Warren Carver, Msm, Mis, Ecse
About Warren Carver, Msm, Mis, Ecse
Warren Carver is an RF/Wireless Network Engineer and System Engineer III with extensive experience in wireless network design. He specializes in optimal access point placement and has worked on projects ranging from small networks to large healthcare facilities.
Work at CommonSpirit Health
Warren Carver serves as an RF/Wireless Network Engineer/System Engineer III at CommonSpirit Health. He has held this position since 2016, contributing to the organization for eight years. In this role, he focuses on the design and implementation of wireless networks, ensuring optimal performance and coverage in healthcare environments.
Education and Expertise
Warren Carver has a solid educational background, having studied at Walla Walla University where he earned a Bachelor's degree in Computer Information Systems from 1995 to 2002. He furthered his education at the University of Phoenix, where he achieved a Dual Master's degree in Management and Information Systems from 2005 to 2009. His academic training supports his expertise in wireless network design and engineering.
Background
Warren Carver has extensive experience in wireless network design, specializing in both greenfield and brownfield projects. He has a proven track record in optimizing access point placement and quantity to enhance wireless network performance. His practical experience includes designing networks with a range of access points, from as few as two to over one thousand.
Achievements in Wireless Network Design
Warren Carver has successfully completed significant wireless network designs, including a project for a large healthcare facility in Texas that specializes in heart medicine. This project involved designing a wireless network across a 12+ floor building, demonstrating his capability in managing complex network requirements.
Technical Skills and Tools
Warren Carver utilizes Ekahau's software for predictive and active modeling in his wireless network designs. This tool aids in assessing and optimizing access point placement, ensuring effective wireless coverage and performance in various environments.