Internet of things: Difference between revisions

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{{infobox4
|list1=
<ul>
<li>[[Smart factory]]</li>
<li>[[Telematics and informatics]]</li>
<li>[[Technological factors]]</li>
<li>[[Ai in manufacturing]]</li>
<li>[[Remote monitoring]]</li>
<li>[[Changes in technology]]</li>
<li>[[Innovation 4.0]]</li>
<li>[[Cyber-physical systems]]</li>
<li>[[Information processing]]</li>
</ul>
}}
'''[[Internet]] of Things''' (IoT) is a network of physical objects, such as machines, vehicles, and appliances that are connected through the internet and are able to transfer data to other connected devices. It leverages the power of the Internet to enable [[communication]] between physical objects, making it possible for them to exchange data and interact with each other in real-time. IoT allows organizations to collect and analyze data from connected devices, resulting in improved decision-making, increased [[efficiency]], and enhanced [[customer]] experience. As the [[technology]] advances, IoT has the potential to revolutionize the way we interact with the world around us.
'''[[Internet]] of Things''' (IoT) is a network of physical objects, such as machines, vehicles, and appliances that are connected through the internet and are able to transfer data to other connected devices. It leverages the power of the Internet to enable [[communication]] between physical objects, making it possible for them to exchange data and interact with each other in real-time. IoT allows organizations to collect and analyze data from connected devices, resulting in improved decision-making, increased [[efficiency]], and enhanced [[customer]] experience. As the [[technology]] advances, IoT has the potential to revolutionize the way we interact with the world around us.


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* Healthcare IoT - Healthcare IoT is used to monitor and manage patient health, track medical equipment, and streamline the operations of medical facilities.  
* Healthcare IoT - Healthcare IoT is used to monitor and manage patient health, track medical equipment, and streamline the operations of medical facilities.  
* Agriculture IoT - This type of IoT is used to monitor and control the [[environment]] in agricultural settings, such as greenhouses and crop fields. It can be used to optimize irrigation and pesticide spraying, and to monitor soil quality and crop growth.
* Agriculture IoT - This type of IoT is used to monitor and control the [[environment]] in agricultural settings, such as greenhouses and crop fields. It can be used to optimize irrigation and pesticide spraying, and to monitor soil quality and crop growth.


==Limitations of internet of things==
==Limitations of internet of things==
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==Other approaches related to internet of things==
==Other approaches related to internet of things==
A one-sentence introduction to the list of other approaches related to Internet of Things is as follows: Apart from the fundamental aspects of IoT, there are several other areas of application and implementation that can be explored.
Apart from the fundamental aspects of IoT, there are several other areas of application and implementation that can be explored.
* '''Artificial Intelligence (AI)''': AI can be used to process data collected from IoT devices and create actionable insights. As AI grows in sophistication, it could be used to automate a variety of tasks, such as controlling the temperature of a room or providing feedback on the performance of a machine.
* '''[[Artificial intelligence|Artificial Intelligence]] (AI)''': AI can be used to process data collected from IoT devices and create actionable insights. As AI grows in sophistication, it could be used to automate a variety of tasks, such as controlling the temperature of a room or providing feedback on the performance of a machine.
* '''Cloud Computing''': [[Cloud computing]] provides the infrastructure necessary to process, store, and analyze large amounts of data collected from IoT devices. This enables real-time insights and predictive analytics that can be used to enhance customer experience and improve operational efficiency.
* '''Cloud Computing''': [[Cloud computing]] provides the infrastructure necessary to process, store, and analyze large amounts of data collected from IoT devices. This enables real-time insights and predictive analytics that can be used to enhance customer experience and improve operational efficiency.
* '''5G Networks''': 5G networks are expected to provide faster speeds, lower latency, and greater capacity than existing networks, making them ideal for IoT applications. 5G networks can also enable more connected devices, allowing for a more comprehensive IoT solution.
* '''5G Networks''': 5G networks are expected to provide faster speeds, lower latency, and greater capacity than existing networks, making them ideal for IoT applications. 5G networks can also enable more connected devices, allowing for a more comprehensive IoT solution.


==Suggested literature==
{{infobox5|list1={{i5link|a=[[Smart factory]]}} &mdash; {{i5link|a=[[Telematics and informatics]]}} &mdash; {{i5link|a=[[Technological factors]]}} &mdash; {{i5link|a=[[Ai in manufacturing]]}} &mdash; {{i5link|a=[[Remote monitoring]]}} &mdash; {{i5link|a=[[Changes in technology]]}} &mdash; {{i5link|a=[[Innovation 4.0]]}} &mdash; {{i5link|a=[[Cyber-physical systems]]}} &mdash; {{i5link|a=[[Information processing]]}} }}
 
==References==
* Li, S., Xu, L. D., & Zhao, S. (2015). ''[https://www.academia.edu/download/47649087/2015_Li_-_The_internet_of_things-a_survey.pdf The internet of things: a survey]''. Information systems frontiers, 17, 243-259.
* Li, S., Xu, L. D., & Zhao, S. (2015). ''[https://www.academia.edu/download/47649087/2015_Li_-_The_internet_of_things-a_survey.pdf The internet of things: a survey]''. Information systems frontiers, 17, 243-259.
* Rose, K., Eldridge, S., & Chapin, L. (2015). ''[https://www.academia.edu/download/48790442/ISOC-IoT-Overview-20151014_0.pdf The internet of things: An overview]''. The internet society (ISOC), 80, 1-50.
* Rose, K., Eldridge, S., & Chapin, L. (2015). ''[https://www.academia.edu/download/48790442/ISOC-IoT-Overview-20151014_0.pdf The internet of things: An overview]''. The internet society (ISOC), 80, 1-50.
[[Category:Information systems]]
[[Category:Information systems]]

Latest revision as of 23:15, 17 November 2023

Internet of Things (IoT) is a network of physical objects, such as machines, vehicles, and appliances that are connected through the internet and are able to transfer data to other connected devices. It leverages the power of the Internet to enable communication between physical objects, making it possible for them to exchange data and interact with each other in real-time. IoT allows organizations to collect and analyze data from connected devices, resulting in improved decision-making, increased efficiency, and enhanced customer experience. As the technology advances, IoT has the potential to revolutionize the way we interact with the world around us.

