“信号与系统”勘误表

《信号与系统（第三版）习题解析》勘误表1谷源涛2012年3月25日一、可能影响理解的错误1、 第12页，第3行“(t −π4)”改为“(t +π4)”，即把减号改成加号2、 第291页，第10行“=Wal2{[(i −1)⊕j ]+1,t]”改为“=Wal2{[(i −1)⊕j ]+1,t }”，即最后一个中括号改成大括号3、 第297页，第7行行末“πA 28δ(ω+1800)”改为“πA 28[δ(ω+1800)”并移至第8行行首，注意改动是插入方括号4、 第311页，倒数第6行“cos (ωc T −ωc t )+sin (ωc T −ωc t )”改成“cos (ωc T −ωc t )−sin (ωc T −ωc t )”，即加号改成减号5、 第311页，倒数第5行“cos (ωc t )−sin (ωc t )”改成 “cos (ωc t )+sin (ωc t )”，即减号改成加号6、 第391页，倒数第4行“DFT[x (n )]=X (k )”改为“DFT[x (n )]=X (k )”，即去掉x 和X 上的黑体；将“IDFT[X ](k )=x (n )”改为“IDFT[X (k )] =x (n )”，即一方面去掉黑体，另一方面将(k )移到方括号之内7、 第434页，第7行“0.739”改为“2.825”8、 第434页，倒数第3行“0.739”改为“2.825”9、 第455页，倒数第4行“，代价是增大了主瓣宽度和过渡带宽度”删掉10、 第460页，第9行“在∞有一个四阶零点，”删掉11、 第469页，第6行“ℒ[KΘ(t )]”改为“ℒ[Kθ(t )]”，即大写Θ改成小写θ，注意花体的ℒ还用原来的样子12、 第472页，倒数第3、4行“在PI 控制跟踪阶跃信号稳态误差不为零的情况下，”删掉13、 第472页，倒数第3行“可以改善”改为“可以提高系统稳定性，改善”14、 第486页，最后一行，分母“e jw −12”改成“e jω−12”，即把w 改成omega15、 第521页，第5行“|000−100006232−200−3|”改为“[000−100006232−200−3]”，即把绝对值号改为方括号 1 已将本勘误表交给出版社；希望这些问题能在第二次印刷中更正。

《信号与系统》教材重印勘误P.3 式（1.2.1），最好改为：()10sin(π)20π/2t f t +=P.5 式（1.2.6）和式（1.2.9）之前的空行？ P.6 式 0)e 1(1lim d e 1limd )(1lim2-2/04-2/2/23=-===∞→∞→-∞→⎰⎰ττττττττττt t t f P t改为/2/22-4-23/2111lim()d lime d lim(1e )04t P f t t t ττττττττττ-→∞→∞→∞===-=⎰⎰P.18 1.2（3）“而平均功率都为零”改为“而平均功率都为有限值”1.3（4）⎪⎩⎪⎨⎧<<-<<-+=其它01010112)(4k k k k k f 改为 4210()10202k k f k k k -≤≤+<⎧⎪=-<⎨⎪⎩其它 P.29 例2.3.1中，“f 2(t )”改为 “f (t )”P.35 图2.4.1如下修改：P.38 式122-22--12()()*()e ()[()(3)]d e ()()d e()(3)d ()()y t f t f t u u t u t u u t u u t y t y t τττττττττττττ∞-∞∞∞--∞∞==----=---+-=⎰⎰⎰中，最后一行改为：12()()()y t y t y t -=同理，本例解答中：“最后得”后面的12()()()y t y t y t +=也改为12()()()y t y t y t -=P.45 题图2.2中，“f (t )”改为 “f (4-2t )”t0.2 0 4f (t ) 图2.4-1 例2.4-1图1-1t t0.20 1-10.8 f A (t ) f D（a ）（b ）（c ）0 3.2-0.8该脉冲删除P.61 例3.4.2f 22222(2)()()*()e ()*[()(2)]e ()*()e ()*(2)11(1-e )()[1-e ](2)22t t t t t y t f t h t u t u t u t u t u t u t t u t u t ε------==--=--=--改为f 22222(2)()()*()e ()*[()(2)]e ()*()e ()*(2)11(1-e )()[1-e ](2)22t t t t t y t f t h u t u t u t u t u t u t u t t u t u t ------==--=--=--P.76 式j2π-j2πj4π-j4πj6π-j6π-j6π-j2π-j4πj2πj2πj6π1e e e e 2e e 22232111111 e e e e e e 342243()t t t t t tt t t t t tf t +++++=++++=+ 改为j2π-j2πj4π-j4πj6π-j6π-j6π-j4π-j2πj2πj4πj6πe e e e e e 1052222e 2.5e 5e 5e 2().5e e t t t t t tt t t t t tf t +++++++==+++ P.76 式（4.1.1）0011()[cos sin ]c s()22o n n n n n n A f t a n t b n t A n t A ϕ∞∞===+Ω+Ω=+Ω+∑∑改为0011()[cos sin ]cos()22n n n n n n A f t a n t b n t A n t a ϕ∞∞===+Ω+Ω=+Ω+∑∑ P.78 图4.1.3中，字母a~e 适当下移。

