Bluetooth Repeater | Extend Wireless Range & Boost Signal Strength

What is a Bluetooth Repeaters ?

A Bluetooth repeater continuously scans its environment for beacon signals, employs an advanced filtering algorithm to select the strongest signal, then transmits the MAC address and RSSI data to a gateway. By relaying only optimal signals, it enhances location accuracy while reducing gateway dependency—slashing deployment complexity and long-term costs by up to 60%.

How Bluetooth Repeaters Work?

步 1:

Scan nearby Bluetooth signals (beacons/tags).
步 2:

Filter signals based on dynamic RSSI thresholds.
步 3:

Broadcast filtered data to gateways via BLE/Wi-Fi.
步 4:

Cloud platform calculates real-time positions.

Comparison of Bluetooth Indoor Positioning Solutions

	Active Bluetooth Navigation	Hybrid (Active-Passive) Bluetooth Positioning with Repeater	Passive Bluetooth Positioning
它是如何运作的?
Who performs positioning?	End user device (例如. smartphone) calculates its own position using beacon signals.	Smart tags with Repeater scan beacon signals and forward data; server calculates position.	System infrastructure (网关 + server) calculates the position of BLE tags.
Who uses the location data?	User-facing — for real-time navigation and wayfinding.	两个都 — users navigate via app; system tracks people/assets simultaneously.	Back-end use — for monitoring personnel, 资产, or safety.
Typical Use Cases	Visitors finding rooms in malls, 博物馆, 医院.	Buildings needing 两个都 navigation and tracking: 医院, 办公室, 展览.	Staff or assets being tracked in hospitals, 工厂, care facilities.
Working Principle	Smartphone scans BLE beacons, uses RSSI to determine location, shows it on a map.	Tags with 中继器 scan nearby beacons, relay data to gateways, server calculates tag position.	BLE tags broadcast; multiple gateways receive signals and send to server for positioning.
部署	Many battery-powered BLE beacons; no wiring needed; requires smartphone app.	Few gateways + battery-powered beacons + smart Repeater tags; minimal wiring.	Many wired BLE gateways + 蓝牙低功耗标签; extensive cabling often required.
准确性	2~3 meters (RSSI-based, depends on beacon density).	2~5 meters; room-level precision achievable with one beacon per room.	2~3 meters (improved with gateway density).
成本	Low hardware cost; app development required.	Low overall — minimal gateways, affordable beacons/tags, quick setup.	High due to gateway count, 标签, cabling, and backend system.
Maintenance	Replace beacon batteries (~2-3 yrs); maintain apps.	维持 Repeater tags (battery/charging); very few gateways; lightweight ops.	Maintain many gateways and tags; more intensive upkeep.
Key Strengths	– App-based – Easy to deploy – Low upfront cost	– Combines both strengths: 实时监控 + front-end navigation – Minimal wiring – Reduce infrastructure while maintaining coverage	– Real-time centralized tracking – High coverage

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Why Choose Our Repeater?

Enhanced Interference Resistance

The repeater mechanism actively selects and forwards the strongest signals among multiple beacons, which helps to mitigate the effects of signal interference. This improves data reliability and ensures a more stable indoor positioning environment even in challenging conditions.

Reduced Cabling Requirements

Because the system leverages repeater-enabled tags and minimal gateways to relay beacon signals, it significantly reduces the need for extensive wiring. This not only simplifies installation but also makes the solution more adaptable for retrofitting into existing infrastructures where laying new cables can be costly and disruptive.

Lower Total Cost of Ownership

By decreasing the dependency on costly infrastructure components such as multiple gateways and cabling, the overall system investment is greatly reduced. The simplified deployment and maintenance requirements can lead to a total cost of ownership reduction by approximately 40%, making the solution highly cost-effective for large-scale indoor positioning applications.

Explore all Minew Bluetooth Repeaters

MBT02 资产蓝牙中继器
- • Two Bluetooth Scanning Options
- • Disassembly Alerts Reminding
- • 3 Years Service Life
- • Batch Device Management
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MWC01 徽章蓝牙中继器
- • Vibration Feedback
- • Smart Magnetic Charging
- • IP67 Dust & Water Resistance
- • Multiple RFID Frequencies
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MNDB1 Dual Band Bridge for wiliot loT Pixels
- • Integration With Wiliot Ecosystem
- • Tailored for Optimal Performance
- • Versatile Applications
- • Supporting a Range of Wiliot Pixels
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应用场景

Anchor Repeater

An Anchor Repeater is a dedicated relay device that captures and forwards Bluetooth® tag transmissions based on predefined filtering rules. It continuously monitors for specific tag IDs and relays only the relevant signals to the gateway for cloud-based location analysis.

Scanning: Continuously scan the surrounding area for Bluetooth tag broadcasts.

Filtering: Apply filtering criteria—such as tag ID list and dynamic RSSI thresholds—to isolate only the desired tag signals.

Broadcast: Relay the filtered tag data to one or more gateways via BLE or Wi‑Fi.

Cloud Analysis: Gateways forward the data to the cloud platform, where multilateration or threshold logic determines the tag’s real‑time position.

现在: only beacons need to be placed in each room

Traditional: gateways need to be deployed in each room

Existence Detection

This method uses fixed beacons in each room, with each beacon’s MAC address paired with an RSSI threshold to determine occupancy.

Mapping: Each room’s beacon (例如, Room A’s beacon) is registered with a known MAC address and threshold.
Movement: A person entering Room A has their smart tag capture signals from the room’s beacons.
Filtering: Data is forwarded to the cloud; if Room A’s beacon shows the highest RSSI above the threshold, the system infers occupancy.
Outcome: The card holder is determined to be in Room A.

High-Precision Positioning

Evenly deployed Bluetooth beacons enable accurate indoor tracking of personnel and assets. Personnel repeater tags continuously scan for real-time positioning, while asset tags conserve power through movement-triggered or periodic scans. Captured beacon signals are relayed to the cloud, where multilateration precisely determines locations.

Beacon Deployment: 信标 (例如, numbered 1–99) are strategically placed with known coordinates.
Repeater Tags:
一个) Personnel tags frequently scan beacon signals, continuously updating real-time positions.
b) Asset tags scan less frequently to conserve power, using either movement-triggered scanning (initiating scans immediately upon detecting motion) or periodic scanning at preset intervals.
Positioning: Tags relay captured RSSI values from nearby beacons to the cloud. The cloud uses multilateration algorithms based on these signals to pinpoint exact locations.

现在: Multiple beacons are deployed in the monitoring area and relayed to the gateway by the card repeater wearer

Traditional: Requires large number of gateways with crossed signal ranges

Bluetooth Repeaters

What is a Bluetooth Repeaters ?

How Bluetooth Repeaters Work?

步 1:

步 2:

步 3:

步 4: