Real-Time Location Systems, or RTLS for short, are any devices that can pinpoint the location of an object or somebody.

RTLS is not a particular system or piece of technology; it is a goal achieved with several asset management and location systems.

The time at which assets are tracked is a component of RTLS, and depending on the application, this data may be used in a variety of ways.

You can digitally follow the whereabouts and motions of physical objects throughout sizable indoor facilities thanks to real-time location system (RTLS).

A Detail Review Of The RTLS solution

All real-time location systems (RTLS) use a network of connected hardware and software components that track the whereabouts of people and objects within a given area, while the precise methods that RTLS operate might vary widely from system to system.

The RTLS solution

Real-time location systems rely on RF technologies like UWB, Bluetooth, Wi-Fi, and chirp to achieve indoor positioning.

These technologies allow wireless communication between a number transmitting, receiving, or dual-purpose transceiving devices to pinpoint the location.

Data-encoded RF transmissions, or “blinks” of location, are continuously sent out by the transmitting device, such as an RF tracking tag or a smartphone.

The signals sent by the transmitting device will be picked up and read by RTLS receivers (anchors or readers) placed in fixed locations, such as installed on walls.

In order to determine the position of the device, location engine software receives location data from the anchors and, in some applications, associated IoT data (temperature, battery, etc.).

Some use distance-based computations, such as time difference of arrival, which typically yields more accurate findings than other positioning techniques like Received Signal Strength Indicator (RSSI).

Thousands of tracked assets can include enterprise-grade RTLS location engines that process this data concurrently with real-time location monitoring of several targets simultaneously.

With real-time information on your drivers’ locations, you can collaborate with them to continually raise the bar on their performance, which benefits both the driver and the business.

Additionally, you can track all your assets and personnel with RTLS to determine where and how much time is being lost.

It enables you to make changes to the business’s overall efficiency that you know will be successful.

Additionally, it saves time for people working in the shipping sector because it provides businesses with real-time information about the whereabouts of their goods.

Components Of RTLS

Anchors, tags, and location engines make up the basic building blocks of most RTLS systems.

Therefore, the accuracy, latency, range, and throughput needs determine which RTLS components are selected for each use case.

To ascertain the tag’s real-time position, RTLS anchors used to detect signals from transmitting tags.

Each tag’s signal will be transmitted by the anchor, along a timestamp shared with the location engine.

After that, the tag’s position will be determined by the location engine. RTLS Tags – Wireless devices that can be placed on an object, room, or person either permanently or dynamically to help locate it.

Tags also convey information to anchors, who send it to the location engine. The location of the tag is determined by the location engine.

The device sends location and IoT data to the location engine, which processes it. The location engine transforms this data into valuable insights about where things are.

Different Types of RTLS

RTLS comes in two different forms:

1. Precision-based RTLS

With the use of RTLS, businesses can accurately track both people and objects. Inventory management is the most typical use case.

2. Proximity-based RTLS

This type of RTLS pinpoints the location of a person or object within a smaller region than RTLS that uses precision. 

What Sectors Of Industry Can Use RTLS Technology?

The Real-Time Location Solution (RTLS) industry is expanding, proving its value and significance in today’s commercial world. 

Sectors Of Industry Can Use RTLS Technology

The sectors listed below can profit from RTLS technology:

  • Transportation sector locating drivers and tracking their fleets
  • Real-time order and product tracking through e-commerce and retail
  • inventory management in manufacturing
  • Utilizing the mining industry to create KPIs while using tracking systems to ensure worker safety
  • Tracking products and their quality in the pharmaceutical and healthcare sectors

What Are The Applications Of Indoor Location Tracking and Geofencing?

Indoor Location Tracking


Retailers use RTLS to enhance the shopping experience and streamline operations. It helps to track items on shelves, manage inventory, and even create heat maps to understand customer behavior.

Warehouses and Manufacturing

With vast spaces and countless items, warehouses can benefit immensely from RTLS. From tracking pallets and goods to optimizing route pickers, RTLS ensures operations are smooth, reducing errors and increasing efficiency.


Hospitals are one of the most dynamic and critical environments where the real-time location of equipment, patients, and staff can significantly impact the quality of care.


Patient Safety

In healthcare, patients with certain conditions, like dementia, might be at risk of wandering. Geofencing can alert staff if such a patient leaves a safe area.

Asset Movement

In warehouses, certain assets might need to stay within specific zones. Geofencing ensures they aren’t moved to their designated areas, preventing misplacement or theft.


One such transformative technology is Real-Time Location Systems (RTLS). The with RTLS solutions enhance user experiences to optimize operations, these technologies play a pivotal role in shaping the future of various sectors.

Their real strength lies in the ability to bridge the physical and digital worlds. By doing so, they offer hidden and enable real-time interactions that were once thought impossible.

As businesses and institutions look towards creating more responsive and intuitive environments, indoor location tracking and geofencing will undoubtedly be at the forefront of this transformative journey.