In a direction-dependent process, the dynamic response depends on the input or output direction. In this paper, controllability analysis of these processes investigates the ability to govern the output in any direction, even though the input signal is bounded. A sufficient condition for the controllability of single-input, single-output, direction-dependent processes is stated and proven
State controllability and observability are key properties in linear input–output systems in state-s...
Abstract—Discrete linear repetitive processes are a distinct class of two-dimensional (2-D) linear s...
In this paper we study the controllability of discrete-time linear systems with positive controls. N...
In this thesis, direction-dependent processes are described as processes whose responses differ in s...
This paper presents the integration of the output controllability index within the dynamic operabili...
Repetitive processes are a distinct class of 2D systems (i.e. information propagation in two indepen...
A notion of partial controllability (also can be called directional controllability or output contro...
In direction-dependent processes, the dynamic responses depend on the direction of the system input....
The property of external controllability has been well studied for 1D and 2D systems. In this paper,...
The main objective of this article is to review the major progress that has been made on controllabi...
iAbstract Controllability is the ability of a process to achieve acceptable performance, and in this...
Controllability is the ability of a process to achieve acceptable performance, and in this thesis we...
The operation of a chemical process plant has become more complex with the addition of process integ...
We revisit the central notion of controllability in supervisory control theory from process-theoreti...
The article is devoted to the actual problem of the mathematical theory of controllability. It inves...
State controllability and observability are key properties in linear input–output systems in state-s...
Abstract—Discrete linear repetitive processes are a distinct class of two-dimensional (2-D) linear s...
In this paper we study the controllability of discrete-time linear systems with positive controls. N...
In this thesis, direction-dependent processes are described as processes whose responses differ in s...
This paper presents the integration of the output controllability index within the dynamic operabili...
Repetitive processes are a distinct class of 2D systems (i.e. information propagation in two indepen...
A notion of partial controllability (also can be called directional controllability or output contro...
In direction-dependent processes, the dynamic responses depend on the direction of the system input....
The property of external controllability has been well studied for 1D and 2D systems. In this paper,...
The main objective of this article is to review the major progress that has been made on controllabi...
iAbstract Controllability is the ability of a process to achieve acceptable performance, and in this...
Controllability is the ability of a process to achieve acceptable performance, and in this thesis we...
The operation of a chemical process plant has become more complex with the addition of process integ...
We revisit the central notion of controllability in supervisory control theory from process-theoreti...
The article is devoted to the actual problem of the mathematical theory of controllability. It inves...
State controllability and observability are key properties in linear input–output systems in state-s...
Abstract—Discrete linear repetitive processes are a distinct class of two-dimensional (2-D) linear s...
In this paper we study the controllability of discrete-time linear systems with positive controls. N...