JISE


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Journal of Information Science and Engineering, Vol. 40 No. 6, pp. 1335-1348


Infrastructure Honeycomb Torus with Mutually Independent Hamiltonian Paths


LI-YEN HSU
Architect, Urban Planner
HSU Studio
Hsinchu, 300 Taiwan
E-mail: liyenhsu@ms19.hinet.net


The infrastructure to support human societies’ safety, health, and utility supply can not be negotiated, and to have basic reliability in monitoring tasks, plural or dual surveillance, rooted in biologic senses, is needed. To fit the contemporary wireless communication, MIMO (multi-in multi-out) being incorporated with suggested network prototypes, aimed especially on the naturally bipartite Honeycomb Tori (HT) for cellular communications, to prevent information loss, interference, unexpected changes caused by such as clogged water. The mutually independent Hamiltonian Path (MIHP) property can be used for parallel processing and supporting cipher coding to offer efficiency, integrity, and privacy. Isomorphism between Honeycomb Tori and Generalized Honeycomb Tori (GHT) is utilized; mathematical HT(m) m ≥ 2 can be presented as GHT (m, 6m, 3m). Setting rational configurations, incremental scalability qualifying, it is proved that GHT (m, n, n/2) “even m, n ≥ 12” and “odd m > 1, n ≥ 10,” which naturally include full Honeycomb Tori, can have a property dual MIHP.


Keywords: cellular communication, cipher coding, dual surveillance, interference, parallel processing

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