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Improve armar7 platform movement

Merged Improve armar7 platform movement
feature/improve-armar7-platform-movement into master
Merged Tobias Gröger requested to merge feature/improve-armar7-platform-movement into master
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source/RobotAPI/components/units/RobotUnit/NJointControllers/NJointHolonomicPlatformVelocityControllerWithRamp.cpp
+ 13
57
@@ -45,9 +45,6 @@ namespace armarx
velocitySensor = sensor->asA<SensorValueHolonomicPlatformVelocity>();
ARMARX_CHECK_EXPRESSION(velocitySensor)
<< "Sensor value for " << cfg->platformName << " has invalid type";
// ramp.setMaxPositionAcceleration(cfg->maxPositionAcceleration);
// ramp.setMaxOrientationAcceleration(cfg->maxOrientationAcceleration);
}
void
@@ -60,13 +57,7 @@ namespace armarx
// init velocity ramp
ramp.init(Eigen::Vector3f(velX, velY, velRot));
NJointHolonomicPlatformVelocityControllerControlData data;
data.velocityX = velX;
data.velocityY = velY;
data.velocityRotation = velRot;
data.commandTimestamp = IceUtil::Time::now();
setControlStruct(data);
// reinitTripleBuffer(data);
setVelocites(velX, velY, velRot);
}
void
@@ -92,20 +83,10 @@ namespace armarx
rtGetControlStruct().velocityY,
rtGetControlStruct().velocityRotation);
if (x.norm() < 100)
{
target->velocityX = 0;
target->velocityY = 0;
target->velocityRotation = 0;
}
else
{
Eigen::VectorXf result = ramp.update(x, timeSinceLastIteration.toSecondsDouble());
target->velocityX = result(0);
target->velocityY = result(1);
target->velocityRotation = result(2);
}
Eigen::VectorXf result = ramp.update(x, timeSinceLastIteration.toSecondsDouble());
target->velocityX = result(0);
target->velocityY = result(1);
target->velocityRotation = result(2);
}
}
@@ -122,19 +103,21 @@ namespace armarx
registrationNJointHolonomicPlatformVelocityControllerWithRamp(
"NJointHolonomicPlatformVelocityControllerWithRamp");
RtRamp::RtRamp(float maxPos, float maxRot) :
maxPositionAcceleration(maxPos), maxOrientationAcceleration(maxRot)
Cartesian2DimVelocityRamp ::Cartesian2DimVelocityRamp(float maxPositionAcceleration,
float maxOrientationAcceleration) :
maxPositionAcceleration(maxPositionAcceleration),
maxOrientationAcceleration(maxOrientationAcceleration)
{
}
void
RtRamp::init(const Eigen::Vector3f& state)
Cartesian2DimVelocityRamp::init(const Eigen::Vector3f& state)
{
this->state = state;
}
Eigen::Vector3f
RtRamp::update(const Eigen::Vector3f& target, float dt)
Cartesian2DimVelocityRamp::update(const Eigen::Vector3f& target, float dt)
{
if (dt <= 0)
{
@@ -150,45 +133,18 @@ namespace armarx
float oriFactor = std::abs(delta(2)) / maxOrientationAcceleration / dt;
factor = std::max(factor, oriFactor);
if (factor < 1)
{
throw LocalException("Error factor negative!");
}
Eigen::Vector3f oldState = state;
state += delta / factor;
if (target == Eigen::Vector3f::Zero() && state != Eigen::Vector3f::Zero())
{
// if (state.norm() >= oldState.norm())
// {
ARMARX_RT_LOGF_IMPORTANT("Target %.04f %.04f %.04f", target(0), target(1), target(2));
ARMARX_RT_LOGF_IMPORTANT(
"OStte %.04f %.04f %.04f", oldState(0), oldState(1), oldState(2));
ARMARX_RT_LOGF_IMPORTANT("State %.04f %.04f %.04f", state(0), state(1), state(2));
ARMARX_RT_LOGF_IMPORTANT("Delta %.04f %.04f %.04f", delta(0), delta(1), delta(2));
ARMARX_RT_LOGF_IMPORTANT("Factor %.04f", factor);
if (state.norm() > oldState.norm())
{
ARMARX_RT_LOGF_IMPORTANT("!!!!NORM INVALID!!!!");
}
// throw LocalException("haeee");
// }
}
return state;
}
void
RtRamp::setMaxPositionAcceleration(float maxPositionAcceleration)
Cartesian2DimVelocityRamp::setMaxPositionAcceleration(float maxPositionAcceleration)
{
this->maxPositionAcceleration = maxPositionAcceleration;
}
void
RtRamp::setMaxOrientationAcceleration(float maxOrientationAcceleration)
Cartesian2DimVelocityRamp::setMaxOrientationAcceleration(float maxOrientationAcceleration)
{
this->maxOrientationAcceleration = maxOrientationAcceleration;
}