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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 mlp | |
| 5 </title> | |
| 6 </head> | |
| 7 <body> | |
| 8 <H1> mlp | |
| 9 </H1> | |
| 10 <h2> | |
| 11 Purpose | |
| 12 </h2> | |
| 13 Create a 2-layer feedforward network. | |
| 14 | |
| 15 <p><h2> | |
| 16 Synopsis | |
| 17 </h2> | |
| 18 <PRE> | |
| 19 net = mlp(nin, nhidden, nout, func) | |
| 20 net = mlp(nin, nhidden, nout, func, prior) | |
| 21 net = mlp(nin, nhidden, nout, func, prior, beta) | |
| 22 </PRE> | |
| 23 | |
| 24 | |
| 25 <p><h2> | |
| 26 Description | |
| 27 </h2> | |
| 28 <CODE>net = mlp(nin, nhidden, nout, func)</CODE> takes the number of inputs, | |
| 29 hidden units and output units for a 2-layer feed-forward network, | |
| 30 together with a string <CODE>func</CODE> which specifies the output unit | |
| 31 activation function, and returns a data structure <CODE>net</CODE>. The | |
| 32 weights are drawn from a zero mean, unit variance isotropic Gaussian, | |
| 33 with varianced scaled by the fan-in of the hidden or output units as | |
| 34 appropriate. This makes use of the Matlab function | |
| 35 <CODE>randn</CODE> and so the seed for the random weight initialization can be | |
| 36 set using <CODE>randn('state', s)</CODE> where <CODE>s</CODE> is the seed value. | |
| 37 The hidden units use the <CODE>tanh</CODE> activation function. | |
| 38 | |
| 39 <p>The fields in <CODE>net</CODE> are | |
| 40 <PRE> | |
| 41 | |
| 42 type = 'mlp' | |
| 43 nin = number of inputs | |
| 44 nhidden = number of hidden units | |
| 45 nout = number of outputs | |
| 46 nwts = total number of weights and biases | |
| 47 actfn = string describing the output unit activation function: | |
| 48 'linear' | |
| 49 'logistic | |
| 50 'softmax' | |
| 51 w1 = first-layer weight matrix | |
| 52 b1 = first-layer bias vector | |
| 53 w2 = second-layer weight matrix | |
| 54 b2 = second-layer bias vector | |
| 55 </PRE> | |
| 56 | |
| 57 Here <CODE>w1</CODE> has dimensions <CODE>nin</CODE> times <CODE>nhidden</CODE>, <CODE>b1</CODE> has | |
| 58 dimensions <CODE>1</CODE> times <CODE>nhidden</CODE>, <CODE>w2</CODE> has | |
| 59 dimensions <CODE>nhidden</CODE> times <CODE>nout</CODE>, and <CODE>b2</CODE> has | |
| 60 dimensions <CODE>1</CODE> times <CODE>nout</CODE>. | |
| 61 | |
| 62 <p><CODE>net = mlp(nin, nhidden, nout, func, prior)</CODE>, in which <CODE>prior</CODE> is | |
| 63 a scalar, allows the field <CODE>net.alpha</CODE> in the data structure | |
| 64 <CODE>net</CODE> to be set, corresponding to a zero-mean isotropic Gaussian | |
| 65 prior with inverse variance with value <CODE>prior</CODE>. Alternatively, | |
| 66 <CODE>prior</CODE> can consist of a data structure with fields <CODE>alpha</CODE> | |
| 67 and <CODE>index</CODE>, allowing individual Gaussian priors to be set over | |
| 68 groups of weights in the network. Here <CODE>alpha</CODE> is a column vector | |
| 69 in which each element corresponds to a separate group of weights, | |
| 70 which need not be mutually exclusive. The membership of the groups is | |
| 71 defined by the matrix <CODE>indx</CODE> in which the columns correspond to | |
| 72 the elements of <CODE>alpha</CODE>. Each column has one element for each | |
| 73 weight in the matrix, in the order defined by the function | |
| 74 <CODE>mlppak</CODE>, and each element is 1 or 0 according to whether the | |
| 75 weight is a member of the corresponding group or not. A utility | |
| 76 function <CODE>mlpprior</CODE> is provided to help in setting up the | |
| 77 <CODE>prior</CODE> data structure. | |
| 78 | |
| 79 <p><CODE>net = mlp(nin, nhidden, nout, func, prior, beta)</CODE> also sets the | |
| 80 additional field <CODE>net.beta</CODE> in the data structure <CODE>net</CODE>, where | |
| 81 beta corresponds to the inverse noise variance. | |
| 82 | |
| 83 <p><h2> | |
| 84 See Also | |
| 85 </h2> | |
| 86 <CODE><a href="mlpprior.htm">mlpprior</a></CODE>, <CODE><a href="mlppak.htm">mlppak</a></CODE>, <CODE><a href="mlpunpak.htm">mlpunpak</a></CODE>, <CODE><a href="mlpfwd.htm">mlpfwd</a></CODE>, <CODE><a href="mlperr.htm">mlperr</a></CODE>, <CODE><a href="mlpbkp.htm">mlpbkp</a></CODE>, <CODE><a href="mlpgrad.htm">mlpgrad</a></CODE><hr> | |
| 87 <b>Pages:</b> | |
| 88 <a href="index.htm">Index</a> | |
| 89 <hr> | |
| 90 <p>Copyright (c) Ian T Nabney (1996-9) | |
| 91 | |
| 92 | |
| 93 </body> | |
| 94 </html> |