Difference between revisions of "WiiMouse"

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===Wireless Communication===
===Wireless Communication===


Initially, we sought out to use a bluetooth transmitter to interface with the computer. We discovered that bluetooth modules can be extremely expensive, compounded by the fact that we were not buying them by the thousands. The less expensive modules are extremely difficult to solder, as they are surface mount. The module we purchase had grooves on the side that fit wires nicely, however would not stick when soldered. This was part #497-5791-ND on the Digikey website. Thus, our experience with bluetooth was shortlived, and was limited to hardware only.
Initially, we sought out to use a bluetooth transmitter to interface with the computer. We discovered that bluetooth modules can be extremely expensive, compounded by the fact that we were not buying them by the thousands. The less expensive modules are extremely difficult to solder, as they are surface mount. The module we purchase had grooves on the side that fit wires nicely, however would not stick when soldered. This was part [http://search.digikey.com/scripts/DkSearch/dksus.dll?Detail?name=497-5791-ND #497-5791-ND] on the Digikey website. Thus, our experience with bluetooth was shortlived, and was limited to hardware only.


Xbee ended up being a very straightforward way of transmitting data by using the printf function discussed in this wiki page. Coupled with the the ttl232r USB to Serial cable, this provided an elegant way of displaying information from a COM port in windows.
Xbee ended up being a very straightforward way of transmitting data by using the printf function discussed in this wiki page. Coupled with the the ttl232r USB to Serial cable, this provided an elegant way of displaying information from a COM port in windows.

Revision as of 18:10, 17 March 2008

The WiiMouse

Introduction

Components

Circuit Diagram

Wiimouse.jpg

PIC Code

MATLAB Code

The initialization code opens up a graphical user interface with a single button, allowing the user to turn on and off mouse control. The figure that is called can be found here.

function varargout = wiimouse(varargin)
gui_Singleton = 1;
gui_State = struct('gui_Name',       mfilename, ...
    'gui_Singleton',  gui_Singleton, ...
    'gui_OpeningFcn', @wiimouse_OpeningFcn, ...
    'gui_OutputFcn',  @wiimouse_OutputFcn, ...
    'gui_LayoutFcn',  [] , ...
    'gui_Callback',   []);
if nargin && ischar(varargin{1})
    gui_State.gui_Callback = str2func(varargin{1});
end

if nargout
    [varargout{1:nargout}] = gui_mainfcn(gui_State, varargin{:});
else
    gui_mainfcn(gui_State, varargin{:});
end
% End initialization code - DO NOT EDIT


% --- Executes just before wiimouse is made visible.
function wiimouse_OpeningFcn(hObject, eventdata, handles, varargin)
handles.output = hObject;
guidata(hObject, handles);
delete(instrfind)



% --- Outputs from this function are returned to the command line.
function varargout = wiimouse_OutputFcn(hObject, eventdata, handles)
varargout{1} = handles.output;


% --- Executes on button press in pushbutton1.
function pushbutton1_Callback(hObject, eventdata, handles)		    %When button is clicked, do the following:
delete(instrfind)
if get(hObject, 'Value')						    %If button was toggled on:
    import java.awt.*;							    %Java bot that simulates mouse clicks
    import java.awt.event.*;						    %Java bot that simulates mouse clicks
    rob=Robot;		  						    %Assign Java bot functions to variable Rob
    s = serial('COM7','BAUD',9600);					    %Pick serial port sets
    fopen(s)		   						    %Open Serial port
    set(hObject, 'String', 'Stop Mouse control')			    %Change text in button to "Stop Mouse Control"
    hold_but = [0 0];                                                       %Initialize with no buttons being held down
    screen_res = get(0, 'ScreenSize');                                      %Get screen resolution
    origin = [51 35];                                                       %Pick mouse origin (when accx and accy produce min position)
    buffx = [];                                                             %Initialize position buffer in x direction
    buffy = [];                                                             %Initialize position buffer in y direction
end

%~~~Main Loop of Program~~~
while 1									    %Keep running indefinitely
    if ~get(handles.pushbutton1, 'Value');				    %If the button is toggled to off:
        set(hObject, 'String', 'Start Mouse control')			    %Change button text bacl to "Start Mouse Control"
        s = serial('COM7','BAUD',9600);                                     %Get serial port settings
        fclose(instrfind);						    %Close the serial port
        delete(instrfind);						    %Delete the serial port
        break;								    %End While loop
    end

    %~~~Get Serial Data~~~
    serial_data = fscanf(s);						    %Import serial data in the format 'Xdata Ydata LeftClick RightClick MouseMove'
    serial_data = str2num(serial_data);					    %Turn the serial data into numbers, a 5 x 1 matrix
    if length(serial_data) ~=5                                              %If bad data comes in.
        serial_data = fscanf(s);                                            %Rescan
        serial_data = str2num(serial_data);                                 %Turn into number array
    end
    pause(0.02)                                                             %Pause to allow time to loop through

