Award Data

This effort is based on the outcome of a successful Phase I project that demonstrated the feasibility of generating logic pattern-based, OS-platform-independent, signatures for malicious program logic and detecting its presence within much larger binary modules. The detection (and localization) of a logic-based signature within a binary executable represents a significant advancement in automated ...

2LR proposes to develop a malicious source code scanner that can flag sections of potentially `bad' source code that is vulnerable to exploitation or may contain latent malicious content. This effort will evaluate and compare current methods for detecting malicious code with a novel method based on code-logic signature analysis and discrimination. It will develop pattern classes that are associa ...

This SBIR effort proposes to develop tools that enable a capability in tamper proof source code. The proposed methods will protect against several modes of attack including malicious programmers, source code viruses, and system worms. The tools and techniques proposed are based on the fundamental logical structure of the application under protection and offer dynamic monitor and control of runtim ...

Our proposal is constructed around a mature, government-owned, distributed simulation architecture known as Joint Force Operational Readiness Combat Effectiveness Simulator (JFORCES) and a proven three-step computer-aided methodology known as Rapid Relational Modeling (RRM). The proposal includes definition, structuring and prioritizing of project goals and requirements using consensus of end-use ...

3D Research Corporation and Aerojet, Incorporated, propose a novel approach to munitions modeling to assure the munitions meets Insensitive Munitions (IM) requirements of DoDD 5000.2-R and MIL-STD-2105C. IM validation of munitions requires extensive testing, and it is necessary to develop analytical approaches which accelerate the design process for IM compliance. The proposed approach evaluates ...

3D Research Corporation and the University of Alabama in Huntsville have teamed to offer advanced high-energy gel propellants for exoatmospheric interceptors. High energy gelled propellants are required to improve the performance envelopes of future MDA missile interceptors. We will theoretically investigate a number of gelled fuel-additive combinations to determine the best potential performers ...

Shock secondary to acute blood loss remains the number one cause of death for our soldiers. Furthermore, heat shock and dehydration remain a common cause of cardiovascular collapse for our military personnel, especially as operations move increasingly into desert combat. The main objective of this proposal is to continue the development of the inspiratory impedance threshold device (ITD); an opera ...

The Significant Optical Manufacturing Advancement (SOMA) program will capture the principles of Design for Assembly (DFA) and apply them to the fabrication of precision optical systems. This will provide the Navy with the ability to design optical systems that can be assembled efficiently for much lower costs. We will use the DFA discipline of axiomatic design coupled with optical design equations ...

The military’s recognition of the need to share battlefield intelligence between all branches of the armed services has led to the development of the Joint Fires Network (JFN). In JFN, intelligence data from the many sensors deployed must be assimilated for targeting information. Computers perform some of these operations while people perform others. The bottom line is that there are massive ...

Helicopter operations in low visibility conditions and sling load operations continue to add risk to aviation operations. If slingloads could be picked up without use of a ground crew, lives could be saved. In addition, a sensor that could detect obstacles as well as the load would help in low-visibility conditions. We propose to develop such a system. It will include the mechanical structures nec ...