- Seasonal partitioner

2018-02-28 13:45:55 -03:00 · 2018-02-28 13:45:55 -03:00 · 1d583e8b0a
commit 1d583e8b0a
parent 7a2dd7e54c
6 changed files with 240 additions and 44 deletions
--- a/pyFTS/common/Composite.py
+++ b/pyFTS/common/Composite.py
@ -11,21 +11,29 @@ class FuzzySet(FuzzySet.FuzzySet):
    """
    Composite Fuzzy Set
    """
-    def __init__(self, name):
+    def __init__(self, name, superset=False):
        """
        Create an empty composite fuzzy set
        :param name: fuzzy set name
        """
-        super(FuzzySet, self).__init__(self, name=name, mf=None, parameters=None, centroid=None)
+        super(FuzzySet, self).__init__(self, name, None, None, None, type='composite')
        self.superset = superset
        if self.superset:
            self.sets = []
        else:
            self.mf = []
            self.parameters = []
    def membership(self, x):
        """
        Calculate the membership value of a given input
        :param x: input value
        :return: membership value of x at this fuzzy set
        """
        if self.superset:
            return max([s.membership(x) for s in self.sets])
        else:
            return min([self.mf[ct](x, self.parameters[ct]) for ct in np.arange(0, len(self.mf))])
    def append(self, mf, parameters):
@ -37,3 +45,12 @@ class FuzzySet(FuzzySet.FuzzySet):
        """
        self.mf.append(mf)
        self.parameters.append(parameters)
    def append_set(self, set):
        """
        Adds a new function to composition
        :param mf:
        :param parameters:
        :return:
        """
        self.sets.append(set)
--- a/pyFTS/common/FuzzySet.py
+++ b/pyFTS/common/FuzzySet.py
@ -7,7 +7,7 @@ class FuzzySet(object):
    """
    Fuzzy Set
    """
-    def __init__(self, name, mf, parameters, centroid):
+    def __init__(self, name, mf, parameters, centroid, alpha=1.0, type='common'):
        """
        Create a Fuzzy Set 
        :param name: fuzzy set name
@ -19,6 +19,8 @@ class FuzzySet(object):
        self.mf = mf
        self.parameters = parameters
        self.centroid = centroid
        self.alpha = alpha
        self.type = type
        ":param Z: Partition function in respect to the membership function"
        self.Z = None
        if self.mf == Membership.trimf:
@ -35,7 +37,7 @@ class FuzzySet(object):
        :param x: input value 
        :return: membership value of x at this fuzzy set
        """
-        return self.mf(x, self.parameters)
+        return self.mf(x, self.parameters) * self.alpha
    def partition_function(self,uod=None, nbins=100):
        """
--- a/pyFTS/models/seasonal/common.py
+++ b/pyFTS/models/seasonal/common.py
@ -7,13 +7,25 @@ from pyFTS.partitioners import partitioner, Grid
 class DateTime(Enum):
    year = 1
-    month = 2
+    month = 12
-    day_of_month = 3
+    day_of_month = 30
-    day_of_year = 4
+    day_of_year = 364
-    day_of_week = 5
+    day_of_week = 7
    hour = 6
    minute = 7
    second = 8
    hour_of_day = 24
    hour_of_week = 168
    hour_of_month = 744
    hour_of_year = 8736
    minute_of_hour = 60
    minute_of_day = 1440
    minute_of_week = 10080
    minute_of_month = 44640
    minute_of_year = 524160
    second_of_minute = 60.00001
    second_of_hour = 3600
    second_of_day = 86400
 def strip_datepart(self, date, date_part):
@ -27,12 +39,45 @@ def strip_datepart(self, date, date_part):
        tmp = date.day
    elif date_part == DateTime.day_of_week:
        tmp = date.weekday()
-    elif date_part == DateTime.hour:
+    elif date_part == DateTime.hour or date_part == DateTime.hour_of_day:
        tmp = date.hour
-    elif date_part == DateTime.minute:
+    elif date_part == DateTime.hour_of_week:
        wk = (date.weekday()-1) * 24
        tmp = date.hour + wk
    elif date_part == DateTime.hour_of_month:
        wk = (date.day-1) * 24
        tmp = date.hour + wk
    elif date_part == DateTime.hour_of_year:
        wk = (date.timetuple().tm_yday-1) * 24
        tmp = date.hour + wk
    elif date_part == DateTime.minute or date_part == DateTime.minute_of_hour:
        tmp = date.minute
-    elif date_part == DateTime.second:
+    elif date_part == DateTime.minute_of_day:
        wk = date.hour * 60
        tmp = date.minute + wk
    elif date_part == DateTime.minute_of_week:
        wk1 = (date.weekday()-1) * 1440 #24 * 60
        wk2 = date.hour * 60
        tmp = date.minute + wk1 + wk2
    elif date_part == DateTime.minute_of_month:
        wk1 = (date.day - 1) * 1440 #24 * 60
        wk2 = date.hour * 60
        tmp = date.minute + wk1 + wk2
    elif date_part == DateTime.minute_of_year:
        wk1 = (date.timetuple().tm_yday - 1) * 1440 #24 * 60
        wk2 = date.hour * 60
        tmp = date.minute + wk1 + wk2
    elif date_part == DateTime.second or date_part == DateTime.second_of_minute:
        tmp = date.second
    elif date_part == DateTime.second_of_hour:
        wk1 = date.minute * 60
        tmp = date.second + wk1
    elif date_part == DateTime.second_of_day:
        wk1 = date.hour * 3600 #60 * 60
        wk2 = date.minute * 60
        tmp = date.second + wk1 + wk2
    else:
        raise Exception("Unknown DateTime value!")
