This paper presents the design and development of a sensor-integrated electric window blind system integrated for insect control mechanism. The primary goal is to provide an eco-friendly alternative to traditional pesticide methods, targeting insects at their entry points through windows using an electrified mesh. The system leverages sensor integration and automation to optimize energy efficiency and pest management. Initial testing at a local location known for high pest activity demonstrated an 85% reduction in flies and a 68% reduction in mosquitoes over a two-week period during daytime hours. This innovative approach not only reduces the reliance on chemical pesticides but also promotes sustainability through energy-efficient operation. The paper details the system’s design, including sensor integration, mesh circuit design, structural analysis, and prototype development, showcasing its feasibility and potential for widespread application.

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Development of a Sensor-Integrated Electric Window Blind Prototype for Insect Control

  • M. Sridharan,
  • Ritesh Bhat,
  • T. Sathasivam

摘要

This paper presents the design and development of a sensor-integrated electric window blind system integrated for insect control mechanism. The primary goal is to provide an eco-friendly alternative to traditional pesticide methods, targeting insects at their entry points through windows using an electrified mesh. The system leverages sensor integration and automation to optimize energy efficiency and pest management. Initial testing at a local location known for high pest activity demonstrated an 85% reduction in flies and a 68% reduction in mosquitoes over a two-week period during daytime hours. This innovative approach not only reduces the reliance on chemical pesticides but also promotes sustainability through energy-efficient operation. The paper details the system’s design, including sensor integration, mesh circuit design, structural analysis, and prototype development, showcasing its feasibility and potential for widespread application.