Algorithmic Puzzles

Algorithmic Puzzles is a book of puzzles based on computational thinking. It was written by computer scientists Anany and Maria Levitin, and published in 2011 by Oxford University Press.

Topics[edit]

The book begins with a "tutorial" introducing classical algorithm design techniques including backtracking, divide-and-conquer algorithms, and dynamic programming, methods for the analysis of algorithms, and their application in example puzzles.^[1]^[2] The puzzles themselves are grouped into three sets of 50 puzzles, in increasing order of difficulty. A final two chapters provide brief hints and more detailed solutions to the puzzles,^[2] with the solutions forming the majority of pages of the book.^[3]

Some of the puzzles are well known classics, some are variations of known puzzles making them more algorithmic, and some are new.^[4] They include:

Puzzles involving chessboards, including the eight queens puzzle, knight's tours, and the mutilated chessboard problem^[1]^[3]^[4]
Balance puzzles^[3]
River crossing puzzles^[3]^[4]
The Tower of Hanoi^[4]
Finding the missing element in a data stream^[1]
The geometric median problem for Manhattan distance^[1]

Audience and reception[edit]

The puzzles in the book cover a wide range of difficulty, and in general do not require more than a high school level of mathematical background.^[3] William Gasarch notes that grouping the puzzles only by their difficulty and not by their themes is actually an advantage, as it provides readers with fewer clues about their solutions.^[1]

Reviewer Narayanan Narayanan recommends the book to any puzzle aficionado, or to anyone who wants to develop their powers of algorithmic thinking.^[4] Reviewer Martin Griffiths suggests another group of readers, schoolteachers and university instructors in search of examples to illustrate the power of algorithmic thinking.^[3] Gasarch recommends the book to any computer scientist, evaluating it as "a delight".^[1]

References[edit]

^ ^a ^b ^c ^d ^e ^f Gasarch, William (December 2013), "Review of Algorithmic Puzzles" (PDF), ACM SIGACT News, 44 (4): 47–48, doi:10.1145/2556663.2556674
^ ^a ^b Rosebrock, Stephan, "Review of Algorithmic Puzzles", zbMATH, Zbl 1233.00005
^ ^a ^b ^c ^d ^e ^f Griffiths, Martin (March 2014), "Review of Algorithmic Puzzles", The Mathematical Gazette, 98 (541): 188, JSTOR 24496640
^ ^a ^b ^c ^d ^e Narayanan, Narayanan (2012), "Review of Algorithmic Puzzles", Mathematical Reviews, MR 2866446

[gasarch-1] ^ ^a ^b ^c ^d ^e ^f Gasarch, William (December 2013), "Review of Algorithmic Puzzles" (PDF), ACM SIGACT News, 44 (4): 47–48, doi:10.1145/2556663.2556674

[rosebrock-2] Rosebrock, Stephan, "Review of Algorithmic Puzzles", zbMATH, Zbl 1233.00005

[griffiths-3] ^ ^a ^b ^c ^d ^e ^f Griffiths, Martin (March 2014), "Review of Algorithmic Puzzles", The Mathematical Gazette, 98 (541): 188, JSTOR 24496640

[narayanan-4] Narayanan, Narayanan (2012), "Review of Algorithmic Puzzles", Mathematical Reviews, MR 2866446

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