Image-based Automatic Dial Meter Reading in Unconstrained Scenarios
This addresses the costly and error-prone manual reading of analog meters for energy companies in developing countries, enabling automated systems and mobile applications.
The paper tackles the problem of automatically reading dial meters from images in unconstrained scenarios, reducing the Mean Absolute Error from 1,343 to 129 and achieving a meter recognition rate of 98.90% with a 1 kWh error tolerance.
The replacement of analog meters with smart meters is costly, laborious, and far from complete in developing countries. The Energy Company of Parana (Copel) (Brazil) performs more than 4 million meter readings (almost entirely of non-smart devices) per month, and we estimate that 850 thousand of them are from dial meters. Therefore, an image-based automatic reading system can reduce human errors, create a proof of reading, and enable the customers to perform the reading themselves through a mobile application. We propose novel approaches for Automatic Dial Meter Reading (ADMR) and introduce a new dataset for ADMR in unconstrained scenarios, called UFPR-ADMR-v2. Our best-performing method combines YOLOv4 with a novel regression approach (AngReg), and explores several postprocessing techniques. Compared to previous works, it decreased the Mean Absolute Error (MAE) from 1,343 to 129 and achieved a meter recognition rate (MRR) of 98.90% -- with an error tolerance of 1 Kilowatt-hour (kWh).