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2. (Тут немного пафосно. Идея Гротендика: восстанавливать "объект" по морфизмам из него; следовательно, структуру на объекте — по структуре на морфизмах из него. Так "нетривиальную" локализацию можно запрятать в "тривиальную" — в ослабление изоморфизма категорий до эквивалентности категорий)
If it is inevitable that enhanced categories are only defined up to an equivalence of some sort, let us at least make this equivalence as easy to control as possible. Then observe that there is another type of controlled localization that is so common and widespread that it usually goes unnoticed by its users: the category Cat of small categories, and the class W of, well, equivalences of categories. In principle, this can be localized by using model category techniques, but this is akin to smelling roses through a gas mask. the answer is actually much simpler, and similar to the homotopy category of chain complexes: objects are small categories, morphisms are isomorphism classes of functors.
Moreover, we can also consider families of small categories indexed by some category I. This is conveniently packaged by the Grothendieck construction of [SGA 1, Exposé 6] into a Grothendieck fibration С→I with small fibers, with morphisms given by functors C→C′ cartesian over I. Then again, localizing with respect to equivalences gives the category with the same objects, and isomorphism classes of cartesian functors as morphisms (for precise definitions, see below Subsection 1.4).
Now, an enhanced category C comes equipped with its underlying usual category h(C), but there is more: for any small category I, we also have the enhanced category C^I of functors I→C, and its underlying usual category h(C^I). Thus we actually have a whole family of categories indexed by Cat. This has been described in [Grothendieck, "Pursuing Stacks"] under the name of a derivator; the question was, is it enough to recover C? Our answer is: with some modifications, yes.
(...The main modification compared to [Grothendieck] is that it is not necessary, nor in fact desirable to index our enhanced categories over the whole Cat – it is sufficient to consider the category Pos+ of left-bounded partially ordered sets.)
2. (Тут немного пафосно. Идея Гротендика: восстанавливать "объект" по морфизмам из него; следовательно, структуру на объекте — по структуре на морфизмах из него. Так "нетривиальную" локализацию можно запрятать в "тривиальную" — в ослабление изоморфизма категорий до эквивалентности категорий)
If it is inevitable that enhanced categories are only defined up to an equivalence of some sort, let us at least make this equivalence as easy to control as possible. Then observe that there is another type of controlled localization that is so common and widespread that it usually goes unnoticed by its users: the category Cat of small categories, and the class W of, well, equivalences of categories. In principle, this can be localized by using model category techniques, but this is akin to smelling roses through a gas mask. the answer is actually much simpler, and similar to the homotopy category of chain complexes: objects are small categories, morphisms are isomorphism classes of functors.
Moreover, we can also consider families of small categories indexed by some category I. This is conveniently packaged by the Grothendieck construction of [SGA 1, Exposé 6] into a Grothendieck fibration С→I with small fibers, with morphisms given by functors C→C′ cartesian over I. Then again, localizing with respect to equivalences gives the category with the same objects, and isomorphism classes of cartesian functors as morphisms (for precise definitions, see below Subsection 1.4).
Now, an enhanced category C comes equipped with its underlying usual category h(C), but there is more: for any small category I, we also have the enhanced category C^I of functors I→C, and its underlying usual category h(C^I). Thus we actually have a whole family of categories indexed by Cat. This has been described in [Grothendieck, "Pursuing Stacks"] under the name of a derivator; the question was, is it enough to recover C? Our answer is: with some modifications, yes.
(...The main modification compared to [Grothendieck] is that it is not necessary, nor in fact desirable to index our enhanced categories over the whole Cat – it is sufficient to consider the category Pos+ of left-bounded partially ordered sets.)
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Telegram has gained a reputation as the “secure” communications app in the post-Soviet states, but whenever you make choices about your digital security, it’s important to start by asking yourself, “What exactly am I securing? And who am I securing it from?” These questions should inform your decisions about whether you are using the right tool or platform for your digital security needs. Telegram is certainly not the most secure messaging app on the market right now. Its security model requires users to place a great deal of trust in Telegram’s ability to protect user data. For some users, this may be good enough for now. For others, it may be wiser to move to a different platform for certain kinds of high-risk communications. As the war in Ukraine rages, the messaging app Telegram has emerged as the go-to place for unfiltered live war updates for both Ukrainian refugees and increasingly isolated Russians alike. Ukrainian forces successfully attacked Russian vehicles in the capital city of Kyiv thanks to a public tip made through the encrypted messaging app Telegram, Ukraine's top law-enforcement agency said on Tuesday. The message was not authentic, with the real Zelenskiy soon denying the claim on his official Telegram channel, but the incident highlighted a major problem: disinformation quickly spreads unchecked on the encrypted app. Right now the digital security needs of Russians and Ukrainians are very different, and they lead to very different caveats about how to mitigate the risks associated with using Telegram. For Ukrainians in Ukraine, whose physical safety is at risk because they are in a war zone, digital security is probably not their highest priority. They may value access to news and communication with their loved ones over making sure that all of their communications are encrypted in such a manner that they are indecipherable to Telegram, its employees, or governments with court orders.
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