Yup! Sounds like superpositioned (compound) functions in object association, yet discretely dynamical in application. This is exactly the theory I applied in my tacit knowledge-engineering method. The key to making the decision of strongest association relies on the cohesive power, the graviton, of the truthfulness of the preferred functional state. Most effective for linear and alinear integration, and N scalable.
________________________________ From: John Rose <[email protected]> Sent: Saturday, 03 April 2021 11:43 To: AGI <[email protected]> Subject: Re: [agi] Toward a Useful General Theory of General Intelligence There are potential cotemporary quantum computing engineering enhancements to Ben's DDS COFO metagraph folding and related operations. Use the imagination. I believe human cognition is likely using quantum optimizations. Why wouldn't it? They are readily available biologically. BTW the paper early on refers to DDS as Discrete Dynamical Systems then changes DDS to Discrete Decision Systems. When I read papers I zig zag around but that gave me more of a creative perspective. But excellent paper! Chock-full of good stuff. This is interesting, had to pause and think on it: "Theorem 4. A COFO decision process whose combinatory operations Ci are mutually associative can be implemented as a chronomorphism." Artificial General Intelligence List<https://agi.topicbox.com/latest> / AGI / see discussions<https://agi.topicbox.com/groups/agi> + participants<https://agi.topicbox.com/groups/agi/members> + delivery options<https://agi.topicbox.com/groups/agi/subscription> Permalink<https://agi.topicbox.com/groups/agi/T9a211170d976967d-Ma8e501542d2b12054e50d65e> ------------------------------------------ Artificial General Intelligence List: AGI Permalink: https://agi.topicbox.com/groups/agi/T9a211170d976967d-Mcc0920d24d54db9b94c9214e Delivery options: https://agi.topicbox.com/groups/agi/subscription
