TechNet Augusta 2022 Sponsorship and Branding Opportunities
AFCEA has developed an enhanced sponsorship program that will offer maximum visibility to those who participate! What better way to make sure you stand out and increase your exposure at this foremost event in which industry leaders can learn about military requirements and connect with decision makers and operators, where senior military and government officials can gain feedback, and where industry thought leaders will discuss and demonstrate solutions. Sponsorship opportunities are offered at several investment levels, ensuring your ability to participate.
Browse available options below, or jump to specific categories: Patron Packages, Individual Sponsorships, Branding Opportunities.
The deadline to be included in sponsor signage is Wednesday, July 20th.
Solution Abstracts
The Army Cyber Center of Excellence sought solutions to address both emerging and existing challenges. Several dozen abstracts were submitted to address the Problem Statements below and the top solutions will be presented in the Innovation Theater at TechNet Augusta.
Presentation Schedule:
Tuesday: August 16, 2022
10:30 AM - 10:50 AM
"Securing the Warfighter Workforce Everywhere"
(In response to Problem Statement 4)
Michael Slavinsky
Solution Engineer
Menlo Security
Read Abstract
11:00 AM - 11:20 AM
"Dynamic Spectrum Management Using Operational Spectrum Comprehension, Analytics, and Response (OSCAR)"
(In response to Problem Statement 8)
Ryan Tortorich, Ph.D.
Senior Research Scientist
Peraton
Read Abstract
11:30 AM - 11:50 AM
"Auto-PACE"
(In response to Problem Statement 8)
Ross Osborne
Managing Partner
Phase II
Read Abstract
12:00 PM - 12:20 PM
"Centralized Identity Driven Zero Trust"
(In response to Problem Statement 10)
Josh Brodbent
RVP, Public Sector Solutions Engineering
BeyondTrust
Read Abstract
2:00 PM - 2:20 PM
"Data Management – A Foundational Pillar for Data Modernization, Data Literacy, Data Sharing, and Analytics/AI"
(In response to Problem Statement 1)
Skip Farmer
Principal Sales Engineer
Collibra
Read Abstract
2:30 PM - 2:50 PM
"The Need for Automated Data Security"
(In response to Problem Statement 1)
Nancy Patel
Vice President, Public Sector
Immuta
Read Abstract
Wednesday: August 17, 2022
10:30 AM - 10:50 AM
"Global Data Management Through a Data Mesh"
(In response to Problem Statement 1)
Anthony Zech
Data and AI Community of Excellence Director
ECS
Read Abstract
11:00 AM - 11:20 AM
"Cybersecurity Threats in Classified Environments"
(In response to Problem Statement 1)
Michael Maice
Chief Technology Officer
Archon Secure ID Technologies
Read Abstract
11:30 AM - 11:50 AM
"Phantom"
(In response to Problem Statement 1)
Tim Solie
SISO and Executive Cyber Consultant
Phase II
Read Abstract
12:00 PM - 12:20 PM
"Leveraging Zero Trust and Strong Authentication Across Unified DoD Networks"
(In response to Problem Statement 2)
Alex Antrim
Senior Solutions Engineer
Yubico
Read Abstract
12:30 PM - 12:50 PM
"Accelerate the Mission with the Unified Network and Zero Trust Identity Access"
(In response to Problem Statement 2)
Andrew Whelchel
Senior Solution Engineer - Federal
Saviynt
Read Abstract
1:00 PM - 1:20 PM
"Zero Trust – Challenges and Opportunities"
(In response to Problem Statement 2)
Ron Fodor
Operations Manager
Huntington Ingalls Industries
Read Abstract
2:30 PM - 2:50 PM
"Ingesting Sensor Feeds from Multiple Enclaves to a Central Platform"
(In response to Problem Statement 10)
Daniel Haas
Director of Growth, Cyber Mission Sector
Peraton
Read Abstract
3:00 PM - 3:20 PM
"Universal Data Distribution"
(In response to Problem Statement 10)
Rick Taylor
Solutions Engineer
Cloudera Government Solutions, Inc.
Read Abstract
3:30 PM - 3:50 PM
"Securing the Warfighter Workforce Everywhere"
(In response to Problem Statement 10)
Vimesh Patel
Chief Technology Officer, Defense and Intelligence
World Wide Technology
Kyle Tsao
Account Manager – U.S. Army Enterprise
World Wide Technology
Read Abstract
Thursday: August 18, 2022
9:00 AM - 9:20 AM
"The Unified Network – An Operational Requirements Perspective"
(In response to Problem Statement 2)
Patrick Perry
Senior Director of Federal Strategy
Zscaler U.S. Government Solutions
Read Abstract
9:30 AM - 9:50 AM
"The Orchestration and Automation of Environments as a Service"
(In response to Problem Statement 2)
Greg Conley
President
Technical Systems Integrators, Inc.
