Nanostar Technologies is a startup company with a unique nanosatellite-based technology developed at Taylor University in Upland, IN. This grant focused on developing a prototype that can transfer small amounts of data from remote locations on a non-time critical basis. The team's unit was equipped to sense the tank level of liquefied petroleum gas (LPG) and report the information to an LPG distributor. This enabled distributors to optimize their operations efficiently and save money on their primary costs of doing business (gasoline, labor and truck maintenance) by cutting down on the number of deliveries made each year.
A favorite art activity for many children is painting with tempera paints and brushes. Although kids enjoy the creative and fun exercise, they often make a mess when painting. To address this problem, the New Design Painting E-Team analyzed existing paintbrushes. From their research, they created the No-Dip-Paintstick. The No-Dip-Paintstick is a revolutionary, self-contained art utensil that eliminates the need for separate pots of paint, water for rinsing, and multiple brushes. The transparent handle of the brush contains a soft cartridge of non-toxic, washable paint. The handle's transparency allows the user to see the color of paint held within. To release the paint, the user squeezes the brush and activates the cartridge. Paint flows from the cartridge and into a funnel which controls the paint flow onto the brush bristles. The eight brushes in the No-Dip-Paintstick set have synthetic, straight nylon bristles.
In the post 9/11 environment, there is a growing public demand for emergency alert systems that warn against terrorism, natural, and human-generated disasters. Warning systems currently on the market contain centrally located sirens, which do not cover the full area of many closed communities. Moreover, existing systems lack the capability to efficiently provide pertinent emergency information to response crews. In response to the need for technologically advanced, safe and user-friendly alarm systems, the Alertus Technologies E-Team is developing a proprietary wireless communications solution for the dissemination of emergency warning information to concentrated populations with dedicated information providers. The product revolutionizes the warning systems industry by its reliability, all-hazards capability, active functioning, advanced localization, and embedded security. The system will be marketed to closed communities as a high-tech solution and low-cost service. The Alertus solution encompasses two proprietary software products, an innovative security protocol, and proprietary hardware receivers.
Update: After winning several other grants and business plan competitions, Alertus is on its feet and selling product. Visit the company's website here.
Poloxamer-188 (P-188) is a generic, off-the-shelf pharmaceutical compound that has been approved by the FDA as an agent to decrease human blood viscosity prior to transfusions. A research team at the University of Chicago discovered that P-188 also has the unique ability to heal cell membranes: it can seal and repair holes in membranes which, if left untreated, typically lead to cell death. Once the membrane is stabilized, the cell can begin its natural self-healing process. During this healing process, the repaired cells excrete P-188, which is safely removed from the body through the kidneys.
The Maroon Biotech E-Team created a new class of drugs based on the molecular structure of P-188. These new co-polymers could be used to treat human cellular injuries resulting from central nervous system (CNS) injury, heart attack, and stroke.
This E-Team developed the Halfpipe Helper, an innovative tool for halfpipe maintenance. The Halfpipe Helper is a specialized tool to shape and maintain snow sport terrains, like snowboard parks. Weighing only four and a half pounds, the tool can cut, shave, rake, shovel, evenly distribute and smooth all snow surfaces. The tool effectively combines the function of a shovel and an asphalt rake. It has an adjustable, locking head that pivots through a wide range of motion, and is moved into place with a sliding collar mechanism, similar to a self-wringing mop.
Internet and email technology have led to an increase in teamwork among people in remote locations. Separated by geography, these "distributed teams" cannot rely on impromptu in-person meetings; instead, group distance requires efficient and effective online member communication to complete project work. Miscommunication can lead to missed deadlines, member conflict, and lost opportunities. A strong leader can help coordinate communication efforts; however it's difficult for one person to ensure the communication of an entire team.
In response to the need for effective distributed team communication, this E-Team developed Tasque, a web-based service that facilitates team collaboration through three complementary technologies:
Interactive email that enables team members to provide input on assignments, share ideas and submit updates
Step-by-Step Wizards to facilitate team building, project development, and progress report creation
"Personal Dashboards," which provide team members with an inclusive list of pending responsibilities, including invitations, tasks, open votes, status reports, and Gantt charts.
The Tasque E-Team consisted of two MBA students, an undergraduate in computer science and mathematics, and a PhD candidate in computer science. They worked with a software entrepreneur, the founder of two non-profit companies, and the Manager of New Venture Creation at the Dingman Center for Entrepreneurship.
Over 400,000 premature births occur each year in the US, accounting for over $6 billion in annual health care spending. Statistics suggest that the number of premature births is rising, despite advances in prenatal care. Premature birth is associated with higher risk of maternal and infant death, and debilitating infant illnesses such as cerebral palsy, autism, mental retardation, and vision and hearing impairments. Currently, several tools on the market predict pre-term delivery, however the available diagnostic methods do not function early enough to safely and consistently administer labor-suppressing drugs.
This E-Team developed a cervical bioimpedance system that predicts the onset of birth early enough to safely administer preventative drugs. The system detects very subtle changes in cervical tissue composition, which indicate when the cervix is readying for childbirth. The system is composed of an electrode probe with a disposable sterile plastic tip containing the circuitry necessary to measure bioimpedance.
Update: the team has successfully licensed the technology (details not available).
This E-Team received an E-Team grant ti develop the X-CD, a system that integrates wirelessly updated messages with recorded music. The X-CD is a portable CD player that receives messages broadcast over FM sub-carrier, stores them in memory, and plays them back before, during, or after any CD played, as appropriate. Listeners receive the X-CD broadcasts, consisting of story capsules, interviews, reviews, and advertisements automatically when they use a properly equipped personal music player. Magazines, television shows and others who advertise to young adult audiences buy air time from X-CD and provide the broadcasts. X-CD players, branded by these sponsors, are offered to magazine subscribers or prospective subscribers. The sponsors, magazines like Rolling Stone or Teen People, or TV shows like MTV, gain access to the young adult market.
The X-CD E-Team created three successful prototypes and used this grant to develop a fourth generation prototype. While the first three prototypes were PC-based, the fourth was built around an embedded microcontroller.
The X-CD E-Team consisted of three computer science undergraduates. They worked with an electrical engineering faculty member and the founder and president of SixtySeven Kilohertz, Inc.
Conventional door closing devices use springs and hydraulic dampeners to create restoring and damping forces that maintain the desired closed-door profile. But these devices have several problems: potential hydraulic fluid leakage, reduced performance due to dust and temperature, and limited life cycles due to friction between the piston and frame case. To solve these problems, this E-Team developed an eddy current door closer to replace conventional hydraulic door closers.
The eddy current door closer is constructed from passive electromechanical components and uses permanent magnets in conjunction with a rotating copper disk to generate braking torques similar to standard door closing devices. This results in decreased maintenance requirements and environmental concerns due to absence of hydraulic fluid, low cost , and easily adjustable damping force.
The E-Team included two PhD students with backgrounds in mechatronics, electromechanical systems, robust control, and structural vibrations. A faculty advisor with expertise in mechanical engineering supported the students, along with an industry expert.
Heart disease is the number one killer in the United States. Conventional non-invasive cardiac diagnostic instruments fail to produce reliable information about atrial activation patterns critical in the diagnosis and treatment of heart disease. This E-Team developed a Laplacian Electrocardiogram (ECG) mapping system that acts as a quick, cost-effective and non-invasive medical diagnostic tool that helps cardiologists diagnose heart disease by detecting atrial activation patterns.
The multidisciplinary team consisted of two graduate students (one computer science major and one electrical engineering major), one technical advisor, one clinical advisor, one industry expert, and one business advisor.