Using Infrared and Touch Sensors on the OCTARM VI Robot
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Using Infrared and Touch Sensors on the OCTARM VI Robot Robert Clarke Senior of Electrical Engineering and Physics Clemson University
description
Using Infrared and Touch Sensors on the OCTARM VI Robot. Robert Clarke Senior of Electrical Engineering and Physics Clemson University. Introduction. The OCTARM VI project, sponsored by DARPA, falls under the branch of robotics called Biodynotics. The OCTARM VI Robot is a continuum robot. - PowerPoint PPT Presentation
Transcript of Using Infrared and Touch Sensors on the OCTARM VI Robot
Using Infrared and Touch Sensors on the OCTARM VI Robot
Robert ClarkeSenior of Electrical Engineering and
Physics
Clemson University
Introduction
The OCTARM VI project, sponsored by DARPA, falls under the branch of robotics called Biodynotics.
The OCTARM VI Robot is a continuum robot.
Numerous abilities and applications
Abilities of the OCTARM VI
The arm can Rotate Extend/Retract Curl
The arm is like an elephant trunk.
Applications
The OCTARM VI is being designed mainly for military use.
Some possible applications are Search and Rescue Explosive Ordnance/IED Removal Space
How the Sensors Work Touch Sensors detect when the arm has
bumped into something.
IR Sensors are Proximity Devices. They detect how far away the arm is from an obstacle (such as a wall). The voltage output of the sensor indicates proximity.
Each sensor is connected to a multiplexer, which cycles through all signals, sending them to the CPU.
Sensor Problems
Touch Sensors and IR Sensors work by themselves.
Large amount of noise is introduced in the IR Sensor output when the two types are combined.
Possible Solutions
Rewire Touch Sensors so that they go from an open to a closed state.
Redesign Touch Sensor circuit so that one signal represents numerous switches.
Solution #1
Rewiring the touch sensors so that they went from an open to a closed state had no effect on the noise in the sensors.
Solution #2
Current Circuit Diagram:
... ...
+
IRSensor
IRSensor
-
5 V
IR Signal 1IR Signal 6
Touch Signal 1Touch Signal 6
R1
R6
W1 W6
Solution #2
Redesigned Touch Sensors:
Signal
+
5 V
-
R1
W1
Old 1 switch to 1 signal style
Signal
+
5 V
-
R1
W2
W3
R2
R3
R4
W1
New 3 switches to 1 signal style
Problems with Solution #2
Theoretically, we have been unable to find a resistor combination for R1, R2, R3, and R4 that results in a voltage threshold detectable over noise.
Experimentally, we have been unable to test this new switch design due to failure of the arm’s mux board.
Where are We Going?
First thing: Resolve the compatibility issue between the IR and Touch Sensors
Next: Write software and run experiments with both sensors.
Finally: Publish Results
Any Questions?
