A Unified Mathematical Language for Medicine and Science

TL;DR

This paper introduces a comprehensive mathematical language designed to unify various scientific and medical models, enabling complex system representation, analysis, and potential development of an interactive scientific database.

Contribution

It presents a novel unified mathematical language that models diverse biological, physical, and computational systems, integrating probability and programming concepts.

Findings

Models for DNA, proteins, and heart cycles built using the language

Representation of Turing machines, cellular automata, and fractals

Framework for a large scientific database and metascience exploration

Abstract

A unified mathematical language for medicine and science will be presented. Using this language, models for DNA replication, protein synthesis, chemical reactions, neurons and a cardiac cycle of a heart have been built. Models for Turing machines, cellular automaton, fractals and physical systems are also represented with the use of this language. Interestingly, the language comes with a way to represent probability theory concepts and also programming statements. With this language, questions and processes in medicine can be represented as systems of equations; and solutions to these equations are viewed as treatments or previously unknown processes. This language can serve as the framework for the creation of a large interactive open-access scientific database that allows extensive mathematical medicine computations. It can also serve as a basis for exploring ideas related to what could be called metascience.