Internet of Robotic Things (IoRT)

One of the interesting topics everyone wants to know about is robots! Do you love to search about robots and how they work? How could robots work as humans? What is the difference between IoRT and IoT? How are they interrelated? Yes! Many questions running through your mind, right? You got to get answers to all of them and explore this interesting topic! First, let us start by defining what IoRT is.

What is Internet of Robotic Things (IoRT)?

The Internet of Robotic Things (IoRT) is the integration of internet connectivity and sensors into robots and other devices, allowing them to collect and exchange data as well as be monitored and controlled remotely. We have the ability to change numerous industries using technology, including manufacturing, healthcare, and agriculture.

The connection between IoT and IoRT

The Internet of Robotic Things is a new term for the integration of robotic devices into the Internet of Things (IoT). It comprises the use of sensors, communication protocols, and artificial intelligence (AI) to enable robotic devices to connect and communicate with each other and with other devices in the Internet of Things (IoT) network. The IoRT aims for these devices to be able to perform activities and make decisions wisely without the need for human intervention.

The main working theme of IoRT

The Internet of Robotic Things (IoRT) is a rapidly growing field that aims to connect robotic devices to the internet to improve proficiency and productivity. This includes a wide range of robotic devices, including robots used at the industry level, self-driving cars, drones and even household appliances. The IoRT allows these devices to communicate with one another as well as with central systems, resulting in better coordination and decision-making.

Potential applications

The IoRT has a wide range of potential applications, including manufacturing, where robots can assemble products, transport materials, and perform quality inspections; healthcare, where robots can assist with surgeries, dispense medication, and perform diagnostic tests; and agriculture, where robots can plant, harvest, and monitor crops.

What do you think IoRT can do specifically in certain aspects?

The key aspect of IoRT

The main aspect is the ability of the robots to interact with their surroundings using sensors such as cameras, lasers, GPS and etc. This enables them to perform tasks more accurately and efficiently, as well as navigate and map their surroundings.

The internal architecture of IoRT

It includes five layers −

  • The network layer

  • The Hardware layer

  • The infrastructure layer

  • The application layer

  • The internet layer

Applications of IoRT in daily life

  • One of the most significant advantages of the IoRT is that it enables more efficient and accurate data collecting and processing. Industrial robots, for example, can be connected to the internet and outfitted with sensors that allow them to collect data about their environment and the jobs they are performing. This data can then be examined by central systems in order to discover areas for improvement and optimize the robots' performance.

  • Another advantage of the IoRT is that it enables the automation of formerly manual operations. Drones, for example, can be deployed to survey land or examine infrastructure, freeing up human labour for other activities.

  • The IoRT has the potential to increase safety in industries where accidents are common. For example, robots can execute activities in dangerous areas where humans would be unsafe to operate, such as nuclear power plants or oil refineries.

  • The IoRT can also be used to monitor robot performance and inform humans if there are any concerns, lowering the risk of accidents caused by faulty equipment.

  • They can also be used in manufacturing to execute repetitive tasks such as assembling gadgets or packing items, increasing efficiency and production.

  • The IoRT’s ability to collect and analyze vast amounts of data in real time allows for more informed decision-making. Sensors on manufacturing equipment, for example, can collect data on machine performance and notify maintenance personnel of potential problems before they become big concerns.

  • Wearable technologies in healthcare can monitor a patient's vital signs and inform healthcare providers of potential problems, allowing for earlier action and potentially improving patient outcomes.

Challenges in adopting IoRT

However, the IoRT may have some disadvantages. The major concern is the loss of jobs as a result of work automation. IoRT has the potential to create new jobs, but it is also possible that certain jobs will be displaced by robots. This could bring economic disruption and problems for workers who are unable to adjust to new technologies.

Another concern is the possibility of cyber-attacks against the IoRT. As more gadgets connect to the internet, the potential of hackers obtaining access to sensitive data or disrupting device operation increases. This can result in the shutdown of factories or the failure of self-driving automobiles.

There are concerns concerning self-driving cars' liability in the event of an accident, as well as whether they should be programmed to prioritize the safety of their passengers over the protection of pedestrians. Additionally, there are concerns regarding the possibility of drones or other robotic devices being used for surveillance.

The Growth of the IoRT Market

If we check new reports, the global market for IoRT is increasing rapidly, and it is expected to reach its peak value compound annual growth rate by 2026.


Concluding, the Internet of Robotic Things has the capacity or capability to greatly improvise efficiency and productivity in different types of industries, as well as provide new solutions to several ranges of problems. It is also important to carefully consider concerns about the loss of jobs, cyber-attacks, or ethical issues. We can ensure that the IoRT fulfils its full potential while limiting any negative outcomes by carefully regulating its development and implementation.

Updated on: 21-Feb-2023


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