SBIR Phase II: Use of ultraviolet light as a treatment for pathogens in strawberry fields

SBIR 第二阶段：使用紫外线治疗草莓田中的病原体

• 批准号: 2151662
• 负责人: Adam Stager
• 金额: $ 96.58万
• 依托单位: TRIC ROBOTICS LLC
• 依托单位国家: 美国
• 项目类别: Cooperative Agreement
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-12-01 至 2024-11-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2151662&HistoricalAwards=false
• 关键词: SBIR; Phase; II; Use; ultraviolet

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project seeks to accelerate the transition from chemical pesticides to non-chemical alternatives by providing farmers with a sustainable, long-term solution for managing pests, while reducing agricultural impacts on human health and the environment. Today, strawberry farmers are reliant on chemical pesticides, spending $2,500/acre on over 60,000 acres/year to support the $3.6 billion U.S. strawberry industry. Organic farms, representing 10% of the industry, lack effective treatment methods resulting in high labor costs and increased risk of yield loss. This project seeks to develop a system for using ultraviolet light as an efficient and equally effective alternative for chemical pesticides, disrupting the pesticide manufacturing industry by providing farmers with a healthier and more environmentally conscious method for treating crops. The solution may eliminate uncertainty associated with chemical applications, reduce labor requirements, and increase profitability for farmers. Additionally, technologies developed as part of this project will minimize human exposure to chemical pesticides and reduce the ecological damage caused by existing agricultural treatment practices.This Small Business Innovation Research (SBIR) Phase II project seeks to further develop a novel, non-chemical treatment system for commercialization of agricultural pest control. This system will provide a cost competitive alternative to chemical pesticides, a global $84 billion market. Existing pest controls are ineffective due to insect resistance, cause uncertainty, and result in reduced yield and profitability. This project’s objective is to create a reliable, non-chemical treatment alternative that uses ultraviolet (UV-C) light to control multiple pests effectively and sustainably. The project team will build a UV-C treatment device with a dosing control algorithm for achieving reliable pest control in minimum treatment time. This dosing controller will use novel volumetric irradiance profiles to characterize the effectiveness of a treatment and adjust treatment time and/or distance to account for field uncertainties. The goal of this research is be a commercial UV-C treatment system integrated into an automated pest control system.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

这一小企业创新研究（SBIR）第二阶段项目的更广泛影响/商业潜力旨在通过向农民提供管理害虫的可持续长期解决方案，同时减少农业对人类健康和环境的影响，加速从化学农药向非化学替代品的过渡。今天，种植草莓的农民依赖化学农药，每年在超过6万英亩的土地上每英亩花费2500美元来支持36亿美元的美国草莓产业。有机农场占整个行业的10%，缺乏有效的处理方法，导致劳动力成本高，产量损失的风险增加。该项目旨在开发一种系统，利用紫外线作为化学农药的一种高效和同样有效的替代品，通过向农民提供一种更健康和更环保的作物处理方法，颠覆农药制造业。该解决方案可以消除与化学品应用相关的不确定性，减少劳动力需求，并提高农民的盈利能力。此外，作为该项目的一部分开发的技术将最大限度地减少人类对化学农药的接触，并减少现有农业处理方法造成的生态破坏。这项小型企业创新研究（SBIR）第二阶段项目旨在进一步开发一种新的非化学处理系统，用于农业害虫防治的商业化。该系统将为化学农药提供具有成本竞争力的替代品，这是一个价值840亿美元的全球市场。现有的害虫控制措施由于昆虫的抗性而无效，造成不确定性，并导致产量和盈利能力下降。该项目的目标是创造一种可靠的、非化学处理的替代方案，使用紫外线（UV-C）光来有效和可持续地控制多种害虫。项目团队将建立一个UV-C处理装置，并采用剂量控制算法，在最短的处理时间内实现可靠的害虫控制。该剂量控制器将使用新颖的体积辐照度曲线来表征治疗的有效性，并调整治疗时间和/或距离，以考虑现场的不确定性。本研究的目标是将商用UV-C处理系统集成到自动化害虫控制系统中。该奖项反映了美国国家科学基金会的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。