Translation and analysis of words by ChatGPT artificial intelligence
On this page you can get a detailed analysis of a word or phrase, produced by the best artificial intelligence technology to date:
- how the word is used
- frequency of use
- it is used more often in oral or written speech
- word translation options
- usage examples (several phrases with translation)
- etymology
hair"s breadth - translation to greek
![BFS on [[Maze-solving algorithm]]](https://commons.wikimedia.org/wiki/Special:FilePath/BFS-Algorithm Search Way.gif?width=200 "BFS on [[Maze-solving algorithm]]")
![Top part of [[Tic-tac-toe]] game tree](https://commons.wikimedia.org/wiki/Special:FilePath/Tic-tac-toe-game-tree.svg?width=200 "Top part of [[Tic-tac-toe]] game tree")
![A [[woman]] dyeing her [[hair]].](https://commons.wikimedia.org/wiki/Special:FilePath/Hårfärgning - 2007.jpg?width=200 "A [[woman]] dyeing her [[hair]].")
![Lafayette]] in 1830, aged 73, with pitch-black hair (painting by [[Louise-Adéone Drölling]]).](https://commons.wikimedia.org/wiki/Special:FilePath/Louise-Adéone Drolling dite Madame Joubert - Portrait du général de Lafayette dans le parc du château de La Grange-Bléneau.jpg?width=200 "Lafayette]] in 1830, aged 73, with pitch-black hair (painting by [[Louise-Adéone Drölling]]).")
![Actress [[Margot Robbie]] with bleached blond hair](https://commons.wikimedia.org/wiki/Special:FilePath/SDCC 2015 - Viola Davis, David Ayer & Margot Robbie (19522425899) (cropped).jpg?width=200 "Actress [[Margot Robbie]] with bleached blond hair")
 in a hairdresser shop in Germany (2023).jpg?width=200 "Shelf with a great number of different hair colours, each having a colour code printed on the packaging, at a hairdresser in Germany")
.jpg?width=200)
![Papuan]] women with afro hair](https://commons.wikimedia.org/wiki/Special:FilePath/Friends2.jpg?width=200 "Papuan]] women with afro hair")
Definition
Wikipedia
Breadth-first search (BFS) is an algorithm for searching a tree data structure for a node that satisfies a given property. It starts at the tree root and explores all nodes at the present depth prior to moving on to the nodes at the next depth level. Extra memory, usually a queue, is needed to keep track of the child nodes that were encountered but not yet explored.
For example, in a chess endgame a chess engine may build the game tree from the current position by applying all possible moves, and use breadth-first search to find a win position for white. Implicit trees (such as game trees or other problem-solving trees) may be of infinite size; breadth-first search is guaranteed to find a solution node if one exists.
In contrast, (plain) depth-first search, which explores the node branch as far as possible before backtracking and expanding other nodes, may get lost in an infinite branch and never make it to the solution node. Iterative deepening depth-first search avoids the latter drawback at the price of exploring the tree's top parts over and over again. On the other hand, both depth-first algorithms get along without extra memory.
Breadth-first search can be generalized to graphs, when the start node (sometimes referred to as a 'search key') is explicitly given, and precautions are taken against following a vertex twice.
BFS and its application in finding connected components of graphs were invented in 1945 by Konrad Zuse, in his (rejected) Ph.D. thesis on the Plankalkül programming language, but this was not published until 1972. It was reinvented in 1959 by Edward F. Moore, who used it to find the shortest path out of a maze, and later developed by C. Y. Lee into a wire routing algorithm (published 1961).
