The Benefits of Touchless Technology Integration
Touchless technology Integration reduces friction when tending to routine tasks and can help employees focus on more important priorities. For example, integrating a voice-activated assistant can allow employees to quickly and easily request a meeting room without having to physically touch an application.
No-touch solutions can also improve security and hygiene at a building by eliminating the need to touch kiosks or elevator buttons, and by providing a more secure way of accessing break rooms.
Voice Recognition
It wasnāt long ago that people didnāt think twice about touching elevator buttons, door handles, and check-in kiosks. But as the COVID-19 pandemic continued, touchless technologies Integration emerged to reduce the number of surfaces that need to be sanitized on a regular basis.
For example, voice recognition is an increasingly popular form of touchless technology Integration that interprets user voice commands and gestures to control machines or devices. Appleās Siri and Googleās Android voice recognition software allow users to complete tasks by simply speaking.
This type of touchless tech is useful in the workplace to AUTOMATE processes and reduce human contact points, ensuring that employees remain safe while increasing productivity. For facility managers, this technology also allows them to improve building efficiencies and increase property value over the long term. By integrating this type of touchless technology Integration into their business, organizations can meet the high demand for touchless experiences.
Gesture Recognition
Gesture recognition is the ability to interpret and understand hand movements. This technology allows users to interact with a display using simple gestures such as swipe, tap or pinch.
Using sensor-based technologies like gesture recognition, building owners can minimize physical contact and reduce the need for manual touch controls. This will help keep workers safe while allowing them to return to on-site work without limiting their capabilities.
The MediaPipe Solutions Preview for this task includes a hand landmark model bundle and a gesture classification model bundle. These models are pre-packaged and ready to use for your project. This task also supports the modification of these models with Model Maker. To get started, click on the link above to open this task in the MediaPipe Solutions preview and select the desired configuration options. Then, download the pre-packaged model bundle and click on the āEdit modelā link to open it in Model Maker. This will allow you to edit the provided ML models to create custom gesture recognition for your project.
Infrared Sensors
Infrared (IR) sensors are used in many products, from computer mice and TV remote controls to digital cameras and augmented-reality glasses. They work by converting invisible infrared radiation into an electric current that can be detected.
IR sensors are also used in health and biotech applications, such as identifying cancer cells and helping surgeons find veins to place IVs. Using an IR sensor, researchers are able to see how different medicines affect proteins in a cell and then design more effective drugs.
To use an IR sensor, the transmitter emits continuous IR radiation and the receiver identifies it when a solid object comes in contact with it. The output condition of pin-3 varies depending on the IR radiation intensity, whenever the IR ray gets interrupted by the object the alarm will be triggered. This is one of the most popular sensor applications.
Robots
During the COVID-19 pandemic, robots were a godsend for essential businesses and medical facilities trying to navigate a safe return-to-work (RTW) strategy for employees. Innovations such as thermal imaging temperature screenings and occupancy level tracking software gave building occupants peace of mind that reasonable safeguards were in place, keeping them and their offices safe from the virus.
Gesture-based touchless technology is becoming increasingly popular in the form of gesture control systems that connect computers and users without touching any physical interface. The technology uses optical matrix sensors with a lens that detect gestures and translate them into valid commands.
Itās also becoming more affordable to equip robots with the technology thatās now available on smartphones and computers. This means that more and more companies will be able to afford to integrate touchless solutions into their workspaces. This includes contactless check-in apps that eliminate the need for front desk personnel and visitors to touch contaminated surfaces like doorknobs, elevator buttons, and more.
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