Control system classes¶
The classes listed below are used to represent models of input/output
systems (both linear timeinvariant and nonlinear). They are usually
created from factory functions such as tf()
and ss()
, so the
user should normally not need to instantiate these directly.

A class for representing statespace models. 

A class for representing transfer functions. 

A class for representing input/output systems. 

A class for models defined by frequency response data (FRD). 

A class for returning time responses. 
The following figure illustrates the relationship between the classes and some of the functions that can be used to convert objects from one class to another:
Input/output system subclasses¶
Input/output systems are accessed primarily via a set of subclasses that allow for linear, nonlinear, and interconnected elements:
A class for representing input/output systems. 

Interconnection of a set of input/output systems. 

Interconnection of a set of linear input/output systems. 

Input/output representation of a linear (state space) system. 

Nonlinear I/O system. 
Additional classes¶
Base class for nonlinear systems with a describing function. 

Base class for implementing basis functions for flat systems. 

Base class for representing a differentially flat system. 

Base class for a linear, differentially flat system. 

Polynomial basis functions. 

Class representing a system trajectory. 

Description of a finite horizon, optimal control problem. 

Result from solving an optimal control problem. 