Difference between revisions of "Modern Robotics Errata"

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=== Chapter 3 ===
=== Chapter 3 ===


* (printed version only) At the end of the introduction Exercise 3.16, it says "origin of {b} is at (0,2,0) is {s}" but "is {s}" should be "in {s}".
* (printed version only) At the end of the introduction Exercise 3.16, it says "origin of {b} is at (0,2,0) is {s}", but "is {s}" should be "in {s}".
* Exercise 3.20, Figure 3.26: In the figure, the y and z axes for the {a}, {b}, and {c} frames are switched (y should point forward and z should point up). Also, the space frame is located at the bottom of the small wheel, directly below the {a} frame.
* Exercise 3.20, Figure 3.26: In the figure, the y and z axes for the {a}, {b}, and {c} frames are switched (y should point forward and z should point up). Also, the space frame is located at the bottom of the small wheel, directly below the {a} frame.
* (printed version only) Exercise 3.25(a): the element in the third row and third column of the matrix <math>A</math> should be 0 (it is incorrectly written as 1).'''
* (printed version only) Exercise 3.25(a): the element in the third row and third column of the matrix <math>A</math> should be 0. (It is incorrectly written as 1.)'''


=== Chapter 4 ===
=== Chapter 4 ===


* Exercise 4.21: The question should begin "For each <math>T</math> below..." (instead of "For each <math>T \in SE(3)</math> below...") since the first part of the problem is determining whether <math>T</math> is indeed an element of <math>SE(3)</math>.
* Exercise 4.21: The question should begin "For each <math>T</math> below..." instead of "For each <math>T \in SE(3)</math> below...". (Since the first part of the problem is determining whether <math>T</math> is indeed an element of <math>SE(3)</math>.)


=== Chapter 8 ===
=== Chapter 8 ===
Line 23: Line 23:
=== Chapter 10 ===
=== Chapter 10 ===


* Second displayed equation of Chapter 10.6.3 (Workspace Potential): As it is written, this equation (which involves a partial derivative with respect to the robot's configuration <math>q</math>) already gives the repulsive generalized force <math>F_{ij}(q)</math>, i.e., the Jacobian is already embedded, obviating the subsequent development. To fit the rest of the development, the partial derivative in this equation should be with respect to <math>f_i(q)</math>. So the equation should read
* Second displayed equation of Chapter 10.6.3 (Workspace Potential): As it is written, this equation (which involves a partial derivative with respect to the robot's configuration <math>q</math>) already gives the repulsive generalized force <math>F_{ij}(q)</math>, i.e., the Jacobian is already embedded, obviating the subsequent development. To fit the rest of the development, the partial derivative in this equation should be with respect to <math>f_i(q)</math>. So the equation should read:
<math>
<math>
F^\prime_{ij}(q) = -\frac{\partial P^\prime_{ij}}{\partial f_i(q)} = \frac{k}{\|f_i(q) - c_j\|^4} (f_i(q) - c_j) \in \mathbb{R}^3.
F^\prime_{ij}(q) = -\frac{\partial P^\prime_{ij}}{\partial f_i(q)} = \frac{k}{\|f_i(q) - c_j\|^4} (f_i(q) - c_j) \in \mathbb{R}^3.
</math>
</math>



