Poster Abstract: Insecticidal Performance Simulation of Solar Insecticidal Lamps Internet of Things Using the Number of Falling Edge Trigger

Solar insecticidal lamp (SIL) releases high voltage pulse discharge to kill migratory insects with phototaxis feature, and the insecticidal count is calculated by discharge times. However, it is hard to predict and quantify the insecticidal performance due to the unpredictable insect species. Besides, SIL may not able to kill insects when the energy is insufficient, which affects task schedule and fault detection of solar insecticidal lamps Internet of Things (SIL-IoTs). To overcome this problem, it is critical to find key factors that have a mapping relation with insecticidal performance. High voltage pulse discharge generates electromagnetic interference in form of changing of microprocessors' falling edge trigger (FET), which may conduce to evaluate insecticidal performance. Aiming to explore this issue, we designed an experiment. The experiment results indicate that the number of FET can be applied to evaluate and simulate the insecticidal performance, which contributes to task schedule and fault detection of SIL-IoTs.