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Beacon deployment strategies

Available for an ArcGIS organization licensed with the ArcGIS IPS extension.

The ArcGIS IPS Setup app uses Bluetooth Low Energy (BLE) beacons to collect reference signal data for indoor positioning. These signals can be collected during an indoor positioning system (IPS) survey using the IPS Setup app or simulated by a predictive algorithm using beacon data and the layout of walls within an indoor environment. Once processed using the Generate Indoor Positioning Dataset tool and published as an Indoor Positioning Data Service, the signals serve as a reliable source for accurate localization. Any BLE beacon that operates on the iBeacon protocol can support indoor positioning if it follows the recommended configuration.

Deployment and maintenance of beacons are critical in ensuring the lasting accuracy and effectiveness of an indoor positioning system. Consider the best practices described below during the planning, installation, configuration, testing, and maintenance phases of indoor positioning enablement.

Planning

Beacon planning involves determining the number and distribution of beacons based on the coverage area (IPS area) and the physical characteristics of a facility. Estimating the required number of beacons is typically based on the recommended signal coverage for a particular environment type. Different environments may require varying densities or configurations of the beacon network. Based on the identified IPS environment, a beacon placement plan should be prepared. It is recommended that you follow the best practices during beacon planning. This allows precise estimation for the required number of beacons to be acquired and installed.

Installation

Install beacons according to the beacon placement plan. Mount the beacons on walls, ceilings, or other structures to ensure that they are securely attached. Consider the following best practices when installing beacons:

  • Placement—Mount beacons above head level on walls or the ceiling, ideally 3 to 4 meters (10 to 13 feet) above the floor. Whenever possible, place all beacons at the same height.
  • Distance—The maximum recommended distance between two beacons should not exceed 15 meters (approximately 50 feet). To achieve the best results, place at least three beacons in the Line of Sight (LoS) from each positioning point within the defined IPS area as follows:
    • Thin or low-density walls (for example, drywall, glass, or wood)—If the absolute distance to the closest beacon is less than 8 meters (approximately 25 feet), it is not necessary to have three beacons in the LoS. This case applies to office environments.
    • Thick or dense walls (for example, brick, concrete, or metal beams)—If the absolute distance to the closest beacon is more than 10 meters (approximately 30 feet), it is recommended that you have three beacons in the LoS. This case applies to industrial buildings, venues, airports, and hospitals.
  • Mounting—Use double-sided tape on smooth, clean surfaces to avoid fallen or misplaced beacons.
  • Obstructions—Don't place beacons near fire extinguishers, metal constructs, televisions, and other obstructing or signal-interfering structures and objects.
  • Recording Locations—Record the location and attributes of each beacon on the map. For more information about how you can use the IPS Setup app to create, modify, or delete a beacon on the map, refer to the Beacon deployment operations topic.

Configuration

Configure beacons using the software provided by the beacon provider (or ideally acquired with the appropriate configuration to avoid misconfiguration and ensure a streamlined deployment workflow). Configure the beacon network with the following options and settings:

  • Transmission Protocol—iBeacon
  • Advertising interval—350ms

    This setting specifies how often the signal is emitted from the beacon.

  • TX Power setting—This setting specifies the strength of the Bluetooth signal emitted from the beacon.

    2 (-16 dBm) is the default for the majority of beacon installations. A custom power level may be required in certain environment conditions.

    Received Signal Strength Indication (RSSI)—At 1m (3.2 feet), the reading should be –81 dBm or as close as possible.

  • A Unique UUID.major.minor combination exists for each beacon in the network.
Tip:

Environments with strong radio interference or congestion may require adjustments of the network settings to achieve the best results. Consult an ArcGIS IPS expert for specific requirements and network management recommendations.

Testing

Some important beacon attributes required for the generation of the positioning data may be skipped or omitted during onsite installation. If this occurs, missing attributes can be amended to beacon features using ArcGIS Pro workflows. After installation and configuration of beacons, it is recommended that you test the beacon network to ensure proper functionality and coverage. You can test the beacon coverage by walking through the area with a mobile device and using a generic radio scanning app, such as nRF Connect, or any network management app provided by the beacon vendor. Conduct indoor positioning performance testing and evaluation after processing the network data with the Generate Indoor Positioning Dataset tool, publishing the Indoor Positioning Data Service, and configuring the IPS-aware map.

Monitoring and maintenance

Monitor the status and health of the beacons regularly. Frequent monitoring of beacons involves checking the devices for battery life levels and updating firmware when necessary. Address any issues or malfunctions that may arise for best performance of the IPS setup enablement. Consider the following best practices:

  • Complete beacon health data collection periodically to gain an overview of the IPS and ensure continuous optimal end-user experience.
  • Replace beacons immediately if any misconfigured, missing, or nonoperational beacons are found. Generate new positioning data if any beacons are replaced.
  • Collect battery level information for beacons to identify future maintenance needs.
  • Optionally, create dashboards to assist with effective maintenance management and decision making by monitoring the battery status of the beacons.