Sensors (Mar 2022)

Edge Computing for Vision-Based, Urban-Insects Traps in the Context of Smart Cities

  • Ioannis Saradopoulos,
  • Ilyas Potamitis,
  • Stavros Ntalampiras,
  • Antonios I. Konstantaras,
  • Emmanuel N. Antonidakis

DOI
https://doi.org/10.3390/s22052006
Journal volume & issue
Vol. 22, no. 5
p. 2006

Abstract

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Our aim is to promote the widespread use of electronic insect traps that report captured pests to a human-controlled agency. This work reports on edge-computing as applied to camera-based insect traps. We present a low-cost device with high power autonomy and an adequate picture quality that reports an internal image of the trap to a server and counts the insects it contains based on quantized and embedded deep-learning models. The paper compares different aspects of performance of three different edge devices, namely ESP32, Raspberry Pi Model 4 (RPi), and Google Coral, running a deep learning framework (TensorFlow Lite). All edge devices were able to process images and report accuracy in counting exceeding 95%, but at different rates and power consumption. Our findings suggest that ESP32 appears to be the best choice in the context of this application according to our policy for low-cost devices.

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