kp: Boundary Data of the Vertical Projections of _Koelreuteria...
In biogeom: Biological Geometries
kp R Documentation
Boundary Data of the Vertical Projections of Koelreuteria paniculata Fruit
Description
The data consist of the boundary data of four vertical projections of K. paniculata fruit
sampled at Nanjing Forestry University campus in early October 2021.
Usage
data(kp)
Details
In the data set, there are three columns of variables: Code, x, and y.
Code saves the codes of individual fruit;
x saves the x coordinates of the vertical projections of fruit in the Cartesian coordinate system (cm);
and y saves the y coordinates of the vertical projections of fruit in the Cartesian coordinate system (cm).
References
Li, Y., Quinn, B.K., Gielis, J., Li, Y., Shi, P. (2022) Evidence that supertriangles exist
in nature from the vertical projections of Koelreuteria paniculata fruit. Symmetry
14, 23. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.3390/sym14010023")}
Examples
data(kp)
uni.C <- sort( unique(kp$Code) )
ind <- 1
Data <- kp[kp$Code==uni.C[ind], ]
x0 <- Data$x
y0 <- Data$y
Res1 <- adjdata(x0, y0, ub.np=200, len.pro=1/20)
dev.new()
plot( Res1$x, Res1$y, asp=1, cex.lab=1.5, cex.axis=1.5, type="l",
xlab=expression(italic("x")), ylab=expression(italic("y")) )
x1 <- Res1$x
y1 <- Res1$y
x0.ini <- mean( x1 )
y0.ini <- mean( y1 )
theta.ini <- pi
a.ini <- 0.9
n1.ini <- c(1, 4)
n2.ini <- 5
n3.ini <- c(5, 10, 15)
ini.val <- list(x0.ini, y0.ini, theta.ini,
a.ini, n1.ini, n2.ini, n3.ini)
Res2 <- fitGE( GE, x=x1, y=y1, ini.val=ini.val,
m=3, simpver=5, nval=1, unit="cm",
par.list=FALSE, fig.opt=TRUE, angle=NULL,
control=list(reltol=1e-20, maxit=20000),
np=2000 )
graphics.off()
biogeom documentation built on May 29, 2024, 8:52 a.m.
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| kp | R Documentation |
Boundary Data of the Vertical Projections of Koelreuteria paniculata Fruit
Description
The data consist of the boundary data of four vertical projections of K. paniculata fruit sampled at Nanjing Forestry University campus in early October 2021.
Usage
data(kp)
Details
In the data set, there are three columns of variables: Code, x, and y.
Code saves the codes of individual fruit;
x saves the x coordinates of the vertical projections of fruit in the Cartesian coordinate system (cm);
and y saves the y coordinates of the vertical projections of fruit in the Cartesian coordinate system (cm).
References
Li, Y., Quinn, B.K., Gielis, J., Li, Y., Shi, P. (2022) Evidence that supertriangles exist in nature from the vertical projections of Koelreuteria paniculata fruit. Symmetry 14, 23. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.3390/sym14010023")}
Examples
data(kp)
uni.C <- sort( unique(kp$Code) )
ind <- 1
Data <- kp[kp$Code==uni.C[ind], ]
x0 <- Data$x
y0 <- Data$y
Res1 <- adjdata(x0, y0, ub.np=200, len.pro=1/20)
dev.new()
plot( Res1$x, Res1$y, asp=1, cex.lab=1.5, cex.axis=1.5, type="l",
xlab=expression(italic("x")), ylab=expression(italic("y")) )
x1 <- Res1$x
y1 <- Res1$y
x0.ini <- mean( x1 )
y0.ini <- mean( y1 )
theta.ini <- pi
a.ini <- 0.9
n1.ini <- c(1, 4)
n2.ini <- 5
n3.ini <- c(5, 10, 15)
ini.val <- list(x0.ini, y0.ini, theta.ini,
a.ini, n1.ini, n2.ini, n3.ini)
Res2 <- fitGE( GE, x=x1, y=y1, ini.val=ini.val,
m=3, simpver=5, nval=1, unit="cm",
par.list=FALSE, fig.opt=TRUE, angle=NULL,
control=list(reltol=1e-20, maxit=20000),
np=2000 )
graphics.off()
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