Classification of signal

Classification of Signals
Classification of Systems
Continous LTI System
Discrete LTI System
A signal can be anything which conveys information. For example a
picture of a person gives you information regarding whether he is short
or tall, fair or black e.t.c Mathematically signal is defined as a function
of one or more dependent variables that conveys information about the
state of a system. For example;
a) A speech signal is a function of time. Here independent variable is
time and dependent variable is amplitude of speech signal.
b) A picture containing varying brightness is a function of two spatial
variables. Here independent variables are spatial coordinates (X, Y)
and dependent variable is brightness or amplitude of picture.
Classification of signals
Signals can be classified based on parameter used to classify them such
as
a) Nature of independent variable such as time as
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Continuous time signal
Discrete time signal
b) Nature of dependent variable or signal
Analog signal
Digital signal
c) Number of independent variables
One dimensional signal
Two dimensional signal
Multi dimensional signal
c) Based on periodicity of signal as
Periodic signal
Aperiodic signal
d) Based on nature of indeterminancy
Deterministic signal
random signal
e) Based on causality
Casual signal
Anti casual signal
Non casual signal
f) Based on energy content in the signal
Energy signal
Power signal
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Neither energy nor power signals.
Continuous time signal, discrete time signal
Continuous time signals are the signals that are defined at a continuum
of times i.e. time can assume any value from (-∞, ∞). It is a one to one
mapping of signal for every value time assumes from (-∞, ∞), for every
instance of time there exists a unique and single value of function f (t).
The signal also can have continuum of amplitude values. These signals
are also called as analog signals.
If we sample the signal at discrete intervals of time ignoring the values
signal takes for times other than sampling times then the signal is
defined as discrete signal. The signal amplitudes are continuous and
analog in nature.
Signals strictly speaking are all continuous time in nature; in discrete
signals we are just ignoring the unwanted information in the signal by
taking signal amplitudes at discrete instants of time.
Analog signals, digital signals
Signals which are continuous in time and amplitude are called analog
signals. That is both independent and dependent variables are
continuous in amplitude. All Continuous time signals are analog
analog to discrete signal
—
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signals and vice versa.
Digital signals are one in which time is discrete in nature and
amplitude of signals are quantized i.e. they are allowed to take values
from a fixed set of amplitudes. For example a binary signal can have
only two values zero or one. Digital signals are widely used in
communications as they are less prone to noise.
One dimensional signal, two dimensional signal, Multi
dimensional signal
If the signal is a function of only one independent variable such signal
is referred to as one dimensional signal. For example a noisy voice
signal shown in the figure is a one dimensional signal is a function of
only time.
Similarly if the signal is a function of two dependent variables variable
such signal is referred to as one dimensional signal. For example a
simple black and white picture is a function of intensity shown in the
figure is a two dimensional signal is a function of spatial coordinates X
analog to digital signal conversion—
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and Y. At each point (X, Y) an intensity value is assigned and mapped
onto computer screen as a 2D image.
Multidimensional signal is a function of more than two variables. For
example a video signal is a function of three independent variables
which are time and two spatial coordinates(X, Y).
Periodic signal, Aperiodic signal
A signal can be classified as periodic signal if it repeats itself after a
time interval of T, Where T is called period of the signal.
Mathematically a signal f(t) is said to be periodic if f(t+T) = f(t), where
the T is the smallest positive non zero value of all possible values of
constants T for which the equality holds then T is said to be period of
f(t). For example a sine wave is periodic wave which satisfies sin (θ) =
sin (2*n*Π+ θ) where n =0, +-1, +-2… But as per definition of period
only 2*pi qualifies as period. Hence sin (θ) is said to be periodic with
period 2* Π.
A signal which is not periodic is said to be Aperiodic signal.
Mathematically it can be defined as a periodic signal with infinite
period. Here infinite period signifies that the signal never repeats itself.
Most of the signals we will be dealing are aperiodic in nature.
1D signal— 2D signal—
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Deterministic signal,random
signal
A deterministic signal is a signal
about which there is no
uncertainty with respect to its
value at any time. Deterministic
signals are modelled uniquely and
completely specified functions of
time. For example consider a
carrier sine wave f (t) = A *cos
(ω *t) its value at any instant is
completely defined and can be
determined with certainty.
A random signal is a signal about
which there is some degree of
uncertainty before it actually
shows up or before it actually
occurs. For example an outcome of a flipped coin can be heads or tails
we don’t know with 100 % certainty what will be the outcome of the
event of flipping a coin before the coin is flipped. That’s why we assign
probabilities on the possible outcomes based on our past experiences.
In the example of flipping a coin we can say that the outcome can be
heads with 50% probability and outcome can be tails with 50%
probability. Noise is a random signal which can be defined in terms of
probability.
Casual signal, Anti casual signal, Non casual signal
The notion of causality actually is more apt for systems nevertheless it
can be applied to signals also. A signal is causal if its amplitude is zero
for negative instants of time i.e. t < 0. The causality of a signal depends
Periodic signal—
aperiodic signal—
m
c
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on time reference (t= 0) at what instant time is initialized to zero.
A signal is Anti casual signal if its amplitude is zero for positive
instants of time t > 0. A non casual signal is one whose amplitude is
non zero for t < 0 and t > 0.
Energy signal, Power signal
Consider a resistor of R ohms
with the current passing through
it is i (t), then the voltage across
the resistor is V (t) = i (t)*R. The
instantaneous power dissipated in
the resistor is
P = V (t)/R in terms of voltage
signal,
P = i (t)*R in terms of current
signal.
To remove the dependence of
resistance and ease the analysis
it is customary in signal
analysis to work with one ohm
resistor for which both reduce
to same form P = V (t) = i (t).
Hence the
instantaneous power
associated with signal f(t) is
defined as P = |f(t)| .
causal signal—
Anti causal signal—
Non causal signal—
2
2
2 2
2
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RECENT POSTS
Total energy of a signal f(t) is defined as E = as T tends to
infinity.
Average power is defined as P = as T tends to
infinity.
A signal f(t) is an energy signal if its total energy if finite and non zero.
The average power associated with a energy signal is zero.
A signal f (t) is a power signal if its average power if finite and non
zero. The energy associated with a power signal is infinite.
Signals which have infinite power and infinite energy are classified
neither as energy signals or power signals.
Typically periodic signals and random signals are power signals.
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Classification of signal

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