predict
Predict responses using regression ensemble model
Description
specifies additional options using one or more name-value arguments. For example, you
can specify the indices of weak learners used for making predictions, and whether to
perform computations in parallel.Yfit
= predict(ens
,X
,Name=Value
)
Examples
Predict Responses Based on Regression Ensemble
Find the predicted mileage for a car based on regression ensemble trained on the carsmall
data.
Load the carsmall
data set and select the number of cylinders, engine displacement, horsepower, and vehicle weight as predictors.
load carsmall
X = [Cylinders Displacement Horsepower Weight];
Train an ensemble of regression trees and predict MPG
for a four-cylinder car, with 200 cubic inch engine displacement, 150 horsepower, weighing 3000 lbs.
rens = fitrensemble(X,MPG); Mileage = predict(rens,[4 200 150 3000])
Mileage = 25.6467
Input Arguments
ens
— Regression ensemble model
RegressionEnsemble
model object | RegressionBaggedEnsemble
model object | CompactRegressionEnsemble
model object
Regression ensemble model, specified as a RegressionEnsemble
or RegressionBaggedEnsemble
model object trained with fitrensemble
, or a CompactRegressionEnsemble
model object created with compact
.
X
— Predictor data
numeric matrix | table
Predictor data used to predict responses, specified as a numeric matrix or a table.
Each row of X
corresponds to one observation, and each
column corresponds to one variable.
For a numeric matrix:
The variables that make up the columns of
X
must have the same order as the predictor variables used to trainens
.If you trained
ens
using a table (for example,Tbl
),X
can be a numeric matrix ifTbl
contains only numeric predictor variables. To treat numeric predictors inTbl
as categorical during training, specify categorical predictors using theCategoricalPredictors
name-value argument offitrensemble
. IfTbl
contains heterogeneous predictor variables (for example, numeric and categorical data types) andX
is a numeric matrix,predict
issues an error.
For a table:
predict
does not support multicolumn variables or cell arrays other than cell arrays of character vectors.If you trained
ens
using a table (for example,Tbl
), all predictor variables inX
must have the same variable names and data types as those used to trainens
(stored inens.PredictorNames
). However, the column order ofX
does not need to correspond to the column order ofTbl
.Tbl
andX
can contain additional variables, such as response variables and observation weights, butpredict
ignores them.If you trained
ens
using a numeric matrix, the predictor names inens.PredictorNames
must be the same as the corresponding predictor variable names inX
. To specify predictor names during training, use thePredictorNames
name-value argument offitrensemble
. All predictor variables inX
must be numeric vectors.X
can contain additional variables, such as response variables and observation weights, butpredict
ignores them.
Name-Value Arguments
Specify optional pairs of arguments as
Name1=Value1,...,NameN=ValueN
, where Name
is
the argument name and Value
is the corresponding value.
Name-value arguments must appear after other arguments, but the order of the
pairs does not matter.
Before R2021a, use commas to separate each name and value, and enclose
Name
in quotes.
Example: predict(ens,X,Learners=[1 2 3 5],UseParallel=true)
specifies to use the first, second, third, and fifth learners in the ensemble
ens
, and to perform computations in parallel.
Learners
— Indices of weak learners
[1:ens.NumTrained]
(default) | vector of positive integers
Indices of the weak learners in the ensemble to use with
predict
, specified as a
vector of positive integers in the range
[1:ens.NumTrained
]. By default,
the function uses all learners.
Example: Learners=[1 2 4]
Data Types: single
| double
UseObsForLearner
— Option to use observations for learners
true(N,T)
(default) | logical matrix
Option to use observations for learners, specified as a logical matrix of size N
-by-T
, where:
When UseObsForLearner(i,j)
is true
(default), learner
j
is used in predicting the response of row i
of X
.
Example: UseObsForLearner=logical([1 1; 0 1; 1 0])
Data Types: logical matrix
UseParallel
— Flag to run in parallel
false
or 0
(default) | true
or 1
Flag to run in parallel, specified as a numeric or logical
1
(true
) or 0
(false
). If you specify UseParallel=true
, the
predict
function executes for
-loop iterations by
using parfor
. The loop runs in parallel when you
have Parallel Computing Toolbox™.
