Jared Reabow BSc (Hons) Mbcs
About Jared Reabow BSc (Hons) Mbcs
Jared Reabow is a Prototyping Engineer specializing in UAV systems at Dendra Systems in Oxford, United Kingdom. With over 10 years of experience in designing and building UAVs, he leads the development of UAV planting technologies and has participated in worldwide competitions for innovative UAV solutions.
Work at Dendra Systems
Jared Reabow has been employed at Dendra Systems since 2019 as a Prototyping Engineer specializing in UAV systems. In this role, he leads the development of UAV planting technologies, focusing on innovative solutions for environmental applications. His work involves engineering UAV systems that can operate effectively in challenging conditions, contributing to the company's mission of enhancing ecological restoration efforts.
Education and Expertise
Jared Reabow studied at Oxford Brookes University, where he earned a Bachelor's Degree in Computing from 2014 to 2017. He also completed a one-year program in Computer Science at the same institution from 2017 to 2018. Additionally, he holds an NVQ Level 2 Distinction in Engineering Operations from Oxford and Cherwell Valley College, achieved between 2009 and 2011. Jared is currently studying air law at SKEYE and has obtained the PfCO UAV Operator certification since 2018.
Background
Before joining Dendra Systems, Jared Reabow worked at Archangel Aerospace Ltd as a Technical Advisor from 2015 to 2019. He also held positions as a Development Engineer at Cadonix Ltd and as a Prototype Technician at Science Oxford, both in 2018 to 2019. Additionally, he served as a Teacher at Abingdon and Witney College from 2017 to 2019, where he shared his knowledge in engineering.
Achievements
Jared Reabow has participated in and won worldwide competitions that focus on innovative UAV solutions. He has over 10 years of experience in designing, building, and flying specialized UAVs across various sectors, including private, scientific, and entertainment. His engineering expertise enables him to create UAV systems that perform reliably in adverse conditions.