ErrataHere is a list of errors detected in the third edition of the book.If you find an error, please let us know about it.∙Images 13.6 (a) and 13.6 (b) should be swapped.∙On page 22, bellow eq. 1.15, the right inequalities should read\sum_{m \in Gamma} |<f,\tilde{\phi_{p}}>|^2 <= A^(-1) ||f||^2∙The Gradient Pursuit algorithm (reference [115], page 672) does not, as stated in the book, "solve the l1 Lagrangian minimisation (12.97)". The algorithm described in the reference is a fast approximation to OMP and the reference would be better in the OMP section of the book. ∙Exercise 6.4(a): on the right hand side of the equation, it should be $\cos(w_0 u)$ rather than $\cos(w_0 t)$.∙Follow-up to the current second item on the errata list: On page 22, Below and above eq.1.15, ${m \in Gamma}$ should be ${p \in Gamma}$∙On page 112, Example 4.11, 2nd to the last line: "quadratic chirp" should be "linear chirp"∙On page 114, top line: Current: This discrete wavelet has $Ka^j$ nonzero values... Correct: This discrete wavelet has $N/(K a^j)$ nonzero values...∙On page 114, above eq. 4.65: two places in the equation for $\phi_J$: $a^j$ should be $a^J$. ∙On page 115, 3rd line from top: ${a^j}$ should be ${a^j}_{j \in [I,J]}$.∙On page 171, equation at top: leading factor on right has $1/2^j$ should be the square root of this. (or else the norm has to change in eq. 5.54 and elsewhere).∙On page 267, below eq. 7.12: in the numerator of phi on the right: Current numerator: $t - n$, Correct numerator: $t - n 2^j$ (since this is for the orthonormal basis, not the time-invariant version).∙Theorem 7.1 on p.267: The argument in $\phi_{j,n}(t)$ is written as $\phi[(t-n)/2^j]$. It should be $\phi( [t - 2^j n] / 2^j)$.∙On page 677, the iteration for the sparse analysis resolution should read $\tilde F_{k+1} = S_{\mu T}( \tilde F_k + \mu U^*(Y-U\tilde F_k) )$, i.e. $\gamma$ should be replaced by$\mu$.∙It is in Eq. (8.106), p. 423, one should replace [n-a_p] with [n-a_p-1/2].∙On page 739, paragraph "Restricted Isometry and Incoherence", the centence If the vectors are normalized vectors then $A_\La \leq 1 \leq B_\La$, and it is equivalent to impose that $\delta_\La = \max(1 - A_\La, B_\La - 1)$ is not too small. To get a stable recovery of all sparse signals, compressive sensing imposes a uniform bound on all sufficiently sparse sets $\La$: $$\delta_\La \geq \delta_M(\DU) > 0 ~~\mbox{if}~~~|\La| \leq M ,$$should be replaced by:If the vectors are normalized vectors then $A_\La \leq 1 \leq B_\La$, and it is equivalent to impose that $\delta_\La = \max(1 - A_\La, B_\La - 1)$ is not too CLOSE TO 1. To get a stable recovery of all sparse signals, compressive sensing imposes a uniform bound on all sufficiently sparse sets $\La$: $$\delta_\La \leq \delta_M(\DU) < 1 ~~\mbox{if}~~~|\La| \leq M,$$∙On page 739, 8 lines before the end of the page:A simple geometric interpretation explains why random measurement operators defineincoherent dictionaries with $\delta_M (\DU) > 0$ for relatively large $M$.should be replaced byA simple geometric interpretation explains why random measurement operators defineincoherent dictionaries with $\delta_M (\DU) < 1$ for relatively large $M$.∙On page 107, before equation (3.35), should be "(Exercise 4.6)".∙Bottom of page 156 "$\lambda$ is also an eigenvector of $\Phi\Phi^*$".∙Page 55, exercise 2.3, references should be (2.18), (2.19) and (2.21).∙Page 57, exercise 2.17, should be "$f(x_1,x_2)=1_{x_1^2+x_2^2 \leq 1}$".∙Page 86, exercise 3.9, should be "recovers $f(t)$ from $\{f(p s)\}_{p \in \ZZ}$."∙Page 86, exercise 3.12, should be "from any $0 \leq k < N$".