Example: UseParallel=true
Data Types: logical
Output Arguments
Alternative Functionality
Simulink Block
To integrate the prediction of an ensemble into Simulink®, you can use the RegressionEnsemble
Predict block in the Statistics and Machine Learning Toolbox™ library or a MATLAB® Function block with the predict
function. For
examples, see Predict Responses Using RegressionEnsemble Predict Block and Predict Class Labels Using MATLAB Function Block.
When deciding which approach to use, consider the following:
If you use the Statistics and Machine Learning Toolbox library block, you can use the Fixed-Point Tool (Fixed-Point Designer) to convert a floating-point model to fixed point.
Support for variable-size arrays must be enabled for a MATLAB Function block with the
predict
function.If you use a MATLAB Function block, you can use MATLAB functions for preprocessing or post-processing before or after predictions in the same MATLAB Function block.
Extended Capabilities
Tall Arrays
Calculate with arrays that have more rows than fit in memory.
Usage notes and limitations:
You cannot use the
UseParallel
name-value argument with tall arrays.
For more information, see Tall Arrays.
C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.
Usage notes and limitations:
Use
saveLearnerForCoder
,loadLearnerForCoder
, andcodegen
(MATLAB Coder) to generate code for thepredict
function. Save a trained model by usingsaveLearnerForCoder
. Define an entry-point function that loads the saved model by usingloadLearnerForCoder
and calls thepredict
function. Then usecodegen
to generate code for the entry-point function.To generate single-precision C/C++ code for
predict
, specify the name-value argument"DataType","single"
when you call theloadLearnerForCoder
function.You can also generate fixed-point C/C++ code for
predict
. Fixed-point code generation requires an additional step that defines the fixed-point data types of the variables required for prediction. Create a fixed-point data type structure by using the data type function generated bygenerateLearnerDataTypeFcn
, and then use the structure as an input argument ofloadLearnerForCoder
in an entry-point function. Generating fixed-point C/C++ code requires MATLAB Coder™ and Fixed-Point Designer™.Generating fixed-point code for
predict
includes propagating data types for individual learners and, therefore, can be time consuming.This table contains notes about the arguments of
predict
. Arguments not included in this table are fully supported.Argument Notes and Limitations ens
For the usage notes and limitations of the model object, see Code Generation of the
CompactRegressionEnsemble
object.X
For general code generation,
X
must be a single-precision or double-precision matrix or a table containing numeric variables, categorical variables, or both.For fixed-point code generation,
X
must be a fixed-point matrix.The number of rows, or observations, in
X
can be a variable size, but the number of columns inX
must be fixed.If you want to specify
X
as a table, then your model must be trained using a table, and your entry-point function for prediction must do the following:Accept data as arrays.
Create a table from the data input arguments and specify the variable names in the table.
Pass the table to
predict
.
For an example of this table workflow, see Generate Code to Classify Data in Table. For more information on using tables in code generation, see Code Generation for Tables (MATLAB Coder) and Table Limitations for Code Generation (MATLAB Coder).
Name-value arguments Names in name-value arguments must be compile-time constants. For example, to allow user-defined indices up to 5 weak learners in the generated code, include
{coder.Constant('Learners'),coder.typeof(0,[1,5],[0,1])}
in the-args
value ofcodegen
(MATLAB Coder).Learners
For fixed-point code generation, the
Learners
value must have an integer data type.
For more information, see Introduction to Code Generation.
Automatic Parallel Support
Accelerate code by automatically running computation in parallel using Parallel Computing Toolbox™.
To run in parallel, set the UseParallel
name-value argument to
true
in the call to this function.
For more general information about parallel computing, see Run MATLAB Functions with Automatic Parallel Support (Parallel Computing Toolbox).
You cannot use UseParallel
with tall or GPU arrays or in code generation.
GPU Arrays
Accelerate code by running on a graphics processing unit (GPU) using Parallel Computing Toolbox™.
Usage notes and limitations:
The
predict
function does not support ensembles trained using decision tree learners with surrogate splits.You cannot use
UseParallel
with GPU arrays.
For more information, see Run MATLAB Functions on a GPU (Parallel Computing Toolbox).
Version History
Introduced in R2011a
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