Control System Engineering Courses at BYU
Main.BYUCourses History
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* CS 750 - Computer Vision II
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* CS 750 - Computer Vision II
* IT&C 530 - Scientific Computing
* IT&C 530 - Scientific Computing
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* Math 436 - Dynamics and Modeling 1, Differential Equations
* Math 438 - Dynamics and Modeling 2, Optimal Control
* Math 438 - Dynamics and Modeling 2, Optimal Control
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* [[https://apmonitor.com/do | ChE693R - Dynamic Optimization]]
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* [[https://apmonitor.com/do | ChE593R/693R - Dynamic Optimization]]
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* [[https://apmonitor.com/do | ChE593R - Dynamic Optimization]]
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* [[https://apmonitor.com/do | ChE693R - Dynamic Optimization]]
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* CE 507 - Linear Finite Element Analysis
* CE 607 - Nonlinear Finite Element Analysis
* CE 607 - Nonlinear Finite Element Analysis
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* [[https://apmonitor.com/do | ChE593R - Dynamic Optimization]]
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* CS 613 - Robust Control
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* CS 513 - Robust Control
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* CS 412 - Mathematical Modeling and Optimization
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* CS 412 - Linear Programming and Convex Optimization
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* CS 712 - Topics in Algorithmic Decision Processes
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!!!! Graduate level control engineering courses:
to:
!!!! Graduate level control and optimization courses:
* [[https://apmonitor.com/me575 | ME 575 - Optimization Techniques in Engineering]]
* [[https://apmonitor.com/me575 | ME 575 - Optimization Techniques in Engineering]]
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* ChE 410 - Principles of Reservoir Engineering
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* EE 490 - Senior Design - Senior design project with robotics emphasis
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* Math 510 - Num Methods for Linear Algebra
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ChE 436 - Process Dynamics and Control
EE 483 / ME 431 - Feedback control
EE 490 Senior Design - Senior design project with robotics emphasis
EE 483 / ME 431 - Feedback control
EE 490 Senior Design - Senior design project with robotics emphasis
to:
* ChE 436 - Process Dynamics and Control
* EE 483 / ME 431 - Feedback control
* EE 490 Senior Design - Senior design project with robotics emphasis
* EE 483 / ME 431 - Feedback control
* EE 490 Senior Design - Senior design project with robotics emphasis
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EE 670 - Stochastic Processes
EE 671 - Mathematics of Signals and Systems
EE 672 - Detection and Estimation
EE 671 - Mathematics of Signals and Systems
EE 672 - Detection and Estimation
to:
* EE 670 - Stochastic Processes
* EE 671 - Mathematics of Signals and Systems
* EE 672 - Detection and Estimation
* EE 671 - Mathematics of Signals and Systems
* EE 672 - Detection and Estimation
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EE 673 / ME 633 - Digital Control
EE 674 / ME 634 - Flight Dynamics and Control
EE773 / ME 733 - Linear Systems Theory
EE774 / ME 734 - Nonlinear Systems Theory
CS 613 - Robust Control
EE 674 / ME 634 - Flight Dynamics and Control
EE773 / ME 733 - Linear Systems Theory
EE774 / ME 734 - Nonlinear Systems Theory
CS 613 - Robust Control
to:
* EE 673 / ME 633 - Digital Control
* EE 674 / ME 634 - Flight Dynamics and Control
* EE773 / ME 733 - Linear Systems Theory
* EE774 / ME 734 - Nonlinear Systems Theory
* CS 613 - Robust Control
* EE 674 / ME 634 - Flight Dynamics and Control
* EE773 / ME 733 - Linear Systems Theory
* EE774 / ME 734 - Nonlinear Systems Theory
* CS 613 - Robust Control
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ChE 541 - Computer Design Methods
EE 370 - Probability Theory
EE 631 - Robot Vision
ME 534 - Dynamics of Mechanical Systems
