With or without human interference for precise age estimation based on machine learning?

Autor: Mengqi, Han, Shaoyi, Du, Yuyan, Ge, Dong, Zhang, Yuting, Chi, Hong, Long, Jing, Yang, Yang, Yang, Jingmin, Xin, Teng, Chen, Nanning, Zheng, Yu-Cheng, Guo
Rok vydání: 2022
Předmět:
Zdroj: International Journal of Legal Medicine. 136:821-831
ISSN: 1437-1596
0937-9827
DOI: 10.1007/s00414-022-02796-z
Popis: Age estimation can aid in forensic medicine applications, diagnosis, and treatment planning for orthodontics and pediatrics. Existing dental age estimation methods rely heavily on specialized knowledge and are highly subjective, wasting time, and energy, which can be perfectly solved by machine learning techniques. As the key factor affecting the performance of machine learning models, there are usually two methods for feature extraction: human interference and autonomous extraction without human interference. However, previous studies have rarely applied these two methods for feature extraction in the same image analysis task. Herein, we present two types of convolutional neural networks (CNNs) for dental age estimation. One is an automated dental stage evaluation model (ADSE model) based on specified manually defined features, and the other is an automated end-to-end dental age estimation model (ADAE model), which autonomously extracts potential features for dental age estimation. Although the mean absolute error (MAE) of the ADSE model for stage classification is 0.17 stages, its accuracy in dental age estimation is unsatisfactory, with the MAE (1.63 years) being only 0.04 years lower than the manual dental age estimation method (MDAE model). However, the MAE of the ADAE model is 0.83 years, being reduced by half that of the MDAE model. The results show that fully automated feature extraction in a deep learning model without human interference performs better in dental age estimation, prominently increasing the accuracy and objectivity. This indicates that without human interference, machine learning may perform better in the application of medical imaging.
Databáze: OpenAIRE