[Proj] Meaning of aposphere
Clifford J Mugnier
cjmce at lsu.edu
Thu Apr 28 07:02:33 PDT 2011
I've read Hotine's series in Empire Survey Review. I tell my students that his Aposphere is shaped like a turnip.
Clifford J. Mugnier, C.P., C.M.S.
Chief of Geodesy,
Center for GeoInformatics
Department of Civil Engineering
Patrick F. Taylor Hall 3223A
LOUISIANA STATE UNIVERSITY
Baton Rouge, LA 70803
Voice and Facsimile: (225) 578-8536 [Academic]
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Honorary Life Member of the
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Member of the Americas Petroleum Survey Group
________________________________
From: proj-bounces at lists.maptools.org on behalf of Charles Karney
Sent: Thu 28-Apr-11 06:35
To: PROJ.4 and general Projections Discussions
Cc: Hilmy Hashim
Subject: Re: [Proj] Meaning of aposphere
Well, I puzzled by how an aposphere could be different from a sphere.
However there are surfaces with constant curvature which are not
spheres. I think if you impose additional conditions, e.g., that the
surface is closed and nowhere singular you end up with a sphere. A
simple example of a non-spherical surface is what you get if you
partially folded up a swimming cap. A tractrix rotated about its
aymptote gives you a surface of constant negative curvature. I'm
uncertain whether any of these are really needed to develop map
projections.
For pictures see Eisenhardt (1909), Chap 8, Figs. 26-30:
http://books.google.com/books?id=hkENAAAAYAAJ&pg=PA270
On 04/28/11 07:20, Mikael Rittri wrote:
> Yes, I understand that the aposphere is some kind
> of intermediate surface.
>
> But it's the phrase "sphere of constant total curvature"
> that bothers me. Most people who describes the Hotine cites
> this phrase; I think it's from Snyder. I tried to look up
> "total curvature", and if I remember rightly, it has at least
> two meanings:
> In one meaning, every surface that is topologically equivalent
> to a sphere has the same total curvature (4*pi or something like
> that). That's probably not what Snyder meant...
> In another meaning, total curvature refers to Gaussian curvature
> at a point of a surface. But in this meaning, every sphere has
> constant total curvature, so the aposphere seems to be a sphere,
> no more and no less. So, how does it differ from the Gaussian
> sphere that is used in some other projections, like Swiss Oblique
> Mercator, Krovak, and Oblique Sterographic?
> Or are there other surfaces than spheres that can have a constant
> Gaussian curvature at every point? (I think there is some trumpet-shaped
> surface that has constant Gaussian curvature, but curvature like a saddle;
> is that positive or negative curvature? But apart from that.)
>
> Well, I shouldn't complain but try to read Hotine's original paper,
> but rumors say it's very dense and difficult to follow. I suspect
> I wouldn't understand it.
>
> But if someone knows a snappy explanation of the aposphere...?
> Just curious,
>
> Mikael Rittri
--
Charles Karney <charles.karney at sri.com>
SRI International, Princeton, NJ 08543-5300
Tel: +1 609 734 2312
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