Idom.setCSstd.tri: The indicator for the set of points 'S' being a dominating...
In pcds: Proximity Catch Digraphs and Their Applications
Idom.setCSstd.tri R Documentation
The indicator for the set of points S being a dominating set or not for Central Similarity Proximity
Catch Digraphs (CS-PCDs) - standard equilateral triangle case
Description
Returns I(S a dominating set of the CS-PCD) where the vertices of the CS-PCD are the data set Xp), that is,
returns 1 if S is a dominating set of CS-PCD, returns 0 otherwise.
CS proximity region is constructed
with respect to the standard equilateral triangle T_e=T(A,B,C)=T((0,0),(1,0),(1/2,\sqrt{3}/2)) with
expansion parameter t>0 and edge regions are based on the center M=(m_1,m_2)
in Cartesian coordinates or M=(\alpha,\beta,\gamma) in barycentric coordinates in the interior of T_e;
default is M=(1,1,1) i.e., the center of mass of T_e (which is equivalent to the circumcenter of T_e).
Edges of T_e, AB, BC, AC, are also labeled as 3, 1, and 2, respectively.
See also (\insertCiteceyhan:mcap2012;textualpcds).
Usage
Idom.setCSstd.tri(S, Xp, t, M = c(1, 1, 1))
Arguments
S
A set of 2D points which is to be tested for being a dominating set for the CS-PCDs.
Xp
A set of 2D points which constitute the vertices of the CS-PCD.
t
A positive real number which serves as the expansion parameter in CS proximity region in the
standard equilateral triangle T_e=T((0,0),(1,0),(1/2,\sqrt{3}/2)).
M
A 2D point in Cartesian coordinates or a 3D point in barycentric coordinates
which serves as a center in the interior of the standard equilateral triangle T_e; default is M=(1,1,1) i.e.
the center of mass of T_e.
Value
I(S a dominating set of the CS-PCD), that is, returns 1 if S is a dominating set of CS-PCD,
returns 0 otherwise, where CS proximity region is constructed in the standard equilateral triangle T_e
Author(s)
Elvan Ceyhan
References
\insertAllCited
See Also
Idom.setCStri and Idom.setPEstd.tri
Examples
A<-c(0,0); B<-c(1,0); C<-c(1/2,sqrt(3)/2);
Te<-rbind(A,B,C);
n<-10
set.seed(1)
Xp<-runif.std.tri(n)$gen.points
M<-as.numeric(runif.std.tri(1)$g) #try also M<-c(.6,.2)
t<-.5
S<-rbind(Xp[1,],Xp[2,])
Idom.setCSstd.tri(S,Xp,t,M)
S<-rbind(Xp[1,],Xp[2,],Xp[3,],Xp[5,])
Idom.setCSstd.tri(S,Xp,t,M)
pcds documentation built on May 29, 2024, 9:36 a.m.
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| Idom.setCSstd.tri | R Documentation |
The indicator for the set of points S being a dominating set or not for Central Similarity Proximity
Catch Digraphs (CS-PCDs) - standard equilateral triangle case
Description
Returns I(S a dominating set of the CS-PCD) where the vertices of the CS-PCD are the data set Xp), that is,
returns 1 if S is a dominating set of CS-PCD, returns 0 otherwise.
CS proximity region is constructed
with respect to the standard equilateral triangle T_e=T(A,B,C)=T((0,0),(1,0),(1/2,\sqrt{3}/2)) with
expansion parameter t>0 and edge regions are based on the center M=(m_1,m_2)
in Cartesian coordinates or M=(\alpha,\beta,\gamma) in barycentric coordinates in the interior of T_e;
default is M=(1,1,1) i.e., the center of mass of T_e (which is equivalent to the circumcenter of T_e).
Edges of T_e, AB, BC, AC, are also labeled as 3, 1, and 2, respectively.
See also (\insertCiteceyhan:mcap2012;textualpcds).
Usage
Idom.setCSstd.tri(S, Xp, t, M = c(1, 1, 1))
Arguments
S |
A set of 2D points which is to be tested for being a dominating set for the CS-PCDs. |
Xp |
A set of 2D points which constitute the vertices of the CS-PCD. |
t |
A positive real number which serves as the expansion parameter in CS proximity region in the
standard equilateral triangle |
M |
A 2D point in Cartesian coordinates or a 3D point in barycentric coordinates
which serves as a center in the interior of the standard equilateral triangle |
Value
I(S a dominating set of the CS-PCD), that is, returns 1 if S is a dominating set of CS-PCD,
returns 0 otherwise, where CS proximity region is constructed in the standard equilateral triangle T_e
Author(s)
Elvan Ceyhan
References
\insertAllCitedSee Also
Idom.setCStri and Idom.setPEstd.tri
Examples
A<-c(0,0); B<-c(1,0); C<-c(1/2,sqrt(3)/2);
Te<-rbind(A,B,C);
n<-10
set.seed(1)
Xp<-runif.std.tri(n)$gen.points
M<-as.numeric(runif.std.tri(1)$g) #try also M<-c(.6,.2)
t<-.5
S<-rbind(Xp[1,],Xp[2,])
Idom.setCSstd.tri(S,Xp,t,M)
S<-rbind(Xp[1,],Xp[2,],Xp[3,],Xp[5,])
Idom.setCSstd.tri(S,Xp,t,M)
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