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Download Modeling and Neural Control of Quadrotor Helicopter: MATLAB-SIMULINK Based Modeling, Simulation and Neural Control of Quadrotor Helicopter ePub

by Yasir Amir Khan Niazi

Download Modeling and Neural Control of Quadrotor Helicopter: MATLAB-SIMULINK Based Modeling, Simulation and Neural Control of Quadrotor Helicopter ePub
  • ISBN 3838392981
  • ISBN13 978-3838392981
  • Language English
  • Author Yasir Amir Khan Niazi
  • Publisher LAP LAMBERT Academic Publishing (August 19, 2010)
  • Pages 80
  • Formats mbr txt lit lrf
  • Category Engineering
  • Subcategory Engineering
  • Size ePub 1390 kb
  • Size Fb2 1637 kb
  • Rating: 4.2
  • Votes: 760

Quadrotor is a rotorcraft with four vertically oriented propellers. Two of the propellers spin in clockwise direction and the other two in the counter clockwise direction. For a Quadrotor Helicopter a stabilizing controller is always needed. In this book Artificial Neural Networks based Control Methodology to stabilize the a Quadrotor Helicopoter, has been explained. Firstly a mathematical model of Quadrotor is developed. A simplified approach is adopted using momentum theory, where the gyroscopic effect and air friction on machine’s body has been neglected, resulting in a simplified model which is useful in designing a controller to stabilize the machine in hover state. The proposed model is nonlinear since the rotor dynamics are function of square of motor inputs. In the controller designing, Direct Inverse Neural Network Control methodology is employed. For that matter 16,8,4-MLP, 16,16,4-MLP and 16,64,4-MLP are used to control the Quadrotor plant. There performance is compared using simulation results. Direct Inverse Control using 16,64,4-MLP gives the best performance amongst all the other considered.

Two of the propellers spin clock wise and the other two counter-clockwise. Control of the machine can be achieved by varying relative speed of the propellers. Quadrotor concept is not new, however the modern quadrotors are mostly unmanned. New predictive control technique, the so-called time varying weighting generalized predictive control (TGPC) is performed using a linearised model to represent the key components in the.

In this book Artificial Neural Networks based Control Methodology to stabilize the a Quadrotor Helicopoter, has been explained. Firstly a mathematical model of Quadrotor is developed. A simplified approach is adopted using momentum theory, where the gyroscopic effect and air friction on machine's body has been neglected, resulting in a simplified model which is useful in designing a controller to stabilize the machine in hover state. The proposed model is nonlinear since the rotor dynamics are function of square of motor inputs

Control Architecture. Based on your location, we recommend that you select:.

Control Architecture. Benefit of the Inner Loop. Create an instance of this interface with the list of blocks to be tuned. You can also select a web site from the following list

to run any simulation on MATLAB, just run the script2run. Integrated simulation platform for indoor quadrotor applications. Mechatronics and its Applications (ISMA),9th International Symposium on.

to run any simulation on MATLAB, just run the script2run. For more information, please check the paper. cite Alomari, . Jaradat, . and Jarrah, M. 2013. IEEE.

A Simple Attitude Control of Quadrotor Helicopter Based on Ziegler. Other control algorithms are done with fuzzy techniques, neural networks and reinforcement learning. Oct 10, 2014 - and so forth. Their potential applications. the method of mechanism modeling; secondly, because some. Preface In this study, development and modelling of a quadrotor helicopter were performed. The main activities can be divided into four groups. The contribution of this thesis lies mainly in four fields:, accurate dynamic and aerodynamic modelling, easy and robust control structure, powerful and interactive simulator, system identification and design of a real platform.

Simulation and control of a quadrotor unmanned aerial vehicle. Michael David Schmidt University of Kentucky, [email protected] University of Kentucky Master's Theses. edu/gradschool theses/93.

Simulation results of the neural controller and PID controller working were compared to each other. In the paper the simulation results of the quadrotor’s flight on path of are presented. quadrotor control system neural network PID controller.

Quadrotor control: modeling, nonlinear control design, and simulation. In this work, a mathematical model of a quadrotor’s dynamics is derived, using Newton’s and Euler’s laws. Master’s Degree Project Stockholm, Sweden June 2015. A linearized version of the model is obtained, and therefore a linear controller, the Linear Quadratic Regulator, is derived. After that, two feedback linearization control schemes are designed

Talk about Modeling and Neural Control of Quadrotor Helicopter: MATLAB-SIMULINK Based Modeling, Simulation and Neural Control of Quadrotor Helicopter


Shaktit
Very Nice explanation specially on the quadrotor modelling part, the only thing that I miss but by the way was not the objective of the book is more information on system identification of the quadrotor physical plant in order to compare first principles and the reality
Miromice
Very good book and well organized I'd needs some improvements on the neural control part because some things are not so well described an the images are not very cear in this section.
AGAD
This is a very good job, it could be better with more information, data, and examples of the implementation in a real quadrotor
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