You have sent this to both the S and R lists under different names: who are you and which system are you interested in?
You use poly(), as you did, but the internals of poly() are not the same on the two systems. Do read the documentation to find out which orthogonal polynomials are used. Hint: The S-PLUS description says Returns a matrix of orthonormal polynomials, which represents a basis for polynomial regression. Notice the difference? Orthogonal polynomials are not uniquely defined (nor are orthonormal ones, BTW). On Thu, 6 May 2004, WilD KID wrote: > Dear all, > > Can any one tell me how can i perform Orthogonal > Polynomial Regression parameter estimation in R? > > -------------------------------------------- > > Here is an "Orthogonal Polynomial" Regression problem > collected from Draper, Smith(1981), page 269. Note > that only value of alpha0 (intercept term) and signs > of each estimate match with the result obtained from > coef(orth.fit). What went wrong? > > -------------------------------------------- > > Data: > > > Z<-1957:1964 > > Y<-c(0.93,0.99,1.11,1.33,1.52,1.60,1.47,1.33) > > X<-Z-1956 > > X > [1] 1 2 3 4 5 6 7 8 > > -------------------------------------------- > > Using lm function to get orthogonal polynomial, we > get- > > > orth.fit<-lm(Y~poly(X,degree =6)) > > coef(orth.fit) > > (Intercept) poly(X, degree = 6)1 poly(X, > degree = 6)2 > 1.285000000 0.529260490 > -0.316321867 > > poly(X, degree = 6)3 poly(X, degree = 6)4 poly(X, > degree = 6)5 > -0.221564684 0.054795962 > 0.062910192 > > poly(X, degree = 6)6 > 0.006154575 > > -------------------------------------------- > > And using the solution procedure given in Draper, > Smith(1981) is - > > -------------------------------------------- > > The following values are coefficients of 0-6th order > (for n=8) polynomial collected from Pearson, Hartley > (1958) table, page 212: > > > p0<-rep(1,8) > > p1<-c(-7,-5,-3,-1,1,3,5,7) > > p2<-c(7,1,-3,-5,-5,-3,1,7) > > p3<-c(-7,5,7,3,-3,-7,-5,7) > > p4<-c(7,-13,-3,9,9,-3,-13,7) > > p5<-c(-7,23,-17,-15,15,17,-23,7) > > p6<-c(1,-5,9,-5,-5,9,-5,1) > > Now, the estimated parameters of the orthogonal > polynomial is calculated by the following formula: > > > alpha0<-sum(Y*p0)/sum(p0^2); > alpha1<-sum(Y*p1)/sum(p1^2); > alpha2<-sum(Y*p2)/sum(p2^2); > alpha3<-sum(Y*p3)/sum(p3^2); > alpha4<-sum(Y*p4)/sum(p4^2); > alpha5<-sum(Y*p5)/sum(p5^2); > alpha6<-sum(Y*p6)/sum(p6^2) > > alpha0;alpha1;alpha2;alpha3;alpha4;alpha5;alpha6 > [1] 1.285 > [1] 0.04083333 > [1] -0.02440476 > [1] -0.01363636 > [1] 0.002207792 > [1] 0.001346154 > [1] 0.0003787879 > > -------------------------------------------- > > Any response / help / comment / suggestion / idea / > web-link / replies will be greatly appreciated. > > Thanks in advance for your time. > > _______________________ > > Mohammad Ehsanul Karim <[EMAIL PROTECTED]> > Institute of Statistical Research and Training > University of Dhaka, Dhaka- 1000, Bangladesh > > ______________________________________________ > [EMAIL PROTECTED] mailing list > https://www.stat.math.ethz.ch/mailman/listinfo/r-help > PLEASE do read the posting guide! http://www.R-project.org/posting-guide.html > > -- Brian D. Ripley, [EMAIL PROTECTED] Professor of Applied Statistics, http://www.stats.ox.ac.uk/~ripley/ University of Oxford, Tel: +44 1865 272861 (self) 1 South Parks Road, +44 1865 272866 (PA) Oxford OX1 3TG, UK Fax: +44 1865 272595 ______________________________________________ [EMAIL PROTECTED] mailing list https://www.stat.math.ethz.ch/mailman/listinfo/r-help PLEASE do read the posting guide! http://www.R-project.org/posting-guide.html