Read Abstract
11:30 AM - 11:50 AM
"Visibility Fabric Architecture for Directing Data to Central Analytics Platform"
(In response to Problem Statement 10)
Craig Reynolds
Government Solutions
Keysight Technologies
Read Abstract
12:00 PM - 12:20 PM
"Rethinking Sensor Collection Strategies Through Security at Scale Principles"
(In response to Problem Statement 10)
Mike Saxton
Director, Threat Hunt and DFIR
Booz Allen Hamilton
Read Abstract
Problem Statements from ACM (Army Capabilities Manager) Networks & Services
Problem Statement 1:
Title: Non-Traditional Waveforms for Information Advantage (IA)
Problem Statement: Army migration of Data Analytics, Machine Learning, and Artificial Intelligence Solutions in Army Enterprise Data Centers (AEDCs) that will allow distribution of information between the enterprise level and the tactical edge.
Today the Army is unable to access, share, and interpret the data across warfighting functions required to ensure commanders have the ability to exploit the power of current and emerging data analytics, cloud computing, artificial intelligence, and machine learning capabilities.
Why this is important: The Army requires Integrated Enterprise Network/Integrated Tactical Network ”Big Data” solutions that help achieve a global, standards-based environment with enduring goals of making data visible, accessible, understandable, trusted, interoperable, and secure. The Army continues to operate in increasingly complex, highly dynamic environments. The speed of decision-making will be critical to our ability to fight and win against peer adversaries in congested and contested environments. On the Multi-Domain battlefield, information is an instrument of National Power and data is a strategic asset. Seamless access to Army data at echelon, when readily shared, increases readiness, enhances modernization efforts, and ultimately impacts mission effectiveness across all warfighting functions.
CLICK HERE to submit an abstract for Problem Statement 1.
Problem Statement 2:
Title: The Unified Network - An Operational Requirements Perspective
Problem Statement: The Army has a requirement to design, operate and maintain a unified network to counter emerging threats, enable new forms of maneuver and allow the commander to fully leverage capabilities across echelons to execute Multi-Domain Operations. As maneuver formations become cloud enabled, the ability to ensure reliability of communications while leveraging common data hosted both on premises at the unit and off premises in a cloud environment, with no loss of continuity, is essential. Essential elements of the Unified Network include:
- Data Centric
- Transport Agnostic
- Planned, managed and secured by Unified Network Operations
- Cloud enabled
CLICK HERE to submit an abstract for Problem Statement 2.
Problem Statements from ACM Tactical Radios
- Provide methods for Tactical Radio networks to distribute, utilize, validate, refine, and improve trust for Positioning, Navigation, and Timing information.
- Provide methods to modernize existing Tactical Radio systems for Post Quantum Cryptography.
Problem Statement 3:
Title: High Capacity Beyond Line of Sight (BLOS) (e.g., Low Earth Orbit (LEO) / Medium Earth Orbit (MEO) [LEO/MEO] / Geostationary Earth Orbit (GEO)) Communications
Problem Statement: To achieve Multi-Domain Operations (MDO) enabled capabilities, the Army desires high capacity, low latency, and long distance communications for expeditionary forces. The solution should provide approximately 1Gbps bandwidth and 50ms latency. We are primarily focused on a LEO/MEO capability, but would be interested in a GEO or BLOS capability that meets the 1Gbps bandwidth / 50ms latency requirement with a minimum range of 800Km.
Why this is important: This will provide expeditionary, mobile, beyond line of sight (BLOS) communications with increased bandwidth and low latency in order to provide the Warfighter enhanced transport for Mission Command Systems (to include sensor data).
CLICK HERE to submit an abstract for Problem Statement 3.
