How Do Stability and Linearity Determine System Behavior?

AI Thread Summary
The discussion centers on the confusion surrounding system stability and linearity, particularly regarding the system defined by y(n)=cos{x(n)}. It is clarified that this system is nonlinear since zero input does not lead to zero output, contradicting the criteria for linearity. The stability of the system is affirmed, as the output remains bounded between +/-1. The conversation also highlights that a system must satisfy both additivity and homogeneity to be classified as linear. Overall, the participants emphasize the importance of understanding these fundamental properties in analyzing system behavior.
tina_singh
Messages
14
Reaction score
0
confused!..system stability and linearity

1)-Is y(n)=cos{x(n)} a stable system??
and is the condition s=Ʃ|h(k)|<∞ for stability valid only for LTI systems?
actually my book solves the given problem using the above method..but according to me the given system is not LTI SINCE ZERO I/P does not lead to zero O/P...so i m really confused


2)to prove system to be linear is it enough to pove that zero i/p leads to zero o/p??
the system y(t)=[{x(t)}^2] also gives zero o/p on zero i/p but it is not linear...
 
Physics news on Phys.org


No point in subjecting your function cos[x(n)] to a Nyquist test (unit circle stability test) since it's obviously nonlinear.

You cannot apply the usual expression for the output at discrete multiples of time T. On the other hand, cos[x(nT)] is clearly stable since it can never go beyond +/-1.

Finally. I must confess with great chagrin that I don't know what the sufficiency test for linearity is with a z transfer function. But clearly you are right in assuming y = cos[x(n)] is nonlinear. I would assume that if the function is a plynomial fraction in z that it is linear. But that is just a not-so-educated guess. :confused:
 


if the system is linear
out put for "sum of two different signals" as input should be same as " sum of outputs got when two signals are given separately as input
 


reddvoid said:
if the system is linear
out put for "sum of two different signals" as input should be same as " sum of outputs got when two signals are given separately as input

That's exactly right and is the right answer. So it can be applied equally well to discrete systems, obviously. Thanks reddvoid! Funny how sometimes one doesn't see the woods for the trees!
 


reddvoid said:
if the system is linear
out put for "sum of two different signals" as input should be same as " sum of outputs got when two signals are given separately as input

Actually if the signal satisfy above property the system is "additive". Which is f(x1+x2)=f(x1)+f(x2).

Additionally the following property, f(λx)=λf(x) is the "homogenity".

If a system is both "additive" and "homogen" it is said that the system is "linear".
 
  • Like
Likes reddvoid

Similar threads

Finding Pole-zero pattern of transfer fcn and Stability of LTI system
Replies
3
Views
2K
Comp Sci How do I determine the linear/non-linearity of this problem?
Replies
5
Views
2K
How Do You Analyze a Continuous Time LTI System Using Differential Equations?
Replies
1
Views
2K
Is System Stability of LTI System Proven?
Replies
4
Views
3K
Help proving if a system is LTI?
Replies
1
Views
2K
Finding LTI (Linear Time-Invariant Systems)
Replies
1
Views
2K
Equilibrium points doubt (ODE system solution)
Replies
6
Views
2K
Obtaining stability criterion for 2nd order ODEs in coefficient form
Replies
1
Views
1K
I Wronskian: null space equals the span of independent functions
Replies
23
Views
1K
Stable, Neutrally Stable, and Unstable Systems
Replies
4
Views
5K

Hot Threads

Recent Insights

Back
Top