Let S be a network distribution that maintain the integrity of flow of current or data.
Such that,
S= {G; F; L;C;R | S}
G = Represents the Input Signal
G = {G0 | G}
Where G0 input signal:
F = Represents the Faults
F = {F0|F}
Where F0 fault in cable:
L = Represents the Loaction of fault
L = fL0;L1; :::Lnj_Lg
Where L0-Ln location of areas where faults occur.
C = Represents the Circuit
C = {C0, C1, …Cn | C}
Where C0 – Cn Circuit of different locations.
R = Represents the Response signal
R = {R0 | R}
Where R0 Response signal to the server:
2. STATE DIAGRAM
S0 = Distribution Network Signal
S1 = Source of signal
S2 = Circuit 1
S3 = Destination 1
S4 = Circuit 2
S5 = Destination 2
S6 = Server
3. FUNCTIONAL DEPENDENCY