    return tmp
@ -42,8 +87,8 @@ class FuzzySet(FuzzySet.FuzzySet):
    Temporal/Seasonal Fuzzy Set
    """
-    def __init__(self, datepart, name, mf, parameters, centroid):
+    def __init__(self, datepart, name, mf, parameters, centroid, alpha=1.0):
-        super(FuzzySet, self).__init__(name, mf, parameters, centroid)
+        super(FuzzySet, self).__init__(name, mf, parameters, centroid, alpha)
        self.datepart = datepart
    def membership(self, x):
--- a/pyFTS/models/seasonal/partitioner.py
+++ b/pyFTS/models/seasonal/partitioner.py
@ -0,0 +1,101 @@
 from pyFTS.common import Membership
 from pyFTS.common.Composite import FuzzySet as Composite
 from pyFTS.partitioners import partitioner, Grid
 from pyFTS.models.seasonal.common import DateTime, FuzzySet, strip_datepart
 import numpy as np
 import matplotlib.pylab as plt
 class TimeGridPartitioner(partitioner.Partitioner):
    """Even Length DateTime Grid Partitioner"""
    def __init__(self, data, npart, season, func=Membership.trimf, names=None):
        """
        Even Length Grid Partitioner
        :param data: Training data of which the universe of discourse will be extracted. The universe of discourse is the open interval between the minimum and maximum values of the training data.
        :param npart: The number of universe of discourse partitions, i.e., the number of fuzzy sets that will be created
        :param func: Fuzzy membership function (pyFTS.common.Membership)
        """
        super(TimeGridPartitioner, self).__init__("TimeGrid", data, npart, func=func, names=names, transformation=None,
                                                  indexer=None, preprocess=False)
        self.season = season
        if self.season == DateTime.year:
            ndata = [strip_datepart(k, season) for k in data]
            self.min = min(ndata)
            self.max = max(ndata)
        else:
            tmp = (self.season.value / self.partitions) / 2
            self.min = tmp
            self.max = self.season.value + tmp
        self.sets = self.build(None)
    def build(self, data):
        sets = []
        if self.season == DateTime.year:
            dlen = (self.max - self.min)
            partlen = dlen / self.partitions
        else:
            partlen = self.season.value / self.partitions
            pl2 = partlen / 2
        count = 0
        for c in np.arange(self.min, self.max, partlen):
            set_name = self.prefix + str(count) if self.setnames is None else self.setnames[count]
            if self.membership_function == Membership.trimf:
                if c == self.min:
                    tmp = Composite(set_name, superset=True)
                    tmp.append_set(FuzzySet(self.season, set_name, Membership.trimf,
                                            [self.season.value - pl2, self.season.value,
                                             self.season.value + 0.0000001], self.season.value, alpha=.5))
                    tmp.append_set(FuzzySet(self.season, set_name, Membership.trimf,
                                            [c - partlen, c, c + partlen], c))
                    tmp.centroid = c
                    sets.append(tmp)
                else:
                    sets.append(FuzzySet(self.season, set_name, Membership.trimf,
                                         [c - partlen, c, c + partlen], c))
            elif self.membership_function == Membership.gaussmf:
                sets.append(FuzzySet(self.season, set_name, Membership.gaussmf, [c, partlen / 3], c))
            elif self.membership_function == Membership.trapmf:
                q = partlen / 4
                if c == self.min:
                    tmp = Composite(set_name, superset=True)
                    tmp.append_set(FuzzySet(self.season, set_name, Membership.trimf,
                                            [self.season.value - pl2, self.season.value,
