Company Filing History:
Years Active: 2009
Title: Arifl Maislos: Innovator in Dynamic Bandwidth Allocation
Introduction
Arifl Maislos is a notable inventor based in Sunnyvale, CA, who has made significant contributions to the field of telecommunications. His work primarily focuses on methods for dynamic bandwidth allocation and queue management in Ethernet passive optical networks. With a patent portfolio that includes innovative solutions, he has established himself as a key figure in his industry.
Latest Patents
Arifl Maislos holds a patent for "Methods for dynamic bandwidth allocation and queue management in Ethernet passive optical networks." This patent addresses the challenges of fragmentation loss in passive optical networks by ensuring that the length of a grant issued by an Optical Line Terminal (OLT) precisely matches the count of bytes to be transmitted by an Optical Network Unit (ONU). The methods outlined in the patent include determining an ONU uplink transmission egress order based on a three-stage test, along with various embodiments for ONU report threshold setting. This innovation is crucial for enhancing the efficiency and reliability of network communications.
Career Highlights
Arifl Maislos is associated with PMC-Sierra Israel Ltd., where he has contributed to the development of advanced networking technologies. His expertise in dynamic bandwidth allocation has positioned him as a valuable asset to the company and the broader telecommunications sector. His work has implications for improving network performance and user experience.
Collaborations
Arifl has collaborated with notable colleagues such as Onn Haran and Barak Lifshitz, who share his commitment to advancing technology in the telecommunications field. Their combined efforts have led to significant advancements in network management and efficiency.
Conclusion
Arifl Maislos is a distinguished inventor whose work in dynamic bandwidth allocation has made a lasting impact on the telecommunications industry. His innovative solutions continue to shape the future of network management and efficiency.