let IAlph, OAlph be non empty set ; :: thesis: for w1, w2 being FinSequence of IAlph
for tfsm1, tfsm2 being non empty Mealy-FSM of IAlph,OAlph
for q11, q12 being State of tfsm1
for q21, q22 being State of tfsm2 st q11,w1 -leads_to q12 & q21,w1 -leads_to q22 & q12,w2 -response <> q22,w2 -response holds
q11,(w1 ^ w2) -response <> q21,(w1 ^ w2) -response
let w1, w2 be FinSequence of IAlph; :: thesis: for tfsm1, tfsm2 being non empty Mealy-FSM of IAlph,OAlph
for q11, q12 being State of tfsm1
for q21, q22 being State of tfsm2 st q11,w1 -leads_to q12 & q21,w1 -leads_to q22 & q12,w2 -response <> q22,w2 -response holds
q11,(w1 ^ w2) -response <> q21,(w1 ^ w2) -response
let tfsm1, tfsm2 be non empty Mealy-FSM of IAlph,OAlph; :: thesis: for q11, q12 being State of tfsm1
for q21, q22 being State of tfsm2 st q11,w1 -leads_to q12 & q21,w1 -leads_to q22 & q12,w2 -response <> q22,w2 -response holds
q11,(w1 ^ w2) -response <> q21,(w1 ^ w2) -response
let q11, q12 be State of tfsm1; :: thesis: for q21, q22 being State of tfsm2 st q11,w1 -leads_to q12 & q21,w1 -leads_to q22 & q12,w2 -response <> q22,w2 -response holds
q11,(w1 ^ w2) -response <> q21,(w1 ^ w2) -response
let q21, q22 be State of tfsm2; :: thesis: ( q11,w1 -leads_to q12 & q21,w1 -leads_to q22 & q12,w2 -response <> q22,w2 -response implies q11,(w1 ^ w2) -response <> q21,(w1 ^ w2) -response )
assume that
A1: q11,w1 -leads_to q12 and
A2: q21,w1 -leads_to q22 and
A3: q12,w2 -response <> q22,w2 -response ; :: thesis: q11,(w1 ^ w2) -response <> q21,(w1 ^ w2) -response
set r12 = q12,w2 -response ;
set r22 = q22,w2 -response ;
A4: len (q22,w2 -response ) = len w2 by Def6;
set w = w1 ^ w2;
set r1w1 = q11,w1 -response ;
set r2w1 = q21,w1 -response ;
assume A5: q11,(w1 ^ w2) -response = q21,(w1 ^ w2) -response ; :: thesis: contradiction
set r21 = q21,(w1 ^ w2) -response ;
A6: q21,(w1 ^ w2) -response = (q21,w1 -response ) ^ (q22,w2 -response ) by A2, Th26;
set r11 = q11,(w1 ^ w2) -response ;
A7: q11,(w1 ^ w2) -response = (q11,w1 -response ) ^ (q12,w2 -response ) by A1, Th26;
A8: len (q11,w1 -response ) = len w1 by Def6;
A9: len (q12,w2 -response ) = len w2 by Def6;
then A10: dom w2 = Seg (len (q12,w2 -response )) by FINSEQ_1:def 3;
then dom w2 = dom (q12,w2 -response ) by FINSEQ_1:def 3;
then consider j being Nat such that
A11: j in dom w2 and
A12: (q12,w2 -response ) . j <> (q22,w2 -response ) . j by A3, A9, A4, FINSEQ_2:10;
A13: len (q21,w1 -response ) = len w1 by Def6;
j in dom (q12,w2 -response ) by A10, A11, FINSEQ_1:def 3;
then A14: (q11,(w1 ^ w2) -response ) . ((len w1) + j) = (q12,w2 -response ) . j by A8, A7, FINSEQ_1:def 7;
j in dom (q22,w2 -response ) by A9, A4, A10, A11, FINSEQ_1:def 3;
hence contradiction by A5, A13, A12, A6, A14, FINSEQ_1:def 7; :: thesis: verum