nssTrainingRMSProp
Description
RMSProp options set object to train an idNeuralStateSpace
network using nlssest
.
Creation
Create an nssTrainingRMSProp
object using nssTrainingOptions
and specifying "rmsprop"
as input argument.
Properties
UpdateMethod
— Solver used to update network parameters
"RMSProp"
(default)
Solver used to update network parameters, returned as a string. This property is read-only.
Use nssTrainingOptions("adam")
,
nssTrainingOptions("sgdm")
, or
nssTrainingOptions("lbfgs")
to return an options set object for the
Adam, SGDM, or L-BFGS solvers respectively. For more information on these algorithms,
see the Algorithms section of trainingOptions
(Deep Learning Toolbox).
SquaredGradientDecayFactor
— Decay rate of squared gradient moving average
0.9
(default) | nonnegative scalar less than 1
Decay rate of squared gradient moving average for the RMSProp solver, specified as a
nonnegative scalar less than 1
.
Typical values of the decay rate are 0.9
,
0.99
, and 0.999
, corresponding to averaging
lengths of 10
, 100
, and 1000
parameter updates, respectively.
For more information, see Root Mean Square Propagation (Deep Learning Toolbox).
LossFcn
— Type of function used to calculate loss
"MeanAbsoluteError"
(default) | "MeanSquaredError"
Type of function used to calculate loss, specified as one of the following:
"MeanAbsoluteError"
— uses the mean value of the absolute error."MeanSquaredError"
— uses the mean value of the squared error.
PlotLossFcn
— Option to plot the value of the loss function during training
true
(default) | false
Option to plot the value of the loss function during training, specified as one of the following:
true
— plots the value of the loss function during training.false
— does not plot the value of the loss function during training.
Lambda
— Loss function regularization constant
0
(default) | positive scalar
Constant coefficient applied to the regularization term added to the loss function, specified as a positive scalar.
The loss function with the regularization term is given by:
where t is the time variable, N is the size of the batch, ε is the sum of the reconstruction loss and autoencoder loss, θ is a concatenated vector of weights and biases of the neural network, and λ is the regularization constant that you can tune.
For more information, see Regularized Estimates of Model Parameters.
LearnRate
— Learning rate
0.001
(default) | positive scalar
Learning rate used for training, specified as a positive scalar. If the learning rate is too small, then training can take a long time. If the learning rate is too large, then training might reach a suboptimal result or diverge.
LearnRateSchedule
— Learning rate schedule
"none"
(default) | character vector | string array | built-in or custom learning rate schedule object | function handle | cell array
Learning rate schedule, specified as a character vector or string scalar of a built-in learning rate schedule name, a string array of names, a built-in or custom learning rate schedule object, a function handle, or a cell array of names, metric objects, and function handles.
Example: "piecewise"
Built-In Learning Rate Schedule Names
Specify learning rate schedules as a string scalar, character vector, or a string
or cell array of one or more of these names: "none"
,
"piecewise"
, "warmup"
,
"polynomial"
, "exponential"
,
"cosine"
, or "cyclical"
.
For more information, see TrainingOptionsRMSProp
(Deep Learning Toolbox).
LearnRateDropPeriod
— Number of epochs for dropping the learning rate
10
(default) | positive integer
Number of epochs for dropping the learning rate, specified as a positive integer.
This option is valid only when the LearnRateSchedule
training
option is "piecewise"
.
The software multiplies the global learning rate with the drop factor every time the
specified number of epochs passes. Specify the drop factor using the
LearnRateDropFactor
training option.
LearnRateDropFactor
— Factor for dropping the learning rate
0.1
(default) | scalar from 0
to 1
Factor for dropping the learning rate, specified as a scalar from
0
to 1
. This option is valid only when the
LearnRateSchedule
training option is
"piecewise"
.
LearnRateDropFactor
is a multiplicative factor to apply to the
learning rate every time a certain number of epochs passes. Specify the number of epochs
using the LearnRateDropPeriod
training option.
MaxEpochs
— Maximum number of epochs
100
(default) | positive integer
Maximum number of epochs to use for training, specified as a positive integer. An epoch is the full pass of the training algorithm over the entire training set.