ME 570 - Computer-Aided Engineering Software Development
ME 575 - Optimization Techniques in Engineering
CS 312 - Algorithm Analysis
CS 412 - Mathematical Modeling and Optimization
CS 470 - Artificial Intelligence
CS 650 - Computer Vision I
CS 670 - Multi Agent Systems
CS 750 - Computer Vision II
EE 370 - Probability Theory
EE 631 - Robot Vision
ME 534 - Dynamics of Mechanical Systems
ME 570 - Computer-Aided Engineering Software Development
ME 575 - Optimization Techniques in Engineering
CS 312 - Algorithm Analysis
CS 412 - Mathematical Modeling and Optimization
CS 470 - Artificial Intelligence
CS 650 - Computer Vision I
CS 670 - Multi Agent Systems
CS 750 - Computer Vision II
to:
* ChE 541 - Computer Design Methods
* EE 370 - Probability Theory
* EE 631 - Robot Vision
* ME 534 - Dynamics of Mechanical Systems
* ME 570 - Computer-Aided Engineering Software Development
* ME 575 - Optimization Techniques in Engineering
* CS 312 - Algorithm Analysis
* CS 412 - Mathematical Modeling and Optimization
* CS 470 - Artificial Intelligence
* CS 650 - Computer Vision I
* CS 670 - Multi Agent Systems
* CS 750 - Computer Vision II
* EE 370 - Probability Theory
* EE 631 - Robot Vision
* ME 534 - Dynamics of Mechanical Systems
* ME 570 - Computer-Aided Engineering Software Development
* ME 575 - Optimization Techniques in Engineering
* CS 312 - Algorithm Analysis
* CS 412 - Mathematical Modeling and Optimization
* CS 470 - Artificial Intelligence
* CS 650 - Computer Vision I
* CS 670 - Multi Agent Systems
* CS 750 - Computer Vision II
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(:title Control System Engineering Courses at BYU:)
(:keywords faculty, process control, optimization, process systems engineering:)
(:description Control system engineering courses at Brigham Young University:)
!!! Control System Engineering Courses at BYU
BYU offers the following curriculum in control systems engineering.
!!!! Undergraduate courses:
ChE 436 - Process Dynamics and Control
EE 483 / ME 431 - Feedback control
EE 490 Senior Design - Senior design project with robotics emphasis
!!!! General graduate level systems engineering courses:
EE 670 - Stochastic Processes
EE 671 - Mathematics of Signals and Systems
EE 672 - Detection and Estimation
!!!! Graduate level control engineering courses:
EE 673 / ME 633 - Digital Control
EE 674 / ME 634 - Flight Dynamics and Control
EE773 / ME 733 - Linear Systems Theory
EE774 / ME 734 - Nonlinear Systems Theory
CS 613 - Robust Control
!!!! Other courses that are closely related to control engineering:
ChE 541 - Computer Design Methods
EE 370 - Probability Theory
EE 631 - Robot Vision
ME 534 - Dynamics of Mechanical Systems
ME 570 - Computer-Aided Engineering Software Development
ME 575 - Optimization Techniques in Engineering
CS 312 - Algorithm Analysis
CS 412 - Mathematical Modeling and Optimization
CS 470 - Artificial Intelligence
CS 650 - Computer Vision I
CS 670 - Multi Agent Systems
CS 750 - Computer Vision II
(:keywords faculty, process control, optimization, process systems engineering:)
(:description Control system engineering courses at Brigham Young University:)
!!! Control System Engineering Courses at BYU
BYU offers the following curriculum in control systems engineering.
!!!! Undergraduate courses:
ChE 436 - Process Dynamics and Control
EE 483 / ME 431 - Feedback control
EE 490 Senior Design - Senior design project with robotics emphasis
!!!! General graduate level systems engineering courses:
EE 670 - Stochastic Processes
EE 671 - Mathematics of Signals and Systems
EE 672 - Detection and Estimation
!!!! Graduate level control engineering courses:
EE 673 / ME 633 - Digital Control
EE 674 / ME 634 - Flight Dynamics and Control
EE773 / ME 733 - Linear Systems Theory
EE774 / ME 734 - Nonlinear Systems Theory
CS 613 - Robust Control
!!!! Other courses that are closely related to control engineering:
ChE 541 - Computer Design Methods
EE 370 - Probability Theory
EE 631 - Robot Vision
ME 534 - Dynamics of Mechanical Systems
ME 570 - Computer-Aided Engineering Software Development
ME 575 - Optimization Techniques in Engineering
CS 312 - Algorithm Analysis
CS 412 - Mathematical Modeling and Optimization
CS 470 - Artificial Intelligence
CS 650 - Computer Vision I
CS 670 - Multi Agent Systems
CS 750 - Computer Vision II