Modellistica di Impianti e sistemi 2 2007/2008

CENTRO SINGOLO
E(ts)=Z/C
tq=tw+ts
E(q)=E(w)+ρ
E(tq)=E(tw)+E(ts)
ρ=λ/µ=λ*E(ts)
E(w)=ρ^2/(1-ρ)
Little:
E(w)=λ*E(tw)
E(q)=λ*E(tq)

khinchin-Pollaczek
generica:
      ρ^2   |   σ^2(ts) |
E(w)=-------|1+---------|
     2(1-ρ) |   E^2(ts) |
costante(D):
E(w)=ρ^2/(2(1-ρ))
exp(M):
E(w)=ρ^2/(1-ρ)
Erl(Ek):
E(w)=ρ^2/(2(1-ρ)) * (1+1/k)
HipExp(H2):
E(w)=ρ^2/(2(1-ρ)) * (1+1/α)

PASP pag157
E(twk)= 6.13
E(tw) = 6.13'
PACP pag165
E(tw)=p1*E(tw1)+p2*E(tw2)
E(tw1)=(λ1/2)*E(ts^2) / (1-ρ1)
E(tw2)=((λ1+λ1)/2)*E(ts^2) / (1-ρ)(1-ρ1)
E(ts1virt)=E(ts)
E(ts2virt)=E(ts)/(1-ρ1)
E(tq1)=E(tw1)+E(ts1virt)
E(tq2)=E(tw2)+E(ts2virt)
E(tq)=p1*E(tq1)+p2*E(tq2)
PTSP pag160
E(tsk)= 6.13 pag.160
E(twk)= 6.14 pag.161
E(ts1)=(1/p1)∫1
E(ts2)=(1/p2)∫2
E(tw1)=((λ/2)*E(ts^2))/(1-λ*∫1)
E(tw2)=((λ/2)*E(ts^2))/((1-λ*∫1)*(1-λ*∫2))
con:
∫1=∫da 0 a E(ts) di (tµe^(-tµ))dt
∫2=∫da E(ts) a ∞ di (tµe^(-tµ))dt ??
∫2=∫da 0 a ∞ di (tµe^(-tµ))dt !!
E(tw)=p1*E(tw1)+p2*E(tw2)
E(tq)=E(tw)+E(ts)
PTCP pag168
MULTISERVENTE
m=num di serventi
serventi=a,b,c...
FIFO
E(tw)=(B* E(ts)/m) / (1-rho)
E(tq)=((B* E(ts)) / (1-rho)) +m*E(ts) !!
PASP
E(tw1)=(B*E(ts))/(1-rho1)
E(tw2)=(B*E(ts))/(1-rho)(1-rho1)
PACP
E(tw1)=B1*E(ts^2) / (1-ρ1)
E(tw2)=B *E(ts^2) / (1-ρ)(1-ρ1)
B1=B se ρ=ρ1

   (mρ)^m 
B=-------- *
  m!(1-ρ) 

|m-1 (mρ)^i  (mρ)^m |-1
| Σ  ------+--------|
|i=0   i!   m!(1-ρ) |

DISTRIBUZIONE DI CAPACITA'
E(tsi)=Z/(C/m)
µ=1/E(ts)
µi=1/E(tsi)
ρ=λ*E(ts)

ESERCIZIO INTEGRALI
2code1servente
coda1 se ts<0.4s
p1=F(d1)-F(d0)=
=(1-e^(-.4µ))-(1-e^(-0*µ))
p2=F(d2)-F(d1)=
=(1-e^(-µ*&#8734;))-(1-e^(-.4µ))
E(twk)= 6.14 pag161
E(tw1)= &#955;*E^2(ts)/(1-&#955;&#8747;(tµe^-(tµ)da0a.4))
E(tw2)= &#955;*E^2(ts)/((1-&#955;&#8747;(tµe^-(tµ)da0a.4))*(1-&#955;&#8747;(tµe^-(tµ)da0a&#8734;))

PASP
E(tw1)=(B*E(ts))/(1-rho1)
E(tw2)=(B*E(ts))/(1-rho)(1-rho1)
PACP
E(tw1)=(B1*E(ts))/(1-ρ1)
E(tw2)=(B *E(ts))/(1-ρ)(1-ρ1)
B1=B se ρ=ρ1