E-Health Technology Offers

Universidad de Alcalá-OTRI posted this:

SUMMARY Emotongue is an application for smartphones with the Android System, designed in Spanish and English, so that every customer who speaks one or both of them could easily use it every time and everywhere, having a data connection. Emotongue is not a simple app, it is the app that everybody was looking for! It had been designed for a research project carried out in the Department of Sciences of Education of the University of Alcalá, Spain, but due to its features and the great benefits it has, now it is available for every customer interested in improving his/her resources for managing his/her emotional world. Emotongue has been created for helping people to know their emotions, connect with them and learn how to manage them. The app is a tool easy to use, with a colored and dynamic design. It sends the user 5 notifications per day, and she/he has at his/her disposal 2 hours to answer each notification either by a written message or by an audio. The app is available in every country in which people speak English and/or Spanish. An improved version of the app could send users a feedback about their evolution in their management of their emotions and their use of the app. A part from the app, the authors could offer a service to companies interested in it, by creating courses about emotional management, designed according to the company’s needs, something very difficult to find in the trade market.
Emotongue: A software for every customer with a Smartphone (Android) interested in managing their own emotions and for companies interested in their employees’ emotional health

Cracow University of Technology posted this:

A comprehensive method to assess the technical condition of the pressure equipment of installation operated in the chemical and petrochemical industry, with the use of acoustic emission signal analysis, structure stress field and the degradation st The algorithm for the assessment of the technical condition of pressure equipment of chemical and petrochemical installations, subjected to the long-term operation, allows to determine the damage degree of the material and allows to predict the further development of degradation processes in a function of time. The proposed approach to the problem of safe operation of devices is fundamentally different from the solutions which are currently used in industrial practice. Currently, the supervision of these objects is based mainly on standard non-destructive testing methods. The main limitation of used methods is the lack of the possibility of both examining the object in its entire volume and testing the device in working conditions. Developed algorithm allows to effectively solve current problems in the diagnosis of chemical installations related to the assessment of their technical condition and determination of the conditions for further operation in real time. The algorithm is particularly recommended for monitoring devices in which adverse damages occur due to the long-term operation.