Feature selection method used by selectFeatures. The methods used here follow a wrapper approach, described in Kohavi and John (1997) (see references).
The following optimization algorithms are available:
Exhaustive search. All feature sets (up to a certain number
of features max.features
) are searched.
Random search. Features vectors are randomly drawn,
up to a certain number of features max.features
.
A feature is included in the current set with probability prob
.
So we are basically drawing (0,1)-membership-vectors, where each element
is Bernoulli(prob
) distributed.
Deterministic forward or backward search. That means extending
(forward) or shrinking (backward) a feature set.
Depending on the given method
different approaches are taken.
sfs
Sequential Forward Search: Starting from an empty model, in each step the feature increasing
the performance measure the most is added to the model.
sbs
Sequential Backward Search: Starting from a model with all features, in each step the feature
decreasing the performance measure the least is removed from the model.
sffs
Sequential Floating Forward Search: Starting from an empty model, in each step the algorithm
chooses the best model from all models with one additional feature and from all models with one
feature less.
sfbs
Sequential Floating Backward Search: Similar to sffs
but starting with a full model.
Search via genetic algorithm.
The GA is a simple (mu
, lambda
) or (mu
+ lambda
) algorithm,
depending on the comma
setting.
A comma strategy selects a new population of size mu
out of the
lambda
> mu
offspring.
A plus strategy uses the joint pool of mu
parents and lambda
offspring
for selecting mu
new candidates.
Out of those mu
features, the new lambda
features are generated
by randomly choosing pairs of parents. These are crossed over and crossover.rate
represents the probability of choosing a feature from the first parent instead of
the second parent.
The resulting offspring is mutated, i.e., its bits are flipped with
probability mutation.rate
. If max.features
is set, offspring are
repeatedly generated until the setting is satisfied.
makeFeatSelControlExhaustive(same.resampling.instance = TRUE,
maxit = NA_integer_, max.features = NA_integer_,
tune.threshold = FALSE, tune.threshold.args = list(),
log.fun = "default")makeFeatSelControlGA(same.resampling.instance = TRUE,
impute.val = NULL, maxit = NA_integer_, max.features = NA_integer_,
comma = FALSE, mu = 10L, lambda, crossover.rate = 0.5,
mutation.rate = 0.05, tune.threshold = FALSE,
tune.threshold.args = list(), log.fun = "default")
makeFeatSelControlRandom(same.resampling.instance = TRUE, maxit = 100L,
max.features = NA_integer_, prob = 0.5, tune.threshold = FALSE,
tune.threshold.args = list(), log.fun = "default")
makeFeatSelControlSequential(same.resampling.instance = TRUE,
impute.val = NULL, method, alpha = 0.01, beta = -0.001,
maxit = NA_integer_, max.features = NA_integer_,
tune.threshold = FALSE, tune.threshold.args = list(),
log.fun = "default")
(logical(1)
)
Should the same resampling instance be used for all evaluations to reduce variance?
Default is TRUE
.
(integer(1)
)
Maximal number of iterations. Note, that this is usually not equal to the number
of function evaluations.
(integer(1)
)
Maximal number of features.
(logical(1)
)
Should the threshold be tuned for the measure at hand, after each feature set evaluation,
via tuneThreshold?
Only works for classification if the predict type is “prob”.
Default is FALSE
.
(list) Further arguments for threshold tuning that are passed down to tuneThreshold. Default is none.
(function
| character(1)
)
Function used for logging. If set to “default” (the default), the evaluated design points, the resulting
performances, and the runtime will be reported.
If set to “memory” the memory usage for each evaluation will also be displayed, with character(1)
small increase
in run time.
Otherwise character(1)
function with arguments learner
, resampling
, measures
,
par.set
, control
, opt.path
, dob
, x
, y
, remove.nas
,
stage
and prev.stage
is expected.
The default displays the performance measures, the time needed for evaluating,
the currently used memory and the max memory ever used before
(the latter two both taken from gc).
See the implementation for details.
(numeric)
If something goes wrong during optimization (e.g. the learner crashes),
this value is fed back to the tuner, so the tuning algorithm does not abort.
It is not stored in the optimization path, an NA and a corresponding error message are
logged instead.
Note that this value is later multiplied by -1 for maximization measures internally, so you
need to enter a larger positive value for maximization here as well.
Default is the worst obtainable value of the performance measure you optimize for when
you aggregate by mean value, or Inf
instead.
For multi-criteria optimization pass a vector of imputation values, one for each of your measures,
in the same order as your measures.
(logical(1)
)
Parameter of the GA feature selection, indicating whether to use a (mu
, lambda
)
or (mu
+ lambda
) GA. The default is FALSE
.
(integer(1)
)
Parameter of the GA feature selection. Size of the parent population.
(integer(1)
)
Parameter of the GA feature selection. Size of the children population (should be smaller
or equal to mu
).
(numeric(1)
)
Parameter of the GA feature selection. Probability of choosing a bit from the first parent
within the crossover mutation.
(numeric(1)
)
Parameter of the GA feature selection. Probability of flipping a feature bit, i.e. switch
between selecting / deselecting a feature.
(numeric(1)
)
Parameter of the random feature selection. Probability of choosing a feature.
(character(1)
)
Parameter of the sequential feature selection. A character representing the method. Possible
values are sfs
(forward search), sbs
(backward search), sffs
(floating forward search) and sfbs
(floating backward search).
(numeric(1)
)
Parameter of the sequential feature selection.
Minimal required value of improvement difference for a forward / adding step.
Default is 0.01.
(numeric(1)
)
Parameter of the sequential feature selection.
Minimal required value of improvement difference for a backward / removing step.
Negative values imply that you allow a slight decrease for the removal of a feature.
Default is -0.001.
(FeatSelControl). The specific subclass is one of FeatSelControlExhaustive, FeatSelControlRandom, FeatSelControlSequential, FeatSelControlGA.
Ron Kohavi and George H. John, Wrappers for feature subset selection, Artificial Intelligence Volume 97, 1997, 273-324. http://ai.stanford.edu/~ronnyk/wrappersPrint.pdf.
Other featsel: analyzeFeatSelResult
,
getFeatSelResult
,
makeFeatSelWrapper
,
selectFeatures