Calendar systems & timekeeping

This new technology introduces how to develop a device that can simultaneously display multiple celestial time systems, including Mars24 and Moon18, and ancient calendar systems including the Islamic Hijri calendar with more yet to be included. 

We are currently presenting our proposals and reaching out to international space agencies to introduce the technology for consideration.

Moore SD. Dynamical astronomical object-relative cyclic signal inputs for discrete time modeling with calendric applications. Research Square. submitted (Version 1).  

DOI: https://doi.org/10.21203/rs.3.rs-2521172/v1 

In 1967, time became based on atomic time. We can utilize that with what is called relationalism physics, to create non-Ensteinian geometric modeling for matter, space, time, and motion. The technology opens many new opportunities. New opportunities that include multi-celestial timekeeping systems.

We separate space and time, using non-Eisenstein relationalism that is based closely on Leibniz physics from the sixteen and seventeenth centuries. 

Unification of modern timekeeping with object-relative time introduces how recurrent and unique temporal cycles, be it a rotation, orbit, or axial procession can be charted through linear time.  

The technology can be traced back to the Neolithic period and introduces unconsidered opportunities for re-evaluating ancient civilization calendars and how to model calendars.  More advanced technology then currently used in the Gregorian calendar (1582) based on a Julian-style calendar system from 45 BCE.  The Julian calendar was introduced just 3 years before Julius Caesar put fire to part of the Library of Alexandria, a lost source for records of ancient technology.

Moore SD. Dynamical astronomical object-relative cyclic signal inputs for discrete time modeling with calendric applications. Research Square. submitted (Version 1).  

DOI: https://doi.org/10.21203/rs.3.rs-2521172/v1 

Image credit: Moore, submitted. CC BY 4.0