Enterprises
Tron Future Tech Inc.
Official Website:https://www.tronfuture.com/
label
Company Description
About Tron Future
Tron Future Tech (創未來科技) literally means “to create future technology” in mandarin Chinese. It states the long term focus of Tron Future Tech Inc. is to create never-existed technologies for the well-beings of all humankinds based on fundamental researches, and not limited by disciplinary boundaries. Tron Future Tech also derives its name from a popular sci-fi movie “Tron: legacy” due to the similarities that our founders are Caltech related.
Our Missions
We empower our customers solve critical problems based on data through fundamental sensor and communication breakthroughs.
Our Technology
Tron Future Tech Inc. continuously delivers world’s thinnest all-digital phased array systems. To create such systems, we have thoroughly studied and tested fundamental principles to make breakthroughs in III/V or CMOS ASIC/SoC, antenna, packaging, cooling, DSP, digital array system, data processing, computer architecture, language compiler, information architecture, production testing methods etc. Making high-end phased arrays in thin form factor allows Tron Future Tech Inc. to create never-imagined applications for diverse industries.
Industry Star Participation in Company Research Practice:
LEO Satellite Intra-Constellation Routing and 5G Core Network Integration
This project focuses on the integration of low Earth orbit (LEO) satellite communication networks with the 5G core network, with an emphasis on designing and validating intra-constellation routing mechanisms to enhance network performance, reliability, and Quality of Service (QoS).
The scope includes developing routing algorithms optimized for dynamic LEO satellite topologies, improving intra-constellation routing efficiency to achieve optimized packet forwarding and load balancing while ensuring seamless interoperability with the 5G core network.
Additionally, the project will establish a simulation platform for LEO satellite networks to test and refine different routing strategies, as well as develop a validation environment for real-world testing.
The project will also integrate data visualization techniques and a user interface for intuitive representation of network performance and algorithm impact, enhancing intra-constellation network management and decision-making.