August 2009
Elintrix receives funding for the enhancement of a radio/signal-processing system to increase range and performance characteristics, and to incorporate low-probability-of-detection, radio technology to enable communication with a variety of body-worn sensors.

July 2008
Under a Phase II award from the U.S. Army, Elintrix is commencing work on advanced, nanosensor technology, aimed at the detection and classification of toxic industrial chemicals and toxic industrial materials (TICs/TIMs). The technology is being designed for integration with purpose-built, wirelessly-enabled networks that are under development by Elintrix, to result in an integrated solution that is suitable for static and mobile sensing applications.

May 2008
Elintrix receives Phase II funding for the development of low-probability-of-detection sensor-radio technology for body-worn and handheld applications. The technology will also be used to enable communication between handheld display-devices and components of the sensor network, thus providing for real-time monitoring and display of sensor data.

October 2007
Elintrix receives funding for the development of a network-layer architecture with cognizant characteristics to support physiologic research in mobile scenarios where self-configuring, self-healing capability is required. The funding provides for expanded software-defined radio algorithms and compact radio-repeaters to enhance a U.S. Army radio network under development by Elintrix.

August 2007
Elintrix receives an award from the U.S. Army for enhancements to its low-probability-of-detection, personal-area radio-network, used for on-body communication of soldier-worn sensor data. The system incorporates software-defined radio technology and is configurable, to operate in a variety of modes, across a range of specific applications. The project includes research focused on novel power systems.

July 2007
Elintrix commences work on a new contract awarded by the U.S. Army to research and develop compact sensing elements for use in the detection of target analytes in both mobile and static scenarios. The technology is applicable to a wide range of physiologic, environmental and Homeland Defense detection-applications and provides a digital interface for use with radio communication systems.

August 2006
Under contract to the U.S. Army and leveraging its core strength in communications technology, Elintrix initiates the development of a radio/processing system to provide integrated signal-analysis and cognizant-radio functionality supported by software-defined radio capability. The lightweight, body-worn system includes self-configuring, self-healing, network technology. System benefits include situational awareness and support for soldier safety.