dorsal/arxiv
View SchemaA Combinatorial Bit Bang Leading to Quaternions
| Authors | Michael Manthey |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/9809033 |
| URL | https://arxiv.org/abs/quant-ph/9809033 |
| Journal | Acta Polytechnica Scandinavica, No. 91 (1998). Farre, G.L. and Oksala, T. (eds.): Emergence, Complexity, Hierarchy, Organization - Selected and edited papers from the ECHO III conference. Finnish Academy of Technology. ISBN 952-5148-59-9, ISSN 1238-9803 |
Abstract
This paper describes in detail how (discrete) quaternions - ie. the abstract structure of 3-D space - emerge from, first, the Void, and thence from primitive combinatorial structures, using only the exclusion and co-occurrence of otherwise unspecified events. We show how this computational view supplements and provides an interpretation for the mathematical structures, and derive quark structure. The build-up is emergently hierarchical, compatible with both quantum mechanics and relativity, and can be extended upwards to the macroscopic. The mathematics is that of Clifford algebras emplaced in the homology-cohomology structure pioneered by Kron. Interestingly, the ideas presented here were originally developed by the author to resolve fundamental limitations of existing AI paradigms. As such, the approach can be used for learning, planning, vision, NLP, pattern recognition; and as well, for modelling, simulation, and implementation of complex systems, eg. biological.
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"abstract": "This paper describes in detail how (discrete) quaternions - ie. the abstract\nstructure of 3-D space - emerge from, first, the Void, and thence from\nprimitive combinatorial structures, using only the exclusion and co-occurrence\nof otherwise unspecified events. We show how this computational view\nsupplements and provides an interpretation for the mathematical structures, and\nderive quark structure. The build-up is emergently hierarchical, compatible\nwith both quantum mechanics and relativity, and can be extended upwards to the\nmacroscopic. The mathematics is that of Clifford algebras emplaced in the\nhomology-cohomology structure pioneered by Kron. Interestingly, the ideas\npresented here were originally developed by the author to resolve fundamental\nlimitations of existing AI paradigms. As such, the approach can be used for\nlearning, planning, vision, NLP, pattern recognition; and as well, for\nmodelling, simulation, and implementation of complex systems, eg. biological.",
"arxiv_id": "quant-ph/9809033",
"authors": [
"Michael Manthey"
],
"categories": [
"quant-ph"
],
"journal_ref": "Acta Polytechnica Scandinavica, No. 91 (1998). Farre, G.L. and\n Oksala, T. (eds.): Emergence, Complexity, Hierarchy, Organization - Selected\n and edited papers from the ECHO III conference. Finnish Academy of\n Technology. ISBN 952-5148-59-9, ISSN 1238-9803",
"title": "A Combinatorial Bit Bang Leading to Quaternions",
"url": "https://arxiv.org/abs/quant-ph/9809033"
},
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