=== Chapter 11 ===
=== Chapter 11 ===


* The one-sentence paragraph near the beginning of Chapter 11.3.3, after Equation (11.16), says that the diagonal gain matrices take the form <math>k_p I</math> and <math>k_i I</math>. But the units for a twist are different (first three units are angular velocities, last three units are linear velocities). So you may wish to use one positive value for the top three elements on the diagonal and a different positive value for the bottom three elements on the diagonal. Whatever you choose, the gain matrices should be positive definite.
* The one-sentence paragraph near the beginning of Chapter 11.3.3, after Equation (11.16): Change "As in Section 11.3.2 ... where <math>k_p, k_i > 0</math>." to "The diagonal entries of the diagonal gain matrices <math>K_p, K_i \in \mathbb{R}^{6 \times 6}</math> should be positive." (Currently it says that these matrices shold have the form <math>k_p I</math> and <math>k_i I</math>, but the units for a twist are different [first three units are angular velocities, last three units are linear velocities]. So you may wish to use one positive value for the top three elements on the diagonal and a different positive value for the bottom three elements on the diagonal.)
* Chapter 11.5, Equations (11.52) and (11.53) (and nearby text): The term <math>K_{fp}</math> in Equations (11.52) and (11.53) should be <math>(K_{fp}+I)</math>, where <math>I</math> is the identity matrix. In the text immediately after Equation (11.51), the term "positive-definite" should be eliminated. In the text immediately after Equation (11.53), <math>K_{fp}</math> should be replaced by <math>(K_{fp}+I)</math>.
* Chapter 11.5, Equations (11.52) and (11.53) (and nearby text): The term <math>K_{fp}</math> in Equations (11.52) and (11.53) should be <math>(K_{fp}+I)</math>. (<math>I</math> is the identity matrix.) In the text immediately after Equation (11.51), the term "positive-definite" should be eliminated. In the text immediately after Equation (11.53), <math>K_{fp}</math> should be replaced by <math>(K_{fp}+I)</math>.


== Updated first edition: Minor typos, etc., no danger of misunderstanding ([[Modern Robotics Errata, First Edition Version 1|Errata for original first edition here]]) ==
== Updated first edition: Minor typos, etc., no danger of misunderstanding ([[Modern Robotics Errata, First Edition Version 1|Errata for original first edition here]]) ==
Line 38: Line 37:
=== Throughout the book ===
=== Throughout the book ===


* The V-REP simulator has been discontinued and replaced by the [https://www.coppeliarobotics.com/ CoppeliaSim] simulator. This does not change anything in the book (or the simulation scenes provided to accompany the book).
* The V-REP simulator has been discontinued and replaced by the [https://www.coppeliarobotics.com/ CoppeliaSim] simulator. This does not change anything in the book (or the simulation scenes provided to accompany the book). Replace every instance of "V-REP" with "CoppeliaSim." There is one reference to V-REP in the Preface and one in Figure 1.1; those may be the only uses.


=== Chapter 2 ===
=== Chapter 2 ===


* Figure 2.9 (left): bold segment of the line should not extend beyond the closing parenthesis at b.
* Figure 2.9 (left): the bold segment of the line should not extend beyond the closing parenthesis at b.


=== Chapter 3 ===
=== Chapter 3 ===
Line 79: Line 78:
[w1×w2] = [w1][w2] - [w2][w1]
[w1×w2] = [w1][w2] - [w2][w1]
for use in the derivation of Eq (8.23) between lines 3 and 4.
for use in the derivation of Eq (8.23) between lines 3 and 4.

[[Modern Robotics Print-Only Errata|Temporary Print-Only Errata]]

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Latest revision as of 01:27, 25 June 2024

The errata below are for the updated first edition of Modern Robotics (as well as the practice exercises and linear algebra refresher appendix). The updated first edition (also called "version 2") was originally published by Cambridge University Press in late 2019 (marked "3rd printing 2019" or later) and the corresponding online preprint is dated December 2019. The updated first edition includes several corrections and minor additions to the original first edition, which was originally published by Cambridge in May 2017, with a corresponding online preprint dated May 2017.

The errata for the original first edition can be found here.

Please click here to report any corrections for the updated first edition of the book, the practice exercises, or the linear algebra refresher appendix.

Updated first edition: Significant corrections (Errata for original first edition here)

Chapter 3

  • (printed version only) At the end of the introduction Exercise 3.16, it says "origin of {b} is at (0,2,0) is {s}", but "is {s}" should be "in {s}".
  • Exercise 3.20, Figure 3.26: In the figure, the y and z axes for the {a}, {b}, and {c} frames are switched (y should point forward and z should point up). Also, the space frame is located at the bottom of the small wheel, directly below the {a} frame.
  • (printed version only) Exercise 3.25(a): the element in the third row and third column of the matrix should be 0. (It is incorrectly written as 1.)

