Company Filing History:
Years Active: 2007
Title: The Innovations of Nazib A Moledina
Introduction
Nazib A Moledina is a notable inventor based in Nepean, Canada. He has made significant contributions to the field of signal processing, particularly in the area of synchronizing and de-synchronizing signals for telecommunications.
Latest Patents
Nazib A Moledina holds a patent for "Mapping Arbitrary Signals." This invention involves a synchronizer/de-synchronizer that maps continuous format signals of an arbitrary rate into frames of a pre-selected single common rate, such as SONET frames. The innovation ensures that no bits are changed and adds very little jitter or wander. This allows the continuous format signal to be carried transparently as a tributary of a SONET network. Each frame consists of a definite number of fixed stuff bits, including transport overhead bits and reminder fixed stuff bits. Additionally, it includes an adjustable number of adaptive stuff bits, which result from the phase difference between the arbitrary rate and the common rate. The mapping function is performed in a tributary unit shelf of a SONET transport shelf, with the reverse mapping function executed similarly at the far end of a SONET connection. The stuff bits are uniformly spread within the frame.
Career Highlights
Nazib A Moledina has had a distinguished career, working at Nortel Networks Corporation, where he has been able to apply his innovative ideas in telecommunications. His work has contributed to advancements in how signals are processed and transmitted over networks.
Collaborations
Throughout his career, Nazib has collaborated with notable colleagues, including Kim Bryon Roberts and Ronald Joseph Gagnon. These collaborations have further enriched his work and contributed to the success of his inventions.
Conclusion
Nazib A Moledina's contributions to signal processing and telecommunications demonstrate his innovative spirit and technical expertise. His patent for mapping arbitrary signals is a testament to his ability to solve complex problems in the field.