    %~~~Move Mouse~~~
    if length(serial_data)~=5                                               %If good data is still didn't come through
        serial_data(5) = 0;                                                 %Make all missing values zero
    end

    if ~serial_data(5)                                                      %If the side toggle button is not pressed
        if length(buffx) <10                                                %If the buffer has not been filled yet
            buffx = [buffx serial_data(1)];                                 %Add the new serial x value to the buffer
            buffy = [buffy serial_data(2)];                                 %Add the new serial y value to the buffer
        else                                                                %If the buffer has been filled
            buffx = [buffx(2:10) serial_data(1)];                           %Delete the first point, add a new point to the end
            buffy = [buffy(2:10) serial_data(2)];                           %Delete the first point, add a new point to the end
        end
        accx = mean(buffx);                                                 %Get the average of all buffered values
        accy = mean(buffy);                                                 %Get the average of all buffered values
        lastpt = get(0, 'PointerLocation');                                 %Get te previous cursor position
        posx = 5*(accx) + origin(1);                                        %Scaling factor for x, and translation
        posy = 5*(accy) + origin(2);                                        %Scaling factor for y, and translation
        diffx = posx - lastpt(1);                                           %Get difference between last point and new point in x
        diffy = posy - lastpt(2);                                           %Get difference between last point and new point in y

        nx=0;                                                               %Reset x movement step size
        ny=0;                                                               %Reset y movement step size

        if abs(diffx)> 15                                                   %If the change in x position is large enough
            if lastpt(1) > posx                                             %If the movement is negative
                nx = -1;                                                    %Make the x step size -1
            else
                nx = 1;                                                     %If movement is positive, make x step size + 1
            end
        end

        if abs(diffy)> 15                                                   %If the change in y position is large enough
            if lastpt(2) > posy                                             %If the movement is negative
                ny = -1;                                                    %Make the y step size -1
            else
                ny = 1;                                                     %If movement is positive, make y step size + 1
            end
        end


        for i= lastpt(2):ny:posy
            set(0, 'PointerLocation', [lastpt(1) i])                        %This interpolates and moves cursor between actual acquired data
        end

        for i= lastpt(1):nx:posx
            set(0, 'PointerLocation', [i posy])                             %This interpolates and moves cursor between actual acquired data
        end
    else                                                                    %If the red side button is pressed
        accx = serial_data(1);                                              %Still save acceleration data in x
        accy = serial_data(2);                                              %Still save acceleration data in y
        origin(1) = posx - 5*accx;                                          %Set the new origin based on new position, and current acceleration value
        origin(2) = posy - 5*accy;                                          %Set new origin in y direction
        buffx = [];                                                         %Reset the buffer
        buffy = [];                                                         %Reset the buffer
    end

    %~~~Handle Left and Right Mouse Clicks~~~
    if serial_data(3) && ~hold_but(1)					    %If a left click is detected, and the left button is not already down
        rob.mousePress(InputEvent.BUTTON1_MASK);  			    %Using Java bot, left click down
        hold_but(1) = 1;                                                    %Remember that the left click is down
    elseif ~serial_data(3) && hold_but(1)                                   %If the left click is not detected, and the left button was previously down
        rob.mouseRelease(InputEvent.BUTTON1_MASK); 			    %Using Java bot, left click up
        hold_but(1) = 0;                                                    %Remember that the left click is up
    elseif serial_data(4) && ~hold_but(2)                                   %If the right click is detected, and it is not already down
        rob.mousePress(InputEvent.BUTTON3_MASK);		  	    %Using Java bot, right click down
        hold_but(2) = 1;                                                    %Remember that the right click is down
    elseif serial_data(4) && hold_but(2)                                    %If the right click is no longer detected, and the button was previously down
        rob.mouseRelease(InputEvent.BUTTON3_MASK);			    %Using Java bot, right click up
        hold_but(3) = 0;                                                    %Remember that the right click is up
    end
end

Challenges

Wireless Communication

Initially, we sought out to use a bluetooth transmitter to interface with the computer. We discovered that bluetooth modules can be extremely expensive, compounded by the fact that we were not buying them by the thousands. The less expensive modules are extremely difficult to solder, as they are surface mount. The module we purchase had grooves on the side that fit wires nicely, however would not stick when soldered. This was part #497-5791-ND on the Digikey website. Thus, our experience with bluetooth was shortlived, and was limited to hardware only.

Xbee ended up being a very straightforward way of transmitting data by using the printf function discussed in this wiki page. Coupled with the the ttl232r USB to Serial cable, this provided an elegant way of displaying information from a COM port in windows.

Mouse Control in Windows

For the most robust mouse control, writing a driver is your best bet, however this can be very challenging. We found that there was not enough time, or resources to be able to write a device driver.

We also attempted to create an executible in Visual C++. In this case, we were able to achieve mouse control using the function SendInput to mimick mouse movement and clicks. Read about SendInput more in the msdn guide.

Serial Communication

Position from Accelerometers