Design of a Scalable and Fast YOLO for Edge-Computing Devices
Autor: | Joon-Goo Lee, Byung-Gil Han, Doo-Hyun Choi, Kil-Taek Lim |
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Rok vydání: | 2020 |
Předmět: |
Computer science
mobile device 02 engineering and technology lcsh:Chemical technology object detector 01 natural sciences Biochemistry Convolutional neural network Article Analytical Chemistry 0202 electrical engineering electronic engineering information engineering scalable lcsh:TP1-1185 Electrical and Electronic Engineering Layer (object-oriented design) Instrumentation Edge computing SIMPLE (military communications protocol) SF-YOLO business.industry light-weight 010401 analytical chemistry Detector edge-computing Atomic and Molecular Physics and Optics Object detection 0104 chemical sciences Scalability 020201 artificial intelligence & image processing business Mobile device Computer hardware |
Zdroj: | Sensors Volume 20 Issue 23 Sensors (Basel, Switzerland) Sensors, Vol 20, Iss 6779, p 6779 (2020) |
ISSN: | 1424-8220 |
DOI: | 10.3390/s20236779 |
Popis: | With the increase in research cases of the application of a convolutional neural network (CNN)-based object detection technology, studies on the light-weight CNN models that can be performed in real time on the edge-computing devices are also increasing. This paper proposed scalable convolutional blocks that can be easily designed CNN networks of You Only Look Once (YOLO) detector which have the balanced processing speed and accuracy of the target edge-computing devices considering different performances by exchanging the proposed blocks simply. The maximum number of kernels of the convolutional layer was determined through simple but intuitive speed comparison tests for three edge-computing devices to be considered. The scalable convolutional blocks were designed in consideration of the limited maximum number of kernels to detect objects in real time on these edge-computing devices. Three scalable and fast YOLO detectors (SF-YOLO) which designed using the proposed scalable convolutional blocks compared the processing speed and accuracy with several conventional light-weight YOLO detectors on the edge-computing devices. When compared with YOLOv3-tiny, SF-YOLO was seen to be 2 times faster than the previous processing speed but with the same accuracy as YOLOv3-tiny, and also, a 48% improved processing speed than the YOLOv3-tiny-PRN which is the processing speed improvement model. Also, even in the large SF-YOLO model that focuses on the accuracy performance, it achieved a 10% faster processing speed with better accuracy of 40.4% mAP@0.5 in the MS COCO dataset than YOLOv4-tiny model. |
Databáze: | OpenAIRE |
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