Edge analytics on resource constrained devices

IF 1.4 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Sean Savitz, Charith Perera, Omer Rana
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引用次数: 0

Abstract

Camera sensors can measure our environment at high precision, providing the basis for detecting more complex phenomena in comparison to other sensors, e.g., temperature or humidity. Using benchmarks, this work evaluates object classification on resource constrained devices, focusing on video feeds from IoT cameras. The models that have been used in this research include MobileNetV1, MobileNetV2 and faster R-CNN that can be combined with regression models for precise object localisation. We compare the models by using their accuracy for classifying objects and the demand they impose on the computational resources of a Raspberry Pi. We conclude that the faster R-CNN model that is configured with the InceptionV2 regression model has the highest accuracy. However, this is at the cost of additional computational resources. We found that the best model to use for object detection functionality on the Raspberry Pi is the MobileNetV2 model paired with the SSDLite regression model.
资源受限设备的边缘分析
相机传感器可以高精度地测量我们的环境,与其他传感器相比,它为检测更复杂的现象(例如温度或湿度)提供了基础。使用基准测试,这项工作评估了资源受限设备上的对象分类,重点关注来自物联网摄像头的视频馈送。在这项研究中使用的模型包括MobileNetV1、MobileNetV2和更快的R-CNN,它们可以与回归模型相结合,以实现精确的目标定位。我们通过使用它们对对象分类的准确性和它们对树莓派计算资源的需求来比较模型。我们得出结论,与InceptionV2回归模型配置的更快的R-CNN模型具有最高的准确性。然而,这是以额外的计算资源为代价的。我们发现,在树莓派上用于对象检测功能的最佳模型是与SSDLite回归模型配对的MobileNetV2模型。
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来源期刊
International Journal of Computational Science and Engineering
International Journal of Computational Science and Engineering COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
4.00
自引率
40.00%
发文量
73
期刊介绍: Computational science and engineering is an emerging and promising discipline in shaping future research and development activities in both academia and industry, in fields ranging from engineering, science, finance, and economics, to arts and humanities. New challenges arise in the modelling of complex systems, sophisticated algorithms, advanced scientific and engineering computing and associated (multidisciplinary) problem-solving environments. Because the solution of large and complex problems must cope with tight timing schedules, powerful algorithms and computational techniques, are inevitable. IJCSE addresses the state of the art of all aspects of computational science and engineering with emphasis on computational methods and techniques for science and engineering applications.
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