from netica import Netica import numpy as np # initialize class ntc = Netica() # create new environment env = ntc.newenv() # initialize environment ntc.initenv(env) # create new net net_p = ntc.newnet('BNZeebrugge', env) # define nodes nodeBC1 = ntc.newnode('PeakWaterLevel', 5, net_p) ntc.setnodelevels(nodeBC1, 5, np.asarray([6.35, 7.1, 7.4, 7.8, 7.9], dtype='float64')) ntc.setnodetitle(nodeBC1, 'Peak Water Level (m)') nodeBC2 = ntc.newnode('MaxSignificantWaveHeight', 5, net_p) ntc.setnodelevels(nodeBC2, 5, np.asarray([5.2, 5.7, 5.9, 6.08, 6.2], dtype='float64')) ntc.setnodetitle(nodeBC2, 'Max. significant wave height (m)') nodeR1 = ntc.newnode('Location_Houses', 4, net_p) ntc.setnodetitle(nodeR1, 'Houses - Location') ntc.setnodestatenames(nodeR1, "Area1, Area2, Area3, Area4") ntc.setnodestatetitle(nodeR1, 0, 'Area 1 (has 283 houses)') ntc.setnodestatetitle(nodeR1, 1, 'Area 2 (has 759 houses)') ntc.setnodestatetitle(nodeR1, 2, 'Area 3 (has 383 houses)') ntc.setnodestatetitle(nodeR1, 3, 'Area 4 (has 273 houses)')
from netica import Netica import numpy as np # initialize class ntc = Netica() # create new environment env = ntc.newenv() # initialize environment ntc.initenv(env) # create new net net_p = ntc.newnet('BNZeebrugge', env) # define nodes nodeBC1 = ntc.newnode('PeakWaterLevel', 5, net_p) ntc.setnodelevels(nodeBC1, 5, np.asarray([6.35, 7.1, 7.4, 7.8, 7.9], dtype='float64')) ntc.setnodetitle(nodeBC1,'Peak Water Level (m)') nodeBC2 = ntc.newnode('MaxSignificantWaveHeight', 5, net_p) ntc.setnodelevels(nodeBC2, 5, np.asarray([5.2, 5.7, 5.9, 6.08, 6.2], dtype='float64')) ntc.setnodetitle(nodeBC2,'Max. significant wave height (m)') nodeR1 = ntc.newnode('Location_Houses', 4, net_p) ntc.setnodetitle(nodeR1,'Houses - Location') ntc.setnodestatenames(nodeR1, "Area1, Area2, Area3, Area4") ntc.setnodestatetitle(nodeR1, 0, 'Area 1 (has 283 houses)') ntc.setnodestatetitle(nodeR1, 1, 'Area 2 (has 759 houses)') ntc.setnodestatetitle(nodeR1, 2, 'Area 3 (has 383 houses)') ntc.setnodestatetitle(nodeR1, 3, 'Area 4 (has 273 houses)') nodeH1_R1 = ntc.newnode('MaxInundation_Houses', 0, net_p)