SBIR-STTR Award

Innovation in perishable foodstuff track-and-trace is of critical importance to cost and time-sensitive customers such as the food industry where spoilage is of concern, safety and security are paramount, and counterfeit and bio-terrorism prevention are urgent priorities. The proposed research would evaluate the feasibility of a low cost, highly accurate track and trace supply chain technology that would minimize the recall costs of contamination events in the food supply chain, and ensure source authentication. Research will develop and test a novel autonomous track-and-trace system customized for perishable foodstuffs that would be feasible for widespread industry adoption in that it is cost-effective (no portal infrastructure), accurate, and easy-to-use. Research deliverables will include identifying optimal RF labeling and packing manufacturing solutions to support integrated item/pallet- level field-to-fork tracking of North Carolina agricultural products, and optimizing the technology for the controlled temperature/humidity/air circulation environments required for shipment and in-transit storage of food perishables. The mobile device prototype design will undergo rigorous tests of its ability to track, accurately compute, map, and log the location of tagged goods in real time. Bar code integration will allow for the ability to track both at the pallet level and item level. The accuracy of the application of WISER's redundant radio location technology will be evaluated, along with system costs which should be substantially below conventional practice because it requires no physical infrastructure, has low TCO, and can be customized to user technology and coverage density preferences. In addition, the technology will be evaluated as a potential application for governments and regulators interested in mitigating the impact of contamination events and even allowing for the "lock-down" of a problematic supply chain, for example in the event of a bio-terrorism threat to a specific food product. An inexpensive, easy-to-use, and accurate tracking solution would facilitate the ability of regulators to establish manifest tracking mandates acceptable to industry. To the degree that the nation's agriculture and food supply can be electronically certified and closely monitored electronically, protection and safety of the food supply will be enhanced, and contamination event victims and dollar losses minimized.

Innovation in perishable foodstuff track-and-trace is of critical importance to cost and time-sensitive customers such as the food industry where contamination and spoilage are of concern, safety and security are paramount, and counterfeit and bio-terrorism prevention are urgent priorities. The proposed research would evaluate the feasibility of a low cost, highly accurate track and trace supply chain technology that would minimize the recall costs of contamination events in the food supply chain, and ensure source authentication. Research will develop and test a novel autonomous track-and-trace system customized for perishable foodstuffs that would be feasible for widespread industry adoption in that it is cost-effective (no portal infrastructure), accurate, and easy to use. Research deliverables will include identifying optimal RF labeling and packing manufacturing solutions to support integrated item/pallet-level field-to-fork tracking of North Carolina agricultural products, and optimizing the technology for the controlled temperature/humidity/air circulation environments required for shipment and in-transit storage of food perishables. The mobile device prototype design will undergo rigorous tests of its ability to track, accurately compute, map, and log the location of tagged perishables in real time. Bar code integration into the technology will allow for the ability to track both at the pallet level and item level in order to accommodate, and not disrupt, current industry practice. The R&D effort will be documented and validated by test data (both electronic and video-taped results), and the application of WISER’s Redundant Radio Location Technology (RRLT) will be evaluated under live conditions, along with system costs. Cost-benefit analysis will be conducted to determine whether the RRLT implementation cost is in fact substantially below conventional practice--which requires exensive physical infrastructure, high TCO, and is difficult to customize to user coverage density preferences. In addition, the technology will be evaluated as a potential application for governments and regulators interested in mitigating the impact of contamination events and even allowing for the "lock-down" of a problematic supply chain, for example, in the event of a bio-terrorism threat to a specific food product. An inexpensive, easy-to-use, and accurate tracking solution will produce benefits including facilitating the ability of regulators to establish manifest tracking mandates acceptable to industry. To the degree that the nation & #39;s agriculture and food supply can be electronically certified and closely monitored electronically, protection and safety of the food supply will be enhanced, and contamination event victims and dollar losses minimized. ---------- WISER Systems, Inc. is a small, woman-owned, disadvantaged business providing best-in-class real-time location systems (RTLS) for nearly any environment. WISER’s RTLS powers applications in aerospace, manufacturing, warehousing, yard management, and many other industries. Unlike GPS-based solutions, WISER’s Redundant Radio Localization and Tracking (RRLT) technology enables autonomous positioning, navigation, and timing (PNT) for tagged objects, vehicles, or personnel without access to or sole reliance on military or commercial satellites. Following extensive testing and feasibility studies, WISER’s primary objective in this Phase II SBIR is to augment its current RRLT technology to create a field testable-prototype for in-field military use. This will allow accurate, immediate positioning and tracking of tagged objects and personnel across indoor, underground, urban, or otherwise GPS-occluded settings. WISER’s proposed effort will greatly enhance situational awareness for military operations, warfighters, and supply chain/support in GPS-occluded settings. Additionally, it will offer limited and secure textual communication for military users connected via the wireless RRLT mesh network.