Award Data

Adverse physiological events (PEs) have plagued warfighters piloting military aircraft, in particular PEs involving hypoxia and cockpit cabin decompression. Though there has been a large variety of research performed in trying to understand the problems and why theyre caused, there are inefficiencies due to the lack of standardized cross-laboratory protocols, procedures, and metrics. To address th ...

Triton Systems, Inc. proposes to develop a piezo-textile that can capture underwater explosion pressure wave patterns to ultimately establish and monitor for injury risk severity. We propose to use a state-of-the-art piezo-textile to which we will apply our own proprietary treatments.We will assess our textiles pressure detection performance and durability against a non-textile piezoelectric array ...

This Small Business Technology Transfer (STTR) Phase I effort will demonstrate the feasibility of using piezoelectric fibers to detect shock waves from underwater explosions (UNDEX) and sensing physiological measures such as heart and respiratory rates on warfighters. Piezoelectric fibers will be characterized for their ability so sense different amplitudes and frequencies of shock and vibration. ...

Triton Systems will develop a novel approach to field-based disease and biochemical diagnostics through innovative use of extremely low cost bioanalytical devices.The proposed platform will provide a low cost, portable, and reliable diagnostic test for on-site use in austere and resource-limited environments.The devices will be highly durable, rugged, and easy to use without user-induced variation ...

Triton Systems, Inc., teamed with an academic partner, propose to: a) investigate the intensity and shape of the electromagnetic field (EMF) radiated by the human body, and b) develop a simulation of the resulting field to further explore the use of the human EMF to predict warfighter physiological status.

Investments by the Department of Defense (DOD) have led to the development and demonstration of electronic textiles capable of transforming traditional textile systems into wearable power and data systems. The Defense Health Agency (DHA) has identified an opportunity to leverage advancements in smart garment systems for military personnel to aid in the prediction in performance declines and healt ...

For this Phase I SBIR proposal, Vcom3D proposes to design advanced medical moulage that accurately simulates the progression of an injury or pathology by morphing through a series of clinical states to enable learners to confirm the progression of the wound and to determine whether iatrogenic errors or pathologies occurred duing treatment. The physical morphing moulage may be applied to medical m ...

Providing Army combat medics with meaningful experience in treatment of battlefield injuries is a particular challenge. Moulage has the potential to assist in acquiring what could otherwise be very hard-to-come-by preparatory experience for the distressing real-life emergencies medics and soldiers may encounter in the field. However, current approaches to moulage are limited in their ability to re ...

Navy corpsmen have helped achieve a remarkable survival rate for the warfighters, civilians, and enemy combatants whom they serve. But this success masks significant challenges. Training corpsmen is costly; it addresses primarily the acquisition of skills (rather than maintenance); it fails to convey the perceptual and cognitive skills to handle complex combat wounds; the design of training techno ...

There are several current and imminent orthotic and prosthetic (OandP) fitting scenarios that would greatly benefit from the ability to wirelessly collect and transmit physiological information from the user. Both upper- and lower- limb OandP fittings that: 1) use osseointegration, 2) have cable management issues, and 3) could benefit from physiological information from locations proximal to the ...