The Internet of things (IoT) is a rapidly growing technology. It has a significant role in transforming how we do our business and lives our lives. Sensor technologies, real-time data collection, and analysis, track almost all aspects of our lives. The primary purpose of IoT is to access and operate devices/gadgets from anywhere with or without human interference. Devices with IoT, connect each other to the main server with the help of the Internet. These devices collect data on the main server and perform the required operations. Below are some real-life examples of IoT.
Examples of IoT:
Healthcare/wearables
IoT deals with healthcare through its connection mechanism. Devices like fitness bands and smartwatches are great examples of IoT applications that involve the welfare of the public
They track activities such as pulse rate, step count, heart rate, etc. The data these devices record is further sent for detailed fitness analysis.
IoT in health care includes devices such as smartwatches, fitness bands, digital oxymeter&thermometer, pacemakers, etc. These devices track pulse rate, body oxygen level, body temperature, etc.
Smart home
Smart homes or home automation is one of the best examples of IoT. Home automation is becoming a new trend in the 21st century. In smart homes, all electronic devices like lights, fans, door locks, speakers, tv, everything is connected to each other through the internet.
This interconnection allows the user to operate the devices from a distance. A smart home is capable of operating lights, changing room temperature by operating ac, locking/Unlocking security doors from a distance, energy management, etc.
Farming
The Internet of Things (IoT) in farming is the use of internet-connected devices and sensors that collect data about crops, soil, and weather conditions to improve yield and decrease inputs. Farmers can use this data to make more informed decisions about irrigation, planting, and pest control.
We can use IoT in farming to remotely monitor and manage crops, soil, and water. Farmers can use sensors to collect data on conditions in their fields, and then use that data to optimize irrigation, planting, and other farm management practices. Also, we can use IoT to track livestock and monitor and manage food production.
transport/smart cars
IoT in transport/smart cars refers to the use of internet of things technology in cars and other vehicles. This can include the use of sensors and other devices to collect data about the vehicle and its surroundings, as well as the use of connectivity to allow the vehicles to communicate with other systems.
We can use IoT in smart transport/smart cars in a few ways. One way is to use sensors to track the location of vehicles Live. We can use this information to optimize traffic flow and reduce congestion. Another way is to use IoT to monitor the condition of vehicles and road conditions. We can use this information to improve safety and reduce accidents.
Industrial use/Office work
Internet of Things (IoT) in industry or office is the inter-networking of physical devices, vehicles (also referred to as “connected devices” and “smart devices”), buildings, and other items—embedded with electronics, sensors, software, and connectivity that enable these objects to collect and read or transmit data.
Some potential applications of IoT in industry and office settings include:
- Asset tracking and management
- Environmental monitoring
- Building security and access control
- HVAC and energy management
- Office equipment and supply inventory
- Workflow and process automation
Smart city/grids
IoT in smart grid is the use of internet of things technology to manage the electricity grid. This includes using sensors and devices to collect data about the grid and using that data to improve the efficiency of the grid.
The smart grid is a system that uses digital technology to deliver electricity more efficiently. We can use the smart grid to manage and monitor the electricity grid.
Disaster management
The Internet of Things (IoT) is a system of interconnected devices and sensors that can collect and share data about their surroundings. We can use this data to improve disaster management by providing real-time information about conditions on the ground and by helping to predict and track the path of storms and other disasters.
There are many potential applications for IoT in disaster management, from providing real-time data about conditions on the ground to helping coordinate relief efforts. We can use IoT sensors to monitor things like air quality, water levels, and ground movement, providing early warning of potential hazards.
Process automation
IoT in process automation refers to the use of internet-connected devices to monitor and manage industrial processes. This can include everything from automated machines in manufacturing plants to HVAC systems in office buildings. By collecting data from these devices, process automation can provide real-time insights into how a system is performing and identify issues before they cause problems.
IoT can be used in process automation to monitor and automate various processes, including manufacturing processes, supply chain management, and quality control.
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