Linear Time Invarient System

• Signals and Systems

LTI systems

LTI System theory is a powerful and widely used concept in electrical engineering. It has applictions in circuit anlysis, control theory , and our main topic of interest signal processing.

LTI system properties

A system is considered to be a Linear Time Invariant when it satisfies the two basic criteria implied in its name, one it must be linear and two it must be time invariant. A Linear system is characterized by two properties superposition (additivity) and scaling (homogeneity). The superposition principal says that for any linear system a linear combination of solutions to the system is also a solution to the same linear system. The principal of scaling implies that if you adjust your scale an input by N amount, your output will also be adjusted by N amount. An example of a linear system then would be,

${\displaystyle x_{1}(t)\!}$

${\displaystyle x_{2}(t)\!}$

${\displaystyle y_{1}(t)=H(x_{1}(t))\!}$

${\displaystyle y_{2}(t)=H(x_{2}(t))\!}$

${\displaystyle Ay_{1}(t)+By_{2}(t)=H(Ax_{2}(t)+Bx_{1}(t))\!}$

for any scalar values of A and B.

Time invariance of a system means that if any input ${\displaystyle x(t)}$ is shifted by some amount of time T the out-put will also be adjusted by that amount of time. This implies that for,

${\displaystyle H(x(t))=y(t)\!}$

${\displaystyle H(x(t-T))=y(t-T)\!}$

Related Links

• The Game