# ------------------------

# PRICES
#on roads
psc=0.0
pce=0.0
pse=0.0
#in public transit
beta=1.0
tausc=2.0
tauce=2.0
tause=4.0

#TIME VALUE
# theta= pi / 2
theta=0.57079653589793
val=10.0

#(* DISTANCES *)
dRsc=5.0
dRce=5.0
#dRse=6.0
dTsc=5.0
dTce=5.0
#dTse=8.0 

#(* TRAVEL SPEED *)
#on road
sRsc=30.0
sRce=30.0
sRse=40.0
#in public transit
sTsc=15.0
sTce=15.0
sTse=20.0

#(* FREQUENCIES *)
fsc=6.0
fce=6.0 
fse=6.0

#(* NUMBER OF COMMUTERS FOR EACH O/D PAIR *)
Nsc=110.465
Nce=110.465
Nse=118.155

# (* Elasticités des demandes *)
MUsc=0.2
MUce=0.2
MUse=0.2

#(* EXTERNAL COST *)

#in public transit (crowding)
asct=0.05
acet=0.05
aset=0.05

#in cars (congestion, excluding time value) 
ascr=0.02
acer=0.02
aser=0.02

#(* OTHER PARAMETER *)
#waiting cost
cw=1.5
#Public transit operating cost (used as a scale parameter for frequencies)
phi=22.5
#
alpha=0.10
#Switching cost
sc=0.5
#
gama=0.0
#
ef=5.0