Fundamentals of System Identification with Time Domain Model
Published 9/2025
Duration: 1h 49m | .MP4 1280x720 30 fps(r) | AAC, 44100 Hz, 2ch | 1.10 GB
Genre: eLearning | Language: English
Published 9/2025
Duration: 1h 49m | .MP4 1280x720 30 fps(r) | AAC, 44100 Hz, 2ch | 1.10 GB
Genre: eLearning | Language: English
Process Control Fundamentals & PID Loop Tuning for Industrial Automation
What you'll learn
- Accurately identify transfer function parameters using real industrial data
- Apply modern multivariable modeling techniques using closed-loop, open-loop, or mixed data
- Differentiate between various dynamic modeling approaches and their practical uses
- Use the Pitops-TFI software to perform model prediction, correction, and validation
Requirements
- A basic understanding of industrial processes or systems (optional)
- Interest in process control, data analysis, or modeling
- A computer with internet access to run the provided Pitops-TFI software
Description
Transfer Function Identification and System Identification Training CourseIdentification of transfer functions using industrial process data is both an art and a science. Industrial datasets often contain high-frequency noise, signal drift, and process disturbances. These challenges make accurate dynamic system identification and process modeling complex.
In this Udemy control course, we apply cutting-edge system identification techniques to separate fast and slow processes, enabling precise estimation of true process transfer functions. Unlike traditional methods, our approach works remarkably well with multivariable systems, closed-loop data analysis, and even short-duration dataset modeling, where conventional approaches often fail.
This innovative methodology is an intuitive system modeling that can be easily learned by engineers, professionals, and even new personnel without advanced degrees. It simplifies process control training while delivering reliable results for industrial automation and control engineering applications.
Learning OutcomesBy the end of the course, participants will be able to:
Identify multivariable transfer function parameters using closed-loop or open-loop system identification.
Apply system modeling software to analyze hybrid datasets and separate fast vs. slow dynamics.
Master PID controller tuning and control loop optimization using real-time process control simulators.
Isolate unknown disturbances and accurately perform dynamic system analysis.
Gain transferable skills applicable across:
Chemical process control and chemical engineering processes
Mechanical system modeling
Electrical system identification
Industrial automation and process monitoring
Statistical modeling techniques for population and medical data analysis
These modern control methods deliver strong performance even with noisy data or partially observed signals, making them ideal for real-world industrial process control and system dynamics courses.
The following topics are covered in this course:
Introduction
Basic Definitions and Nomenclature
First-Order Transfer Function
Mother Nature and Transfer Functions
Challenges while Identifying Process Dynamics
Software Tools Included
As part of this PiControl Solutions training, learners will install two powerful process control software tools (7-day free trial):
SIMCET– educational PID simulator for real-time tuning
PITOPS– advanced platform for system identification, PID controller optimization, and APC design
Installation and activation are provided by PiControl Solutions at info@picontrolsolutions.com. Use of these tools is limited to control systems education and not authorized for industrial or commercial operations.
Advanced Training Option
If you wish to participate in a more comprehensive system identification course on Fundamentals of Time-Domain Modeling, contact us at info@picontrolsolutions.com.
The full training program expands beyond Udemy, covering:
Advanced control techniques for process dynamics
Process optimization tools for both fast and slow processes
Extensive process control labs using simulation training
Application of modern control methods for real-time process optimization
Upon completion, you’ll receive an international process control certification as a process control specialist and extended access to industrial software tools for simulation and optimization.
Who this course is for:
- Process Control Engineers, Process Engineers, Instrument Engineers, Laboratory Technicians, Research Engineers, Supervisors in industrial and plant settings
- Professionals & students in: Chemical, mechanical, and electrical engineering; applied sciences such as chemistry, statistics, and biology; medical and population studies where transfer function modeling is applicable
More Info