In January, 2016, VoiceVibes began beta testing its MyVoiceVibes product at local colleges and universities. Wor-Wic Community College conducted a series of pilots in sections of its basic communications course, provided detailed product feedback from instructors and students, and eventually became VoiceVibes’ first customer. The company began selling subscriptions in January, 2017, and is now used in over 20 colleges and universities across the country. As of September, 2017, VoiceVibes employed seven people.

Additional Mtech/UMD programs utilized:
UMD Law Clinic

Over several years and several studies, the Connected Savings solution has outperformed similar, competing energy demand-response products by 15-20 percent. Additionally, homes have seen a 10 percent average HVAC energy saving for participating homes through thermostat efficiency adjustments, often over $100 in savings. Recently, Whisker Labs was ranked as the #2 residential demand response provider in the prestigious Navigant Research Leaderboard: Residential Demand Response report.

Currently, over 100,000 customers across the U.S. are using Whisker Labs’ home energy system, while approximately 20 utility partners are using Connected Savings in Texas, California, New England, and Maryland.

Siemann joined Whisker Labs after graduating, as have an additional four previous UMD engineering graduate students. In addition, the Whisker Labs Connected Savings team has grown from four employees prior to the MIPS grant, to nearly 30 here in Maryland.

Starting in January, 2017, Whisker Labs commenced a new MIPS project with mechanical engineering Professor Steven Gabriel, to study the potential economic benefits of DR for retail energy providers through the use of the Connected Savings solution and advanced setpoint scheduling. The research team also still works closely with Professor Kim on advancing its HVAC Fault Detection and Diagnostics technology.

In addition, Whisker Labs has developed a new product that sits on breaker panels in homes, installs in minutes, can tell what appliances are running based upon their electronic signatures, and provides detailed insights about a home’s energy usage. The company anticipates that with this new technology, combined with connected thermostats, connected homes, proprietary weather data, home energy score cards and thermodynamic analytics developed with the University of Maryland in the Connected Savings solution, it will become the leading provider of demand-response energy savings in the nation.

Over the duration of the second study, 27 storm events were successfully sampled and tested. During this time, the basin system provided statistically significant reductions of sediments, total phosphorus and total nitrogen masses. The total runoff volume reduction exhibited by the system was 56 percent, which was significant (according to the company), given that the basin system was undersized compared to what would be recommended for the drainage area it served. Overall, runoff volume storage and reduction (infiltration and evapotranspiration) and concurrent removal of suspended sediments, phosphorus, and nitrogen appeared to be the main treatment mechanisms.

Additional Notes:
The Chesapeake Bay watershed area consists of 8.5 million acres (25 percent of its total land area) under cultivation, of which 30 percent, or 2.5 million acres, is feasible for the HIE Cascading System of Water Cells. Currently, pollution control on agricultural land consists of planting cover crops and constructing filter strips within 150 feet of a stream or body of tidal water. Neither strategy is effective for storm water flowing from higher elevations or from areas as far as a half-mile to a mile from streams or body of tidal water. Cover crops take-up existing nitrogen nutrients in the soil, but the benefits may not be realized for 20-30 years because ground water flows so slowly into Bay waters. Filter strips utilize agricultural land. Additional tools, such as HIE’s system, are needed to address the agricultural runoff challenge. (Source: High Impact Environmental, Inc.)

Funding for this project was provided by the Maryland Department of Natural Resources (DNR).

For the first MIPS project, new knowledge was created in terms of generating unique nanostructures and extending the company’s product shelf life through unique ink formulations. This research was used to aid the initial P-SERS™ product line.

Additional Mtech/UMD programs utilized:
University of Maryland $75K Business Plan Competition, Pitch Dingman, Cupid’s Cup, Entrepreneur Office Hours

Researchers found that the in-situ method was at least as good in setting spat on shell as the traditional method, and was done with much less labor than the traditional method.

This research resulted in one academic paper:

Paul, R.W., K. M. Boyle, M. Burch, B.T. Russell, and S. Russell. Bar Tending--A New Approach to Oyster (Crassostrea virginica) Spat Setting was presented at the 16th International Shellfish Restoration Conference, Dec. 10-14, 2014, in Charleston, SC.

These new algorithms have been embedded into IT Curves’ software suite, which is being utilized by a number of transportation service providers nationwide. Based on these on-going service contracts with operators, the company has been able to retain a workforce of eight full-time employees.

In 2012, the Telecom Council of Silicon Valley selected IT Curves as one of the most innovative young companies in the Machine–to-Machine (M2M) space. The company won contracts to modify its system to accommodate ride-sharing operations for a shuttle operation at Dulles and Reagan Airports.

Results from this joint effort enabled IT Curves to expand its services to meet the needs of paratransit and non-emergency Medicaid transportation, shuttle transit, and other demand-responsive transportation providers. IT Curves has been awarded a number government requests for proposals (RFPs) due to the collaborative work on the ride-sharing algorithm and continues to participate in a variety of RFPs. One of the most recent awards was with Washington Metropolitan Area Transit Authority in September, 2017, to service the Abilities-Ride program.

While most substrate mixes tested in this project were not used, reclaimed brick from local building demolition was proven feasible and is now in use. Additionally, one novel base-component was utilized based on this research and a novel green roof design was developed because of it.

Smart Slope has generated $2 million in sales and $600,000 in total support from the Maryland Department of Natural Resources (DNR). The company has created two new jobs and retained ten.

This MIPS project was supported through funding from DNR. Smart Slope received $80,000 in funding from the Mtech-managed Chesapeake Bay Seed Capital Fund, also supported by DNR.

Otomagnetics has received grants from TEDCO (Maryland Innovation Initiative), BioMaryland, the Action on Hearing Loss, Children’s National Medical Center (through a National Consortium supported by the FDA), the National Institutes of Health, and a physician-backed investment group. The company also took first place in a national medical device competition sponsored by AdvaMed. Otomagnetics has exclusive rights to multiple patents licensed from the University of Maryland. Over $9 million has been raised to date to support development of the technology (approximately $5 million through non-dilutive and dilutive investments, and $4 million through grants at the University of Maryland).

Additional Mtech/UMD programs utilized:
TEDCO, BioMaryland, and University of Maryland seed awards

This project quantified the emission reduction from the use of FSB in pavement construction. The results from this project helped in acquiring more than $230,000 in funding for the research, including $140,000 from the U.S. Department of Transportation National Transportation Center and $90,000 in continued support from GRR to UMD faculty. This project, as well as all follow-on studies, produced a methodology for FSB emission credit, a mobile app for green pavement design, and a provisional patent. Since 2006, approximately 900 jobs across MD/DC/VA have been completed on commercial parking lots and roadways using over 85,000 tons of Green Mix foamed asphalt.

Since the completion of the MIPS project, the team has been in collaboration with the transportation center at UMD and developed a mobile app, called PaveNext, which can automatically optimize pavement design for cost efficiency and environmental benefits.