I am developing a multifunctional engineering and design software platform that combines visual modeling, an intelligent assistant, real-time simulation, and digital testing components.
The platform supports a versatile approach to 3D design construction, including:
visual/gesture-based input,
text-based descriptions,
and automatic generation from technical drawings.
An integrated intelligent support system assists users with learning, guidance, and functional consultation throughout the design process.
The platform enables real-time simulation of designs under realistic environmental conditions, tailored to the specific requirements of different industries such as architecture, mechanical engineering, aviation, and energy systems. The interface is optimized for multimodal workflows.
It also supports AR/VR integration and includes an internal materials library for model processing. This library contains standardized data on the physical properties of specific materials, enabling more accurate simulations and engineering decisions.
Additionally, the platform features an experimental scientific environment, where theoretical constructions and experiments can be conducted at physical and quantum levels.
This platform was born while designing another highly complex engineering innovation. That innovation exposed the limitations of existing tools. I used it as a reference case to define what this platform must be capable of. If the platform can fully support and simulate that complex system, it becomes a universal solution for a wide range of engineering and design problems. This reference use case defines the platform’s core architecture and serves as its validation benchmark.
Notice:
This invention is a systemic platform that addresses multiple engineering challenges simultaneously. The full implementation requires expertise in three programming languages and collaboration within a team. Given that I developed this project independently, the current submission focuses on a functional MVP design and a clear workflow, which demonstrates the core logic, feasibility, and scalability of the system. Even without working code, the MVP shows how the platform could be built and scaled efficiently with the right team. The submission highlights the innovation, potential impact, and strategic value of the system, allowing judges to evaluate the concept based on its originality, functionality, and vision rather than lines of code alone.
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