Catastrophic Critical Point Detection Prediction(CCPDP) Software Protocol Development and Performance Evaluation for Homeland Security and Theater Missile Defense

The Catastrophic Critical Point Detection Prediction (CCPDP) Software Protocol theoretically determines eight catastophe theory equations and adaptation catastrophe theory equation critical points from sensor data mathematically modeled manifold angular perturbations and correlated Lagrangian delay equation critical points to enable sensor prediction of terrorist attempts to create catastrophic events. The detection by sensors of shoe bombers, copycat shoe bombers and hard and deeply buried targets containing explosives for homeland security and airborne laser components for theater missile defense will be enhanced by the CCPDP Software shape intelligence. The theoretical development of the catastrophe theory critical point detection is for Lagrangian delay equations and the eight catastrophe theory equations; fold, cusp, butterfly, swallowtail, hyperbolic umbilic, elliptic umbilic, parabolic umbilic, wigwam, and catastrophe theory adaptation equation critical points. The CCPDP Software Protocol provides immediate detection of the representation of catastrophe theory equation data from sensors to various protocol partitions of software dealing with catastrophic events