DarkVision
Zahra Mirikharaji has a diverse range of work experience in the field of research and technology. Zahra is currently working as a Machine Learning Scientist at DarkVision Technologies Inc. since October 2022. Prior to this, they worked as a Postdoctoral Researcher at Simon Fraser University from May 2022 to August 2022 and as a Research Assistant from September 2015 to April 2022. Zahra also served as a Graduate Research Assistant at the University of New Brunswick from September 2013 to August 2015 and as an Undergraduate Teaching Assistant at Isfahan University of Technology from September 2011 to March 2013.
Zahra Mirikharaji's education history begins in 2008 when they enrolled at Isfahan University of Technology and pursued a Bachelor's degree in Electrical, Electronics, and Communications Engineering. Zahra completed their undergraduate studies in 2013.
In 2013, they furthered their education by joining the University of New Brunswick where they pursued a Master of Science degree in Computer Science. Zahra completed their master's program in 2015.
From 2015 to 2022, Zahra attended Simon Fraser University, where they pursued a Doctor of Philosophy (PhD) degree in Computer Science. Zahra'sdoctoral studies lasted for a period of seven years.
Overall, Zahra Mirikharaji has a solid educational background in the fields of Electrical, Electronics, and Communications Engineering, as well as Computer Science.
DarkVision
DarkVision Technologies Inc. was founded in 2013 by a group of experienced entrepreneurs that have expertise and a track record in developing and commercializing imaging technologies. The company has developed a new ultrasound-based imaging technology used to image the inside of oil and gas wells. With a clear picture of the inner working of theirwells, oil and gas operators can make smart decisions that reduce operating costs, increase production, improve well integrity and minimize environmental impacts. Unlike camera technologies, DarkVision’s high resolution ultrasound imaging system is able to image through opaque fluids that have inhibited the widespread use of cameras and optics as a downhole diagnostics tool.