Exhibit registration is closed we are full – thanks!
The 2019 event will feature exhibit tabletops in the area just outside of the technical sessions. This is an excellent way to showcase your organization or technology to those in attendance. There is a limited amount of space so spots will be sold on a first-come-first-served basis.
Price includes organization listing on the NFCS website, three to four sentence company description on the NFCS website, web link from the NFCS website to yours, listing in the final program, one (1) 6' draped table, two (2) chairs, and one (1) attendee registration badge. Please note that all booth workers must have attendee registration badges for the symposium.
Monday, 4 February: 0600 - 0700
Monday, 4 February: 0700 – 1200 & 1300 - 1600
Tuesday, 5 February: 0930 – 1200 & 1400 - 1830
Wednesday, 6 February: 0700 – 1200 & 1300 – 1600
No early tear-downs are permitted. Organizations that dismantle early will not be permitted to exhibit in future years. If you have concerns about your dismantle, please contact me at efoster@blue52producitons.com.
OPTIONAL - Wednesday, 1715 – 1800 (Please note that everyone must be out of the foyer space for lockdown at 1800. If you need additional time, you may finish up or do the whole tear-down on Thursday from 0600 – 0700.)
Thursday, 7 February: 0600 – 0700.
Booth #: 103
AFRL’s Integrated Weapons Environment for Analysis (IWEA) is a direct response to the USAF Science and Technology strategy to develop a solid analytical foundation for assessing the ‘Best’ Mix of directed energy (DE) and kinetic energy (KE) munitions capability solutions. IWEA is an engineering/engagement level modeling, simulation, and analysis (MS&A) tool that allows integrated analysis of separate and synergistic DE and KE weapons with DE human collateral effects. Common target models allow for representation of both DE and KE weapon effects. Endgame Framework (EF) is the software architecture backbone of IWEA used to link the disjointed methodologies by including a common M&S user interface, network protocols, and visualization tools.
Booth #: 202
Since 1983, Charles River Analytics has been delivering intelligent systems that transform data into mission-relevant tools and solutions to support critical assessment and decision-making. We address a broad spectrum of mission areas and functional domains, including sensor and image processing, situation assessment and decision aiding, human systems integration, cyber security, human-robot interaction, and robot localization and automation. We provide the ability to ability to detect, track, correlate, and characterize multiple objects (e.g., humans, ships, cars, activities) from multiple domains (e.g., land, air, sea, space, underwater) using multiple sensing modalities (e.g., EO/IR, laser Vibrometry, RADAR, electro-magnetic (SIGINT) in multiple operating conditions (e.g., stationary, moving, weather, changes over time). Charles River Analytics specializes in intelligent systems, and has developed a set of algorithms to support direct operator use and analyst assessments, including image and video pre-processing and enhancement, state-of-the-art classifier cascades and feature extraction algorithms, automated feature selection and classifier training processes, deep learning to locate objects in imagery at scale, and parametric object models. Charles River became an employee-owned company in 2012, to set the stage for the next-generation of innovation, service, and growth.
Booth #: 200
Georgia Tech Research Institute (GTRI) develops advanced technological solutions and large-scale system prototypes to address the most difficult problems in national security, economic development and overall human betterment. Core research areas include complex and agile systems engineering, sensor design and integration, information management and cyber security, and defense technology development. GTRI is uniquely positioned within the Georgia Institute of Technology (Georgia Tech), a top research university. The toughest engineering problems of our customers are solved in eight dynamic research laboratories on and off the Atlanta, Georgia campus, and in over 20 locations around the nation.
Booth #: 210
II-VI Optical Systems brings together several leading optical brands under the II-VI Inc. corporate brand. Our expanding and extensive capabilities cover a wide range of products and applications, including high precision optical assemblies, objectives, infrared optics, thin film coatings and optical materials. As a vertically integrated provider, II-VI Optical Systems is uniquely positioned to meet the critical and complex design, engineering, and production requirements of customers in the defense and aerospace.
Booth #: 101
For more than 70 years, the Johns Hopkins University Applied Physics Laboratory (APL) has provided critical contributions to critical challenges with systems engineering and integration, technology research and development, and analysis. Our scientists, engineers, and analysts serve as trusted advisors and technical experts to the government, ensuring the reliability of complex technologies that safeguard our nation’s security and advance the frontiers of space. We also maintain independent research and development programs that pioneer and explore emerging technologies and concepts to address future national priorities.
Booth #: 107
Mercury Systems leverages the latest commercial microelectronics technologies to supply high-performance solutions for Radar, EW, C2 and other systems. We design our solutions with Systems Security Engineering to protect systems from attack and we manufacture in the US in DMEA-certified facilities. Mercury solutions power platforms such as Patriot, THAAD, AEGIS and SEWIP.
Booth #: 105
Project Chicken Little is a USAF program of record to exploit and characterize worldwide weapon system signatures. Collected and analyzed signatures are stored in the Eglin Signatures Data Center for all DOD and DOD contractor's use. Signature expertise includes Synthetic Aperture Radar, Infra-Red, LIDAR, Seismic and Acoustic. Modeling and Simulation capability for Radar and IR supplement collected data.
Booth #: 204
We are a Veteran Owned Small Business and our Engineers average over 20 Years Experience in Surface Combatant Design, Development, Engineering, and Test and Evaluation. We provide Naval Ship Combat System Engineering, Logistics/ILS, Process Improvement and Program Management Services. We also offer Combat System Engineering training courses.
Booth #: 214
Systems Engineering Group (SEG) is a wholly owned subsidiary of Telephonics Corporation based in Columbia MD and with satellite offices in Dahlgren VA, Huntsville AL and Washington DC. SEG provides sophisticated, highly technical engineering and analytic support to customers including the Missile Defense Agency, AEGIS Ballistic Missile Defense Program, Program Executive Offices for Integrated Warfare Systems and Ships, U.S. Naval Surface Warfare Centers, Marine Corps Systems Command and the U.S. Army Aviation and Missile Command, among others. As a leading provider of combat, radar and missile systems engineering and analysis, SEG is a key source of systems engineering expertise for U.S. integrated air and missile defense (IAMD) initiatives. A pioneer in the field of threat systems engineering, SEG offers high-fidelity trajectory, Radar Frequency (RF) signature and debris characterizations of ballistic and air-breathing missile threats tailored to U.S. weapon system design needs.
Booth #: 212
Teledyne Brown Engineering has been a leader in the engineered systems and advanced manufacturing industry for 65 years from Huntsville AL. We have consistently supported SMDC from its early years in the NIKE-X/SafeGuard era, providing full-spectrum systems engineering, integration, manufacturing, advanced technology and software solutions.