MiniBatchSize
— Size of mini-batch
1000
(default) | positive integer
Size of the mini-batch to use for each training iteration, specified as a positive integer. A mini-batch is a subset of the training set that is used to evaluate the gradient of the loss function and update the weights.
If the mini-batch size does not evenly divide the number of training samples, then
nlssest
discards the training data that does not fit into the final complete mini-batch of each
epoch.
Beta
— Coefficient applied to tune the reconstruction loss of an autoencoder
0
(default) | nonnegative scalar
Coefficient applied to tune the reconstruction loss of an autoencoder, specified as a nonnegative scalar.
Reconstruction loss measures the difference between the original input
(x
) and its reconstruction
(xr
) after encoding and decoding. You
calculate this loss as the L2 norm of (x
-
xr
) divided by the batch size
(N
).
WindowSize
— Size of data frames
intmax
(default) | positive integer
Number of samples in each frame or batch when segmenting data for model training, specified as a positive integer.
Overlap
— Size of overlap
0
(default) | integer
Number of samples in the overlap between successive frames when segmenting data for model training, specified as an integer. A negative integer indicates that certain data samples are skipped when creating the data frames.
ODESolverOptions
— ODE solver options for continuous-time systems
nssDLODE45
(default)
ODE solver options to integrate continuous-time neural state-space systems,
specified as an nssDLODE45
object.
Use dot notation to access properties such as the following:
Solver
— Solver type, set as"dlode45"
. This is a read-only property.InitialStepSize
— Initial step size, specified as a positive scalar. If you do not specify an initial step size, then the solver bases the initial step size on the slope of the solution at the initial time point.MaxStepSize
— Maximum step size, specified as a positive scalar. It is an upper bound on the size of any step taken by the solver. The default is one tenth of the difference between final and initial time.AbsoluteTolerance
— Absolute tolerance, specified as a positive scalar. It is the largest allowable absolute error. Intuitively, when the solution approaches 0,AbsoluteTolerance
is the threshold below which you do not worry about the accuracy of the solution since it is effectively 0.RelativeTolerance
— Relative tolerance, specified as a positive scalar. This tolerance measures the error relative to the magnitude of each solution component. Intuitively, it controls the number of significant digits in a solution, (except when it is smaller than the absolute tolerance).
For more information, see odeset
.
InputInterSample
— Input interpolation method
'foh'
(default) | 'zoh'
| 'spline'
| 'cubic'
| 'makima'
| 'pchip'
Input interpolation method, specified as one of the following:
'zoh'
— uses zero-order hold interpolation method.'foh'
— uses first-order hold interpolation method.'cubic'
— uses cubic interpolation method.'makima'
— uses modified Akima interpolation method.'pchip'
— uses shape-preserving piecewise cubic interpolation method.'spline'
— uses spline interpolation method.
This is the interpolation method used to interpolate the input when integrating
continuous-time neural state-space systems. For more information, see interpolation
methods in interp1
.
Object Functions
Examples
Create RMSProp Option Set to Train a Neural State-Space System
Use nssTrainingOptions
to return an options set object to train an idNeuralStateSpace
system.
rmspropOpts = nssTrainingOptions("rmsprop")
rmspropOpts = nssTrainingRMSProp with properties: UpdateMethod: "RMSProp" LearnRate: 1.0000e-03 SquaredGradientDecayFactor: 0.9000 MaxEpochs: 100 MiniBatchSize: 1000 LearnRateSchedule: "none" LearnRateDropFactor: 0.1000 LearnRateDropPeriod: 10 Lambda: 0 Beta: 0 LossFcn: "MeanAbsoluteError" PlotLossFcn: 1 ODESolverOptions: [1x1 idoptions.nssDLODE45] InputInterSample: 'foh' WindowSize: 2.1475e+09 Overlap: 0
Use dot notation to access the object properties.
rmspropOpts.PlotLossFcn = false;
You can use rmspropOpts
as an input argument to nlssest
to specify the training options for the state or the non-trivial output network of an idNeuralStateSpace
object.
Version History
Introduced in R2024b
See Also
Objects
Functions
nssTrainingOptions
|nlssest
|odeset
|generateMATLABFunction
|idNeuralStateSpace/evaluate
|idNeuralStateSpace/linearize
|sim
|createMLPNetwork
|setNetwork
Blocks
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