Construction Site Personnel RTLS UWB Positioning Management System
Establish intelligent personnel positioning solutions for modern construction sites, ensuring the efficiency and real-time nature of site safety management.
Solution Overview: A Complete Construction Site Location Management System
System Goals and Core Value
This system is designed specifically for construction site environments, capable of real-time tracking and displaying the precise location information of 50 workers. The system covers both indoor work areas and outdoor construction sites, utilizing RSSI (Received Signal Strength Indication) technology to achieve reliable zone-level positioning without the need for extensive equipment installation.
Compared to traditional manual roll calls or entry/exit control, this system provides continuous location monitoring, significantly enhancing construction site safety management efficiency. In emergency situations, management personnel can immediately ascertain the location of all personnel, facilitating rapid evacuation or rescue operations. Additionally, the system features historical track recording, serving as crucial evidence for safety incident investigations.
Key Technical Indicators
  • Real-time personnel location display and tracking
  • Full indoor and outdoor area coverage
  • Zone-level positioning accuracy (±5–15 cm)
  • Multiple intelligent alert functions
  • Low equipment deployment requirements
  • Economical maintenance costs
Core Equipment Introduction: Three Key Components
Positioning Base Station
As the core receiver of the system, it is responsible for collecting wireless signals sent by all hard hat tags within the construction site. The equipment features a highly sensitive antenna and can be installed on exterior walls, support poles, or other vantage points to maximize signal reception range. Each base station can process multiple tag signals simultaneously and transmit them in real-time to the central management system via the network.
Beacon Base Station
As an auxiliary positioning node, it is specifically designed to reinforce signal coverage blind spots and enhance positioning grid density. In areas within the construction site with complex internal structures and dense metal equipment, beacon base stations can effectively improve positioning accuracy. Their compact design allows for flexible deployment, quickly adapting installation locations to construction progress.
Hard Hat Positioning Tag
A lightweight, wearable tag for workers, easily attachable to hard hats. The tag has a built-in high-performance battery that can operate for several weeks without recharging. In addition to positioning, it integrates fall detection, long-stay alerts, and a manual SOS emergency button, providing comprehensive safety protection for workers. The tag is IP65 waterproof and dustproof, fully adapted to harsh construction site environments.
Site Condition Analysis
On-site Environmental Characteristics
The target site for this project has an area of 100 meters × 100 meters, classifying it as a medium-to-large construction site. Due to the dense metal structures and equipment within the site, and frequently changing construction routes, it is not suitable for installing a large number of fixed positioning devices indoors. However, the external roads and perimeter wall areas of the site offer good installation conditions and can serve as primary locations for base station deployment.
The system needs to simultaneously cover the real-time positioning requirements for 50 construction workers. With a limited number of devices, strategic base station placement is crucial to achieve complete coverage.
Deployment Recommendations: Perimeter Base Station Layout Plan
Four-Corner Base Station Deployment
Install 1 positioning base station at each of the four corners of the factory area, forming a basic positioning grid. Four-corner deployment ensures basic signal coverage throughout the entire site, serving as the backbone structure of the positioning system.
Mid-Edge Supplementary Point Strategy
Add 2–4 supplementary base stations at the mid-edge positions of the factory area to fill signal blind spots and increase the density of the positioning grid. The placement of supplementary points can be flexibly adjusted based on actual signal test results.
Triangular Cross-Positioning
Through the strategic configuration of 6–8 base stations, multiple triangular positioning cross-coverage is formed. The position of any worker can be simultaneously received by at least 3 base stations, ensuring positioning accuracy and system stability.

Recommended total number of devices: 6–8 base stations are sufficient to fully cover a 100m × 100m factory area and meet the real-time positioning needs of 50 people. Compared to other positioning technologies that require 15–20 devices, this solution can save approximately 60% in hardware costs and installation time.
System Operation Process: From Wearing to Monitoring
Step One: Worker Wears Helmet Tag
Before entering the construction site, workers attach a dedicated positioning tag to their helmets. The tag automatically activates and begins transmitting identification signals without additional operation.
Step Two: Tag Transmits Signal
The tag continuously transmits wireless signals at a frequency of 1–2 times per second. The signal contains the tag's unique identifier and basic status information.
Step Three: Peripheral Base Stations Receive Signals
Multiple base stations deployed around the factory area simultaneously receive tag signals and record their respective received signals.
Step Four: Server Performs Positioning Calculation
The central server collects data returned from each base station, then instantly calculates the worker's 2D coordinates using a triangulation algorithm.