问题
I have two linear fits that I've gotten from lm calls in my R script. For instance...
fit1 <- lm(y1 ~ x1)
fit2 <- lm(y2 ~ x2)
I'd like to find the (x,y) point at which these two lines (fit1
and fit2
) intersect, if they intersect at all.
回答1:
One way to avoid the geometry is to re-parameterize the equations as:
y1 = m1 * (x1 - x0) + y0
y2 = m2 * (x2 - x0) + y0
in terms of their intersection point (x0, y0)
and then perform the fit of both at once using nls
so that the returned values of x0
and y0
give the result:
# test data
set.seed(123)
x1 <- 1:10
y1 <- -5 + x1 + rnorm(10)
x2 <- 1:10
y2 <- 5 - x1 + rnorm(10)
g <- rep(1:2, each = 10) # first 10 are from x1,y1 and second 10 are from x2,y2
xx <- c(x1, x2)
yy <- c(y1, y2)
nls(yy ~ ifelse(g == 1, m1 * (xx - x0) + y0, m2 * (xx - x0) + y0),
start = c(m1 = -1, m2 = 1, y0 = 0, x0 = 0))
EDIT: Note that the lines xx<-...
and yy<-...
are new and the nls
line has been specified in terms of those and corrected.
回答2:
Here's some high school geometry then ;-)
# First two models
df1 <- data.frame(x=1:50, y=1:50/2+rnorm(50)+10)
m1 <- lm(y~x, df1)
df2 <- data.frame(x=1:25, y=25:1*2+rnorm(25)-10)
m2 <- lm(y~x, df2)
# Plot them to show the intersection visually
plot(df1)
points(df2)
# Now calculate it!
a <- coef(m1)-coef(m2)
c(x=-a[[1]]/a[[2]], y=coef(m1)[[2]]*x + coef(m1)[[1]])
Or, to simplify the solve
-based solution by @Dwin:
cm <- rbind(coef(m1),coef(m2)) # Coefficient matrix
c(-solve(cbind(cm[,2],-1)) %*% cm[,1])
# [1] 12.68034 16.57181
回答3:
If the regression coefficients in the two models are not equal (which is almost certain) then the lines would intersect. The coef
function is used to extract them. The rest is high school geometry.
For Brandon: M^-1 %*% intercepts -->
M <- matrix( c(coef(m1)[2], coef(m2)[2], -1,-1), nrow=2, ncol=2 )
intercepts <- as.matrix( c(coef(m1)[1], coef(m2)[1]) ) # a column matrix
-solve(M) %*% intercepts
# [,1]
#[1,] 12.78597
#[2,] 16.34479
回答4:
I am a little surprised there isn't a built in function for this.
Here is a rudimentary function (for lm results), using the same general method as Tommy above. This uses the simple substitution method for two lines in the form "y=mx+b" to find the common intersection at y (y1=y2 ; m1*x + b1 = m2*x + b2) and solves for x:
Function definition
# Linear model Intercept function
lmIntx <- function(fit1, fit2, rnd=2) {
b1<- fit1$coefficient[1] #y-int for fit1
m1<- fit1$coefficient[2] #slope for fit1
b2<- fit2$coefficient[1] #y-int for fit2
m2<- fit2$coefficient[2] #slope for fit2
if(m1==m2 & b1==b2) {print("Lines are identical")
} else if(m1==m2 & b1 != b2) {print("Lines are parallel")
} else {
x <- (b2-b1)/(m1-m2) #solved general equation for x
y <- m1*x + b1 #plug in the result
data.frame(x=round(x, rnd), y=round(y, rnd))
}
}
Test:
line1 <- data.frame(x=c(0,1), y=c(0,2))
line2 <- data.frame(x=c(0,1), y=c(1,3))
line3 <- data.frame(x=c(0,1), y=c(1,5))
lmIntx(lm(line1$y~line1$x), lm(line2$y~line2$x))
[1] "Lines are parallel"
lmIntx(lm(line1$y~line1$x), lm(line1$y~line1$x))
[1] "Lines are identical"
lmIntx(lm(line1$y~line1$x), lm(line3$y~line3$x))
x y
(Intercept) -0.5 -1
来源:https://stackoverflow.com/questions/7114703/finding-where-two-linear-fits-intersect-in-r