Systems, methods and computer program products for neurolinguistic text analysis
First Claim
1. A computer-implemented method for neurolinguistically analyzing text, comprising:
- receiving a meaningful first text sequence;
deriving first text sequence n-grams from the first text sequence;
comparing the first text sequence n-grams to a plurality of predetermined indicator n-grams, wherein;
each predetermined indicator n-gram is associated with at least one cognitive motivation orientation;
each predetermined indicator n-gram is further associated with at least one cognitive motivation orientation confidence weight, there being one cognitive motivation orientation confidence weight corresponding to each cognitive motivation orientation with which that particular predetermined indicator n-gram is associated; and
recording at least one cognitive motivation orientation confidence weight for the first text sequence by, for each first text sequence n-gram matching any one of the predetermined indicator n-grams, recording each cognitive motivation orientation confidence weight associated with the particular predetermined indicator n-gram matching that particular first text sequence n-gram;
using the at least one cognitive motivation orientation confidence weight recorded for the first text sequence to determine a first dominant cognitive motivation orientation set expressed in the first text sequence;
generating an electronic signal which encodes a message, wherein the message subsumes the first dominant cognitive motivation orientation set expressed in the first text sequence; and
transforming the electronic signal into a display signal which encodes the message, and using the display signal to present the message in visible form on a physical display.
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Accused Products
Abstract
Computer-implemented methods can transform a corpus of meaningful text sequences into a generalized computer-usable repository of neurolinguistic information that can be applied by one or more computer systems. The computer system(s) can use the neurolinguistic information to neurolinguistically analyze meaningful text sequences to derive statistical information and identify dominant cognitive motivation orientations expressed in those text sequences. The identified dominant cognitive motivation orientations can be used to improve the efficacy of both human-generated and machine-generated communications. The computer system(s) thereby transform a meaningful text sequence into actionable information about the dominant cognitive motivation orientation(s) of the author of that text sequence within the context in which the text sequence was composed. Computer systems and computer-program products for implementing the methods are also described.
57 Citations
37 Claims
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1. A computer-implemented method for neurolinguistically analyzing text, comprising:
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receiving a meaningful first text sequence; deriving first text sequence n-grams from the first text sequence; comparing the first text sequence n-grams to a plurality of predetermined indicator n-grams, wherein; each predetermined indicator n-gram is associated with at least one cognitive motivation orientation; each predetermined indicator n-gram is further associated with at least one cognitive motivation orientation confidence weight, there being one cognitive motivation orientation confidence weight corresponding to each cognitive motivation orientation with which that particular predetermined indicator n-gram is associated; and recording at least one cognitive motivation orientation confidence weight for the first text sequence by, for each first text sequence n-gram matching any one of the predetermined indicator n-grams, recording each cognitive motivation orientation confidence weight associated with the particular predetermined indicator n-gram matching that particular first text sequence n-gram; using the at least one cognitive motivation orientation confidence weight recorded for the first text sequence to determine a first dominant cognitive motivation orientation set expressed in the first text sequence; generating an electronic signal which encodes a message, wherein the message subsumes the first dominant cognitive motivation orientation set expressed in the first text sequence; and transforming the electronic signal into a display signal which encodes the message, and using the display signal to present the message in visible form on a physical display. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A computer-implemented method for analyzing text,
comprising: -
receiving a meaningful first text sequence; and neurolinguistically analyzing the first text sequence by generating first statistical information, the first statistical information representing at least one cognitive motivation orientation, the at least one cognitive motivation orientation being expressed within the first text sequence; generating an electronic signal which encodes a message, wherein the message subsumes the first statistical information; and transforming the electronic signal into a display signal which encodes the message, and using the display signal to present the message in visible form on a physical display. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A computer-implemented method for receiving an analysis of text, comprising:
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transmitting, from a first computer system, a meaningful first text sequence; receiving, at the first computer system, a communication responsive to at least a result of automated neurolinguistic analysis of cognitive motivation orientations, the cognitive motivation orientations being expressed in the first text sequence; and generating an electronic signal which encodes a message, wherein the message subsumes the communication; and transforming the electronic signal into a display signal which encodes the message, and using the display signal to present the message in visible form on a physical display. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37)
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Specification