Problem Statement 4:
Title: Command, Control, Communications, Computers, Intelligence, Surveillance and reconnaissance/Electronic Warfare (C4ISR/EW) Modular Open Suite of Standards (CMOSS) Compliant Capability
Problem Statement: The Army is required to execute Mission Command (MC) and Warfighter Functions during Multi-Domain Operations (MDO). As a result, Army vehicles and other platforms are laden with radios, video displays, sensors, electronic warfare tools, antennas, and other vital communication technologies, each with its own power draw and platform footprint. At the core, these C4ISR/EW systems use many of the same building blocks, but they are not shared or distributed between systems (e.g., amplifiers, filters, processors). The C4ISR/EW Modular Open Suite of Standards (CMOSS) was developed to facilitate consolidation of these disparate systems into a common ruggedized chassis, described as the CMOSS Mounted Form Factor (CMFF). The Army requires a materiel solution for the CMFF to facilitate convergence of warfighting capabilities. Solutions should be packaged as a CMOSS compliant chassis system with physical specifications (standards) for capability cards. For capability cards, we would like to have a standard proposed if the company is unable to capture the other capability functions. CMFF solutions should be available for various environments e.g. chassis-concept integration solutions for use on a Stryker, Abrams, or Bradley in order to provide Commanders with the ability to use current warfighting capabilities. The solution should be adaptable for use in the Command Post (CP) environment.
Why this is important: CMOSS would improve the ease of operation, maintenance, and sustainment of current Warfighting capabilities. CMFF minimizes the need for platform specific integration and allows the fielding of subsequent capabilities (i.e. circuit cards/modules) without the need of any additional cabling or mounts.
CLICK HERE to submit an abstract for Problem Statement 4.
Problem Statement 5:
Title: Tactical Radios and Assured Positioning, Navigation, and Timing
Problem Statement:Provide methods for Tactical Radio networks to distribute, validate, utilize, refine, and improve trust for Positioning, Navigation, and Timing information.
Why this is important: Potentially provides options to increase both Assured-PNT and network system resiliency by increasing integration of planned capabilities and maximizing A-PNT/Network investments. Potentially informs future requirements.
CLICK HERE to submit an abstract for Problem Statement 5.
Problem Statement 6:
Title: Tactical Radios and Post-Quantum Cryptography
Problem Statement: Provide methods to modernize CMOSS Modular Form Factor – Capability Card Assemblies for Post-Quantum Cryptography at the chassis level.
Why this is important: Informs Industry and mission partners of desired operational characteristics and potentially provides initial assessment of feasibility. Potentially informs future requirements.
CLICK HERE to submit an abstract for Problem Statement 6.
Problem Statements from ACM Electronic Warfare
Problem Statement 7:
Title: Small Form-Factor Long Range Sensor and/or Antenna
Problem Statement: The Army requires long-range electronic warfare (EW) sensors and/or antenna built in a small deployable form-factor that can achieve ranges greater than 40 kilometers.
Why this is important: All echelons need to be able to detect, identify, and geolocation electromagnetic spectrum (EMS) signatures at significant distances to provide friendly and adversary situational awareness to enable lethal and non-lethal targeting capabilities in large areas of operations.
CLICK HERE to submit an abstract for Problem Statement 7.
Problem Statement 8:
Title: Dynamic Spectrum Management
Problem Statement: The Army needs the ability to dynamically adapt and adjust friendly electromagnetic spectrum use and the accompanying signature in order to adjust to and mitigate electromagnetic interference while providing a real time EMS visualization of current EMCON conditions.
Why this is important: Understanding and controlling the Army’s electromagnetic signature and mitigating interference is critical to command post survivability.
CLICK HERE to submit an abstract for Problem Statement 8.
Problem Statement 9:
Title: Radio Frequency Obscuration
Problem Statement: Army command posts need the ability to emulate key assets and the associated locations with the intent to confuse and deceive adversary foreign intelligence collection and targeting cycle. Enemy electromagnetic spectrum detection and location equipment is confused by the obfuscation of actual friendly emissions, locations, and intent.
Why this is important: The ability to obscure and slow down enemy’s targeting cycle is critical to command post survivability.
CLICK HERE to submit an abstract for Problem Statement 9.
Problem Statements from ACM Cyber
Problem Statement 10:
Title: Ingesting sensor feeds from multiple enclaves to a central platform
Problem Statement: What capabilities exist to enable secure data transport between open and closed networks to facilitate the ability to gain situational understanding given sensor data streams originate across multiple enclaves?
Why this is important: In order to gain a comprehensive cyber situational understanding of the battlefield, it is imperative to have a common operating picture that is fed by streaming data from all applicable sensors across multiple enclaves. This understanding of how adversary actions will impact the functionality of friendly networks, allows battle staffs to identify weak links, develop contingencies, and target adversarial capabilities to stop disruptive effects. This process requires that an adequate cross-domain solution exists that allows for a continuous stream of data from identified sensors to the repository in order to identify impacted nodes/links in real time.
CLICK HERE to submit an abstract for Problem Statement 10.