Michael James Rayfield

Title: Michael James Rayfield: Innovator in Network Communication Technologies

Introduction

Michael James Rayfield is a prominent inventor based in Tucson, AZ, known for his contributions to network communication technologies. With a total of 4 patents, Rayfield has made significant advancements in the field, particularly in multi-node data processing systems.

Latest Patents

One of Rayfield's latest patents is titled "Method and system for message status reporting in a multi-node network." This invention describes a multi-nodal data processing system that includes several processing nodes connected by bidirectional data links. Each node is equipped with receivers and transmitters for message handling, and it records the child nodes to which messages are sent. The system is designed to ensure reliable message transmission, even in cases of unsuccessful attempts, by utilizing lock-up messages and link cancel signals.

Another notable patent is "Method and apparatus for testing links between network switches." This invention introduces a test link protocol that continuously monitors network links to verify correct data transmission. The protocol includes functional components for sending and receiving test messages, allowing for real-time analysis of network performance and error detection.

Career Highlights

Michael James Rayfield is currently employed at International Business Machines Corporation (IBM), where he continues to innovate in the field of network technologies. His work has contributed to the development of more efficient and reliable communication systems.

Collaborations

Rayfield has collaborated with notable coworkers, including Damon W. Finney and Michael O. Jenkins, who have also made significant contributions to the field of technology.

Conclusion

Michael James Rayfield's work in network communication technologies has led to important advancements that enhance data processing systems. His innovative patents reflect his commitment to improving communication reliability and efficiency in modern networks.