College Outreach Community

Community Mission

The College Outreach Community leads collaborative efforts between SAME and academia to identify and resolve national security infrastructure-related challenges and supports Post’s efforts to mentor and develop future STEM professionals at the collegiate-level. The community serves as a bridge between academia, Posts, government (military and civilian), and the private sector. The community provides guidance to the network of student chapters across the Society, promotes internship opportunities from SAME sustaining members, and will establish a new engineering competition for students designed to address the nation’s grand challenges.

Overview

The SAME College Outreach Community strives to organize programs and present opportunities to future military and civilian members of the A/E/C profession that will foster networking within their professional community, build leadership skills, and provide job opportunities to recent graduates. Additionally, students with an active membership within SAME have at their disposal a wealth of knowledge and experiences from professionals throughout the A/E/C community of practice.

Community Chair

Chris Poulos
Director Of Business Development, Akima, LLC

Past Chair
Marilyn Zenko

2026 SAME Undergraduate Innovation Design Challenge

Submissions for the 2025-26 SAME Undergraduate Innovation Design Challenge are due by February 6, 2026. This competition, led by the College Outreach COI, evaluates design projects that are being developed by student members as part of their degree curriculums and highlights the innovative thinking of the next generation of STEM professionals.

Upcoming National Webinars

• 
  April 2, 2026

  Webinar

  New Nuclear Power Market Overview

  This webinar presents an overview of the new nuclear power market, including the leading technologies and their proposed applications. This in-depth discussion will span technological advances and overviews on the latest Generation 3+ Advanced Light Water Reactors, Generation 4 Non-Light Water Reactors, and Micro Reactor innovations.
• 
  April 15, 2026

  Webinar

  Solving Complex CVOC Problems with ISTR– Field Proven Approaches

  This webinar will first discuss the unique aspects of performance-based designs when considering procurement of thermal remediation services. Next, we will discuss how to evaluate criteria when selecting performance objectives, i.e., “ how do you define success?”
• 
  April 16, 2026

  Webinar

  The National Spatial Reference System: Modernizing Our Geodetic Foundation for the Future

  The National Geodetic Survey (NGS), within the National Oceanic and Atmospheric Administration (NOAA), is in the process of making the critical transition from the current National Spatial Reference System (NSRS) to the upcoming, modernized (2022) system.

Related TME Articles – College Outreach

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  Hub and Spoke Modeling to Support Agile Combat Employment

  July 18, 2024

  Using a more optimized site selection methodology that leverages a hybrid approach of both rank-based and mathematical approaches can provide insights into the most viable locations for basing strategics across the Indo-Pacific.
• 

  Pricing Military Construction in a Dynamic Market

  July 18, 2024

  As it develops cost estimates for military construction projects, Naval Facilities Engineering Systems Command utilizes a series of interrelated considerations, along with classification methodology, data resources, and software, to accurately navigate changing market conditions.
• 

  Evaluating Installation Water Security Needs

  July 16, 2024

  A recent study that evaluated the current and future relative water security risk of 30 installations across the Department of the Air Force offers a quantitative metric that can prioritize and support resiliency investments across the enterprise.
• 

  Assessing Compounding Risks of Airfield Flooding

  July 16, 2024

  At Tyndall AFB, an installation that is highly vulnerable to extreme weather, researchers piloted a unique approach that leverages high-resolution hydrologic-hydraulic models to illuminate resilience concerns affecting drainage systems during compounding climate events.