Difference between revisions of "LoadControl Custom Task"
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Parameter Kd,(Kp) | Parameter Kd,(Kp) | ||
Methods to choose these parameters are in the following sections | Methods to choose these parameters are in the following sections. | ||
=== Choosing Start Up Conditions === | === Choosing Start Up Conditions === | ||
To get starting, a load control tasks needs an initial velocity and an initial stiffness <math>A_t</math> (which is required to calculate control error). Furthermore, reaction and contact forces in dynamic calculations take a while to settle into reasonable values (such as when loading at constant velocity). A load control tasks thus normally needs a <tt>startupTime</tt>, which is time where the rigid particle move at the <tt>(initvelocity)</tt> without imposing any control. Once the start up time has pasted, the load control begins using an initial <math>A_t</math> that can be determined one of two methods: | |||
# Specified <math>A_t</math>: If you can calculate initial stiffness for the simulation, you can enter it in <tt>(initAt)</tt> parameter and then set <tt>(inittime)</tt> to minus the desired start up time. Once the time is passed, control will the provided <math>A_t</math>. | |||
# If you do want to calculate an initial <math>A_t</math>, specify a positive <tt>(inittime)</tt>. In initial <math>A_t</math> will be found be least squares slope for force vs. displacement up to <tt>(inittime)</tt>. | |||
=== Choosing Smoothing Parameters === | === Choosing Smoothing Parameters === |
Revision as of 09:24, 22 January 2023
A custom task run a load control simulation based on calculations contact or reaction forces. .
Introduction
This CustomTask tries to achieve the load requested from a provided user defined function by adjusting the velocity of a block of rigid material points. The control is done using a non-linear PID control algorithm.[1]
Specifying the Force
A LoadControl custom task is based on a block of RigidBC or RigidContact particles. These particle are typically placed on the edge of the specimen. The following steps are used to setup all simulations with load control. First pick a direction as 1, 2, or 3 for x, y, or z direction. Load control is limited to be along grid axes. Next create rigid particles to apply the load:
- Define a RigidBC to control velocity is the specified direction or define a RigidContact material type. Do not use any setting functions in the rigid material definition.
- Place a block of those material points using that defined rigid material on the edge to be loaded.
- Include displacement of the defined rigid material in the global archive using dispx, dispy, or dispz for the chosen direction.
- When using RigidBC particles, include reaction force for the defined rigid material in the global archive using reactionx, reactiony, or reactionz for the chosen direction.
- When using RigidContact particles, include contact force for the defined rigid material in the global archive using contactx, contacty, or contactz for the chosen direction.
- Choose global archiving time to provide stable load control
Start the custom task and define following force defining parameters
CustomTask LoadControl Parameter direction,(loaddir) Parameter material,(matnum) Parameter load,(loadfunction)
where
- (loaddir) is 1, 2, or 3 for x, y, or z direction loading.
- (matnum) is the defined rigid material by number
- (loadfunction is a user defined function that defines desired load (in force units) as a function of time (in alt time units)
Non-Linear PID Control
The control loop starts by estimating the error in current displacement using
[math]\displaystyle{ e = \frac{F - L(t)}{A_t} }[/math]
where [math]\displaystyle{ F }[/math] is the rigid material force in the global archive, [math]\displaystyle{ L(t) }[/math] is the desired load from the Load parameter function, and [math]\displaystyle{ A_t }[/math] is the tangent stiffness for rigid material force (in force units) per unit displacement (in displacement units). If [math]\displaystyle{ A-t }[/math] is constant, the control is a linear PID. But for many simulations, such as those with plasticity, damage, or non-linear elasticity, [math]\displaystyle{ A_t }[/math] will evolve during the simulation leading to non-linear PID. The PID algorithim changes the rigid material points velocity in the control direction to
[math]\displaystyle{ v = \frac{1}{t_g}\left(K_pe + \frac{K_i}{t_g}\int_0^t e\thinspace d\tau + K_dt_g\frac{de}{dt}\right) }[/math]
where [math]\displaystyle{ K_p }[/math], [math]\displaystyle{ K_i }[/math], and [math]\displaystyle{ K_d }[/math] are dimensionless gain factors for proportional (P), integral (I), and derivative (D) errors and [math]\displaystyle{ t_g }[/math] is the simulation's global archiving time.
Selecting PID Control Parameters
Load control depends on global archiving time [math]\displaystyle{ t_g }[/math], [math]\displaystyle{ A_t }[/math] (and how it evolves), [math]\displaystyle{ K_p }[/math], [math]\displaystyle{ K_i }[/math], and [math]\displaystyle{ K_d }[/math]. In addition, reaction and contact forces on rigid materials are typically noisy meaning that some of the control variables will require smoothing for stable control. All relevant parameters are set with the following commands:
Parameter velocity,(initvelocity) Parameter startupTime,(inittime) Parameter At,(initAt) Parameter smoothF,(smoothF) Parameter smoothA,(smoothA) Parameter smoothErr,(smoothErr) Parameter Kp,(Kp) Parameter Ki,(Kp) Parameter Kd,(Kp)
Methods to choose these parameters are in the following sections.
Choosing Start Up Conditions
To get starting, a load control tasks needs an initial velocity and an initial stiffness [math]\displaystyle{ A_t }[/math] (which is required to calculate control error). Furthermore, reaction and contact forces in dynamic calculations take a while to settle into reasonable values (such as when loading at constant velocity). A load control tasks thus normally needs a startupTime, which is time where the rigid particle move at the (initvelocity) without imposing any control. Once the start up time has pasted, the load control begins using an initial [math]\displaystyle{ A_t }[/math] that can be determined one of two methods:
- Specified [math]\displaystyle{ A_t }[/math]: If you can calculate initial stiffness for the simulation, you can enter it in (initAt) parameter and then set (inittime) to minus the desired start up time. Once the time is passed, control will the provided [math]\displaystyle{ A_t }[/math].
- If you do want to calculate an initial [math]\displaystyle{ A_t }[/math], specify a positive (inittime). In initial [math]\displaystyle{ A_t }[/math] will be found be least squares slope for force vs. displacement up to (inittime).
Choosing Smoothing Parameters
Choosing PID Gain Parameters
Task Scheduling
In scripted files, a LoadControl custom task is scheduled with the following block:
CustomTask LoadControl Parameter Load,(function) ... all remaining parameters with similar command
In XML files, these task options are scheduled using a <Schedule> element, which must be within the single <CustomTasks> block:
<Schedule name='LoadControl'> <Parameter name='Load'>(function)</Parameter> ... all remaining parameters with similar elements </Schedule>