∙Page 86, exercise 3.16, b), should be "if $h[n]= a \delta[n-p]$ for some $p \in \ZZ$ and $a \in \CC$".∙Page 676, 5th equation, should be $\tilde a_{k+1}[p] = ...$.∙Page 60, before (3.6), should be "the Poisson formula, Theorem 2.4".∙Pages 320-322, the uper-script "pér" should be replaced by "per".∙Exercise 2.9, one needs to impose that $K < M$.∙In p. 676, $\tilde{a}^{k+1}=a^{K}+\gama * b^{k=1}$ should be $\tilde{a}^{k+1}=a^{K}-\gama * b^{k=1}$.∙In p. 156, On the bottome of this page, in the sentence: "Both Statements are proved to be equivalent...", Phi conjugate times Phi" should be "Phi conjugate times Phi" and "Phi times Phi conjugate".∙Exercise 4.4, the result is $O(N^2 log L)$.∙Exercise 4.9, one needs to use $1/2pi$ and not $1/pi$.∙Exercise 4.17, several errors, see corection.∙Exercise 5.1, it is required that $K \geq 1$.∙Exercise 5.6, one needs to impose $||phi_p || = 1$.∙Exercise 5.9, one needs $\hat g = 1_[-\om0/2,\om0/2]$.∙Exercise 5.10, the sum should run in $mM - K/2$ to $mM + K/2-1$.∙Exercise 5.15, several errors, see the correction.∙Exercise 5.18, one needs to impose that $\hat phi (\om)$ tends to 0 when $omega$ tends to infinity.∙On page 218 (paragraph 6.2.1), "See figure 6.5b on page 218 ..." should be "See figure 6.5b on page 220 ...".∙On page 37, before Theorem 2.2, $exp(i t w)$ are the eigenvector of the convolution operator (and not eigenvalues).∙On p.156, "are equal to...":, one should add: "on $Im \Phi$".∙On p.156, last line: "$\Phi \Phi^*^$ with ..." instead of "$\Phi^* \Phi^$ with...".∙On p.157 eq 5.6 one should replace $<\phi_n, \phi_p>$ by $<\phi_m, \phi_p>$.∙On p.36, in the proof of Theorem 2.1 it should read "We cannot apply the Fubini TheoremA.2" instead of "We cannot apply the Fubini Theorem reffubini".∙On page 103 4.3.1 the transform using a real valued wavelet is defined using a capitalized W.However, throughout 4.3.1 a lower case w is used to indicate the real wavelet transform. Onthe other hand on page 109 the analytic wavelet transform is defined using lower case w, while in the remaining chapter 4.3.2 upper case W is used.∙On page 106: the equation (4.40) lacks the integral from 0 to infinity on the variable s.∙In page 758, for the definition of operator $U$'s image, $Im U$ in line before subsection "Supremum Norm": $H_1$ should be $\mathbf{H}_1$ since $H_2$ is a Hilbert space not a operator.∙In page 758, the first equation of "A.4 LINEAR OPERATORS", $\forallf_1,f_2\in\mathbf{H}$should be$\forall f_1,f_2\in\mathbf{H}_1$, since $f_1, f_2$ aredefined as vectorss in $H_1$ while $H$ is not defined.∙In page 40 before equation (2.31), "applying (2.22) proves that" should be "applying (2.21) proves that", for it used the time derivatives property of Fourier transform.∙On page 129, in the definition of $g_{s,u,\xi}(t)$, $\sqrt(s)$ should be $\frac{1}{\sqrt(s)}$. ∙On page 130, in equation(4.109), before the first sign of equality should be $\frac{\eta(u)}{s}$.∙On page 136, the second part of the equation before the last paragraph should be $[-2(u_0-u)-T,-2(u_0-u+T)]$.∙On page 136, the second line of the last paragraph $|u_0-u|\le T$ should be $|u_0-u|\le T/2$.∙On page 137, the last part of (4.129) should be $P_vg(\frac{u}{s},s\xi)$.∙In exercise 2.10, section (b) it should be asked to prove that $\hat{f_r} = H \hat{f_i}$ and $\hat{f_i} = - H \hat{f_r}$.∙At p. 685, in the proof of Theorem 12.15 an argument is missing because one might have that the support of $\tilde a_{\Lambda}$ is strictly included in $\Lambda$. One should use the monoticity of ERC with respect to the support.∙Page 51, equation (2.70), 1/N should be modified to N.。

