This E-Team developed a prototype for a system that establishes a network of wireless devices within a small area using very low power and RF radio transmission. The transmission distances may range from a few inches to a few meters.
Communication over short distances with very low power creates a wide array of new applications of RF technology. The applications for this technology are diverse, ranging from wireless patient monitoring devices to food safety monitoring for the meat industry. The technology originated in a funded E-Team course EE1185, Microprocessor Systems.
The E-Team plans to develop a prototype and perform a market study on the device. Members of the E-Team are computer and electrical engineering students.
This grant was a second and final renewal of a project to develop a secondary school admission and placement system as well as a graduate school admissions and application review tracking system. The E-Team constructed both systems using previous funding (see grants Information Systems for Docket Tracking in Educational Institutions and Information Systems for Docket Tracking in Educational Institutions II) but the products required additional work to be market-ready. The database products were beta tested successfully at both secondary private schools and a limited number of graduate school admissions offices.
This grant supported improving the import/export software to enable the systems to work more effectively, develop online tutorials to guide users of each system, and implement a security system. The E-Team includes three math majors and a management major. All are computer science minors.
North Carolina State University at Raleigh, 1998 - $20,000
This grant supported the development, prototyping, patenting and exploration of commercialization options for an innovative rotating fixture for use in EDM. The fixture would allow the machining of previously undoable shapes.
This E-Team designed, constructed and evaluated a prototype wear simulator for the testing of ankle joint replacement components. The wear testing of joint replacement implants is important for evaluating the durability of the components and for studying the wear particles that are generated. Wear testing machines are available for hip and knee implants, but not the ankle implant, which is a new product.
This E-Team is modifying an existing business assessment tool that enables businesses to assess their capability to meet ISO9000 standards. The tool is inexpensive, easy to use, and available for use in small to medium-sized businesses. The software allows the user to calculate a 'score' that represents the performance of various business elements against international standards using ISO9000 parameters. NIST developed this assessment tool with the intent of improving the competitiveness of US businesses.
The E-Team plans to develop its own small business while further helping other small businesses through its products. The team will work with the company Acumen to develop a plan to market the product to local businesses. The team is funded to develop a product design and create the necessary software, conduct beta testing, and implement a full-scale system. They will develop a marketing plan for the product, create a list of potential customers, and prepare a detailed business plan.
The students are business majors enrolled in the ScienceWorks: Entrepreneurial Studies in Natural Science Program. Combining their skills, interest, and education in business and technology with the career and entrepreneurship training in ScienceWorks, they decided to launch a new software-based business development venture.
This E-Team has pioneered research on a continuous transmission system that could facilitate higher power utilization efficiency in consumer engines, including next generation vehicles. By combining a flywheel and a continuous transmission, the system offers a high performance drive train that outperforms current low emission devices. This system could have major applications in high efficiency and electric vehicles, as well as other powered equipment.
The device would revolutionize drive technology and the potential markets for such a device are numerous and varied, from the target application of automobile performance enhancement to smaller motors found in consumer electronics.
The team is made up of three physics majors, one sophomore and two juniors. The NCIIA funded the team to design and construct a testing prototype for the system.
California Polytechnic State University, San Luis Obispo, 1998 - $11,900
This E-Team began with a proof of principle prototype of a hand held sewing machine. Instead of the advance mechanism pulling the cloth into the sewing mechanism, the user pulls the material through the machine. The sewing mechanism operates and sews the cloth by using the friction between the cloth and a wheel.
The final product will be small, lightweight, portable, and easy to operate. Landscape contractors, army units, or anyone else who needs to repair tears would find this product useful.
The team is made up of two junior mechanical engineers and a faculty member. They are funded to complete a final conceptual product design and prototype, a market analysis, a patent, and marketing plan. The students will work on this project during the summer and as part of their senior design class, a mandatory course for all mechanical engineering seniors. The project originated in an E-Team course Philosophy of Design.
This E-Team designed, built and tested a fiber-reinforced plastic composite vehicle (car, truck) wheel. The wheel is substantially lighter than current metal wheels, resulting in improved performance and fuel economy.
This E-Team is developing an inexpensive consumer device for viewing, optimizing, and printing photographs from film. The apparatus is an inexpensive stand-alone device to view both positive and negative film on a built-in LCD display. Students estimate that even a percentage penetration of the product into the huge post processing market would generate multimillion-dollar revenues.
The reader displays a real-time positive image of positive or negative photographic film onto the reader's LCD display or to a separate TV screen. Output from the reader may be fed into the video input of a PC or MAC where the film is displayed on the monitor as a positive image. Software will allow the user to adjust the image for intensity, contrast, and color balance. The user may then print the final image.
The group is funded to build and test a proof of concept model and to then develop and test a prototype. The team works on the device as an independent study project. The project originated in an E-Team course Invention: Creative and Legal Perspectives at Ramapo College.
This E-Team originated from the Ethanol Vehicle Challenge sponsored by the United States Department of Energy, General Motors Corporation, and Natural Resources Canada. Ethanol is a cleaner burning fuel than gasoline, and a renewable source of energy. A significant problem with the fuel is that engines fueled with a high percentage of ethanol do not start well at low temperatures. The technology that Cedarville began to investigate was a device that reformulates ethanol into ether and water since ether is highly combustible at low temperatures.
The Cedarville team later discovered a better approach than the ether/water solution. Ethanol motor fuel is "contaminated" with 15% gasoline to make it toxic so that the liquor tax does not apply. The gasoline can be recovered or separated by distillation and then used for the cold start. There are many advantages to this system, as it is less volatile than ether and therefore safer. The distillation system requires much less maintenance than a catalytic reformulation device.
The E-Team for this project comes from a larger team of twenty-nine members who competed in the Ethanol Vehicle Challenge. Team members have skills in mechanical engineering, electrical engineering, and chemistry and they have established several working relationships with industry and suppliers.