(→Memoryless System) |
(→Memory System) |
||
Line 7: | Line 7: | ||
The system is memoryless because it only depends on the input <math>x(t)\,</math>at current time. The <math>t-1\,</math> is just the value of the time when a signal is inputted into a system | The system is memoryless because it only depends on the input <math>x(t)\,</math>at current time. The <math>t-1\,</math> is just the value of the time when a signal is inputted into a system | ||
− | == | + | == System with Memory == |
A system is classified as system with memory if the output <math>y(t)\,</math> at <math>t_o\,</math> depends on the input at the any time, whether it's in the future or in the past. | A system is classified as system with memory if the output <math>y(t)\,</math> at <math>t_o\,</math> depends on the input at the any time, whether it's in the future or in the past. | ||
Revision as of 18:35, 15 September 2008
Memoryless System
A system is classified as memoryless if at any given $ t_o\, $, the output $ y(t)\, $ at $ t_o\, $ depends only on the input at the time $ t_o\, $
Example
$ y(t) = 2x(t) + (t-1)^2 \, $
The system is memoryless because it only depends on the input $ x(t)\, $at current time. The $ t-1\, $ is just the value of the time when a signal is inputted into a system
System with Memory
A system is classified as system with memory if the output $ y(t)\, $ at $ t_o\, $ depends on the input at the any time, whether it's in the future or in the past.
Example
$ y(t) = 2x(t-1) \, $
The system is a system with memory because it depends on the input $ x(t-1)\, $at time $ t = 1\, $.