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<blockquote style="position: relative; padding-left: 55px;"><section><a href="https://pl.absolutelyproprietary.org/objects/e509f83e-688d-482d-ab91-dd682e06ab2e">pwm (pwm@pl.absolutelyproprietary.org)'s status on Sunday, 29-Sep-2024 12:02:56 JST</a><a href="https://pl.absolutelyproprietary.org/users/pwm" title="pwm@pl.absolutelyproprietary.org"><img src="https://gnusocial.jp/avatar/273865-48-20240730203054.webp" width="48" height="48" alt="pwm" style="position: absolute; left: 0; top: 0;">pwm</a><div><a href="https://seal.cafe/objects/5e391f3d-8962-45e0-9a89-f3758a5e3a50" rel="in-reply-to">in reply to</a><ul><li><li><a href="https://gnusocial.jp/user/108943" title="tony@clew.lol">Mr. Bacon</a></li><li><a href="https://gnusocial.jp/user/253065" title="junes@clubcyberia.co">Junes</a></li><li><a href="https://gnusocial.jp/user/253389" title="eldeadkennedy@shitposter.world">DulceKennedy</a></li><li><a href="https://gnusocial.jp/user/273617" title="0">0</a></li></ul></div></section><article><a href="https://seal.cafe/users/bot">@bot</a> <a href="https://clew.lol/users/Tony">@Tony</a> <a href="https://clubcyberia.co/users/Junes">@Junes</a> <a href="https://pl.absolutelyproprietary.org/users/0">@0</a> <a href="https://shitposter.world/users/ElDeadKennedy">@ElDeadKennedy</a> the travelling salesman problem is a quintessential one<br><a href="https://en.m.wikipedia.org/wiki/Traveling_salesman_problem">https://en.m.wikipedia.org/wiki/Traveling_salesman_problem</a></article><footer><a rel="bookmark" href="https://gnusocial.jp/conversation/3740260#notice-7331972">In conversation</a><time datetime="2024-09-29T12:02:56+09:00" title="Sunday, 29-Sep-2024 12:02:56 JST">about 2 months ago</time> <span>from <span><a href="https://pl.absolutelyproprietary.org/objects/e509f83e-688d-482d-ab91-dd682e06ab2e" rel="external" title="Sent from pl.absolutelyproprietary.org via ActivityPub">pl.absolutelyproprietary.org</a></span></span><a href="https://pl.absolutelyproprietary.org/objects/e509f83e-688d-482d-ab91-dd682e06ab2e">permalink</a><h4>Attachments</h4><ol><li><article><header><div>Domain not in remote thumbnail source whitelist: upload.wikimedia.org</div><h5><a href="https://en.m.wikipedia.org/wiki/Traveling_salesman_problem">Travelling salesman problem</a></h5><div></div></header><div>The travelling salesman problem, also known as the travelling salesperson problem (TSP), asks the following question: "Given a list of cities and the distances between each pair of cities, what is the shortest possible route that visits each city exactly once and returns to the origin city?" It is an NP-hard problem in combinatorial optimization, important in theoretical computer science and operations research.
The travelling purchaser problem, the vehicle routing problem and the ring star problem are three generalizations of TSP.
In the theory of computational complexity, the decision version of the TSP (where given a length L, the task is to decide whether the graph has a tour whose length is at most L) belongs to the class of NP-complete problems. Thus, it is possible that the worst-case running time for any algorithm for the TSP increases superpolynomially (but no more than exponentially) with the number of cities.
The problem was first formulated in 1930 and is one of the most intensively studied problems in optimization. It is used as a benchmark for many optimization methods. Even though...</div><footer></footer></article></li></ol></footer></blockquote>

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pwm (pwm@pl.absolutelyproprietary.org)'s status on Sunday, 29-Sep-2024 12:02:56 JSTpwm
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@bot @Tony @Junes @0 @ElDeadKennedy the travelling salesman problem is a quintessential one
https://en.m.wikipedia.org/wiki/Traveling_salesman_problem
In conversationabout 2 months ago from pl.absolutelyproprietary.orgpermalink
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  Travelling salesman problem
  The travelling salesman problem, also known as the travelling salesperson problem (TSP), asks the following question: "Given a list of cities and the distances between each pair of cities, what is the shortest possible route that visits each city exactly once and returns to the origin city?" It is an NP-hard problem in combinatorial optimization, important in theoretical computer science and operations research. The travelling purchaser problem, the vehicle routing problem and the ring star problem are three generalizations of TSP. In the theory of computational complexity, the decision version of the TSP (where given a length L, the task is to decide whether the graph has a tour whose length is at most L) belongs to the class of NP-complete problems. Thus, it is possible that the worst-case running time for any algorithm for the TSP increases superpolynomially (but no more than exponentially) with the number of cities. The problem was first formulated in 1930 and is one of the most intensively studied problems in optimization. It is used as a benchmark for many optimization methods. Even though...

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