These platforms are used in fleet traction, navigation, inventory and asset tracking, personnel tracking, network security, and other kinds of applications. This is a location-based and tech-based app that works based on technologies such as Wi-Fi, Bluetooth, Ultra-Wideband UWB, and other Radio-Frequency Identification (RFID). In the below image, a Location-based AR app provides suggestions on nearby facilities on a user’s mobile phone: They contain additional features, allowing them to send the user notification about newly available AR content based on their location.įor example, the best markets around. They work without markers and use GPS, accelerometer, or digital compass to detect the location/position of the user and then overlay digital data on real physical places. The below image is an example of a Marker-based AR app on a smartphone: These use image recognition technology where they rely on black and white markers to overlay and display AR content over the user’s real-life environments. 3D recognition and tracking, SLAM (Simultaneous Localization and Mapping) support, location recognition, image recognition, GPS-ability, interoperability, and ability to integrate and extend are some of the best features to consider when designing an AR app.
Platforms to develop apps are few and some are free while others are paid. Other aspects to consider include the cost and availability of expertise.
Choose a platform to develop the AR app based on the use of the app, customer demands, and features desired.Smartphone AR app should be a top-most priority. Best applications include gaming, shopping, entertainment, lifestyle, production/maintenance, and utilities. Select AR apps based on your industry and where to apply.