2.第13页表1.4第3行：“清楚图形……”应为“清除图形……”。

3.第14页表2.1第1栏最后1行：最后一个“—”应为“--”。

4.第16页第3行：“z_4(t)”应为“z_5(t)”。

5.第17页例2.2程序的注释：“-1到2π”应为“-1到2”。

6.第35页中间：“ex_3_6.m”应为“ex_3_7.m”。

7.第35页程序的第4行：分号前应有一个“’”。

8.第37页知识点的最后一句：“似乎……颜色”应改为“用户也可以控制此类间接绘出的图形的属性，比如执行lsim(sys1,‘y:’,sys2,‘g--’,u,t,x0)的命令即可分别指定两个响应的颜色和线型。

（脚注：清华大学电子工程系六字班周韦康同学指出原文中的错误并提供正确示例，特此致谢。

）9.第39页第9行：“w和wt”应改为“w和tw”。

10.第49页脚注后应补充一句：清华大学电子工程系六字班周韦康同学发现：和Run按钮或者F5执行的程序相比，在命令窗口中通过输入文件名执行的程序更容易被Ctrl+C中断。

11.第53页倒数第2、3行：“T/K*U”应为“FT”。

12.第54页第1行：“OMG/2/pi/K*V”应为“IFT”。

13.第61页例5.6的公式：“1/(s+1)”应为“10/(s+1)”。

14.第61页例5.6的程序第1行：“tf(1,[0.1, 0.1])”应为“tf(10,[1, 1])”。

15.第62页第三节第2段第2行：“(b,a)=zp2tf”应为“[b,a]=zp2tf”。

16.第72页图6.3标题：“第一小节”应为“前四小节”。

17.第74页第一段中：所有“二分之一”应为“二分”，所有“四分之一”应为“四分”，所有“八分之一”应为“八分”;18.第85页程序第1行应为：a = [1, -0.5, 0.6];19.第85页程序第2行应为：b = [1, 0, -0.3];20.第85页程序第3行应为：n = [0:20]’;21.第86页图7.6 中最上面的子图：左侧标示应为“h(n)”。

