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Create an outline for an article about The Internet of Things (IoT):
A: What is IoT?
B: How does IoT work?
A: Use Cases for IoT
A: What is IoT?
IoT is the network of physical objects that contain sensors and actuators. The term was first coined by Kevin Ashton in 1999. It was first used as an acronym for “Internet of Things” but later on people started using it as a noun as well, describing the devices connected to the internet. Nowadays IoT is used mostly as a noun. The main goal of IoT is to make things easier for the people who use them. IoT devices are able to communicate with each other and also with other devices like smartphones or computers. For example, if your fridge sensor detects that you are running low on milk, it will send you a notification on your phone. On the other hand, if you need some milk, you could just open the app on your smartphone and order some milk on delivery. The same goes for cars or home appliances, etc… All these things are linked to the internet so they can communicate with each other and with users on their own.
B: How does IoT work?
IoT works by connecting different devices over the internet. A device that connects to the internet is called a node. Nodes can be sensors or microcontrollers that collect data from the real world and then send it via the internet to another node, where it is used by someone or some application. This way of working is called M2M (Machine-to-Machine) communication. However, every node also has the ability to act itself instead of only communicating with other nodes, which means that it can perform actions based on data it received from other nodes. Sometimes these nodes are called gateways, because they act like an entry point for data coming from sensors (or devices) and information coming from applications (like smartphones). Other times these nodes are called endpoints because they receive data from sensors and then send it to applications, like smartphones or computers. The endpoints are often embedded in the very object they represent (like the temperature sensor inside a fridge). Gateways are often used in cars (the gateway is usually located in the car’s on-board computer) or in smart homes (the gateway is usually located in the router). GNSS are another type of nodes used for tracking locations or sending navigation information to GPS receivers or smartphones when there’s no internet connection available. These are examples of when IoT is used by businesses and private users in everyday life. However, in business there are also many other ways in which IoT is being implemented in companies all over the world, but they are too numerous to mention in this short paragraph. IoT is being used in almost every industry out there, although transportation and engineering are some of the biggest industries using IoT at the moment. It goes without saying that IoT also has its downsides. People are concerned about their privacy, which can be compromised when companies start collecting sensitive data about its customers or employees. Examples of this include smartwatches with heart rate sensors or smart toilets that can tell when someone is standing in front of them, but also how long they stay there for. Another security risk of IoT is hacking attacks on devices owned by private users, which can go hand in hand with ransomware attacks. There are also concerns about mass surveillance conducted by intelligence agencies around the world, which is why some people avoid using IoT altogether for this reason. Companies like Google and Facebook may record your search history and show you ads based on that data afterwards, which can be considered a violation of privacy as well. Even though we might not notice it, our entire lives could be monitored by these companies if we connect our IoT devices to their services, which makes us vulnerable to cyberattacks and blackmailing attempts alike.
II: Body: Use Cases for IoT: *Smart Cities* One of the biggest investments made by governments around the world in recent years is urban infrastructure renewal and improvement. The idea behind this strategy is to improve people’s lives by making cities more comfortable and convenient places to live in without losing their historical identity and charm. Some smart cities also try to reduce energy consumption and pollution levels while implementing new technologies such as smart lighting and electric cars. However, creating all this infrastructure costs a lot of money and takes a long time to implement because it involves dealing with municipal regulations and installing complicated technology like electric grids or parking meters everywhere in town. That’s why smart city projects usually take years (sometimes even decades) to complete and cost a lot of money, especially when we consider how many cities around the world desperately want to install them and compete for government funds. To solve this problem, governments decided to implement technologies that would give them better control over existing infrastructure while reducing costs at the same time. In this case, IoT comes in handy because it can be used for both purposes simultaneously. For example, installing sensors into traffic lights that measure traffic patterns around different intersections can help cities find out where traffic jams happen most often so they can improve the flow in those areas and thus cut down costs at the same time. Another useful thing sensors can do is detect when a road is damaged so maintenance crews can fix it quickly before something bad happens. Lastly, smart parking meters can assist cities in raising revenue from parking fees while reducing traffic congestion in downtown areas at the same time. In addition to better regulating existing infrastructure, smart cities also use IoT technology for building new infrastructure from scratch instead of simply improving old infrastructure that already exists, which makes them much cheaper than traditional solutions. *Healthcare* Another field that uses IoT technology extensively is healthcare. Medical equipment such as thermometers or blood pressure monitors can be connected to computer networks so doctors can access them remotely from a central database. This makes it easier for doctors to review patients’ medical histories whenever they want because they don’t have to visit every single patient in person every time they want to check their heartbeat or blood pressure levels; instead they can do it all remotely without having to leave their offices at all! Hospitals across the globe are starting to use these new technologies because they see them as simple cost-cutting solutions for their operations while at the same time improving patient care overall (especially when it comes to chronic diseases like diabetes). For example, using IoT technology hospital staff can identify patients who suffer from diabetes via their blood sugar levels before they even develop diabetic comas; if these patients receive treatment early enough they can completely avoid any serious complications caused by diabetes later on (which often cost thousands of dollars per year). *Industrial Automation* Industrial automation refers to the process of automating industrial processes by using robotics instead of human workers (or even animals). This reduces costs significantly while increasing productivity at the same time by eliminating human error associated with manual production processes (which accounts for more than 90% of production costs!). For example, many factories use robots for assembly line tasks nowadays because this gives them more flexibility than human workers ever could; robots do not need breaks for lunch or coffee breaks during production shifts! Industrial automation is mostly used by businesses that mass-produce products because they need high volumes of identical products produced quickly and efficiently; this way automation helps businesses cut down costs while still offering competitive prices due to higher productivity! A great example of how automation can be used efficiently in manufacturing processes is Toyota Motor Corporation’s production plant in Kentucky, USA; this plant has more than 50 assembly lines running 24/7 without any problems thanks to their automated production processes! *Supply Chain Management* Supply chain management refers to collecting data about several processes taking place along a supply chain during manufacturing or distribution processes; the purpose of this data collection is making sure that products reach their final destinations on time without any problems! This way manufacturers can reduce waste thanks to efficient planning before production begins, which leads to lower costs after products are sold! *Mobile Payments* Mobile