Ryan Dougherty
About Ryan Dougherty
Ryan Dougherty - Sensor Fusion Lead
Ryan Dougherty holds the position of Sensor Fusion Lead, where he is responsible for integrating data from multiple sensors to enhance system accuracy and efficiency. His role involves coordinating with various teams to ensure the seamless integration of sensor data, optimizing algorithms for better performance, and troubleshooting data discrepancies. This position capitalizes on his extensive background in engineering and signal processing.
Ryan Dougherty's Work at Jet Propulsion Laboratory
Ryan Dougherty has experience working as a Systems Engineer at Jet Propulsion Laboratory (JPL). At JPL, he was involved in developing and managing complex engineering projects related to space exploration. His tasks included designing system architecture, overseeing project execution, and ensuring compliance with technical requirements and standards.
Ryan Dougherty's Role at Space Systems Loral
At Space Systems Loral, Ryan Dougherty served as a Propulsion Engineer. In this role, he contributed to the development and testing of propulsion systems for satellites. His responsibilities included designing propulsion systems, performing simulations, and conducting performance evaluations to ensure reliability and efficiency of satellite propulsion.
Ryan Dougherty's Satellite Signal Research at Cornell University
Ryan Dougherty conducted satellite signal research at Cornell University. His research focused on analyzing and improving the transmission and reception of satellite signals. This work involved detailed signal processing, developing new methodologies for signal enhancement, and contributing to academic publications.
Ryan Dougherty's Experience at The MITRE Corporation
Ryan Dougherty worked as a Senior Signal Processing Engineer at The MITRE Corporation. In this capacity, he specialized in the analysis and processing of complex signals to support various government and defense-related projects. His role required advanced problem-solving skills, designing signal processing algorithms, and ensuring the effectiveness of communication systems.