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BIRDy/Benchmark/Robot_Data_Generation/Experiment_Data_Generation/SimulatedExperiment.m

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classdef SimulatedExperiment < handle
% Authors: Quentin Leboutet, Julien Roux, Alexandre Janot and Gordon Cheng
%
% This class is a data container for robot simulated experiment data. The experiment data
% acquired on a simulated robot can be stored in a SimulatedExperiment object provided that it is
% in the form of a set of points, regrouped in a structure with the following fields: [time, Q,
% Qp,Qpp, X, Xp, Qm, Qpm, Qppm, Xm, Xpm, Qd, Qpd, Qppd, Xd, Xpd, Tau_friction, Tau, Taum].
% The Experiment class provides dedicated interpolation routines that allows getting a
% data point at any epoch.
%
% The process is the following:
%
% Assuming that you already have the experiment data fields availabe in the
% workspace, you should first instantiate a Experiment object and fill it with the data:
%
% exp = SimulatedExperiment;
% exp.setExperimentData(experimentData);
%
% To get the experiment data at any epoch t, one then simply have to call:
%
% exp.getExperimentData(t);
properties
data = struct('time', [], 'Qd', [], 'Qpd', [], 'Qppd', [], 'Xd', [], 'Xpd', [], 'Q', [], 'Qp', [], 'Qpp', [], 'X', [], 'Xp', [], 'Qm', [], 'Qpm', [], 'Qppm', [], 'Xm', [], 'Xpm', [], 'Tau', [], 'Taum', [], 'Tau_friction', []);
% time [s]
% Q [rad]
% Qp [rad/s]
% Qpp [rad/s^2]
% X [m]
% Xp [m/s]
% Tau [N.m]
end
properties (Dependent = true)
t_i % First trajectory epoch [s].
t_f % Last trajectory epoch [s].
samplingFrequency % Sampling frequency of the trajectory data points [Hz].
nbDOF % Number of Degrees of Freedom of the robot.
end
methods
function this = setExperimentData(this, experimentData)
[a_q,b_q,c_q] = size(experimentData.Q);
if ~isequal(size(experimentData.Q), size(experimentData.Qp), size(experimentData.Qpp), size(experimentData.Tau), size(experimentData.Qd), size(experimentData.Qpd), size(experimentData.Qppd), size(experimentData.Qm), size(experimentData.Qpm), size(experimentData.Qppm), size(experimentData.Taum), size(experimentData.Tau_friction))
error('Experiment data container: incorrect data dimention!')
elseif a_q>b_q
this.data.time = experimentData.time;
this.data.Qd = permute(experimentData.Qd,[2,1,3]);
this.data.Qpd = permute(experimentData.Qpd,[2,1,3]);
this.data.Qppd = permute(experimentData.Qppd,[2,1,3]);
this.data.Xd = permute(experimentData.Xd,[2,1,3]);
this.data.Xpd = permute(experimentData.Xpd,[2,1,3]);
this.data.Q = permute(experimentData.Q,[2,1,3]);
this.data.Qp = permute(experimentData.Qp,[2,1,3]);
this.data.Qpp = permute(experimentData.Qpp,[2,1,3]);
this.data.X = permute(experimentData.X,[2,1,3]);
this.data.Xp = permute(experimentData.Xp,[2,1,3]);
this.data.Tau = permute(experimentData.Tau,[2,1,3]);
this.data.Qm = permute(experimentData.Qm,[2,1,3]);
this.data.Qpm = permute(experimentData.Qpm,[2,1,3]);
this.data.Qppm = permute(experimentData.Qppm,[2,1,3]);
this.data.Xm = permute(experimentData.Xm,[2,1,3]);
this.data.Xpm = permute(experimentData.Xpm,[2,1,3]);
this.data.Taum = permute(experimentData.Taum,[2,1,3]);
this.data.Tau_friction = permute(experimentData.Tau_friction,[2,1,3]);
else
this.data.time = experimentData.time;
this.data.Qd = experimentData.Qd;
this.data.Qpd = experimentData.Qpd;
this.data.Qppd = experimentData.Qppd;
this.data.Xd = experimentData.Xd;
this.data.Xpd = experimentData.Xpd;
this.data.Q = experimentData.Q;
this.data.Qp = experimentData.Qp;
this.data.Qpp = experimentData.Qpp;
this.data.X = experimentData.X;
this.data.Xp = experimentData.Xp;
this.data.Tau = experimentData.Tau;
this.data.Qm = experimentData.Qm;
this.data.Qpm = experimentData.Qpm;
this.data.Qppm = experimentData.Qppm;
this.data.Xm = experimentData.Xm;
this.data.Xpm = experimentData.Xpm;
this.data.Taum = experimentData.Taum;
this.data.Tau_friction = experimentData.Tau_friction;
