WHAT IS A TEMPERATURE SCANNING KIOSK?
A temperature scanner kiosk is a device that is used to measure the temperature of an individual and facial recognition. Due to its multifunctional nature, it serves as a tool to measure individual body temperatures as well as an individual assessment. temperature measurement kiosk uses infrared technology to recognize the face within seconds.
Non-contact face Recognition kiosks minimize the amount of contact that employees have with visitors, compared to hand-held thermometers that have to be used to scan visitors. Instead of scanning the entire body, these kiosks only scan the forehead. They use similar technology to thermal cameras. This is because the temporal artery in the forehead serves as a good point of reference for taking temperature, in a sense, like a temporal scanner.
Additionally, because of their scanning mechanism, temperature scanning kiosks render readings more reliable. One individual can be scanned with this kiosk at a time, and the individual must stand about 2 feet away.
Thermal cameras, which scan large numbers of people simultaneously from further away and get more accurate results, are used to check the body temperature of groups, but this method gives a more precise reading of a person’s core temperature than other mass temperature monitoring methods.
Principle of Temperature measurement Kiosk
As mentioned earlier, a temperature scanner kiosk is a device for both temperature measurement and face recognition. A facial recognition kiosk can identify and locate the forehead of a user so that an accurate temperature can be measured, and to store historic data on the user’s past temperatures.
Users have the option of creating user profiles on most temperature scanning kiosks. The profile will make a person recognized in the system as a trusted visitor, whose temperature will be logged.
A profile of a user is useful for organizations seeking to contact a sick employee or for those seeking to limit access to only authorized employees, such as corporate offices.
The kiosks can also be configured to let visitors access parts of the building by opening or locking doors since some of them have API integrations.
What is the process of facial recognition?
Through facial recognition, users’ facial features can be mapped based on a photograph or video. It is possible to identify individuals by using biometrics, such as measuring the size of one’s eyes or the shape of their face.
Face-recognition technology builds this signature map by observing a variety of unique characteristics on a person’s face, the most prominent of which is the distance between the eyes and the distance between the forehead and chin.
Based on this data, a facial signature is calculated using an intricate mathematical formula. By comparing the information from a face mapping with a database of known faces, this technology can then match a person. The number of images in a database may be in the hundreds of millions.
In kiosks that scan temperatures, the user profiles created with the kiosk might be the only data the machine pulls from.
Users who do not have a user profile but wish to get scanned will probably be able to do so, but their identities will not be recognized until they create one.
Thermometer Kiosks: How Do They Work?
These kiosks require a person to step within a target range of roughly 1-3 feet to use. This kiosk uses infrared technology to measure each individual’s temperature.
People with high temperatures may be pulled aside for more intensive screening if their temperature exceeds the threshold. Another option for screening might be to conduct a quick interview about a person’s symptoms or use a thermometer to assess the person’s body temperature.
Many brands offer user profiling features that allow repeat visitors to be recognized and their temperature to be tracked historically. An individual with a contagious condition can be contacted via this service if they become ill with the disease.
Due to the capability of some kiosks to integrate with other software, they do more than just measure someone’s temperature. Kiosks with doors can rely on users’ profiles to only open doors to those with normal temperatures.
Also, these kiosks can sometimes serve as attendance machines.
Infectious conditions: Do they make a difference?
In an organization, temperature scanning kiosks are useful for identifying individuals who should be further screened, even if they cannot fully prevent the spread of infectious diseases.
The school could send the student to the nurse’s office for assessing further if they show signs of a fever as they arrive in the morning.
The lack of visible symptoms would make them tougher to track on the whole. A temperature scanner, however, would not detect asymptomatic individuals. A more stringent protocol would be able to minimize the likelihood of these individuals transferring viruses.
Another protocol might include face mask requirements, guidelines for social distance, and hand sanitizers that can be found at the public restrooms. The combination of these protocols and temperature scanning greatly reduces the risk of an infected individual entering a business or spreading a virus.
In what ways can they be integrated into a business?
Many types of organizations can benefit from temperature scanning kiosks.
Large corporations can use these kiosks to quickly check-in employees. Many kiosks can be configured to integrate with other software, including attendance software, which can be particularly useful for hourly employees such as warehouse and retail workers.
Access to the building can also be restricted after visitors have been scanned. By installing kiosks in the front lobby of a building, visitors can be scanned for identification before they enter, regardless of whether they’re mailmen or clients.
Even if a company favors the use of masks and social distancing in order to establish good hygiene practices, the culture sometimes isn’t extended to visitors. From the moment a visitor enters the building, these kiosks can mitigate the risk associated with infected visitors.
Venues such as concert halls and sporting arenas have the potential to gather thousands of people at any given time, which means they should possess the necessary security measures to reduce the risk of large crowds.
In addition, large numbers of attendees enter at the same time, so constant temperature monitoring is key to ensuring that everyone is safe. These kiosks could be set up at large event venues to scan attendees quickly as they enter the venue. For example, at a concert venue, attendees must stand in front of a kiosk to have their temperature scanned prior to their tickets being scanned.