Company Filing History:
Years Active: 2005-2010
Title: Joe L Wilson, Jr: Innovator in Digital Communication Technologies
Introduction
Joe L Wilson, Jr. is a notable inventor based in Madison, AL (US). He has made significant contributions to the field of digital communication technologies, particularly in the development of systems that enhance data transmission efficiency. With a total of three patents to his name, Wilson's work has had a lasting impact on the industry.
Latest Patents
One of Wilson's latest patents is a discrete multi-tone (DMT) system and method that communicates a data pump data stream between a general-purpose CPU and a digital signal processor (DSP) via a buffering scheme. This innovative apparatus splits the function of a digital subscriber line (DSL) modem data pump between the DSP and a general-purpose host CPU. The DSP is responsible for all front-end data pump processing, including interfacing with an analog front end, FFT processing, FEQ processing, QAM decoding, and bit formatting. Meanwhile, the host CPU manages all back-end data pump processing, such as DMT tone deordering, data deinterleaving, error detection and correction, bit descrambling, and CRC processing. To facilitate effective communication between the DSP and the CPU, specialized buffers are utilized under a specialized buffer management methodology.
Career Highlights
Joe L Wilson, Jr. is currently employed at Freescale Semiconductor, Inc., where he continues to innovate and develop cutting-edge technologies. His work has been instrumental in advancing the capabilities of digital communication systems.
Collaborations
Throughout his career, Wilson has collaborated with notable colleagues, including Charles E Polk, Jr. and Lee T Gusler, Jr. These partnerships have contributed to the successful development of various technologies and patents.
Conclusion
Joe L Wilson, Jr. is a distinguished inventor whose contributions to digital communication technologies have significantly advanced the field. His innovative patents and collaborative efforts continue to shape the future of data transmission systems.