Human factors engineering is hris software simply how a person interacts with the operating system around them and how they operate. For medical device products, the ease of use is becoming more and more critical because of the people, natural environment, equipment and technical changes.
With many medical machines wireless noise cancelling earbuds coming into the home, the end-users will no longer be physicians alone, but the general public who have no medical knowledge and have not received professional training. Designing products with the customer's application and application scenarios in mind, mastering human-technical interaction techniques and scientifically studying how software architecture design can compromise human-technical interaction are key to human factors engineering and usability engineering projects.
In the medical machinery medical device prototype industry, the main elements of such human factors engineering usually involve the application of how technical, the ability to actually operate the process, the relevant educational experience of the user, the hands-on work experience or participation in systematic learning training, and the conditions under which the user will apply the product.
Human factors engineering applies common sense information about people's personal behavior, work abilities, limitations, and characteristics of medical device customers to the design of medical devices, including device and mobile software driven interfaces, system software, daily tasks, user documentation, and customer learning training to improve and practice safe and efficient operation methods. As outlined in the final specific guidance document published by the FDA (Applying Human Factors and Ease of Use Engineering Programs to Medical Devices), the design of human factors is particularly important for improving patient and customer stability and reducing the risk of misuse of uncertainty to a greater degree.