This shows you the differences between two versions of the page.
Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
lectures:books:rga [2014/04/05 13:40] – izemek | lectures:books:rga [2020/09/01 12:20] (current) – krivka | ||
---|---|---|---|
Line 85: | Line 85: | ||
* Ordered by appearance in the text. | * Ordered by appearance in the text. | ||
- | * Last updated on TBA. | + | * Last updated on 2017-05-03. |
* Send additional errors and comments to: [[meduna@fit.vutbr.cz? | * Send additional errors and comments to: [[meduna@fit.vutbr.cz? | ||
- | ==== The List of Errors ==== | + | ==== List of Errors ==== |
- | * - | + | * Page 21, Chapter 3 (Rudiments of Formal Language Theory), Section 3.3 (Grammars) |
+ | * In Definition 3.3.1, instead of //x = x_1ux_2, y = y_1vy_2//, there should be //x = x_1ux_2, y = x_1vx_2//. The subsequent occurrences of //y_1// and //y_2// should be removed from the definition. | ||
+ | * Reported 2017-05-02 by Radek Vít of Brno University of Technology. | ||
+ | |||
+ | * Page 511, Chapter 15 (Self-Regulating Automata), Section 15.1.1 (Definitions and Examples) | ||
+ | * In Definition 15.1.2, instead of "j = 0, 1, ..., n", there should be "j = 0, 1, ..., n-1" | ||
+ | * Reported 2018-11-06 by Roman Andriushchenko of Brno University of Technology. | ||
+ | |||
+ | * Page 511, Chapter 15 (Self-Regulating Automata), Section 15.1.1 (Definitions and Examples) | ||
+ | * In Example 15.1.3, 1-first-SFA //M// does not accept //ab//, so //L(M)// should be //{a^n b^n | n > 1}//. Note that we get original //L(M)// by adding //(2,3)// into the last component of //M//. | ||
+ | * Reported 2018-11-06 by Roman Andriushchenko of Brno University of Technology. | ||
+ | |||
+ | * Page 576, Chapter 17 (Jumping Finite Automata), Section 17.4 (Closure Properties) | ||
+ | * Theorem 17.4.15 does not hold. For example, language //L = {a}*// belongs to **GJFA**, but //K = {bc}*// does not belong to **GJFA**. Language //K// is obtained from //L// by a finite substitution that maps //a// to //bc//. | ||
+ | * Reported 2015-03-16 by Vojtěch Vorel of the Charles University. | ||
+ | |||
+ | * Page 576, Chapter 17 (Jumping Finite Automata), Section 17.4 (Closure Properties) | ||
+ | * Corollary 17.4.16 does not hold. This fact follows from the above example (notice that the finite substitution in there is, in fact, a homomorphism). | ||
+ | * Reported 2015-03-16 by Vojtěch Vorel of the Charles University. | ||
+ | |||
+ | * Page 577, Chapter 17 (Jumping Finite Automata), Section 17.4 (Closure Properties) | ||
+ | * Theorem 17.4.19 does not hold for **GJFA**. A GJFA //M// and a homomorphism //h// can be constructed so that // | ||
+ | * Reported 2015-03-16 by Vojtěch Vorel of the Charles University. | ||
+ | |||
+ | ---- | ||
+ | |||
+ | The authors' | ||
===== Springer Website ===== | ===== Springer Website ===== | ||
- | To buy the book, [[http:// | + | To buy the book, [[http:// |
+ | ==== Statistics ==== | ||
+ | ^Year^Downloaded Chapters^ | ||
+ | |2014|3003| | ||
+ | |2015|2150| | ||
+ | |2016|2414| | ||
+ | |2017|2259| | ||
+ | |2018|1487| | ||
+ | |2019|1737| | ||
+ | |2020-Q1 and Q2|808| |