Order bound dual

An element ${\displaystyle g}$  of the order bound dual of ${\displaystyle X}$  is called positive if ${\displaystyle x\geq 0}$  implies ${\displaystyle \operatorname {Re} (f(x))\geq 0.}$  The positive elements of the order bound dual form a cone that induces an ordering on ${\displaystyle X^{\operatorname {b} }}$  called the canonical ordering. If ${\displaystyle X}$  is an ordered vector space whose positive cone ${\displaystyle C}$  is generating (meaning ${\displaystyle X=C-C}$ ) then the order bound dual with the canonical ordering is an ordered vector space.^[1]

The order bound dual of an ordered vector spaces contains its order dual.^[1] If the positive cone of an ordered vector space ${\displaystyle X}$  is generating and if for all positive ${\displaystyle x}$  and ${\displaystyle x}$  we have ${\displaystyle [0,x]+[0,y]=[0,x+y],}$  then the order dual is equal to the order bound dual, which is an order complete vector lattice under its canonical ordering.^[1]

Suppose ${\displaystyle X}$  is a vector lattice and ${\displaystyle f}$  and ${\displaystyle g}$  are order bounded linear forms on ${\displaystyle X.}$  Then for all ${\displaystyle x\in X,}$ ^[1]

1. ${\displaystyle \sup(f,g)(|x|)=\sup\{f(y)+g(z):y\geq 0,z\geq 0,{\text{ and }}y+z=|x|\}}$ 
2. ${\displaystyle \inf(f,g)(|x|)=\inf\{f(y)+g(z):y\geq 0,z\geq 0,{\text{ and }}y+z=|x|\}}$ 
3. ${\displaystyle |f|(|x|)=\sup\{f(y-z):y\geq 0,z\geq 0,{\text{ and }}y+z=|x|\}}$ 
4. ${\displaystyle |f(x)|\leq |f|(|x|)}$ 
5. if ${\displaystyle f\geq 0}$  and ${\displaystyle g\geq 0}$  then ${\displaystyle f}$  and ${\displaystyle g}$  are lattice disjoint if and only if for each ${\displaystyle x\geq 0}$  and real ${\displaystyle r>0,}$  there exists a decomposition ${\displaystyle x=a+b}$  with ${\displaystyle a\geq 0,b\geq 0,{\text{ and }}f(a)+g(b)\leq r.}$ 

• Algebraic dual space – In mathematics, vector space of linear formsPages displaying short descriptions of redirect targets
• Continuous dual space – In mathematics, vector space of linear formsPages displaying short descriptions of redirect targets
• Dual space – In mathematics, vector space of linear forms
• Order dual (functional analysis)

• Narici, Lawrence; Beckenstein, Edward (2011). Topological Vector Spaces. Pure and applied mathematics (Second ed.). Boca Raton, FL: CRC Press. ISBN 978-1584888666. OCLC 144216834.
• Schaefer, Helmut H.; Wolff, Manfred P. (1999). Topological Vector Spaces. GTM. Vol. 8 (Second ed.). New York, NY: Springer New York Imprint Springer. ISBN 978-1-4612-7155-0. OCLC 840278135.