end
end
function experimentDataStruct = getExperimentData(this, time, expNb, method, varargin)
if nargin == 3
for i = 1:size(this.data.Q,1)
Qd(i,:) = interp1(this.data.time,this.data.Qd(i,:,expNb),time);
Qpd(i,:) = interp1(this.data.time,this.data.Qpd(i,:,expNb),time);
Qppd(i,:) = interp1(this.data.time,this.data.Qppd(i,:,expNb),time);
Q(i,:) = interp1(this.data.time,this.data.Q(i,:,expNb),time);
Qp(i,:) = interp1(this.data.time,this.data.Qp(i,:,expNb),time);
Qpp(i,:) = interp1(this.data.time,this.data.Qpp(i,:,expNb),time);
Tau(i,:) = interp1(this.data.time,this.data.Tau(i,:,expNb),time);
Qm(i,:) = interp1(this.data.time,this.data.Qm(i,:,expNb),time);
Qpm(i,:) = interp1(this.data.time,this.data.Qpm(i,:,expNb),time);
Qppm(i,:) = interp1(this.data.time,this.data.Qppm(i,:,expNb),time);
Taum(i,:) = interp1(this.data.time,this.data.Taum(i,:,expNb),time);
Tau_friction(i,:) = interp1(this.data.time,this.data.Tau_friction(i,:,expNb),time);
end
for j = 1:size(this.data.X,1)
Xd(j,:) = interp1(this.data.time,this.data.Xd(j,:,expNb),time);
Xpd(j,:) = interp1(this.data.time,this.data.Xpd(j,:,expNb),time);
X(j,:) = interp1(this.data.time,this.data.X(j,:,expNb),time);
Xp(j,:) = interp1(this.data.time,this.data.Xp(j,:,expNb),time);
Xm(j,:) = interp1(this.data.time,this.data.Xm(j,:,expNb),time);
Xpm(j,:) = interp1(this.data.time,this.data.Xpm(j,:,expNb),time);
end
elseif nargin == 4
% interpolation method = 'linear', 'nearest', 'next', 'previous', 'pchip', 'cubic', 'v5cubic', 'makima', or 'spline'
for i = 1:size(this.data.Q,1)
Qd(i,:) = interp1(this.data.time,this.data.Qd(i,:,expNb),time,method);
Qpd(i,:) = interp1(this.data.time,this.data.Qpd(i,:,expNb),time,method);
Qppd(i,:) = interp1(this.data.time,this.data.Qppd(i,:,expNb),time,method);
Q(i,:) = interp1(this.data.time,this.data.Q(i,:,expNb),time,method);
Qp(i,:) = interp1(this.data.time,this.data.Qp(i,:,expNb),time,method);
Qpp(i,:) = interp1(this.data.time,this.data.Qpp(i,:,expNb),time,method);
Tau(i,:) = interp1(this.data.time,this.data.Tau(i,:,expNb),time,method);
Qm(i,:) = interp1(this.data.time,this.data.Qm(i,:,expNb),time,method);
Qpm(i,:) = interp1(this.data.time,this.data.Qpm(i,:,expNb),time,method);
Qppm(i,:) = interp1(this.data.time,this.data.Qppm(i,:,expNb),time,method);
Taum(i,:) = interp1(this.data.time,this.data.Taum(i,:,expNb),time,method);
Tau_friction(i,:) = interp1(this.data.time,this.data.Tau_friction(i,:,expNb),time,method);
end
for j = 1:size(this.data.X,1)
Xd(j,:) = interp1(this.data.time,this.data.Xd(j,:,expNb),time,method);
Xpd(j,:) = interp1(this.data.time,this.data.Xpd(j,:,expNb),time,method);
X(j,:) = interp1(this.data.time,this.data.X(j,:,expNb),time,method);
Xp(j,:) = interp1(this.data.time,this.data.Xp(j,:,expNb),time,method);
Xm(j,:) = interp1(this.data.time,this.data.Xm(j,:,expNb),time,method);
Xpm(j,:) = interp1(this.data.time,this.data.Xpm(j,:,expNb),time,method);
end
else
error('Experiment data container: incorrect number of arguments!');
end
experimentDataStruct.Qd = Qd;
experimentDataStruct.Qpd = Qpd;
experimentDataStruct.Qppd = Qppd;
experimentDataStruct.Xd = Xd;
experimentDataStruct.Xpd = Xpd;
experimentDataStruct.Q = Q;
experimentDataStruct.Qp = Qp;
experimentDataStruct.Qpp = Qpp;
experimentDataStruct.Tau = Tau;
experimentDataStruct.X = X;
experimentDataStruct.Xp = Xp;
experimentDataStruct.Qm = Qm;
experimentDataStruct.Qpm = Qpm;
experimentDataStruct.Qppm = Qppm;
experimentDataStruct.Taum = Taum;
experimentDataStruct.Tau_friction = Tau_friction;
experimentDataStruct.Xm = Xm;
experimentDataStruct.Xpm = Xpm;
end
function value = get.samplingFrequency(this) % in [Hz]
value = (this.data.time(end) - this.data.time(1))/numel(this.data.time);
end
function value = get.t_i(this) % in [s]
value = this.data.time(1);
end
function value = get.t_f(this) % in [s]
value = this.data.time(end);
end
end
end
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