在深入学习工具箱™,您可以定义网络architectures with multiple inputs (for example, networks trained on multiple sources and types of data) or multiple outputs (for example, networks that predicts both classification and regression responses).
Define networks with multiple inputs when the network requires data from multiple sources or in different formats. For example, networks that require image data captured from multiple sensors at different resolutions.
To define and train a deep learning network with multiple inputs, specify the network architecture using alayerGraph
object and train using thetrainNetwork
来电显示n with datastore input.
To use a datastore for networks with multiple input layers, use thecombine
andtransform
来电显示ns to create a datastore that outputs a cell array with (numInputs
+ 1) columns, wherenumInputs
is the number of network inputs. In this case, the firstnumInputs
columns specify the predictors for each input and the last column specifies the responses. The order of inputs is given by theInputNames
property of the layer graphlayers
.
Tip
If the network also has multiple outputs, then you must use a custom training loop. for more information, see多输出网络.
To make predictions on a trained deep learning network with multiple inputs, use either thepredict
orclassify
来电显示n. Specify multiple inputs using one of the following:
combinedDatastore
object
transformedDatastore
object
multiple numeric arrays
Define networks with multiple outputs for tasks requiring multiple responses in different formats. For example, tasks requiring both categorical and numeric output.
To train a deep learning network with multiple outputs, use a custom training loop. For an example, seeTrain Network with Multiple Outputs.
To make predictions using a model function, use the model function directly with the trained parameters. For an example, seeMake Predictions Using Model Function.
Alternatively, convert the model function to aDAGNetwork
object using theassembleNetwork
来电显示n. With the assembled network, you can:
For an example, seeAssemble Multiple-Output Network for Prediction.