Positive cone
A subset 
of a real vector space 
satisfying the following conditions:
1) if 
and 
, then 
;
2) 
.
A positive cone defines a pre-order in 
by putting 
if 
. (This pre-order is compatible with the vector space operations.)
Let 
be a Banach space. The cone 
is a closed reproducing positive cone if for all 
there are 
such that 
. In that case there is a constant 
independent of 
such that there always exist 
such that 
with 
. A solid positive cone, i.e. one having interior points, is reproducing.
Let 
be the dual of the Banach space 
. If 
is a closed reproducing positive cone, then the set 
of positive functionals (with respect to the positive cone, i.e. those 
such that 
for 
) is also a positive cone (this is the so-called conjugate cone). The positive cone 
can be recovered from 
, namely:
 |
If 
is a solid positive cone, then its interior coincides with
 |
A cone in the Banach space 
is called normal if one can find a 
so that 
for 
. A positive cone is normal if and only if the conjugate cone 
is reproducing. If 
is a reproducing cone, then the conjugate cone 
is normal.
A cone 
is called a lattice cone if each pair of elements 
has a least upper bound 
, i.e. 
and for any 
it follows from 
that 
. If a positive cone is regular and lattice, then any countable bounded subset has a least upper bound.
References
| [1] | M.A. Krasnosel'skii, "Positive solutions of operator equations" , Wolters-Noordhoff (1964) (Translated from Russian) |
Comments
References
| [a1] | H.H. Schaefer, "Banach lattices and positive operators" , Springer (1974) |
| [a2] | A.C. Zaanen, W. Luxemburg, "Riesz spaces" , I , North-Holland (1983) |
Positive cone. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Positive_cone&oldid=48252