AR navigation
Indoor navigation using augmented reality is the display on the screen of a mobile device of a route drawn in real space by 3D graphics.
Indoor navigation with augmented reality helps visitors find the shortest or pre-determined route to their desired location in the room.
Compared to map-based navigation solutions, internal AR navigation is able to visualize digital content on the way to a destination: information about an object, advertising, and other data.
The use of augmented reality for navigation has a positive effect on the development of the facility and user loyalty
Traffic optimization
Users find the route they are interested in much faster and get to the desired point in the building.
Advertising along the route
Displaying the necessary information along the user's route based on his position.
Gamification of a visit
In interactive mode, visitors can follow the route on their own or with the help of a virtual guide.
Product search
Efficiently find goods on a store shelf or warehouse shelf by visualizing them.
AR navigation is necessary for any objects: airports, shopping malls, factories, warehouses, offices, museums, clinics and hospitals.
GPS
In an open space, GPS can be used to determine the location with an accuracy of 10-15 meters.
BLE lighthouses
These are small Bluetooth signal emitters that are attached to walls in rooms at a distance of 10 meters. Depending on which beacons the mobile device receives signals from and their power, it calculates the location. The accuracy is 2-4 meters.
Apple Indoor Positioning
It uses the existing Wi-Fi infrastructure and provides indoor positioning with an accuracy of several meters by using radio frequency patterns of Wi-Fi access points. It does not work poorly in public spaces with a large number of Wi-Fi access points.
Markers (QR codes)
Placing markers on an object with an accurate location allows the mobile device to know exactly where the user is at the time of scanning the QR code. After reading the QR code, the user can walk a distance of about 50 meters with a deviation of 1 meter.
Visual recognition and SLAM systems
This technology allows you to create and update a map of the environment, while simultaneously tracking the user's location in it. A point cloud is created based on the image of the space, and based on it, the user's coordinates are determined. The area limit is 200 meters and only on modern mobile devices.
Directional Bluetooth antennas with detection of the angle of the received signal
Also known as real-time location detection (RTLS) systems, they are mounted on the ceiling and allow real-time tracking of BLE beacons and mobile devices with an accuracy of up to half a meter. The antennas measure the horizontal direction and vertical angle of the radio signal transmitted by the beacon, determining its position. Such devices are more difficult to install with conventional BLE tags, since each antenna is connected by an ethernet cable and requires a separate power supply. However, this method is very accurate and can be used to track moving assets in warehouses, factories, and plants.
ARKit
Apple Indoor Positioning passively uses the existing Wi-Fi infrastructure and does not require the deployment of additional equipment.
ARCore
The Google VPS-based visual recognition system based on markers and QR codes ensures accurate determination of the origin.
Support
To save developers time, we provide consultations and technical support 24/7.
Video
On our channel you can find video tutorials on working with the Indoor Navigation platform.
Documentation
We provide information about all the features of our platform with a detailed description of API and SDK integration.
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