Midwest Reliability Organization
Alexis Larson is an experienced Information Technology Support Analyst currently employed at Midwest Reliability Organization since June 2020. Previous roles include Sales Associate at Micro Center, Event Technician at Mall of America, Building Technology Support Specialist at Hopkins Public Schools, Computer Technician at Chipheads Computer Repair Shops, Head Technician at Tech Toads, and Computer Technician at Tech Dump (Jobs Foundation). Notable accomplishments include developing applications to streamline technology management tasks, creating automated systems for tech check-ups, and refining data recovery techniques. Alexis holds a degree in Computer Science from Normandale Community College and graduated from Wayzata High School.
Midwest Reliability Organization
Welcome to Midwest Reliability Organization! Midwest Reliability Organization (MRO) is dedicated to achieving its vision of a highly reliable and secure North American bulk power system. The MRO region spans the provinces of Saskatchewan and Manitoba, and all or parts of the states of Arkansas, Illinois, Iowa, Kansas, Louisiana, Michigan, Minnesota, Missouri, Montana, Nebraska, New Mexico, North Dakota, Oklahoma, South Dakota, Texas, and Wisconsin. The region is comprised of more than 200 organizations that are involved in the production and delivery of electricity, including municipal utilities, cooperatives, investor-owned utilities, transmission system operators, federal power marketing agencies, Canadian Crown Corporations, and independent power producers. MRO's primary responsibilities are to: ensure compliance with mandatory Reliability Standards by entities who own, operate, or use the interconnected, international BPS; conduct assessments of the grid's ability to meet electricity demand in the region; and analyze regional system events. Additionally, MRO creates an open forum for stakeholder experts in the region to discuss important topics related to addressing risk and improving reliable operations of the power grid.