Design of a new methodology applicable on non-implantable devices capable of detecting basal parameters with high accuracy, evaluated with Sigma score.

This study has as its main objective the development of a methodology applicable to most devices for the detection of vital parameters. The first objective is to be able to interconnect devices of the same type so that they provide simultaneous data in particular for ECG detection. This would allow the possibility of interconnecting multiple devices of the same type, providing more information on the patient's health status. Furthermore, this approach could also be applied to devices that detect different parameters. The second objective is to demonstrate the accuracy of the results obtained and, if the tested device is accurate from the outset, the use of several devices of the same type simultaneously must also be accurate. The third objective is the validation of the methodology using typically industrial statistical techniques, such as the sigma score, in order to make the analysis projected towards production. The application of this methodology would allow the simultaneous use of devices already on the market or the design of new devices and their interconnection as well as their connection to telemedicine platforms for the remote evaluation of patients' vital parameters. From this point of view, it is not necessary to design new and more complex devices but having available those already present in hospitals or simply at home, provided they are validated as accurate at an outpatient level, it would be possible to monitor more parameters and make them available to physicians. This methodology gives the chance to evaluate different types of devices for different scope and use those that are most in line with the patient's needs, making the results available in real time.