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I've got a model to be estimated through the non-linear least squares method. The model is specified in such a way that I have a main formula having 5 coefficients which in turn have their own formulas dependent on total of four coefficients. The first formula itself is linear, it is the inclusion of the coefficients' individual formulae that makes the model nonlinear.

The R's nls function asks for a formula without the coefficients. I have no idea how to define them then.

To make things crystal clear, I'll post the concrete formulas below. I'll use '_' for index and "{}" brackets for the content of such index if it involves any algebra. Syntax is very much TEX-like, variable names are just single characters, so I didn't bother placing "*" everywhere where multiplication occurs.

p_t = β_1p_{t-1} + β_2p_{t-2} + β_3d_{t-1} + β_4d_{t-2} + β_5d_{t-3} + γ

β_1 = 2 - b - c 
β_2 = -(1-c)(1-b) 
β_3 = cδ + bα 
β_4 = -cδ(1-b) - bα(2-c) 
β_5 = bα(1-c) 
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migrated from stats.stackexchange.com Aug 16 '12 at 15:17

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@gung Before I asked my question I did a quick search through the site and found that similar questions are posted and answered here (e.g. stats.stackexchange.com/questions/21565/… ). But I am new here so I don't know the exact post preferences, please excuse me if I am wrong. That's quite a practical issue, I thought it would be best to hear an answer from practicing statisticians. –  infoholic_anonymous Aug 16 '12 at 3:58
    
@Roland yes, sorry, before posting I didn't know this is forbidden. The question hasn't been answered though neither here nor on Stack Overflow. –  infoholic_anonymous Aug 16 '12 at 13:48
    
As I already commented on SO: You could wrap the equation system in a function. But this function would be recursive and I don't know if nls can handle recursive functions. Also, what are the values of $p_0$ and $p_1$? Do you have some example data for testing? –  Roland Aug 16 '12 at 15:07
    
@Roland These are natural logarithms of share prices at the beginning of year t and sum of dividends distributed during year t. The number indexes mean magnitudes of lag operators. Here is a data sample, however yet to be turned into logarithms: pastebin.com/hvYsD3Fx Thanks in advance! –  infoholic_anonymous Aug 22 '12 at 16:35
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2 Answers 2

What do you mean by "The R's nls function asks for a formula without the coefficients"! In R, the coefficients will be estimated by the nls. I think you can still do this by using nls. Write your formula in terms of b, c, $\alpha$, $\delta$ with some starting points for them using list.

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I added \$'s to make your Greek letters display correctly; I hope you don't mind. Just so you know, CV can use mathjax to render math equations etc. It works pretty much as you'd expect. There's also a "?" in the upper right corner that will help you navigate to more info, or you can ask about it on meta. –  gung Aug 16 '12 at 4:27
    
TO THOSE VOTING UP : I don't see how would such rewriting help. I might however misunderstand the R formula syntax, in which the model is to be passed to the nls. Please post the exact call for nls which you would suggest, that would prove this indeed is the solution, what I doubt. –  infoholic_anonymous Aug 22 '12 at 16:39
    
to anonymous_infoholic: This is basically what @Roland did; see how he now has the function in terms of the desired parameters? You could perhaps also do this rewriting algebraically instead of with code. –  Aaron Aug 22 '12 at 18:57
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I show you the principle. I am not sure I used the correct equations, but since you wrote about 4 parameters, I think this is what you mean.

I did not check for errors and leave that to you. You should also do the usual diagnostics that should be used when doing non-linear regression.

fitfun<-function(p,d,a,b,c,d1){    
  beta_1 <- 2-b-c 
  beta_2 <- -(1-c)*(1-b) 
  beta_3 <- c*d1 + b*a 
  beta_4 <- -c*d1*(1-b) - b*a*(2-c) 
  beta_5 <- b*a*(1-c) 
  res <- as.numeric(filter(p,c(0,beta_1,beta_2),sides=1)) + #use filter to calculate lagged values
         as.numeric(filter(d,c(0,beta_3,beta_4,beta_5),sides=1)) + c
  res[-(1:3)] #to remove NAs
  }

pfit<-df$p0[-(1:3)]
fit<-nls(pfit ~ fitfun(p0,d1,a,b,c,d),data=df,start=list(a=2,b=1,c=1,d=1))
summary(fit)

 Formula: pfit ~ fitfun(p0, d1, a, b, c, d)

Parameters:
  Estimate Std. Error t value Pr(>|t|)    
a  0.13858    0.62064   0.223    0.823    
b  0.21101    0.01594  13.237   <2e-16 ***
c  1.41492    0.03015  46.929   <2e-16 ***
d  0.09838    0.09098   1.081    0.280    
---
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1 

Residual standard error: 6.799 on 1043 degrees of freedom

Number of iterations to convergence: 7 
Achieved convergence tolerance: 5.107e-06 

Edit

I show quickly how filter works.

x <- 1:10
#[1]  1  2  3  4  5  6  7  8  9 10
filter(x,c(0,1),sides=1) #1*x_{i-1}
#[1] NA  1  2  3  4  5  6  7  8  9
filter(x,c(0,0,2),sides=1) #2*x_{i-2}
#[1] NA NA  2  4  6  8 10 12 14 16
filter(x,c(1,2,3),sides=1) #1*x_i + 2*x_{i-1} + 3*x_{i-2}
#[1] NA NA 10 16 22 28 34 40 46 52

filter is a time series function and thus pretty fast.

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I don't want to sound retarded, but in which line is this: p_t = β_1*p_{t-1} + β_2*p_{t-2} + β_3*d_{t-1} + β_4*d_{t-2} + β_5*d_{t-3} + γ included? Especially, which beta coefficient belongs to which variable among lagged p-s and d-s? Please forgive me, I don't have much experience in R apart from doing some very basic stuff. If you were as kind as to comment the code assuming I'm a total moron, I'd be very thankful. –  infoholic_anonymous Aug 22 '12 at 21:27
1  
It's the line where res is defined. I suggest you try to understand how filter works, e.g., by looking at the help page or by trying some simpler uses of this function. Of course you could rewrite fitfun without filter, but then you would miss out on learning this very useful function. –  Roland Aug 23 '12 at 6:59
    
PS: I am not sure the p-values are correct since you are working with a time series and the assumption of independence is probably violated. But that is a stats question which would belong on Cross Validated. There might be better (and more correct) possibilities than using nls for this. –  Roland Aug 23 '12 at 7:16
    
To be honest I don't understand how filter works at all. I've tried to read the help but I just don't get it. Do you happen to know where can I read about that in an even more basic way? | The model I provided was conceived by Gregory Chow and he suggested to optimize it this way in his paper. –  infoholic_anonymous Sep 13 '12 at 0:21
1  
I edited my answer to show how filter works. –  Roland Sep 14 '12 at 16:32
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