Ho Leung Chan

Title: Ho Leung Chan: Innovator in Wireless Communication Systems

Introduction

Ho Leung Chan is a notable inventor based in Adelaide, Australia. He has made significant contributions to the field of wireless communication, holding three patents that showcase his innovative spirit and technical expertise.

Latest Patents

One of Ho Leung Chan's latest patents is a multi-access communication system. This invention describes a multiple access slotted wireless communication system that comprises a plurality of terminals and a multi-access receiver. The multi-access receiver is capable of decoding multiple transmissions in each slot of a frame from terminals within its field of view. Each terminal operates in an active state for transmitting and an inactive state. After receiving an acknowledgment of a successful transmission, the terminal enters the inactive state for at least a transmission delay time. This delay may correspond to the remaining time that the terminal is in the field of view of the multi-access receiver. The terminal can utilize a probability of transmission to determine whether to transmit in the next frame. Additionally, the terminal may select the slot in a frame based on information such as which slots were acknowledged. The receiver may also employ compression to transmit acknowledgment messages.

Career Highlights

Ho Leung Chan has worked with prominent organizations, including Myriota Pty Ltd and the University of South Australia. His experience in these institutions has allowed him to refine his skills and contribute to advancements in wireless communication technology.

Collaborations

Some of his notable coworkers include Alexander James Grant and David Victor Lawrie Haley. Their collaboration has likely fostered an environment of innovation and creativity in their respective projects.

Conclusion

Ho Leung Chan's work in wireless communication systems exemplifies his dedication to innovation and technology. His patents reflect a deep understanding of communication systems and their potential to enhance connectivity.