Lane Haury
About Lane Haury
Lane Haury is a Senior Avionics Software Engineer (Flight Software Architect) at Blue Origin with extensive experience in software development and engineering leadership.
Company
Lane Haury is currently employed at Blue Origin, a prominent aerospace manufacturer and spaceflight services company based in Kent, Washington. Blue Origin is known for developing innovative solutions for space mobility and reusable rocket technology.
Title
Lane Haury holds the position of Senior Avionics Software Engineer (Flight Software Architect) at Blue Origin. In this role, he focuses on the architecture and development of flight software within the Space Mobility division.
Education and Expertise
Lane Haury graduated from Washington University in St. Louis with a Bachelor of Science in Computer Science and Computer Engineering, along with a minor in Electrical Engineering. His extensive expertise encompasses developing software for device drivers, bare metal, simulation and test software, tools and utilities, and full-stack web applications. He has also demonstrated proficiency in cyber-physical systems and forward-looking engineering strategies.
Professional Background
Lane Haury has a substantial professional background. He joined Blue Origin in 2015, serving in various roles such as Avionics Software Engineer, Tech Lead, Interim IPT Lead, and currently, Flight Software Architect. Prior to Blue Origin, he gained considerable experience at Microsoft, where he worked on storage and file systems and the core operating systems division. His earlier career involved roles in academia and industry, including positions at Washington University in St. Louis and NuParadigm.
Achievements
At Blue Origin, Lane Haury has made significant contributions, including submitting proposals that led to creating multiple development teams and supporting the scaling of teams to over 20 engineers combined. He also created reference architectures and identified common system assets. His efforts span from developing rapid prototypes to highly assured, safety-critical space vehicles, underscoring his commitment to innovative solutions and advancing technology in aerospace engineering.