Design of a control algorithm for objects with parametric uncertainty, disturbances, and input signal saturation

2017 ◽  
Vol 78 (12) ◽  
pp. 2178-2192
Author(s):  
I. B. Furtat
Keyword(s):  
Input Signal ◽  
Control Algorithm ◽  
Parametric Uncertainty ◽  
Signal Saturation

scholarly journals Prototyping a System for Truck Differential Lock Control

Sensors ◽  
2019 ◽  
Vol 19 (16) ◽  
pp. 3619 ◽  
Author(s):  
Pavel Kučera ◽  
Václav Píštěk
Keyword(s):  
Signal Processing ◽  
Input Signal ◽  
Control Algorithm ◽  
Main Part ◽  
Proper Function ◽  
Mechatronic System ◽  
Important Benefit ◽  
Differential Lock ◽  
The Many ◽  
Prototype Testing

The article deals with the development of a mechatronic system for locking vehicle differentials. An important benefit of this system is that it prevents the jamming of the vehicle in difficult adhesion conditions. The system recognizes such a situation much sooner than the driver and is able to respond immediately, ensuring smooth driving in off-road or snowy conditions. This article describes the control algorithm of this mechatronic system, which is designed for firefighting, military, or civilian vehicles with a drivetrain configuration of up to 10 × 10, and also explains the input signal processing and the control of actuators. The main part of this article concerns prototype testing on a vehicle. The results are an evaluation of one of the many experiments and monitor the proper function of the developed mechatronic system.

scholarly journals Position-force control of mobile manipulator – nonadaptive and adaptive case

2017 ◽  
Vol 27 (4) ◽  
pp. 487-503 ◽  
Author(s):  
Mirela Kaczmarek ◽  
Wojciech Domski ◽  
Alicja Mazur
Keyword(s):  
Force Control ◽  
Control Algorithm ◽  
Parametric Uncertainty ◽  
Mobile Manipulator ◽  
Control Law ◽  
Mobile Manipulators ◽  
Constrained Dynamics ◽  
Holonomic Constraint ◽  
System A ◽  
Theoretical Considerations

AbstractThis article presents a control algorithm for nonholonomic mobile manipulators with a simple, geometric holonomic constraint imposed on the robot’s arm. A mathematical model in generalized, auxiliary and linearized coordinates is presented, as well as the constrained dynamics of the robotic system. A position-force control law is proposed, both for the fully known robot’s model, as well as for the model with parametric uncertainty in the dynamics. Theoretical considerations are supported by the results of computer simulations.

The Design of DC Servo Motor Control System

2013 ◽  
Vol 433-435 ◽  
pp. 1241-1244
Author(s):  
Yue Ming Dai ◽  
Cong Cheng Zhu
Keyword(s):  
Control System ◽  
Input Signal ◽  
Control Algorithm ◽  
Servo Control ◽  
Control Law ◽  
Servo Motor ◽  
Servo Control System ◽  
Digital Pid ◽  
Motor Control System ◽  
Measuring Signal

The design is to control DC servo motor and design a DC servo control system by the computer.It measures the DC servo motors parameter by measuring element (displace sensor) and transforms some forms of information by using A/D conventer to the CPU.The CPU will compare the input signal and measuring signal and if there is error, according to the predetermined control law to produce a control signal to control motor ,the system makes input signal and measuring signal keep consistent. Control algorithm use digital PID controller .

scholarly journals A Lower Extremity Exoskeleton: Human-Machine Coupled Modeling, Robust Control Design, Simulation, and Overload-Carrying Experiment

2015 ◽  
Vol 2015 ◽  
pp. 1-15 ◽  
Author(s):  
Qing Guo ◽  
Songjing Li ◽  
Dan Jiang
Keyword(s):  
Lower Extremity ◽  
Control Algorithm ◽  
Control Method ◽  
Parametric Uncertainty ◽  
Hydraulic Pressure ◽  
Hydraulic Actuator ◽  
Coupled Modeling ◽  
Robust Controller ◽  
Switched Control ◽  
Robust Control Design

A robustH∞control method and switched control algorithm for hydraulic actuator presents in human-machine coordinated motion to solve the motion delay of lower extremity exoskeleton. After the characteristic parameters synthesis of human limb and exoskeleton linkage, the human-machine coupled motion model is constructed to estimate the appropriate hydraulic pressure, which is considered as a structural uncertainty in hydraulic model. Then the robust controller is designed to improve the robust stability and performance under the structural and parametric uncertainty disturbances. Simulation results show that, in walking mode, this robust controller can achieve a better dynamic response and aid-force efficiency than PID controller. Then, according to gait divisions of person’s limb motion, the switched control algorithm is designed to reduce the delay of exoskeleton tracking person. Finally, the experimental results show that the human-machine coordinated walk with bearing 60 kg load and squat action with no external load are realized effectively by this proposed method.

Automation of Process Control in Chemical Plant

2015 ◽  
Vol 2 (1) ◽  
pp. 6-12
Author(s):  
Agus Sugiarta ◽  
Houtman P. Siregar ◽  
Dedy Loebis
Keyword(s):  
Process Control ◽  
Pid Control ◽  
Control Algorithm ◽  
Chemical Engineering ◽  
Chemical Plant ◽  
Raw Material ◽  
Flow Rates ◽  
Material Supply ◽  
Wide Range ◽  
Inherent Problem

Automation of process control in chemical plant is an inspiring application field of mechatronicengineering. In order to understand the complexity of the automation and its application requireknowledges of chemical engineering, mechatronic and other numerous interconnected studies.The background of this paper is an inherent problem of overheating due to lack of level controlsystem. The objective of this research is to control the dynamic process of desired level more tightlywhich is able to stabilize raw material supply into the chemical plant system.The chemical plant is operated within a wide range of feed compositions and flow rates whichmake the process control become difficult. This research uses modelling for efficiency reason andanalyzes the model by PID control algorithm along with its simulations by using Matlab.

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