Variables of the double inverted pendulum

In summary, the conversation discusses modeling a computer simulation and the struggle to understand which variables represent what. The variables d1 and d2 are not defined, while phi1 and phi2 are linked to the potential energy of the system. The order in which these variables are calculated to update the system is also mentioned, with d1 and d2 being calculated first due to their role in angular acceleration. However, all 4 variables are needed for the angular acceleration and should be recalculated after each change of angles.
  • #1
Lavace
62
0
I am trying to model the following in a computer simulation:

http://webdocs.cs.uAlberta.ca/~sutton/book/ebook/node110.html

However I am struggling to understand which variables stand for which. In particular, the variables not defined are:
  • d1 and d2
  • phi1 and phi2

Another problem is which order are these calculated into update the system? d1 and d2 first (as the angular acceleration relies on these).
 
Physics news on Phys.org
  • #2
d1 is the total moment of inertia, d2 is some part of it related to link 2.
phi1 and phi2 are linked to the potential energy of the system.
Those variables just simplify the equations, you could insert their definitions in the first two equations and get rid of them - but that would give very long expressions.

The angular acceleration needs all 4 of them. Therefore, after each change of angles, re-calculate them.
 

1. What are the variables of the double inverted pendulum?

The variables of the double inverted pendulum are the length of each pendulum arm, the mass of each pendulum, and the initial position and velocity of each pendulum.

2. How do these variables affect the behavior of the double inverted pendulum?

The length and mass of each pendulum arm affect the period and stability of the pendulum's motion, while the initial position and velocity determine the starting conditions for the pendulum's movement.

3. How are these variables measured or controlled in experiments with the double inverted pendulum?

The length and mass of each pendulum arm can be measured with a ruler and scale, while the initial position and velocity can be controlled by manually setting the pendulum in motion or using a motorized system.

4. Can changing these variables lead to different behaviors of the double inverted pendulum?

Yes, changing the variables can lead to different behaviors of the double inverted pendulum, such as different periods or chaotic movements.

5. Are there any other factors besides these variables that can affect the behavior of the double inverted pendulum?

Yes, other factors such as air resistance, friction, and external forces can also affect the behavior of the double inverted pendulum.

Similar threads

Angular constraints on the Inverted Double Pendulum - 'Acrobot'
    • Mechanics
Replies
1
Views
2K
Angular acceleration of Pendulum equation
    • Mechanics
Replies
3
Views
13K
Understanding Force vs Speed for Arduino-Based Inverted Pendulum on Cart
    • Programming and Computer Science
Replies
23
Views
3K
A Inverted pendulum car - pedulum will not swing
    • Differential Equations
Replies
2
Views
1K
How Do You Model an Inverted Pendulum with a Moving Base?
    • Mechanics
Replies
2
Views
7K
Double pendulum - solving with energy and Simulink
    • Differential Equations
Replies
1
Views
2K
Liearization of Lagrange EOMs of an Inverted Pendulum
    • Differential Equations
Replies
4
Views
5K
Forces of inverted pendulum
    • Advanced Physics Homework Help
Replies
12
Views
8K
Inverted Pendulum Dynamics Identification
    • Advanced Physics Homework Help
Replies
4
Views
1K
Double Cart Inverted Pendulum Mechanics
    • Introductory Physics Homework Help
Replies
2
Views
2K

Hot Threads

Recent Insights

Back
Top