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| author | wolffd |
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| date | Tue, 10 Feb 2015 15:05:51 +0000 |
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| 1 <html> | |
| 2 <head> | |
| 3 <title> | |
| 4 Netlab Reference Manual glmtrain | |
| 5 </title> | |
| 6 </head> | |
| 7 <body> | |
| 8 <H1> glmtrain | |
| 9 </H1> | |
| 10 <h2> | |
| 11 Purpose | |
| 12 </h2> | |
| 13 Specialised training of generalized linear model | |
| 14 | |
| 15 <p><h2> | |
| 16 Description | |
| 17 </h2> | |
| 18 <CODE>net = glmtrain(net, options, x, t)</CODE> uses | |
| 19 the iterative reweighted least squares (IRLS) | |
| 20 algorithm to set the weights in the generalized linear model structure | |
| 21 <CODE>net</CODE>. This is a more efficient alternative to using <CODE>glmerr</CODE> | |
| 22 and <CODE>glmgrad</CODE> and a non-linear optimisation routine through | |
| 23 <CODE>netopt</CODE>. | |
| 24 Note that for linear outputs, a single pass through the | |
| 25 algorithm is all that is required, since the error function is quadratic in | |
| 26 the weights. The algorithm also handles scalar <CODE>alpha</CODE> and <CODE>beta</CODE> | |
| 27 terms. If you want to use more complicated priors, you should use | |
| 28 general-purpose non-linear optimisation algorithms. | |
| 29 | |
| 30 <p>For logistic and softmax outputs, general priors can be handled, although | |
| 31 this requires the pseudo-inverse of the Hessian, giving up the better | |
| 32 conditioning and some of the speed advantage of the normal form equations. | |
| 33 | |
| 34 <p>The error function value at the final set of weights is returned | |
| 35 in <CODE>options(8)</CODE>. | |
| 36 Each row of <CODE>x</CODE> corresponds to one | |
| 37 input vector and each row of <CODE>t</CODE> corresponds to one target vector. | |
| 38 | |
| 39 <p>The optional parameters have the following interpretations. | |
| 40 | |
| 41 <p><CODE>options(1)</CODE> is set to 1 to display error values during training. | |
| 42 If <CODE>options(1)</CODE> is set to 0, | |
| 43 then only warning messages are displayed. If <CODE>options(1)</CODE> is -1, | |
| 44 then nothing is displayed. | |
| 45 | |
| 46 <p><CODE>options(2)</CODE> is a measure of the precision required for the value | |
| 47 of the weights <CODE>w</CODE> at the solution. | |
| 48 | |
| 49 <p><CODE>options(3)</CODE> is a measure of the precision required of the objective | |
| 50 function at the solution. Both this and the previous condition must be | |
| 51 satisfied for termination. | |
| 52 | |
| 53 <p><CODE>options(5)</CODE> is set to 1 if an approximation to the Hessian (which assumes | |
| 54 that all outputs are independent) is used for softmax outputs. With the default | |
| 55 value of 0 the exact Hessian (which is more expensive to compute) is used. | |
| 56 | |
| 57 <p><CODE>options(14)</CODE> is the maximum number of iterations for the IRLS algorithm; | |
| 58 default 100. | |
| 59 | |
| 60 <p><h2> | |
| 61 See Also | |
| 62 </h2> | |
| 63 <CODE><a href="glm.htm">glm</a></CODE>, <CODE><a href="glmerr.htm">glmerr</a></CODE>, <CODE><a href="glmgrad.htm">glmgrad</a></CODE><hr> | |
| 64 <b>Pages:</b> | |
| 65 <a href="index.htm">Index</a> | |
| 66 <hr> | |
| 67 <p>Copyright (c) Ian T Nabney (1996-9) | |
| 68 | |
| 69 | |
| 70 </body> | |
| 71 </html> |