Patent Document ID: 9330358
Application ID: 14037640
Patent Status: 1

Claim One:
1. A computer-implemented method comprising the steps of: providing a system including a computer having a computer input device connected thereto, a display device connected thereto, and a plurality of distributed processors communicatively coupled to the computer, wherein the computer is configured to coordinate the activities of the distributed processors, wherein each of the distributed processors is configured to maintain a case base comprising a plurality of cases arranged in a tabular format, each case comprising one or more case base independent weight variables and a domain-specific dependency variable, wherein the case base independent weight variables comprise case base Boolean variables and case base non-Boolean variables; normalizing the non-Boolean variables for each case of the case base; determining a normalized weight vector for the case base; receiving a context comprising one or more contextual independent weight variables, wherein the contextual independent weight variables comprise contextual Boolean variables and contextual non-Boolean variables; normalizing the contextual non-Boolean variables; determining a match between the received context and each case of the case base using the normalized non-Boolean variables for each case of the case base, the normalized contextual non-Boolean variables, and the normalized weight vector for the case base, using the equation match ⁡ ( i ) = ∑ k = 1 n ⁢ w k ⁢  c i , k - c j , k   participating ⁢ ⁢ situational ⁢ ⁢ variables  , i ≠ j , where c i is a case in the case base, c j is a received context, and w is the normalized weight vector for the case base; determining a skew value for each category of domain specific dependency variables; selecting the category of domain specific dependency variables having a minimal skew value; comparing the minimal skew value to a user-defined squelch value; returning feedback to a user of the system that the system is unsure of the result if the minimal skew value exceeds the user-defined squelch value; and returning feedback to a user of the system that the system is sure of the result if the minimal skew value does not exceed the user-defined squelch value.