Example of internet of things

  • Smart homes: Smart homes use a range of IoT devices to automate processes, such as lighting, heating, and security systems. For example, homeowners can automate their lights to switch on and off at specific times or when they enter or leave the house.
  • Wearable technology: Wearable technology is becoming increasingly popular, with many people using fitness trackers and smartwatches to track their activity levels and to monitor their health. For example, users can monitor their heart rate, sleep patterns, and steps taken throughout the day.
  • Connected vehicles: Connected vehicles use sensors and other technologies to provide drivers with real-time information about the car’s performance, as well as to monitor its safety and efficiency. For example, some vehicles are able to detect traffic congestion and suggest alternate routes to drivers.
  • Smart cities: Smart cities use IoT technologies to improve the quality of life for citizens. For example, city officials can analyze data from connected traffic sensors to identify congestion hotspots, or use smart meters to monitor energy consumption in the city.

When to use internet of things

Internet of Things (IoT) can be used in a diverse range of applications. From smart homes to healthcare, IoT can be used to improve efficiency and accuracy, enhance customer experience, and automate processes. Here are some of the most common applications for IoT:

  • Smart Home: IoT can be used to automate home systems such as lighting, heating, and security. Smart home products can be connected to the internet and can be remotely controlled or monitored.
  • Industrial Automation: IoT can be used to monitor and control industrial processes, such as factory automation, and to track and control production equipment.
  • Transportation: IoT can be used to monitor vehicle performance, optimize routes, and track driver performance or location.
  • Healthcare: IoT can be used to monitor patient health and provide remote medical assistance. It can also be used to track medical devices such as defibrillators and insulin pumps.
  • Environmental Monitoring: IoT can be used to monitor environmental conditions, such as air and water quality and weather conditions.
  • Retail: IoT can be used to collect data on customer behavior, optimize inventory management, and streamline the checkout process.

Types of internet of things

Internet of Things (IoT) is a network of physical objects connected through the internet and able to exchange data. This technology has the potential to revolutionize the way we interact with the world around us. The types of IoT include:

  • Wearables - These are small, lightweight devices worn on the body that measure and collect data about their user's activities. Examples include fitness trackers and smartwatches.
  • Smart Home Devices - These are connected devices that make performing everyday tasks such as controlling the thermostat, managing lights and door locks, and monitoring security easier.
  • Industrial IoT - Also known as Industrial Internet of Things (IIoT), this type of IoT utilizes sensors, software, and other connected devices to optimize industrial processes, such as manufacturing and supply chain management.
  • Connected Vehicles - Automobiles are equipped with IoT technology to provide drivers with real-time traffic information, remote access to their vehicle, and other features that improve the driving experience.
  • Healthcare IoT - Healthcare IoT is used to monitor and manage patient health, track medical equipment, and streamline the operations of medical facilities.
  • Agriculture IoT - This type of IoT is used to monitor and control the environment in agricultural settings, such as greenhouses and crop fields. It can be used to optimize irrigation and pesticide spraying, and to monitor soil quality and crop growth.

Limitations of internet of things

The Internet of Things (IoT) has numerous advantages, however, it also has certain limitations that need to be considered. These include:

  • Security and privacy risks: IoT devices can be vulnerable to hacking, malware, and other cyber threats. As the number of connected devices increases, so does the risk of data breaches, identity theft, and other security risks.
  • Lack of standardization: As the technology is still relatively new, there is a lack of universal standards and protocols for connecting devices. This can lead to incompatibility problems between different devices.
  • High cost of deployment: The cost of deploying IoT devices and infrastructure can be prohibitively expensive. This cost can be hard to justify for many businesses and organizations.
  • Limited resources: IoT devices often require large amounts of data and processing power, which can be difficult to scale if the number of devices increases.
  • Interoperability issues: IoT devices often need to be able to communicate with each other, but the lack of standardization can make this difficult.
  • Complex implementation: Setting up and managing an IoT network can be complicated and time-consuming. This can be especially challenging for organizations with limited resources.

Other approaches related to internet of things

Apart from the fundamental aspects of IoT, there are several other areas of application and implementation that can be explored.

  • Artificial Intelligence (AI): AI can be used to process data collected from IoT devices and create actionable insights. As AI grows in sophistication, it could be used to automate a variety of tasks, such as controlling the temperature of a room or providing feedback on the performance of a machine.
  • Cloud Computing: Cloud computing provides the infrastructure necessary to process, store, and analyze large amounts of data collected from IoT devices. This enables real-time insights and predictive analytics that can be used to enhance customer experience and improve operational efficiency.
  • 5G Networks: 5G networks are expected to provide faster speeds, lower latency, and greater capacity than existing networks, making them ideal for IoT applications. 5G networks can also enable more connected devices, allowing for a more comprehensive IoT solution.


Internet of thingsrecommended articles
Smart factoryTelematics and informaticsTechnological factorsAi in manufacturingRemote monitoringChanges in technologyInnovation 4.0Cyber-physical systemsInformation processing

References