********************************* * Non overlapping * ********************************* prop failure_of_scanning_overlaps_with_persistent_mis_classification_1 = E ( ( G ~{s1} ) /\ ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) ) prop failure_of_scanning_overlaps_with_persistent_mis_prioritisation_1 = E ( ( G ~{s1} ) /\ ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) ) prop failure_of_scanning_overlaps_with_contrary_decision_process_1 = E ( ( G ~{s1} ) /\ ( ( F {r1} ) /\ G ( {c1} -> X ( {r} \/ {s} ) ) ) ) prop failure_of_scanning_overlaps_with_defer_action_forever_1 = E ( ( G ~{s1} ) /\ ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) ) prop persistent_mis_classification_overlaps_with_persistent_mis_prioritisation_1 = E ( ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) /\ ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) ) prop persistent_mis_classification_overlaps_with_contrary_decision_process_1 = E ( ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) /\ ( ( F {r1} ) /\ G ( {c1} -> X ( {r} \/ {s} ) ) ) ) prop persistent_mis_classification_overlaps_with_defer_action_forever_1 = E ( ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) /\ ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) ) prop persistent_mis_prioritisation_overlaps_with_contrary_decision_process_1 = E ( ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) /\ ( ( F {r1} ) /\ G ( {c1} -> X ( {r} \/ {s} ) ) ) ) prop persistent_mis_prioritisation_overlaps_with_defer_action_forever_1 = E ( ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) /\ ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) ) prop contrary_decision_process_overlaps_with_defer_action_forever_1 = E ( ( ( F {r1} ) /\ G ( {c1} -> X ( {r} \/ {s} ) ) ) /\ ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) ) ********************************* * Decomposition of non_response * ********************************* prop exi_failure_of_scanning_1 = E ( ( G ~{s1} ) /\ ( G ~{resolved1,i1} ) ) prop soundness_failure_of_scanning_1 = A ( ( G ~{s1} ) -> ( G ~{i1} ) ) prop exi_persistent_mis_classification_1 = E ( ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) /\ ( G ~{resolved1,i1} ) ) prop soundness_persistent_mis_classification_1 = A ( ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) -> ( G ~{i1} ) ) prop exi_persistent_mis_prioritisation_1 = E ( ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) /\ ( G ~{resolved1,i1} ) ) prop soundness_persistent_mis_prioritisation_1 = A ( ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) -> ( G ~{i1} ) ) prop exi_contrary_decision_process_1 = E ( ( ( F {r1} ) /\ G ( {c1} -> X ( {s} \/ {r1} ) ) ) /\ ( G ~{resolved1,i1} ) ) prop soundness_contrary_decision_process_1 = A ( ( ( F {r1} ) /\ G ( {c1} -> X ( {s} \/ {r1} ) ) ) -> ( G ~{i1} ) ) prop exi_defer_action_for_too_long_1 = E ( ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) /\ ( G ~{resolved1,i1} ) ) prop soundness_defer_action_for_too_long_1 = A ( ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) -> ( G ~{i1} ) ) prop completeness_non_response_1 = A ( ( G ~{i1} ) -> ( ( G ~{s1} ) \/ ( ( F {s1} ) /\ G ( {s1} -> X {n1} ) ) \/ ( ( F {c1} ) /\ G ( {c1} -> X {s} ) ) \/ ( ( F {r1} ) /\ G ( {c1} -> X ( {s} \/ {r1} ) ) ) \/ ( ( F {d1} ) /\ G ( {d1} -> X {s} ) ) ) )