People show their emotions in different ways and specialized, some of which may be a computer programmed to detect. Using nanotechnology, a camera and image analysis software, some teams are able to observe the body language of a user, with appropriate programming can correctly interpret the posture of a person, agitation and different facial expressions, such as grimacing, smiling or grimacing. advances in nanotechnology provide the on-board sensors that can monitor heart rate, respiratory rate, fluctuations in blood pressure and other changes in the subtle body, such as skin temperature and inflection of voice.
Because human skin has the ability to transmit electrical signals that can be used as a method of transmission, nanotechnology researchers have been able to develop equipment designed with nano sensors that have the uncanny ability to actually “see “and” listen “to people who use them. Inevitably, it is a matter of time until the technology is available to create a team that can determine whether its members are in a good mood or bad mood.
With ever-advancing computer equipped with nanotechnology, researchers have learned that it is quite possible to develop a computer that can interpret the mood of a user through the input to the body language, tone of voice and facial expressions and can be programmed to match the pictures designed to provide a feeling of comfort and serenity. Since emotions are ambiguous, transient and difficult to interpret, ultimately, would be very difficult for a team to properly interpret the differences in many moods of man, whatever the degree of progress of nanotechnology used. Therefore, in order to function with any degree of accuracy, the user must enter the necessary data in advance.
Nanotechnology, sensor capabilities in the office, provides developers with little problem with the core activities of the “intelligence” as the diagnosis of a medical condition or play a game of chess, but even with significant advances in nanotechnology In recent years, remains a bit of a challenge to design computers that simulate human vision, the interpretation of audio, language and / or motor control.
vision of man and other sensory perceptions have evolved over billions of years and how and why their activities are still difficult to understand and / or simulate, so that things like mathematics are taught explicitly and therefore more easy to express in a computer program.
Developers are also trying to use nanotechnology advances in programs that expect to be able to accurately determine a person’s innate want to be resuscitated if they get sick and not being able to take this decision themselves. Although, in theory, this information would be beneficial for medical equipment, care must be taken when we allow a machine to decide on matters relating to ethics. Whatever the technology used, the machines are not equipped to differentiate between what is intrinsically good or bad.