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Final Year Project Presentation

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Final Year Project Presentation The Design and Implementation of an Intelligent, Wireless Robot By Mark Heneghan Why a Robot?? Reasons as to why I choose to do my ... – PowerPoint PPT presentation

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Title: Final Year Project Presentation


1
Final Year Project Presentation
  • The Design and Implementation
  • of an
  • Intelligent, Wireless Robot
  • By
  • Mark Heneghan

2
Why a Robot??
  • Reasons as to why I choose to do my Final
  • Year Project in the field of robotics
  • Have been intrigued by robotics always.
  • Have a major interest in automotive electronics
    and a robotics project allowed me to gain some
    experience with current research areas.
  • A robotics project is useful to the Department,
    as it could be demonstrated to visitors and
    create an interest in the course, due to its
    exciting nature.

3
Project Aims
  • A project spec was drawn up by consulting with my
    appointed Project Supervisor, Mr. Fergal
    OMalley.
  • Here are the basic requirements set out for the
    project
  • Design and build a battery powered robot.
  • Microprocessor operated.
  • Wirelessly controlled via Wifi Internet
    Connection with webpage control interface.
  • To implement extra functionality using sensors
    i.e. Line Following and Obstacle Detection.
  • Mobile phone control.
  • Live Camera Feed.

4
Basic Spec Overview
5
Research
  • The Gumstix Connex 400 mother board was chosen as
    the brains behind the robot.
  • Reasons
  • 400 MHz Intel PXA255 core processor, allowing
    quick execution of programs.
  • Allows Wifi connectivity using the Wifistix
    expansion board.
  • Several GPIO for sensors accessed using Breakout
    GS expansion board.
  • Pre-installed web server which allows control of
    the robot via a webpage.
  • An embedded version of Linux is installed on the
    processor, allowing easy use once a good
    knowledge of the OS is gained.

6
Research
  • A simple robot kit, the TankBot, was decided on
    as the robot chassis. It contains 2 pre-modified
    servo motors, controlled using Pulse Width
    Modulation.
  • In order to program the robot, C was to be used
    initially. However C would have been very complex
    and time consuming. Therefore the higher level
    language Python, was chosen as the language to
    be used.
  • Python allows programming of the registers which
    control the GPIO, to be carried out easily. This
    is done by importing the pxaregs kernel module,
    which was pre-installed on the motherboard by the
    Department. A few simple commands is all that is
    required to manipulate the required registers
    only, cutting down on the amount of code to be
    written by approximately a factor of 10 in
    comparison to C.

7
Research
  • Power was initially to be supplied to the robot
    using 2 power supplies a 5V (later 6V) for the
    Gumstix system and a 6V for motors and other
    hardware.
  • However during testing I decided to add a 3rd
    supply, 6V, to supply the demand of all external
    circuitry
  • Networking with the robot was made easy by the
    Wifistix which is basically a network card and is
    configured to connect to any desired Wireless LAN
    using the embedded Linux OS.

8
Research
  • Line Following and Obstacle Detection were
    researched and sensors were chosen to implement
    these functions.
  • The Sharp GP2D12 Distance Detector was used for
    Obstacle Detection
  • Maplin photo-reflectors were used for Line
    Following.

9
Research
  • Also research was carried out for extra desired
    add-ons such as Mobile Phone control and Live
    Camera Streaming.
  • Mobile Phone control could be achieved using a
    WAP browser or a J2ME application
  • The most accessible way to gain live Camera feed
    from the robot was to use an IP camera, one of
    which is being used in a fellow students project
    and may also easily be incorporated into my
    project control webpage.

10
Final Design Overview
11
Design Implementation
  • Gaining experience with using Linux and Gumstix
    was a time consuming part of the project. Once
    basic knowledge of Linux was achieved using the
    Gumstix was not that difficult.
  • Initially a USB connection was used to access the
    Gumstix, using USBNet.
  • Through USB, Wifi settings were configured to
    connect to the NUIGALWAY wireless network.
  • However most programming and testing was carried
    out using a USB connection.

12
Design Implementation
  • When the Tankbot was constructed, some mechanical
    adjustments were required.
  • Motors were tested to find required voltage
    levels and PWM signals to control them.
  • Motors needed to be isolated from the Gumstix, in
    order to protect the hardware. Opto-couplers were
    used for this purpose.
  • The registers were programmed to configure the 2
    PWM outputs on the Gumstix, in order to implement
    basic control. GPIO16 and GPIO17 are the
    respective GPIO outputs for PWM0 and PWM1.

