Presentation is loading. Please wait.

Presentation is loading. Please wait.

Using Infrared and Touch Sensors on the OCTARM VI Robot Robert Clarke Senior of Electrical Engineering and Physics Clemson University.

Published byRosaline Cummings Modified over 9 years ago

Similar presentations

Presentation on theme: "Using Infrared and Touch Sensors on the OCTARM VI Robot Robert Clarke Senior of Electrical Engineering and Physics Clemson University."— Presentation transcript:

1 Using Infrared and Touch Sensors on the OCTARM VI Robot Robert Clarke Senior of Electrical Engineering and Physics Clemson University

2 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

3

4 Abilities of the OCTARM VI The arm can Rotate Extend/Retract Curl The arm is like an elephant trunk.

5 Applications The OCTARM VI is being designed mainly for military use. Some possible applications are Search and Rescue Explosive Ordnance/IED Removal Space

6 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.

7 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.

8 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.

9 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.

10 Solution #2 Current Circuit Diagram:

11 Solution #2 Redesigned Touch Sensors: Old 1 switch to 1 signal style New 3 switches to 1 signal style

12

13

14 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.

15 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

16 Any Questions?

Download ppt "Using Infrared and Touch Sensors on the OCTARM VI Robot Robert Clarke Senior of Electrical Engineering and Physics Clemson University."

Similar presentations

In this presentation you will:

In this presentation you will:
Microprocessor Motor Control Spring 2004. Introduction  Stamp projects Robots  Sensors  Motor control  Logic Rocketry  Reading acceleration (“g”

Microprocessor Motor Control Spring Introduction  Stamp projects Robots  Sensors  Motor control  Logic Rocketry  Reading acceleration (“g”
Sensors For Robotics Robotics Academy 2002. All Rights Reserved.

Sensors For Robotics Robotics Academy All Rights Reserved.
Team Gary Dan Farley Tyson Rogstad Erik Flum Rob Koch Gary Zigmann.

Team Gary Dan Farley Tyson Rogstad Erik Flum Rob Koch Gary Zigmann.
SENIOR DESIGN 10/16.

SENIOR DESIGN 10/16.
Team Gary Dan Farley Tyson Rogstad Erik Flum Rob Koch Gary Zigmann.

Team Gary Dan Farley Tyson Rogstad Erik Flum Rob Koch Gary Zigmann.
Robotics Lego NXT Mindstorms.

Robotics Lego NXT Mindstorms.
Energy Smart Room GROUP 9 PRESENTERS DEMO DATE SPECIAL THANKS TO ADVISOR PRESENTERS Thursday April 19, 2007 Department of Electrical and Systems Engineering.

Energy Smart Room GROUP 9 PRESENTERS DEMO DATE SPECIAL THANKS TO ADVISOR PRESENTERS Thursday April 19, 2007 Department of Electrical and Systems Engineering.
Indian Institute of Technology Hyderabad OBSTACLE AVOIDER USING SENSOR TECHNOLOGY Kiran kumar Dileep raju Bojja Haranath.

Indian Institute of Technology Hyderabad OBSTACLE AVOIDER USING SENSOR TECHNOLOGY Kiran kumar Dileep raju Bojja Haranath.
 Proximity switches open or close an electrical circuit when they make contact with or come within a certain distance of an object. electrical circuit.

 Proximity switches open or close an electrical circuit when they make contact with or come within a certain distance of an object. electrical circuit.
PIR MOTION SENSOR By Talal BUTT Checked by Uzair Aakhoon.

PIR MOTION SENSOR By Talal BUTT Checked by Uzair Aakhoon.
Viking Pump Flow Manager - Phase 2 Senior Design May 06-12.

Viking Pump Flow Manager - Phase 2 Senior Design May
Microcontroller Robot Design Spring 2003 Advisor : Prof. Hayler Engineering Team: Mark Vo Jing Hua Zhong Abbas Ziadi.

Microcontroller Robot Design Spring 2003 Advisor : Prof. Hayler Engineering Team: Mark Vo Jing Hua Zhong Abbas Ziadi.
Robot Sensors: Robots come in many designs, and perform many functions. One way of helping control these robots is through sensors. ©Emil Decker, 2009.

Robot Sensors: Robots come in many designs, and perform many functions. One way of helping control these robots is through sensors. ©Emil Decker, 2009.
Programming Concepts Part B Ping Hsu. Functions A function is a way to organize the program so that: – frequently used sets of instructions or – a set.

Programming Concepts Part B Ping Hsu. Functions A function is a way to organize the program so that: – frequently used sets of instructions or – a set.
Autonomous Tracking Robot Andy Duong Chris Gurley Nate Klein Wink Barnes Georgia Institute of Technology School of Electrical and Computer Engineering.

Autonomous Tracking Robot Andy Duong Chris Gurley Nate Klein Wink Barnes Georgia Institute of Technology School of Electrical and Computer Engineering.
Team Spot On! With Zebulon Clark Desiree And Earl.

Team Spot On! With Zebulon Clark Desiree And Earl.
WALL FOLLOWING ROBOT USING I-BOT mini V3

WALL FOLLOWING ROBOT USING I-BOT mini V3
VEX Robotics Design System Sensors A Brief Overview

VEX Robotics Design System Sensors A Brief Overview
Robot sensors MVRT 2010 – 2011 season. Analog versus Digital Analog Goes from 0 to 254 Numerous values Similar to making waves because there are not sudden.

Robot sensors MVRT 2010 – 2011 season. Analog versus Digital Analog Goes from 0 to 254 Numerous values Similar to making waves because there are not sudden.

Similar presentations

Ads by Google