Getting Started with OpenSees -- Loads and Analysis: Difference between revisions
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In OpenSees applying loads is a three-step process: | In OpenSees applying loads is a three-step process: | ||
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<h2>Load definition</h2> | <h2>Load definition</h2> | ||
Loads are defined using the OpenSees [[pattern | Loads are defined using the OpenSees [[pattern Command]]. Three types of patterns are currently available: | ||
:a. '''plain Pattern''' -- this pattern is used to define the following: | :a. '''plain Pattern''' -- this pattern is used to define the following: | ||
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<h2>Analysis definition and features | <h2>Analysis definition and features</h2> | ||
The analysis-definition part of OpenSees allows the user to define the different linear and nonlinear analysis tools available. For each analysis, the following items need to be defined, preferably in this order: | The analysis-definition part of OpenSees allows the user to define the different linear and nonlinear analysis tools available. For each analysis, the following items need to be defined, preferably in this order: | ||
;constraints : The OpenSees [[constraints | ;constraints : The OpenSees [[constraints Command]] is used to construct the ConstraintHandler object. Constraints enforce a relationship between degrees-of-freedom. The ConstraintHandler object determines how the constraint equations are enforced in the analysis. | ||
;numberer : The OpenSees [[numberer | ;numberer : The OpenSees [[numberer Command]] is used to construct the DOF_Numberer object. The DOF_Numberer object determines the mapping between equation numbers and degrees-of-freedom -- how degrees-of-freedom are numbered. | ||
;system : The OpenSees [[system | ;system : The OpenSees [[system Command]] is used to construct the LinearSOE and LinearSolver objects to store and solve the system of equations in the analysis. | ||
;test : The OpenSees [[test | ;test : The OpenSees [[test Command]] is used to construct a ConvergenceTest object. Certain SolutionAlgorithm objects require a ConvergenceTest object to determine if convergence has been achieved at the end of an iteration step. | ||
;algorithm : The OpenSees [[algorithm | ;algorithm : The OpenSees [[algorithm Command]] is used to construct a SolutionAlgorithm object, which determines the sequence of steps taken to solve the non-linear equation. | ||
;integrator : The OpenSees [[integrator | ;integrator : The OpenSees [[integrator Command]] is used to construct the Integrator object. The Integrator object determines the meaning of the terms in the system of equation object. The Integrator object is used for the following: | ||
::*determine the predictive step for time t+dt | ::*determine the predictive step for time t+dt | ||
::*specify the tangent matrix and residual vector at any iteration | ::*specify the tangent matrix and residual vector at any iteration | ||
::*determine the corrective step based on the displacement increment dU | ::*determine the corrective step based on the displacement increment dU | ||
analysis : The OpenSees [[analysis | ;analysis : The OpenSees [[analysis Command]] is used to construct the Analysis object. This analysis object is constructed with the component objects previously created by the analyst. All currently-available analysis objects employ incremental solution strategies. There are three types of analysis currently available: | ||
::*Static - for static analysis | ::*Static - for static analysis | ||
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<h2>Analysis execution</h2> | <h2>Analysis execution</h2> | ||
The analysis is executed using the OpenSees [[analyze | The analysis is executed using the OpenSees [[analyze Command]]. This command moves the analysis forward by the specified number of steps. | ||
Latest revision as of 22:15, 12 March 2010
- GettingStarted Manual
- Introduction
- Download OpenSees
- Run OpenSees
- Problem Definition
- Model Builder
- Nodes
- Elements
- Recorders
- Summary of Model-Building Input File
- Loads and Analysis
- Gravity Loads
- Summary of Gravity Loads
- Lateral Loads -- Static Pushover
- Lateral Loads -- Cyclic Lateral Load
- Lateral Loads -- Dynamic ground motion
In OpenSees applying loads is a three-step process:
1. You must first define the loads in a load pattern 2. You must then define the analysis and its features 3. The loads are then applied when you execute the analysis
Load definition
Loads are defined using the OpenSees pattern Command. Three types of patterns are currently available:
- a. plain Pattern -- this pattern is used to define the following:
- i. nodal loads, such as gravity loads and lateral loads (or load-controlled nodal displacements)
- ii. single-point constraints, such as displacement control at a node (typically used for a constant displacement at a node)
- iii. element loads, such as distributed gravity loads along the element (this is a new option, which still needs documentation).
- b. UniformExcitation Pattern -- this type of pattern imposes a user-defined acceleration record to all fixed nodes, in a specified direction.
- c. MultipleSupport Pattern -- this type of pattern imposes a user-defined displacement record at specified nodes, in a specified direction, or a ground-motion record.
Analysis definition and features
The analysis-definition part of OpenSees allows the user to define the different linear and nonlinear analysis tools available. For each analysis, the following items need to be defined, preferably in this order:
- constraints
- The OpenSees constraints Command is used to construct the ConstraintHandler object. Constraints enforce a relationship between degrees-of-freedom. The ConstraintHandler object determines how the constraint equations are enforced in the analysis.
- numberer
- The OpenSees numberer Command is used to construct the DOF_Numberer object. The DOF_Numberer object determines the mapping between equation numbers and degrees-of-freedom -- how degrees-of-freedom are numbered.
- system
- The OpenSees system Command is used to construct the LinearSOE and LinearSolver objects to store and solve the system of equations in the analysis.
- test
- The OpenSees test Command is used to construct a ConvergenceTest object. Certain SolutionAlgorithm objects require a ConvergenceTest object to determine if convergence has been achieved at the end of an iteration step.
- algorithm
- The OpenSees algorithm Command is used to construct a SolutionAlgorithm object, which determines the sequence of steps taken to solve the non-linear equation.
- integrator
- The OpenSees integrator Command is used to construct the Integrator object. The Integrator object determines the meaning of the terms in the system of equation object. The Integrator object is used for the following:
- determine the predictive step for time t+dt
- specify the tangent matrix and residual vector at any iteration
- determine the corrective step based on the displacement increment dU
- analysis
- The OpenSees analysis Command is used to construct the Analysis object. This analysis object is constructed with the component objects previously created by the analyst. All currently-available analysis objects employ incremental solution strategies. There are three types of analysis currently available:
- Static - for static analysis
- Transient - for transient analysis with constant time step
- VariableTransient - for transient analysis with variable time step
Analysis execution
The analysis is executed using the OpenSees analyze Command. This command moves the analysis forward by the specified number of steps.
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