Commit fdb2b6f0 authored by Georgios Dagkakis's avatar Georgios Dagkakis Committed by Jérome Perrin

first version of periodic maintenance

parent 171a7542
# ===========================================================================
# Copyright 2013 University of Limerick
#
# This file is part of DREAM.
#
# DREAM is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# DREAM is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with DREAM. If not, see <http://www.gnu.org/licenses/>.
# ===========================================================================
'''
Created on 16 Nov 2014
@author: George
'''
'''
A maintenance happens periodically. The change from failure is that it works in an endUnfinished fashion,
i.e. if the victim is processing when it happens it would first end the processing and then start the maintenance
'''
import simpy
import math
from RandomNumberGenerator import RandomNumberGenerator
from ObjectInterruption import ObjectInterruption
class PeriodicMaintenance(ObjectInterruption):
def __init__(self, id='',name='',victim=None, distribution=None, index=0, repairman=None,**kw):
ObjectInterruption.__init__(self,id,name,victim=victim)
if distribution:
self.distType=distribution.get('distributionType','No') # the distribution that the failure duration follows
self.MTTF=distribution.get('MTTF',60) # the MTTF
self.MTTR=distribution.get('MTTR',5) # the MTTR
self.availability=distribution.get('availability',100) # the availability
else:
self.distType='No'
self.MTTF=60
self.MTTR=5
self.availability=100
self.name="F"+str(index)
self.repairman=repairman # the resource that may be needed to fix the failure
# if now resource is needed this will be "None"
self.type="PeriodicMaintenance"
if(self.distType=="Availability"):
# --------------------------------------------------------------
# the following are used if we have availability defined
# (as in plant) the erlang is a special case of Gamma.
# To model the Mu and sigma (that is given in plant)
# as alpha and beta for gamma you should do the following:
# beta=(sigma^2)/Mu
# alpha=Mu/beta
# --------------------------------------------------------------
self.AvailabilityMTTF=self.MTTR*(float(availability)/100)/(1-(float(availability)/100))
self.sigma=0.707106781185547*self.MTTR
self.theta=(pow(self.sigma,2))/float(self.MTTR)
self.beta=self.theta
self.alpha=(float(self.MTTR)/self.theta)
self.rngTTF=RandomNumberGenerator(self, "Exp")
self.rngTTF.avg=self.AvailabilityMTTF
self.rngTTR=RandomNumberGenerator(self, "Erlang")
self.rngTTR.alpha=self.alpha
self.rngTTR.beta=self.beta
else:
# --------------------------------------------------------------
# if the distribution is fixed
# --------------------------------------------------------------
self.rngTTF=RandomNumberGenerator(self, self.distType)
self.rngTTF.mean=self.MTTF
self.rngTTR=RandomNumberGenerator(self, self.distType)
self.rngTTR.mean=self.MTTR
def initialize(self):
ObjectInterruption.initialize(self)
self.victimStartsProcess=self.env.event()
self.victimEndsProcess=self.env.event()
# =======================================================================
# The run method for the failure which has to served by a repairman
# =======================================================================
def run(self):
while 1:
# if the time that the victim is off-shift should not be counted
timeToFailure=self.rngTTF.generateNumber()
remainingTimeToFailure=timeToFailure
failureNotTriggered=True
yield self.env.timeout(remainingTimeToFailure)
if self.victim.isProcessing:
self.victim.isWorkingOnTheLast=True
self.waitingSignal=True
self.expectedSignals['endedLastProcessing']=1
self.expectedSignals['victimFailed']=1
receivedEvent=yield self.env.any_of([self.victim.endedLastProcessing , self.victimFailed])
if self.victim.endedLastProcessing in receivedEvent:
transmitter, eventTime=self.victim.endedLastProcessing.value
self.victim.endedLastProcessing=self.env.event()
elif self.victimFailed in receivedEvent:
transmitter, eventTime=self.victimFailed.value
self.victimFailed=self.env.event()
# interrupt the victim
self.interruptVictim() # interrupt the victim
# check in the ObjectInterruptions of the victim. If there is a one that is waiting for victimFailed send it
for oi in self.victim.objectInterruptions:
if oi.expectedSignals['victimFailed']:
self.sendSignal(receiver=oi, signal=oi.victimFailed)
self.victim.Up=False
self.victim.timeLastFailure=self.env.now
self.outputTrace(self.victim.name,"is down")
# update the failure time
failTime=self.env.now
if(self.repairman and self.repairman!="None"): # if the failure needs a resource to be fixed,
# the machine waits until the
# resource is available
with self.repairman.getResource().request() as request:
yield request
# update the time that the repair started
timeOperationStarted=self.env.now
self.repairman.timeLastOperationStarted=self.env.now
yield self.env.timeout(self.rngTTR.generateNumber()) # wait until the repairing process is over
self.victim.totalFailureTime+=self.env.now-failTime
self.reactivateVictim() # since repairing is over, the Machine is reactivated
self.victim.Up=True
self.outputTrace(self.victim.name,"is up")
self.repairman.totalWorkingTime+=self.env.now-timeOperationStarted
continue
yield self.env.timeout(self.rngTTR.generateNumber()) # wait until the repairing process is over
# add the failure
# if victim is off shift add only the fail time before the shift ended
if not self.victim.onShift and failTime < self.victim.timeLastShiftEnded:
self.victim.totalFailureTime+=self.victim.timeLastShiftEnded-failTime
# if the victim was off shift since the start of the failure add nothing
elif not self.victim.onShift and failTime >= self.victim.timeLastShiftEnded:
pass
# if victim was off shift in the start of the fail time, add on
elif self.victim.onShift and failTime < self.victim.timeLastShiftStarted:
self.victim.totalFailureTime+=self.env.now-self.victim.timeLastShiftStarted
# this can happen only if deteriorationType is constant
assert self.deteriorationType=='constant', 'object got failure while off-shift and deterioration type not constant'
else:
self.victim.totalFailureTime+=self.env.now-failTime
self.reactivateVictim() # since repairing is over, the Machine is reactivated
self.victim.Up=True
self.outputTrace(self.victim.name,"is up")
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