Chapter 4

  • Exercise 4.21: The question should begin "For each below..." instead of "For each below...". (Since the first part of the problem is determining whether is indeed an element of .)

Chapter 8

  • (printed version only) Equation (8.74): the first two plus signs should be minus signs.

Chapter 10

  • Second displayed equation of Chapter 10.6.3 (Workspace Potential): As it is written, this equation (which involves a partial derivative with respect to the robot's configuration ) already gives the repulsive generalized force , i.e., the Jacobian is already embedded, obviating the subsequent development. To fit the rest of the development, the partial derivative in this equation should be with respect to . So the equation should read:

Chapter 11

  • The one-sentence paragraph near the beginning of Chapter 11.3.3, after Equation (11.16): Change "As in Section 11.3.2 ... where ." to "The diagonal entries of the diagonal gain matrices should be positive." (Currently it says that these matrices shold have the form and , but the units for a twist are different [first three units are angular velocities, last three units are linear velocities]. So you may wish to use one positive value for the top three elements on the diagonal and a different positive value for the bottom three elements on the diagonal.)
  • Chapter 11.5, Equations (11.52) and (11.53) (and nearby text): The term in Equations (11.52) and (11.53) should be . ( is the identity matrix.) In the text immediately after Equation (11.51), the term "positive-definite" should be eliminated. In the text immediately after Equation (11.53), should be replaced by .

Updated first edition: Minor typos, etc., no danger of misunderstanding (Errata for original first edition here)

Throughout the book

  • The V-REP simulator has been discontinued and replaced by the CoppeliaSim simulator. This does not change anything in the book (or the simulation scenes provided to accompany the book). Replace every instance of "V-REP" with "CoppeliaSim." There is one reference to V-REP in the Preface and one in Figure 1.1; those may be the only uses.

Chapter 2

  • Figure 2.9 (left): the bold segment of the line should not extend beyond the closing parenthesis at b.

Chapter 3

  • Proposition 3.10: "satisifies" should be "satisfies"

Chapter 5

  • Chapter 5.3, Case V: For maximum clarity, the title should be "Case V: Six Revolute Joint Axes Intersecting a Common Line." Similarly, fifth bullet of Chapter 5.5: item (v) on the list should say "six revolute joint axes intersecting..." instead of just "six revolute joints intersecting..."

Chapter 6

  • (printed version only) Chapter 6.2.2, Example 6.1: just before the matrix , "corresponds to to" should be "corresponds to."
  • (printed version only) Chapter 6.3, first sentence after Equation (6.7): "however small" should be written "however, small" to avoid ambiguity.

Chapter 8

  • First bullet of Chapter 8.10: In the displayed equation, the math italic should be in the calligraphic font , for the Lagrangian.

Chapter 11

  • (online version only) Chapter 11.3.3: The sentence containing Equation (11.18) is missing a period at the end.

Chapter 13

  • In Equation (13.37), and twice in the following sentence, should be .

A partial list of errata contributors

Thanks to the following people who provided corrections, starting from the preliminary version of the book posted in October, 2016:

H. Andy Nam, Eric Lee, Yuchen Rao, Chainatee Tanakulrongson, Mengjiao Hong, Kevin Cheng, Jens Lundell, Elton Cheng, Michael Young, Jarvis Schultz, Logan Springgate, Sofya Akhmametyeva, Aykut Onol, Josh Holcomb, Yue Chen, Mark Shi, AJ Ibraheem, Yalun Wen, Seongjae Jeong, Josh Mehling, Felix Wang, Drew Warren, Chris Miller, Clemens Eppner, Zack Woodruff, Jian Shi, Jixiang Zhang, Shachar Liberman, Will Wu, Dirk Boysen, Awe Wang, Ville Kyrki, John Troll, Andrew Taylor, Nikhil Bakshi, Yunzhe Pan, Barrett Ames, Marcel Bonnici, Mahdiar Edraki, Jay Li, Jose Capco, Chen Wang, Wellington Castro