信号与系统 修正 1 P39 最后一行 222T 2E=lim()T tTedt -→∞-==∞⎰改为:224442211E=lim()lim ()0()44T t T T TT T e dt e e e --∞→∞→∞-=--=--=∞⎰2 P40 第三行 改为44444limlim lim 444T T T TT T T e e e e P TT T -→∞→∞→∞-====∞ 3 P52 第二行'()()t dt t δδ∞-∞=⎰改为'()()tt dt t δδ-∞=⎰图3.27 (a) –t+2 改为–t+3 4 P55 第一行 改为1E 16(0.0625)n ∞-∞===∑5 P59 公式(3.30)下一行 ()[1,3,6,10,15,21,28]y n ↑=改为 ()[1,3,6,10,15,21,28]y n ↑=6 P61 图3.32 (a)与题目不符到数第三行 (d) 中 ()sin(23)x t t π=- 改为()sin(23)x t t π=• 7 P65 (d)中 T()2(3)2(3)4()t r t r t r t ==++-- 改为 T()2(3)2(3)4()t r t r t u t ==++-- 下一行 ()4()T n r n =- 改为 ()4()T n u n =-8 P73 [解]中 00,022(),022T E t x t T E t ⎧-≤<⎪⎪=⎨⎪-≤<⎪⎩改为00,022(),022T E t x t T E t ⎧--≤<⎪⎪=⎨⎪≤<⎪⎩9 P75 第20行 000cos sin jn te n t n t ωωω±=± 改为000cos sin jn ten t j n t ωωω±=±10 P84 第17 行0,i j je e j =⎧=⎨≠⎩，当i 1，当i改为 0,i j je e j≠⎧=⎨=⎩，当i 1，当i11 P103 倒数第6行 “那些优点”改为”哪些优点” 12 P105 图 5.1 (a) 纵坐标 0()x n ω改为0()X n ω,(d)同(c)纵坐标 0()x n ω改为0()X n ω13 P107 倒数第五行 “11.8”改为”1.118” 14 P112 倒数第八行 441202πωn Sa n X =)( 改为2201()84n X n Saπω=)()()(02010ωωωn X n X n X -=22112284n n Sa Saππ=- 倒数第4行 )()(01ωn X t x ↔ 改为 0()()x t X n ω↔15 P115 倒数第9行 )()()()(0000ωϕωϕωωn j n j e n X e n X -=- 改为0000()()()()j n j n X n eX n e ϕωϕωωω--=-16 P120 正数第6行 “令n=m +1”改为” 令n m l =+”17 P122 正数第13行⎰⋯+--++-=0000202020223411T dt t t t t t t T ]cos sin cos cos sin cos [ωωωωωω改为22200000001[1cos 4sin cos 32cos 2sin cos ]T t t t t t t dt T ωωωωωω=+++--+⋯⎰18 P124 倒数第8行 0()X n ω-改为0()X n ω19 P132 正数第9行 “当()1x t =时”改为“当0()j tx t e ω=时”20 P133 图5.16 第幅图 坐标 0 改为0ω 21 P137 倒数第2行 )()()()(ωϕωϕωω---=j j e X e X改为()()()()j j X e X e ϕωϕωωω--=-22 P140 倒数第2行 )()()(t x t x t x --=21改为 12()()x t x t =-- 23 P141 第1行 ωωj a aX +=)(1 改为11()X a j ωω=+第5行222ωωωω+-=--+=a j j a aj a a 改为22112j a j a j a ωωωω-=-=+-+ 24 P143 图5.23 (f)中 “2Y ”改为”1/2” (c)(d)中去掉绝对值符号 25 P147 表5.2 第5行 “周期”改为”连续” 26 P150 倒数第2行 )()0()(1)()(112ωδπωωX X j t d t x t X t+−→←=⎰∞-FT改为 2111()()()(0)()tx t x t dt X X j ωπδωω-∞=←−→+⎰FTP151 第1行)()()(ωπτδωττω+=212Sa j t X 改为21()()()2X Sa j ωτωτπτδωω=+ 27 P159 图5.28 21()()cos 2h c y t x t t ω=改为 21()()sin 2h c y t x t t ω= 28 P163 表5.4 最后一行 )(2)(ωπx t X −→←FT改为 ()2()X t x πω←−→-FT29 P185 最后一行 N=3, k=2N+1=7改为 N=6, k=2N+1=13 30 P186 第一行 k=2N=6 改为k=2N=12 31 P188 图6.5(g) 2()X ω改为 ()s X ω 32 P198 [解]中⎩⎨⎧=--=ΩΩ--=Ω∑Ne e eNj N n N k njk 0110001改为0001011jn N N jk nj Nk e eNe Ω-ΩΩ=⎧-==⎨-⎩∑ 33 P218 第10行 0()()()T X X k TX k Nω== 改为02()()()kT T X X k TX k Nπωω=== 34 P229{}242)(1,1,0,0))4(mod ,2(⋅⋅-−−→←=-k jDFTe k X n x π{})1()(,0),1()(,262j j j j +---=改为{}224(2,(mod 4))0,0,1,1()jk DFTx n X k e π-⋅⋅↑-=←−−→{}262,()(1),0,()(1)j j j j ↑=---+34 P280倒数第8行 多了”之间” 35 P287 正数 11行 102()(1)(3)s s k sX s s s s =+==++改为 102()(1)(3)s s k sX s s s =+==++36 P293 [解]中 ()L()i i d t R t dt ++ 改为 ()L ()di t R i t dt+⋅+37 P299 [解]中 第2行 R ()()i dit Le t dt += 改为 ()R i()()di t t L e t dt⋅+=第6行 3101()100()R t tL h t e eu t L --== 改为 3101()()100()R t t Lh t e u t eu t L--== 38 P304 [解]中 第4行21()()zs zs y t y t = 改为21()2()zs zs y t y t = 39 P309 [解]中 第3行 []()()1E t E s El T ⎧⎫⎛⎫=-=⎨⎬ ⎪⎝⎭⎩⎭改为[]()()1t E s eL e T ⎧⎫⎛⎫=-=⎨⎬ ⎪⎝⎭⎩⎭40 P310 图8.35 (d) L2断开应没有其回路.[解]中 第5行 应改为120(55s)()(1010)()I s s I s =-+++ 41 P403 [解]中 第3行 1()()()/()1()()f KH s H s Y s X s KH s H s ==+-改为 11()()()/()1()()f KH s H s Y s X s KH s H s ==+•。