About This Project
Sacred geometry has long been associated with natural laws, measurements, & mathematical constants. This due to the constant appearance of sacred geometrical patterns such as pi, the golden ratio, and special numbers in the physical world and fundamental phenomenae that form the basis of measurements & mathematics. Thus, by analyzing this we can establish a unified framework that reveals an inherent mathematical structure underlying modern measurement systems.
Ask the Scientists
Join The DiscussionWhat is the context of this research?
Traditional measurement systems are often considered arbitrary or developed through historical conventions. However, GUSUMS hypothesizes that these systems may have a deeper, underlying structure derived from sacred geometrical circles (Odhiambo, 2024). Sacred geometrical patterns such pi, the golden ratio, special numbers, etc. have long been associated with the natural laws, measurements, and mathematical constants that forms our basis and perception of understanding the physical world (Mohammadi, 2023). This is due to their constant presence in planetary objects, human body proportions, animal/plant patterns, waves, sounds, architecture, & other fundamental basis/perception of measurements & mathematics. If measurement systems inherently align with sacred geometrical patterns, then a universal framework can be developed to express all units of measurement in terms of these geometric properties.
What is the significance of this project?
Measurement systems the foundations of scientific progress, technological advancement, & global standardization. However, inconsistencies between existing systems can lead to inefficiencies, miscalculations, and barriers to international collaboration. Quantifying, justifying, defining, measuring, and allocating various values and concepts depends entirely on systems of measurement and their underlying theories/concepts. Bakhromovna (2022) notes that there are various challenges facing our current systems of measurement. This includes; issues relating to a lack of a general theory , the creation of units and their quantity, methods and means of measurements, methods of assessing taccuracy, uniformity, creation of standards, determination of characteristics, and standardization of measuring instruments. This study can provide a groundbreaking framework for addressing all these issues by identifying a common origin/basis.
What are the goals of the project?
The funds are to be used in acquiring the equipment needed to better visualize, analyze, and represent the attributes and properties of sacred geometrical circles. The insights gained will facilitate data refinement and analysis that will enhance the accuracy and clarity of the information gathered and aid in identifying the fundamental attributes of sacred geometrical circles that correspond to existing measurement unit conversions. With this mathematical relationships between key measurement units (e.g., nautical miles, kilometers, degrees, miles, and other metric or imperial units) can be determined using sacred geometric principles. From this a framework a unified framework that expresses current measurement systems in terms of sacred geometrical attributes can be created. The findings can then be published in peer-reviewed journals to establish credibility and encourage adoption & contributions by key stakeholders.
Budget
1. Purchase the needed equipment
2. Data Refinement and Analysis
3. Enhanced Visualization
4. Publication and Dissemination
The basis of GUSUMS is sacred-geometrical circles. For example, identifying the units of time in a week requires drawing 6^10 interlocking circles to get the projected 60,466,176 or creating data tables that depict the same. This is currently limited due to the use of a normal laptop & display equipment with limited specs. The graphical nature of the research thus requires a large display monitor & high performance data analysis laptop. The high reliance on sacred geometrical shapes means the publications will contain lots of graphics or the need for multiple/lengthy publications. The overhead cost will cover additional services such as additional software upgrades. Acquiring the equiment and publishing initial results will greatly aid in creating awareness & initiating discussion on the topic
Project Timeline
The project will take 3-6 months depending on the availability of the funds. The estimate is based on previous knowledge, experience, abd expertise on the subject that has resulted in the shared insights.
May 01, 2025
Equipment Acquisition, familiariation, and commencement of the project
Jun 02, 2025
Improved sacred geometrical models and graphics
Aug 01, 2025
Creation of Data Sets and Formulae
Sep 05, 2025
Determination of the mathematical relationships
Dec 01, 2025
submission of findings for peer review and publication
Meet the Team
Team Bio
This will be a pi-led investigation that will be undertaken by the proposer due to his experience on the subject. This is bacause as an original concept the proposer is best placed to undertake the project due to his 5-years+ of continously improving the concept, technical know-how of the softwares used, and years of experienc as a principal investigator, reseacher, data analyst, and author.
ISAAC GREGORY ODHIAMBO
My goal in life is to make a difference! To me, making a difference means improving something or making things better than I found them. As a result, a few years ago I discovered that mathematics and metrology (measurement) systems can be improved. Since then, I have dedicated my life towards doing exactly that and hence the birth of the Gregorian Universal System and Units of Measurement System (GUSUMS) as part of this initiative.
I also bring formal training and practical experience in Accounting, IT/software development. I hold a Bachelor of Commerce (Accounting option) from Kenyatta University (2017) and a certificate in computer engineering, programming, and maintenance from (2013).
My early work included developing a school report system and a restaurant management system, while managing both a restaurant and a cyber café. More recently, I have designed and deployed the GUSUMS Research Website and GUSUMS INFOGRAPHICS web application, alongside several pending applications such as GUSUMS SLIDE, the Digital Cloud-based Accounting App (DCCA), and GUSUMS ScreenRecorder.
GUSUMS INFOGRAPHICS grew out of my need for a tool to animate mathematical models but has since evolved into a general-purpose research instrument for comparing static versus motion-based data communication. This project serves both as a natural extension of my technical background and as a stepping stone toward larger research initiatives.
Additional Information
The methodological approach will include:
1. Geometric Analysis: Construct sacred geometrical circles (such as the Seed of Life and other fundamental formations) and analyze their divisions and proportional relationships.
2. Unit Correlations: Compare the identified geometric divisions with known measurement unit conversions to determine corresponding multiples and multipliers.
3. Mathematical Modeling: Develop formulas expressing measurement units in terms of sacred geometric properties and validate them against existing conversion standards.
4. Computational Verification: Utilize computational tools to test and refine the relationships identified between sacred geometry and unit conversions.
The initial findings and illustrations can be found at the GUSUMS Website which shows that the initial analysis was able to derive fundamental concepts such as geometry, trigonometry, multiples and multipliers of the metric and imperial units, time measurement, dimension, and other mathematical concepts from sacred geometry. Despite the sharing of the initial results, they lack credibility as they have not been refined due to equipment limitation and lack of funds needed for peer-review and publication in a reputable journal.
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