Difference between revisions of "EyeSeeCam SCI"

Revision as of 11:15, 1 May 2024

EyeSeeCam SCI

Description

The EyeSeeCam SCI is a combined eye tracker and head movement tracker.

Matlab programming

Matlab interface

The recorded data is read from an LSL stream.

% todo: LSL streaming parameters

The lsldata is a struct and has the following fields:

escdata
escmetadata
escstr
evdata0
evdata1
evdata2
evdata3
evdata4

The lsldata.escdata contains the eye and head data. The data contains a matrix for with a row for every parameter. The total of parameters is 63. The field lsldata.escmetadata.channel lists all the names of the parameters.

%Eye data

RightEyePosX = 46;
RightEyePosY = 47;
RightEyePosZ = 48;

xeye = lsldata.escdata.Data(46,:);       % right 46, left 32
yeye = lsldata.escdata.Data(47,:);       % right 47, left 33
zeye = lsldata.escdata.Data(48,:);       % right 48, left 34

% Head data
HeadInertialVelXCal = 27;
HeadInertialVelYCal = 29;
HeadInertialVelZCal = 31;

xh = lsldata.escdata.Data(27,:);       % calibrated torion velocity data HEAD
yh = lsldata.escdata.Data(29,:);       % calibrated vertical velocity data HEAD
zh = lsldata.escdata.Data(31,:);       % calibrated horizontal velocity data HEAD

Converting rotation speed

%make a coordinate object 
mycoordinates_XYZ = coordinates_XYZ(startingGaze);

% initialize R_total to 3D unit matrix
R_total = [1,0,0;0,1,0;0,0,1];

%loop through al timesteps
for i = (timeRange)

    % determine the angle changes between time t(i)-delta_t/2 to t(i)+delta_t/2
    delta_angleX = Vx(i)*delta_t;
    delta_angleY = Vy(i)*delta_t;
    delta_angleZ = Vz(i)*delta_t;

    %create a rotation matrices
    delta_Rx = Rx(delta_angleX);
    delta_Ry = Ry(delta_angleY);
    delta_Rz = Rz(delta_angleZ);

    %multiply rotation matrices (order is not important if angles are small enough) 
    delta_R = delta_Rx * delta_Ry * delta_Rz;

    % determine new R_total 
    % rotation in device coordinates, order: R_total * delta_R    
    R_total = R_total * delta_R;

    %rotate startingpoint with R_total
    newpoint = R_total * startingGaze;

    %add new position to list of coordinates
    mycoordinates_XYZ.add(newpoint);    
end

% transform XYZ to RAS coordinates with EyeSeeCam definition
mycoordinates_RAS = transform_XYZ2RAS(mycoordinates_XYZ, definition_XYZ2RAS_EyeSeeCam_Sci);
mycoordinates_DP  = transform_RAS2DP(mycoordinates_RAS);

Difference between revisions of "EyeSeeCam SCI"

Revision as of 11:15, 1 May 2024

Contents

Description

Matlab programming

Matlab interface

Converting rotation speed

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@@ Line 1: / Line 1: @@
 [[File:EyeSeeCam_SCI2.png|thumb|EyeSeeCam SCI]]
 ==Description==
+The EyeSeeCam SCI is a combined eye tracker and head movement tracker.
 ==Matlab programming==
 ===Matlab interface===
-%todo
+The recorded data is read from an LSL stream.
+<pre>
+% todo: LSL streaming parameters
+</pre>
+The lsldata is a struct and has the following fields:
+*escdata
+*escmetadata
+*escstr
+*evdata0
+*evdata1
+*evdata2
+*evdata3
+*evdata4
+The lsldata.escdata contains the eye and head data. The data contains a matrix for with a row for every parameter. The total of parameters is 63. The field lsldata.escmetadata.channel lists all the names of the parameters.
+<pre>
+%Eye data
+RightEyePosX = 46;
+RightEyePosY = 47;
+RightEyePosZ = 48;
+xeye = lsldata.escdata.Data(46,:);       % right 46, left 32
+yeye = lsldata.escdata.Data(47,:);       % right 47, left 33
+zeye = lsldata.escdata.Data(48,:);       % right 48, left 34
+% Head data
+HeadInertialVelXCal = 27;
+HeadInertialVelYCal = 29;
+HeadInertialVelZCal = 31;
+xh = lsldata.escdata.Data(27,:);       % calibrated torion velocity data HEAD
+yh = lsldata.escdata.Data(29,:);       % calibrated vertical velocity data HEAD
+zh = lsldata.escdata.Data(31,:);       % calibrated horizontal velocity data HEAD
+</pre>
 ===Converting rotation speed===