1. Toward an Automatic Quality Assessment of Voice-Based Telemedicine Consultations: A Deep Learning Approach.
- Author
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Habib, Maria, Faris, Mohammad, Qaddoura, Raneem, Alomari, Manal, Alomari, Alaa, Faris, Hossam, and Díez, Isabel De la Torre
- Subjects
DEEP learning ,CONVOLUTIONAL neural networks ,DIGITAL technology ,MEDICAL communication ,STATISTICS ,TELEMEDICINE ,EVOKED response audiometry - Abstract
Maintaining a high quality of conversation between doctors and patients is essential in telehealth services, where efficient and competent communication is important to promote patient health. Assessing the quality of medical conversations is often handled based on a human auditory-perceptual evaluation. Typically, trained experts are needed for such tasks, as they follow systematic evaluation criteria. However, the daily rapid increase of consultations makes the evaluation process inefficient and impractical. This paper investigates the automation of the quality assessment process of patient–doctor voice-based conversations in a telehealth service using a deep-learning-based classification model. For this, the data consist of audio recordings obtained from Altibbi. Altibbi is a digital health platform that provides telemedicine and telehealth services in the Middle East and North Africa (MENA). The objective is to assist Altibbi's operations team in the evaluation of the provided consultations in an automated manner. The proposed model is developed using three sets of features: features extracted from the signal level, the transcript level, and the signal and transcript levels. At the signal level, various statistical and spectral information is calculated to characterize the spectral envelope of the speech recordings. At the transcript level, a pre-trained embedding model is utilized to encompass the semantic and contextual features of the textual information. Additionally, the hybrid of the signal and transcript levels is explored and analyzed. The designed classification model relies on stacked layers of deep neural networks and convolutional neural networks. Evaluation results show that the model achieved a higher level of precision when compared with the manual evaluation approach followed by Altibbi's operations team. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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