Groundbreaking Density Decoding System (DDS) for Alloy Characterization Receives International Patent Recognition
Posted: 2024-12-27
By:
Dr. B. C. Rathore
Source:
DDS Platform
We are excited to announce that our revolutionary invention, the Density Decoding System (DDS), has achieved a major milestone in intellectual property protection. The International Bureau (IB) of the World Intellectual Property Organization (WIPO) has recently published our International Patent Application (WO2024246872) on December 5th, 2024, along with the International Search Report (ISR).
The DDS is a transformative technology that enables the precise determination of elemental compositions in multi-component alloys using only their densities. By extending Archimedes' density method and treating density as encoded information, the DDS overcomes long-standing challenges in materials characterization, such as unsolvable underdetermined systems of linear equations and incomputable infinite Probable Iso-density Compositions (PICs).
Key features of the DDS include:
1. Rapid and accurate decoding of alloy compositions in real-time
2. Identification of "True Compositions" in complex alloys
3. Establishment of density as a fundamental "genetic code" for alloys
4. Discovery of quantum-like phenomena in classical alloy systems
The United States Patent and Trademark Office (USPTO), acting as the designated International Search Authority (ISA), has thoroughly examined our patent application. The ISA found all claims of our invention to be novel, non-obvious (possessing inventive step), and industrially applicable, fully meeting the essential patentability criteria for international patent grants in all PCT jurisdictions.
Our research paper, "Awakening the Sleeping Giant: Rediscovering Archimedes' Density Method for Fingerprinting of Multicomponent Alloys", which details the scientific foundations and applications of the DDS, is currently under peer review and available as a preprint on ChemRxiv (DOI: 10.26434/chemrxiv-2024-wxzt9).
We invite the scientific community to explore the DDS platform (https://www.densityfingerprinting.com/) and reproduce instantaneously the results presented in our research paper. The successful live demonstration at the University of Pennsylvania on July 26th, 2023, further validates the real-world applicability of our findings.
As we move forward with this breakthrough technology, we are actively seeking collaborations and licensing opportunities to advance the DDS and its potential applications across various industries, universities as well as R&D institutions. We believe that the DDS marks a paradigm shift in materials characterization and alloy design, opening new avenues for innovation and discovery.
For more information or to discuss potential partnerships, please contact:
Dr. B. C. Rathore
Email: rathorebc@hotmail.com
The DDS is a transformative technology that enables the precise determination of elemental compositions in multi-component alloys using only their densities. By extending Archimedes' density method and treating density as encoded information, the DDS overcomes long-standing challenges in materials characterization, such as unsolvable underdetermined systems of linear equations and incomputable infinite Probable Iso-density Compositions (PICs).
Key features of the DDS include:
1. Rapid and accurate decoding of alloy compositions in real-time
2. Identification of "True Compositions" in complex alloys
3. Establishment of density as a fundamental "genetic code" for alloys
4. Discovery of quantum-like phenomena in classical alloy systems
The United States Patent and Trademark Office (USPTO), acting as the designated International Search Authority (ISA), has thoroughly examined our patent application. The ISA found all claims of our invention to be novel, non-obvious (possessing inventive step), and industrially applicable, fully meeting the essential patentability criteria for international patent grants in all PCT jurisdictions.
Our research paper, "Awakening the Sleeping Giant: Rediscovering Archimedes' Density Method for Fingerprinting of Multicomponent Alloys", which details the scientific foundations and applications of the DDS, is currently under peer review and available as a preprint on ChemRxiv (DOI: 10.26434/chemrxiv-2024-wxzt9).
We invite the scientific community to explore the DDS platform (https://www.densityfingerprinting.com/) and reproduce instantaneously the results presented in our research paper. The successful live demonstration at the University of Pennsylvania on July 26th, 2023, further validates the real-world applicability of our findings.
As we move forward with this breakthrough technology, we are actively seeking collaborations and licensing opportunities to advance the DDS and its potential applications across various industries, universities as well as R&D institutions. We believe that the DDS marks a paradigm shift in materials characterization and alloy design, opening new avenues for innovation and discovery.
For more information or to discuss potential partnerships, please contact:
Dr. B. C. Rathore
Email: rathorebc@hotmail.com
