IEEE DeVry University Student Branch and CompTIA Student Club Present "Managing users accounts in Linux” By: Dr. Simon Obeid Date/Time: Thursday, June 6th @ 5:00 pm CST/6:00 pm EST In this workshop, we will discuss user management in Linux. We learn how to create a user account, add it to a group and delete users accounts. Also disabling users accounts and changing passwords will be demonstrated. To Join: https://devry.engageli.com/devry/current/cr8-h7v-4op/? Dr. Simon Obeid earned his Ph.D. in electrical engineering from the University of North Carolina in 2008, where he also earned his Master of Science degree in electrical and computer engineering and Graduate Certificate in Information Security. A member since 2003, Obeid served as the chair of the IEEE (Institute of Electrical and Electronics Engineers) Computer Society for the DeVry Charlotte chapter from 2009-2012, and as vice chair the year before. He is ABET evaluator since 2015. For Widely published, Obeid has presented his research at dozens of conferences and has served as a reviewer or guest speaker for many others. He was invited to speak to Tech Tactics conference 2023 about Security Awareness for K-12 education. Virtual: https://events.vtools.ieee.org/m/422927

June ExCom Meeting Agenda: TBD Bldg: MAI, (Checkpoint Surgical) 6050 Oak Tree Blvd, Independence, Ohio, United States, Virtual: https://events.vtools.ieee.org/m/420477

Abstract: Thermoelectric power generators can convert waste heat into useful electrical energy, but traditional thermoelectric device manufacturing uses bulk material processing with machining, assembly, and integration steps which lead to material waste and performance limitations. The traditional manufacturing approach offers virtually no flexibility in designing the architecture of thermoelectric modules, especially at multiple length scales. Additive manufacturing can overcome these challenges. Although printing techniques, including 3D printing, have been explored for thermoelectric devices, these techniques have been limited to organic or organic-inorganic composite materials. Additive manufacturing solutions have not been demonstrated for inorganic thermoelectric materials. This presentation will describe our progress in laser-based additive manufacturing of thermoelectric materials such as tellurides and silicides. Laser powder bed fusion (also known as selective laser melting) is an additive manufacturing process which locally melts successive layers of material powder to construct three-dimensional objects. When applied to thermoelectric materials, this technique could enable new shapes, hierarchical structuring, material-to-device integration, and large-area processing. The presentation will show the first demonstrations of laser additive manufacturing applied to thermoelectric materials and discuss the link between materials, manufacturing, and system-level considerations for thermoelectric power generators. Speaker(s): Prof. Saniya Agenda: - Date: 6 June 2024 - Time: 06:00 PM to 07:00 PM Virtual: https://events.vtools.ieee.org/m/421017