13
Design Implementation
Using Python, programs were written to allow full
control of the robot i.e. Forward, Reverse, Left,
Right and Stop.
14
Design Implementation
  • Setting up the web-server was relatively simple.
    A simple web page was designed and stored in the
    /var/www folder of the Gumstix, which is the home
    folder of the Boa web-server.
  • This site contains links, which execute programs
    to allow full control of the robot using a web
    browser.
  • CGI programming is used to execute a program from
    the web. To convert the existing python files to
    CGI, a basic content-type determination is
    placed in the code, which tells the browser how
    to handle any text printed in the program. When
    the program is executed, the browser outputs any
    text printed in the CGI files as HTML.

15
Design Implementation
16
Design Implementation
  • In implementing Obstacle Detection, an ADC was
    used in order to convert the output of the
    Distance Detector into a digital number, which
    may be read by the Gumstix.
  • The 3 most significant bits are read from the
    8-bit output ADC. This is to allow the desired
    sensitivity of the Sensor.
  • Using a python program the 3 outputs are
    constantly polled and ANDed together. If the
    output is high then an obstacle is within 10
    15 cm. The robot is programmed to reverse a
    certain distance and then turn right and continue
    with forward motion.

17
Design Implementation
18
Design Implementation
  • In implementing line following, a circuit was
    constructed consisting of 3 photo-reflectors.
    Each sensor has an output which is read by the
    Gumstix.
  • The 3 outputs are polled using a python program.
    A sensor outputs a high when over black and a
    low when over white.
  • The program interprets the GPIO and makes a
    decision as to the motion of the robot.

19
Design Implementation
20
Design Implementation
  • In creating CGI files to execute line following
    and obstacle detection, problems were encountered
    with python as regards internal memory
    allocation.
  • Shell programming was used to solve the problem.
  • Shell programming, executes Linux shell commands
    in the form of a program, and allow your Linux OS
    to carry out a set of instructions all at once.

21
Power Consumption
  • A major design issue with the robot is the power
    consumption of the Gumstix system.
  • It is powered by a 6V supply, which is obtained
    using a 7806 6V Regulator with 2 x PP3 (9V)
    batteries.
  • With all 3 boards connected the system consumes
    about 1.2W at 6V.
  • The batteries tend to drain very fast. This is
    also due to the power consumed by the Regulator
    itself.
  • Max use time of 2 PP3 Energizer Ultra batteries
    is approximately 2 hours, which proved costly
    when testing the robot.

22
Results
  • Currently the Project has produced a reliable
    robot which may be fully controlled using any web
    browser.
  • It may also operate in Obstacle Detect mode and
    Line Following mode, also executable from the
    web.
  • The robot may also be controlled using a WAP
    browser on a mobile phone. This may be only
    simulated using Openwave Phone Simulator, due to
    the IP address of the Wifistix not being
    available outside the NUIGALWAY network. This is
    Computer Services policy.
  • It is possible to stream live video, using a
    fellow classmates project, which incorporates
    live streaming from an IP camera based in the
    Lab.
  • Unfortunately control using a J2ME application
    was not achieved.

23
Results
24
Results
  • The Gumstix system, was a good choice in hardware
    for this project, although it is not without its
    faults.
  • One fault is that it does not securely connect
    together, and all boards are vulnerable to being
    separated easily and hence causing them to short
    and blow.
  • However it is a very powerful piece of hardware,
    which has ease of use once minimal experience is
    gained.

25
Conclusion
  • Overall the project was very beneficial to my
    Degree, as I gained experience in areas which are
    generally not part of the curriculum.
  • Also I hope that this project may enhance my
    chances of working in the field of automotive
    electronics, due having gained knowledge in some
    fields which are currently being used or
    researched.
  • I also think that this project may be a good
    sample project which can be demonstrated to
    visitors, which may increase interest in
    Electronic Engineering.

26
Thank You
  • Thanks to my supervisor, Mr. Fergal OMalley for
    his guidance throughout the project.
  • Thanks to Mr. Liam Kilmartin for assessing my
    progress in this project.
  • Also thanks to the Martin, Myles and Shaun and
    also to Frank Callaly for their assistance with
    any issues encountered during the project.

27
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