Future Warrior Technology Integration

Abstract

This Project matures, demonstrates, and integrates lightweight and multifunctional materials and components to provide the Soldier and small units with the most effective personal protection, electronics connectivity, and mission specific equipment while evaluating the potential to reduce physical weight, cognitive burden, and sustainment needs within the required protection and functional capabilities for the small unit. This Project develops, matures, and maintains a Soldier Systems Engineering Architecture (SSEA) framework that corresponds with other major Army platforms. Efforts in this project focus on maturing, integrating, and demonstrating personal protection (such as armor, headgear, eyewear, and hearing protection), durable Soldier protective clothing and individual equipment focused on enhancing Soldier survivability from combat threats (flame and thermal, blast and ballistic, multispectral sensors, and laser threats) and environmental threats (e.g., cold, heat, wet, vector, antimicrobial, etc.) for all weather conditions, and power management solutions. This effort includes the demonstration and validation of technologies, novel subsystems/systems, and test methods related to personnel armor, helmets, hearing protection, eyewear, uniforms, handwear, footwear, and other clothing and individual equipment items. In addition, special focus is on understanding and demonstrating the impacts of physical and cognitive load on Soldier mission performance and quality of life by implementing strategies to reduce load and/or optimize loads to reduce injuries. These efforts integrate geographically dispersed laboratory environments to conduct comprehensive assessments and report the technical viability of Soldier system solutions and conducts field demonstrations to obtain relevant feedback for user acceptance and performance validation. This Project also matures and demonstrates mission command and power and energy technologies for the dismounted Soldier and small unit operating in a networked operating environment. In Fiscal Year (FY) 18, efforts entitled Soldier/Small Unit Ballistic and Blast Protection and Soldier/Small Unit Multi-Threat Protection will be moved from Project J50 to Project FF6. Efforts in this Project support the Army Science and Technology Soldier/Squad Portfolio. Work in this Project complements and is fully coordinated with Program Element (PE) 0602786A (Warfighter Technology), PE 0602618A (Ballistics Technology), PE 0602105A (Materials Technology), PE 0602787A (Medical Technology), PE 0602716A (Human Factors Engineering Technology), PE 0602308A (Advanced Concepts and Simulation), PE 0603015A (Next Generation Training and Simulation Systems), PE 0602705A (Electronics and Electronic Devices), PE 0603710A (Night Vision Advanced Technology), PE 0602624A (Weapons and Munitions Technology), PE 0603005A (Combat Vehicle and Automotive Advanced Technology), PE 0603004A (Weapons and Munitions Advanced Technology), and PE 0603008A (Command, Control, Communications Adv Technology). The cited work is consistent with the Assistant Secretary of Defense for Research and Engineering Science and Technology priority focus areas and the Army Modernization Strategy. Work in this project is performed by the Army Natick Soldier Research, Development, and Engineering Center (NSRDEC), Natick, MA.

Document Details

Document Type

Project

Publication Date

Oct 01, 2018

Source ID

J50_0603001A_3_2040_PB_2018

Tags

Related Documents

• Root: Warfighter Advanced Technology
• Child Accomplishment: Soldier/Small Unit Ballistic and Blast Protection
• Child Accomplishment: Soldier/Small Unit Multi-Threat Protection
• Child Accomplishment: Soldier Systems Engineering Architecture (SSEA)
• Child Accomplishment: Soldier and Small Unit Mission Command/Situational Awareness (SA) and Power and Energy Integration
• Child Accomplishment: Soldier and Small Unit Human Systems Performance