmit in order to receive

•When the radio receiver gets a signal, it initializes the sonar and enables it to receive.

Page 6: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

RADIO XMIT

ACOUSTIC XMIT

RADIO RCVR

BINAURAL SENSOR

TIMER

Diagram of Sensing Array

PIC -C

MCU

SPEED OF LIGHT

SPEED OF SOUND

. . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . .

Page 7: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

How It Works:

• The radio receiver gets the electromagnetic part of the signal at the speed of light.

• The sonar receiver gets the acoustic part of the signal at the speed of sound.

• The difference between the electromagnetic and acoustic signals indicates range.

• The difference between each ‘ear’ of the binaural receivers indicates direction.

Page 8: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

RADIO RCVR

LEFT ‘EAR’

RIGHT ‘EAR’

T = 0

Diagram of the Signals

TIMEtElapsed = 20 ms

Page 9: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Navigation

• To test this system, the receivers were mounted on an autonomous mobile robot and connected to a PIC-C microcontroller.

• The robot takes the difference in readings between each ear of the binaural sonar receivers in order to correct itself.

• The greater the difference, the more the robot ‘corrects.’

Page 10: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

START

RADIO ?

INIT COUNT

DELAY .5 ms

SET MAX = 1000

Y

N

700 <L < MAX700<R< MAX

ROBOT TURNS

300 < L < 700300 < R < 700

L = R

0 < L < 3000 < R < 300

GO FORWARD

N

STOP

N

GO FORWARD

Y

N

ROBOT CORRECTS

Page 11: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Advantages and Disadvantages

• Is not affected by sunlight

• Has more range, less resolution than IR

• The 400 V excitation pulse that switches the sonar on and off can cause electrical noise in other circuits

• ‘Echoes’ from the receiver

Page 12: Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana

Thanks to:

• Professor Roman Kuc

• Ed Jackson

• The Intelligent Ground Vehicle Team


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Maria Pacana