Definition talk:Local Basis

The set $\mathcal B$ doesn't need to be formed of open sets. --Dan232 16:21, 23 August 2011 (CDT)


 * Argh! This is doing my head in! Steen & Seebach specifically state that the sets have to be open.


 * This is sort-of backed up by Wolfram (which is actually a bit thin on topology). Wikipedia appears to favour the definition you mention.


 * PlanetMath is more complicated: "a local basis is a family of neighborhoods such that every neighborhood of x contains a member of the family." But then you look up "neighborhood" and it says : "The meaning of the word neighborhood in topology is not well standardized. For most authors, a neighborhood of a point x in a topological space X is an open subset U of X which contains x." and then: "More generally, a neighborhood of any subset S of X is defined to be an open set of X containing S". PlanetMath's grammar is less than perfect and it's difficult to tell exactly how the statements are independent (i.e. that there's a full stop missing) or are dependent (and what's missing is an "and" or "but" etc).


 * Some sources say one thing, some say another. I can't find a source which uses one definition but also acknowledges the existence of the other definition.


 * I understand you seem to be very positive and are certain of your knowledge ( wish I was clever enough to know I was in no doubt ) but this is getting us deeper into muddy waters of so many different concepts with different definitions.


 * Either there is "one true way, and all unbelievers are heretics", or there are several different approaches, each of which gives rise to its own system of theorems. Until we can be sure of that, we can't begin to say "This is right, that is wrong."


 * In my favour, I have a book in front of me in which the system of results is (apart from a few actual mistakes I've found) self-consistent. In your favour, you have a website nLab in front of you, which uses a completely different system of definitions for local properties, but I haven't had a chance to study it yet in any detail to be able to comment.


 * Come to think of it, are we even sure that a local basis (as defined here, all sets need to be open for it to apply) and a neighborhood base (as you use the term, with no requirement that the sets be open) are the same thing in the first place? --prime mover 16:51, 23 August 2011 (CDT)


 * I know that there are different definitions, I'm sorry if my statements are too strong (that's because English is not my native lenguage). Your definition here is too restrictive because, as you asked, all sets must be open for it to apply, and I guess that it is old-fashioned. I think that it is old-fashion because the newer definitions, are usually more general. I checked planetmath, and it uses the same definition as wikipedia. I don't want to tell you what to do and how to do it, so do whatever you think is best.


 * The function of a local basis is to recover all neighbourhoods from the ones forming the local basis, that is why it is not requiered to be open in some books.


 * Yes, local basis and neighbourhood basis are the same thing.--Dan232 17:16, 23 August 2011 (CDT)


 * I'm not sure PlanetMath does use the same definition as wikipedia. When I checked (see what I posted above), it says:


 * "a local basis is a family of neighborhoods such that every neighborhood of x contains a member of the family."


 * ... and then on the page for "neighborhood":
 * "The meaning of the word neighborhood in topology is not well standardized. For most authors, a neighborhood of a point x in a topological space X is an open subset U of X which contains x." And it then goes on to say that if not specified on any page on PlanetMath, it uses the term "neighborhood" to mean "open neighborhood".
 * From which I understand it their definition to mean a family of open neighborhoods.


 * My problem is that if there are two definitions throughout the literature for the same thing, then it is going to be difficult to reconcile them. And the trouble with that is, I don't know what to do, at the moment. Let me think about it some more. --prime mover 00:43, 24 August 2011 (CDT)


 * Let me put in that the definition of Definition:Locally Compact does not make much sense at the moment, since compact, open sets tend to be... rare. --Lord_Farin (talk) 14:32, 6 October 2012 (UTC)