数字信号处理(英文版)课后习题答案2(Partial) Solutions to Assignment 2
pp.73-76
1.16
In each of the following systems, let
or
be the input and
or
be the output. Determine whether each systems is (1) linear, (2) time invariant, (3) causal, (4) BIBO stable
(g).
(i).
ans: omitted
---...
(Partial) Solutions to Assignment 2
pp.73-76
1.16
In each of the following systems, let
or
be the input and
or
be the output. Determine whether each systems is (1) linear, (2) time invariant, (3) causal, (4) BIBO stable
(g).
(i).
ans: omitted
----------------------------------------------------
1.17 A linear time invariant system has impulse response
Determine the output sequence
for each of the followign input signals:
(b)
(f)
(b) ans:
The z-transform of
is given by
where ROC1:
z-transform of
is given by
where ROC2:
Therefore, the z-transform of the output
is given by
Perform inverse z to get
(f) ans: using the same method as in (b) (details omitted )
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1.18. A linear time invariant system is defined by the difference equation
b. Determine the output
of the system when the intpu is
c. Determine the output
of the system when the input is
ans: omitted
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1.19 The following expressions define linear time invariant systems. For each one determine the impulse respnose
(a)
(e)
(a) ans: the impulse response is
(e) ans: the impulse response is
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1.20 Each of the following expressions defines a linear time invariant system. For each one determine whether it is BIBO stable or not
(g)
(k)
BIBO: Bounded input and bounded output
(g) ans: omitted
(k) ans: omitted
----------------------------------------------------
1.21. Using the geometric series, for each of the following sequence determine the z-transform and its ROC
(d)
(g)
(i)
(d) ans:
where ROC:
(g) ans:
The first part is equal to
where ROC1 is
The second part is equal to
where ROC2 is
Therefore combining both parts:
where ROC={ROC1 and ROC2}:
(i) ans:
where ROC: whole complex domain
----------------------------------------------------
1.22. You know what the
and
are. Using the properties only (do not reuse the definition of the z-transform.) determine the z-transform of the following signals
(c)
(g)
where ROC1:
where ROC2:
(c) ans: using z-transform property:
We have:
where ROC:
(g) ans:
details omitted. The final answer is
Therefore combining both parts:
where ROC={ROC1 and ROC2}:
----------------------------------------------------
1.23 Using partial fraction expansion, determine the inverse z-transform of the following functions:
(c)
,
(e)
,
(c) ans:
(e) ans:
procedures are the same as above. details omitted.
----------------------------------------------------
1.24. For each of the followign linear difference equations, determine the impulse response, and indicate whether the system is BIBO stable or not
(a)
(c)
(a) ans:
Take z-transform on both sides
where ROC:
Because
is finite
Therefore, the system is BIBO stable
(c) ans: omitted (the same as (a))
----------------------------------------------------
1.25. Although most of the time we assume causality, a linear difference equation can be interpreted in a number of ways. Consider the linear difference equation
(a) Determine the transfer function and the impulse response. Is the system causal ? BIBO stable ?
(a) omitted.
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1.26. 1.26 Consider the linear difference equation
(a) Determine the transfer function
. Do you have enough information to determine the region of convergence
ans:
Don't have enough information to determine ROC.
----------------------------------------------------
1.27. Given the system described by the linear difference equation
Determine the output
for each of the following input signals
(a)
(e)
(a) ans:
Take z-transform on both sides:
----------------------------------------------------
1.28. Repeat Problem 1.27 when the system is given in terms of the impulse response
Before you do anything, is the system stable ? Does the frequency response exist ?
ans: omitted.
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1.29. Repeat Problem 1.27 when the system isgiven by the linear difference equation
Before you do anything, is the system stable ? Does the frequency response exist ?
Ans: omitted.
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