MODEL-SPEC: Specify model to use for target variables. Model-spec writes a specification to an existing log file for how the distribution of targets in a case is defined in terms of the function computed from the inputs for the case. How this function of the inputs is found is specified separately (it might, for instance, be computed by a neural network). Models are available for regression with real-valued targets, logistic regression with binary targets, generalized logistic regression with targets taking on a finite set of values, and survival analysis with a hazard function that may depend on various covariates, and on time. Usage: model-spec log-file specifications... or: model-spec log-file The second form displays the existing specification stored in the log file, if any. The first form appends a specification to the log file, which must not contain any iteratons yet. If model-spec is invoked more than once, the last specification is used. The model is described by one or more arguments after the log file argument. Regression for real-valued targets. A regression model is specified by the argument "real", followed by a noise prior (see prior.doc). With this model, the data for each case consists of the same number of input values as the network has input units, and the same number of target values as the network has output units. The network outputs give the means of independent Gaussian distributions, with variances determined by the noise hyperparameters. (Note, however, that if there are implicit case-by-case hyperparameters, the noise effectively comes from a t-distribution, rather than a Gaussian.) Logistic regression for binary targets. A logistic regression model for binary data is specified by the argument "binary". With this model, the data for each case consists of the same number of inputs values as the network has input units, and the same number of binary target values as the network has output units. The targets must be specified to be binary using the int-target option of data-spec. Each output, o, of the network is used to derive the probability, p, that the corresponding target will be '1', via the logistic function, p = 1/(1+exp(-o)). Generalized logistic regression for class targets ("softmax"). The "class" data model is used to model target values representing some finite number of "classes". As with the "real" and "binary" models, the number of input units must match the number of input values in each case. There must be only one target in each case, with the number of possible values for this target (specified with the int-target option of data-spec) corresponding to the number of output units in the network. The distribution over target values for a case is found by letting the probability of a particular target value be proportional to the exponential of the value of the corresponding output. Survival data. The data-model arguments to net-spec can also specify that the net is to be used to model survival data, indicated by a first argument of "survival". With a survival model, the inputs to the networks will be the values of various covariates that may affect survival, plus perhaps the time. The net must have a single output, which is used to construct the log of the hazard function. The form of the hazard function is specified by the arguments following "survival", in one of the following ways: const-hazard The hazard function is constant through time, though it may depend on the covariates. Only the covariates are provided as inputs to the network. pw-const-hazard [ "log" ] { time-point } The hazard function is piecewise constant, with changes in value at the time points listed. There must be at least two time points, they must be greater than zero, and they must be increasing. The log of the hazard for times before the first time point is obtained from the network output with the first network input set to the first time point (or the log of this time, if "log" is specified), and with any other inputs set to the covariates. Similarly, the log of the hazard after the last time point is obtained by setting the first input to the last time point (or its log). The log of the hazard at times between two time points is obtained by setting the first input to the average of the two time points (or the average of the logs of the two time points if "log" is specified). The data specification for a survival model must give the number of covariates as the number of inputs, and must specify that there is a single target. Negative values of the target are interpreted as censored values (with observation stopping at the time given by the target's absolute value).