Award Data

Phase I research on the development of a supplemental seating system for short stature drivers was undertaken by Safe Inc. in 2005. The purpose of Phase I was to demonstrate the feasibility of a device that would improve the ability of short stature drivers to safely operate a motor vehicle and to improve occupant crash safety. The study sought to examine the use of pedal extenders and other imp ...

During Phase 1 of the project, Sharma & Associates, Inc. developed a concept for high speed freight truck intended for 70-ton, regular freight and bi-modal operation, at speeds up to 150 mph. The truck uses a rigid frame and an indpendent, compliant, primary suspension for its basic architecture. Constant contact side-bearings and yaw dampers were also added to improve dynamic performance. Vehi ...

Image processing methods have been studied and implemented for the vehicle classification over the past decades. The most dominant approach is the use of vehicle dimension, which requires complex processes of sensor calibration as the vehicle dimensions shown in the imagery are heavily dependent on the camera’s field of view. In general, video systems have physical disadvantages related to the ...

In this proposal, we have proposed a program for twenty months to build on the basic ideas and feasibility developed in Phase I of this SBIR in order to demonstrate the practical use of DSRC technologies with signal controller for adaptive timing with a goal towards commercialization. Specifically, we intend to further develop, build and integrate advanced signal control algorithms that make use o ...

Our goal is to create a demonstrable software system that we call IntelliFusion, which fuses Connected Vehicle data with data from traditional inductive loop detectors and uses this data to improve traffic control at intersections across the country. Our work will improve the safety of intersections and improve the mobility of traffic through adaptive traffic control which uses data produced by I ...

The objective of this DoT SBIR program is to further establish the technical foundation of low friction HybridSil® Slippery Overturn Automobile Protection (SOAP) coatings on concrete barriers for drastic reductions in vehicle rollover potential and significantly increased concrete impact durability thus, enabling the rapid commercial integration of these coatings. To meet this challenge, NanoSoni ...

Usually the lifetime of a trailer is much longer than tractors; tractors must work with a variety types and ages of trailers over the course of their use. In many scenarios (e.g., roadside inspection, border crossing, smart parking, connected vehicle initiative, etc.), it is necessary to identify trailer(s)' VIN(s) and know their sequences attached to the powered unit. An automated trailer VIN id ...

Laser Technology Inc. (LTI) proposes a Phase II SBIR research project to further develop a Compact Shearography System, Analysis Method and Software for micro-crack detection in concrete. There is an urgent need to detect and characterize fine cracks in concrete that form because of various damage mechanisms including alkali-silicate reaction, delayed ettringite formation or frost damage. Fine s ...

During the Phase I SBIR Effort, Mainstream demonstrated a unique vehicle monitoring system (VMS) for tractor trailer applications. The development was driven by the need to easily store, retrieve, and transfer key trailer parameters to the tractor and the need to electronically transfer key driver, tractor, and trailer information to roadside inspectors and maintenance personnel. In Phase I, we ...

DTRA and other DoD agencies are currently seeking earth penetrators with higher efficiency for reaching deeply buried targets. Current penetrator materials and designs suffer from high levels of frictional drag, unbalanced resistance due to lateral forces and localized melting of the warhead leading to shape change and further instability. General Sciences, Inc. (GSI) has developed a method for en ...