Company Filing History:
Years Active: 1990
Title: **David C. Olsen: Innovating Computer Communication Systems**
Introduction
David C. Olsen is a notable inventor based in Kaysville, Utah, recognized for his contribution to the field of computer communication systems. With a focus on enhancing data transfer efficiency, Olsen has developed innovative solutions that improve connectivity between devices.
Latest Patents
David C. Olsen holds a significant patent titled “Computer communication system having supplemental formats.” This invention describes a comprehensive computer communication system that utilizes a communication medium with multiple nodes connected to it. The system features a transfer format selection mechanism that enables the selection of appropriate data transfer formats between nodes. Each node is equipped with a default format alongside supplemental formats, ensuring flexibility and compatibility. This invention also includes advanced circuitry and software that facilitate the seamless exchange of data while optimizing communication efficiency.
Career Highlights
Olsen is associated with Dayna Communications, Inc., a company that focuses on advancing communication technologies. Throughout his career, he has demonstrated a commitment to improving computer networking solutions and enhancing the user experience in digital communications.
Collaborations
In his work at Dayna Communications, Olsen has collaborated with esteemed colleagues such as George E. Gerpheide and Kerry D. Sharp. These collaborations have contributed to the enhancement of his innovative projects and have further established his reputation in the technology sector.
Conclusion
David C. Olsen stands out as a prominent inventor in the realm of computer communication systems. His groundbreaking patent not only showcases his inventive capabilities but also contributes to the ongoing evolution of data transfer technologies. Through his work at Dayna Communications, he continues to influence the future of network communication, ensuring that connectivity remains efficient and effective.