Systematic-interdisciplinary approach to eHealth equipment design
Journal Title: Wearable Technology - Year 2021, Vol 2, Issue 1
Abstract
eHealth has improved the performance of multiple health systems worldwide by integrating Information and Communication Technologies (ICTs) into national (structured and coordinated) strategies in the health sector. However, once the foundation is laid for the development and implementation of eHealth solutions, researchers, engineers, doctors and other stakeholders have no single way to develop eHealth solutions. Therefore, a systematic interdisciplinary method is proposed to design electronic health equipment to meet the requirements and needs of all people involved in the use of the equipment, and comply with the laws and regulations of different countries. On the basis of systematic and interdisciplinary methods, a method is proposed, that is, the collaborative use of different systematic methods allows stakeholders to continue to cooperate and share the experience. Consequently, the method will allow the design of eHealth devices that, regardless of their use, meet the needs of the user, the requirements of the personnel who will use them, the standards and regulations of the country where they are developed, and provide total satisfaction with the device. Finally, the eHealth solution is designed through systematic thinking, through the analysis of needs and needs, and through exploring different perspectives, observation backgrounds, participant participation, discussion and stakeholder consistency, so as to provide a sustainable product that meets all participants.
Authors and Affiliations
José Rodrigo Espinoza-Bautista, Salvador Álvarez-Ballesteros, Chadwick Carreto-Arellano, Julián Patiño- Ortiz, Mario Romero-Castro
Research on a monitoring and evaluation platform for mountain sickness of grid construction workers based on disease information entropy
The inaccuracy of acute altitude sickness screening has brought great challenges to power grid construction workers in high-altitude areas. Human vital signs monitoring technology is an effective technical means to prev...
A review of wearable antenna research
With the rapid popularization of IOT applications, wearable devices have been widely used in many fields such as sports and health, entertainment and medical assistance. In addition to the early wearable form, more attac...
Research progress of flexible sensor and its interaction technology in force feedback electronic clothing
The sense in simulated reality is the key of human-computer interaction technology. Force feedback interaction technology is an important factor to realize simulated force sense in virtual reality. It can truly reproduce...
Application of embedded accident prevention system for infant crawling stage in intelligent textiles
Infant crawling is a method to discover and learn its motor, cognitive, social and emotional functions. Therefore, infants face different risks, such as falls, burns and personal injuries. The most common is that the fam...
Study on research mode of smart safety outfits system for children
According to the special characteristics of children’s body and mind and the concept of human–computer interaction, the research and development model of children’s intelligent safety clothing is explored and a A practic...