Company Filing History:
Years Active: 2021-2024
Title: Innovations by Seth Jesse Summersett
Introduction
Seth Jesse Summersett is an accomplished inventor based in Hathway Pines, California. He has made significant contributions to the field of cybersecurity, holding 2 patents that focus on enhancing the efficiency of cybersecurity analysis.
Latest Patents
One of his latest patents is titled "Method and system for efficient cybersecurity analysis of endpoint events." This comprehensive cybersecurity platform includes a cybersecurity intelligence hub, a cybersecurity sensor, and one or more endpoints that are communicatively coupled to the cybersecurity sensor. The platform allows for efficient scaling, analysis, and detection of malware and/or malicious activity. An endpoint consists of a local data store and an agent that monitors for various types of events being performed on the endpoint. The agent performs deduplication within the local data store to identify 'distinct' events. It provides the collected metadata of distinct events to the cybersecurity sensor, which also performs deduplication within its local data store. The cybersecurity sensor sends all distinct events and/or file objects to the cybersecurity intelligence hub for analysis. The intelligence hub is coupled to a data management and analytics engine (DMAE) that analyzes the event and/or object using multiple services to render a verdict, such as benign or malicious, and issues an alert.
Career Highlights
Seth has worked with notable companies in the tech industry, including FireEye, Inc. and Google Inc. His experience in these organizations has contributed to his expertise in cybersecurity and innovation.
Collaborations
Seth has collaborated with professionals such as Christopher Glyer, enhancing his work through shared knowledge and expertise.
Conclusion
Seth Jesse Summersett is a notable inventor whose work in cybersecurity has led to significant advancements in the field. His patents reflect a commitment to improving the efficiency and effectiveness of cybersecurity measures.