2 edition of **Digital control of an inverted pendulum using an H-infinity design** found in the catalog.

Digital control of an inverted pendulum using an H-infinity design

S. P. King

- 42 Want to read
- 2 Currently reading

Published
**1994**
by UMIST in Manchester
.

Written in English

**Edition Notes**

Statement | S.P. King ; supervised by J. Edmunds. |

Contributions | Edmunds, J., Control Systems Centre. |

ID Numbers | |
---|---|

Open Library | OL19300621M |

8/30/11 PM CTM: Digital Control Example: Inverted Pendulum Page 1 of 13 Digital Control Example: Inverted Pendulum using State-Space method Discrete state-space Controllability and Observability Control design via pole placement Reference input Observer design In this digital control version of the inverted pendulum problem, we are going to use the state-space method to design . In control system, if all the states of the system are measured, then by using state feedback control law we can control the system. As we know that value of feedback gain cannot be found easily, it.

It explains step-by-step the design and modeling of various control systems, including discrete time systems and an inverted pendulum. Along with offering many web-based simulations, the book shows how mathematics, such as vectors, matrices, and the differential equations that govern state variables, can help us understand the concepts that. This video presents the development of a pole-on-cart system, along with the design and implementation of appropriate controllers for balancing the pole in the upright unstable position (inverted.

To control a 2-dimensional inverted pendulum, I used a PS3Eye webcam and 3 servo drive. On the top of the pendulum there is a red spot which is being tracked by the CamShift algorithm at the frame. inverted pendulum. The upright robot necessitates1 the use of digital accelerometer and gyroscope. If the sensor is analog, the derivative Θ˙ can be obtained with an analog diﬀerentiator or with a digital control system. 3. Mathematical description of the inverted pendulum process and the sensor 4. Design of a controller 5.

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In this digital control version of the inverted pendulum problem, we will use the state-space method to design the digital controller. If you refer to the Inverted Pendulum: System Modeling page, the linearized state-space equations were derived.

In this page we will design a PID controller for the inverted pendulum system. In the design process we will assume a single-input, single-output plant as described by the following transfer function. Otherwise stated, we will attempt to control the pendulum's angle without regard for the cart's position.

(1) where, (2). Modeling and Controller Design for an Inverted Pendulum System Abstract The Inverted Pendulum System is an under actuated, unstable and nonlinear system. Therefore, control system design of such a system is a challenging task.

To design a control system, this thesis first obtains the nonlinear modeling of this system. Digital Control of Inverted Pendulum Connecting to the Pendulum. This is using Walla Walla University's inverted pendulum up in the digital or analog labs in Kretschmar.

Connect to board. Plug into ethernet, set IPv4 settings: IP: Netmask: Gateway: Set the ethernet MAC address to be (Identity --> Cloned. An inverted pendulum is a pendulum that has its center of mass above its pivot point.

It is unstable and without additional help will fall over. It can be suspended stably in this inverted position by using a control system to monitor the angle of the pole and move the pivot point horizontally back under the center of mass when it starts to fall over, keeping it balanced.

The objective of this paper is to: (i) derive the mechanical model of a rotary inverted pendulum by using Euler-Lagrange equation, (ii) design control systems for the rotary inverted pendulum.

Gamma Achieved Peak ~Value 6 CONCLUSION In this paper controller design of the inverted pendulum was performed. Different design strategies were presented for the selection of the robust stability and nominal performance requirements.

Digital Control Applications Illustrated with MATLAB® covers the modeling, analysis, and design of linear discrete control systems.

Illustrating all topics using the micro-computer implementation of digital controllers aided by MATLAB®, Simulink®, and FEEDBACKdigital control, followed by a review of Z-transforms, feedback control.

In this digital control version of the inverted pendulum problem, we will use the state-space method to design the digital controller. The linear state space equation can be represented as follows: where, M.

mass of the cart. mass of the pendulum. Control of a Dual Inverted Pendulum System Using Linear-Quadratic and H-Infinity Methods by Lara C.

Phillips Submitted to the Department of Electrical Engineering and Computer Science on Jin partial fulfillment of the requirements for the Degree of Master of Science.

The inverted pendulum is a classic problem in dynamics and control theory and is widely used as a benchmark for testing control algorithms. It is also an area of active study, with many new innovations and applications - for example the problem is solved in the technology of the Segway, a self-balancing transportation device.

The inverted pendulum is a classic problem in dynamics and control theory that is generally elaborated in high-school and undergraduate physics or math courses. Being a math and science enthusiast myself, I decided to try and implement the concepts that I learned during my classes to build an inverted pendulum.

Mahadi Hasan et. al Fig. Cart and Inverted Pendulum System Table. 1 Parameters of the inverted pendulum M mass of the cart kg m mass of the pendulum kg b friction of the cart N/m/sec l length of the pendulum m i inertia of the pendulum kg.m 2 f force applied to the cart kg.m/s 2 g gravity m/s 2 θ Vertical pendulum angle in degree.

For the double inverted pendulum, the controller is developed in three steps. First, swing-up the first pendulum using energy control method. Second, to swing-up the second pendulum use the same method while stabilizing the first pendulum using sliding mode control method. Lastly, stabilize both pendulums upright with the sliding.

A digital control system to control a double inverted pendulum on a cart is presented, where the cart is placed on an inclined rail and is to be kept in position at a given reference point.

The controller design is based on linear servo control theory and can control the cart position of the inverted pendulum, eliminating the effect of the rail. The developed systems composed of both an authoring system with CAD and a pendulum equipment. The student could study the details of control system's design, for example, modeling, analysis, design, simulation and digital control through the experiment using pendulwn equipment according to the instruction based on the authoring system.

Key. control and stabilization control. A classical, H2, and H1 design are each considered to stabilize a nominal linearized model of the inverted pendulum on a cart in the upward vertical position. The effectiveness of each stabilizing design is evaluated through the use of the „ synthesis bound, as it applies to nominal.

Inverted pendulum system is one of the classical problems and most widely used experimental setups in control theory. The pendulum angle and cart position were measured using a. Various values of the control vector K were obtained using program ACKERMAN.

The final control vector used was X ==== Using these values the poles were calculated to be at j,Using these values the pendulum remained upright with the cart slowly oscillating back and forth covering a distance of. Dynamics: Inverted pendulum on a cart The ﬁgure to the right shows a rigid inverted pendulum B attached by a frictionless revolute joint to a cart A (modeled as a particle).

The cart A slides on a horizon-tal frictionless track that is ﬁxed in a Newtonian reference frame N. Right-handed sets of unit vectorsn x, n y, n z and b x, b y, b. Project Title: The Inverted Pendulum Author: John Stang Abstract: The inverted pendulum is a classical control problem, which involves developing a system to balance a pendulum.

For visualization purposes, this is similar to trying to balance a broomstick on a finger. To study this problem, this project incorporated a full system design.problem, broom balancer control problem, stick balancer control problem, inverted pendulum control problem.

The Inverted Pendulum setup consist of a D.C. Motor, a pendant type pendulum, a cart, and a driving mechanism. Figshows the basic schematic diagram for the cart-inverted pendulum system: Figure The inverted pendulum benchmark (see Figure 1) can be considered as the simplest robotic system, with only one rigid body and only one rotational this robotic system, let us denote by θ the angle between vertical and the pendulum, which is positive in the clock-wise direction and by m, J and ℓ, the mass of the pendulum, the moment of inertia with respect to the pivot .