                                             self.season.value + 0.0000001], 0))
                    tmp.append_set(FuzzySet(self.season, set_name, Membership.trapmf,
                                            [c - partlen, c - q, c + q, c + partlen], c))
                    tmp.centroid = c
                    sets.append(tmp)
                else:
                    sets.append(FuzzySet(self.season, set_name, Membership.trapmf,
                                         [c - partlen, c - q, c + q, c + partlen], c))
            count += 1
        self.min = 0
        return sets
    def plot(self, ax):
        """
        Plot the
        :param ax:
        :return:
        """
        ax.set_title(self.name)
        ax.set_ylim([0, 1])
        ax.set_xlim([0, self.season.value])
        ticks = []
        x = []
        for s in self.sets:
            if s.type == 'common':
                self.plot_set(ax, s)
            elif s.type == 'composite':
                for ss in s.sets:
                    self.plot_set(ax, ss)
 #            ticks.append(str(round(s.centroid, 0)) + '\n' + s.name)
 #            x.append(s.centroid)
 #        plt.xticks(x, ticks)
--- a/pyFTS/partitioners/partitioner.py
+++ b/pyFTS/partitioners/partitioner.py
@ -8,7 +8,8 @@ class Partitioner(object):
    Universe of Discourse partitioner. Split data on several fuzzy sets
    """
-    def __init__(self, name, data, npart, func=Membership.trimf, names=None, prefix="A", transformation=None, indexer=None):
+    def __init__(self, name, data, npart, func=Membership.trimf, names=None, prefix="A",
                 transformation=None, indexer=None, preprocess=True):
        """
        Universe of Discourse partitioner scheme. Split data on several fuzzy sets
        :param name: partitioner name
@ -28,6 +29,8 @@ class Partitioner(object):
        self.transformation = transformation
        self.indexer = indexer
        if preprocess:
            if self.indexer is not None:
                ndata = self.indexer.get_data(data)
            else:
@ -74,15 +77,24 @@ class Partitioner(object):
        ticks = []
        x = []
        for s in self.sets:
            if s.type == 'common':
                self.plot_set(ax, s)
            elif s.type == 'composite':
                for ss in s.sets:
                    self.plot_set(ax, ss)
            ticks.append(str(round(s.centroid,0))+'\n'+s.name)
            x.append(s.centroid)
        plt.xticks(x,ticks)
    def plot_set(self, ax, s):
        if s.mf == Membership.trimf:
-                ax.plot([s.parameters[0], s.parameters[1], s.parameters[2]], [0, 1, 0])
+            ax.plot([s.parameters[0], s.parameters[1], s.parameters[2]], [0, s.alpha, 0])
        elif s.mf == Membership.gaussmf:
            tmpx = [kk for kk in np.arange(s.lower, s.upper)]
            tmpy = [s.membership(kk) for kk in np.arange(s.lower, s.upper)]
            ax.plot(tmpx, tmpy)
-            ticks.append(str(round(s.centroid,0))+'\n'+s.name)
+        elif s.mf == Membership.trapmf:
-            x.append(s.centroid)
+            ax.plot(s.parameters, [0, s.alpha, s.alpha, 0])
        plt.xticks(x,ticks)
    def __str__(self):
--- a/pyFTS/tests/seasonal.py
+++ b/pyFTS/tests/seasonal.py
@ -0,0 +1,19 @@
 import matplotlib.pylab as plt
 from pyFTS.models.seasonal import partitioner, common
 from pyFTS.partitioners import Util
 from pyFTS.common import Membership
 #fs = partitioner.TimeGridPartitioner(None, 12, common.DateTime.day_of_year, func=Membership.trapmf,
 #                                     names=['Jan','Feb','Mar','Apr','May','Jun','Jul','Aug','Sep','Oct','Nov','Dec'])
 #fs = partitioner.TimeGridPartitioner(None, 24, common.DateTime.minute_of_day, func=Membership.trapmf)
 fs = partitioner.TimeGridPartitioner(None, 7, common.DateTime.hour_of_week, func=Membership.trapmf)
 fig, ax = plt.subplots(nrows=1, ncols=1, figsize=[6, 8])
 fs.plot(ax)
 plt.show()