The Internet of thought is about how you tie all these different smart technology components together in the right way to achieve what you do from a business perspective. If you're in the consumer industry, it could be the device that sits in the consumer’s living room or that you wear on your wrist. If you are in the production company, you could be on their trucks or outsides of their production facilities.
When we apply more intelligence, it is not just a big-brained centralized system that does this for the organization. In many cases, it’s intelligence at the edge, your external or offline intelligence combined with various more centralized media. And that's what we mean when we talk about the Internet of Thoughts, how to assemble the right business capabilities from this highly-distributed set of capabilities, you need to build around your organization.
In the last 10 years, we have become accustomed that them could big servers for us to meet all our needs. Businesses are just moving everything to the cloud. The kind of trend we're seeing today is that computing isn't staying in the cloud right now it’s moving more to where the action is happening, we call it the edge. That's why we see things like Iot, and Edge Iot going back to the device itself.
If we look at where the technology is going with driverless cars, with more sensors everywhere, like in factories, in manufacturing, in our homes, or on people, it all means two things we need to do to realize the potential of semiconductors to increase. Second, we need to think about the computing power needed in this layer and determine exactly what is absolutely necessary and what is not, because we need to prioritize in the algorithm what should be at the edge and what needs to stay in the cloud. . .
There's a lot of architectural rethinking taking advantage of microservices, and the like. In reality, it is about personalizing and customizing each solution, from the hardware to the software to the cloud, depending on what exactly is going on. An example of something like the NeuroPace, essentially a tiny little device, it's surgically implanted, it's self-contained to monitor, look for signs of seizures, and then when it does, it emits pulses to help control them.
Characteristics of the Internet of Thinking
The Internet of Things (IoT) is characterized by the following key features:
Connectivity – Connectivity is a key requirement for IoT infrastructure. IoT things need to be connected to the IoT infrastructure. Anyone can connect anywhere and anytime, this must be guaranteed at all times. For example, the connection between people through internet devices like mobile Phones and other devices and between internet devices like routers, gateways, sensors, etc.
Intelligence and Identity – The extraction of knowledge from the generated data is very important. For example, a sensor generates data, but that data is only useful if interpreted correctly. Every IoT device has a unique identity. This ID is useful for tracking devices and sometimes checking their status.
Scalability –The number of elements connected to the IoT zone is increasing day by day. Therefore, an IoT setup should be able to handle massive expansion. The resulting data is huge and must be treated accordingly.
Dynamic and Self-Adaptive (Complexity) – IoT devices need to dynamically adapt to changing contexts and scenarios. Imagine a surveillance camera. It must be adaptable to work in different conditions and different light situations (morning, afternoon, night).
Architecture – The loT architecture cannot be homogeneous. It needs to be hybrid and supports products from different manufacturers to work on the loT network. loT does not belong to the engineering industry. IoT is a reality when multiple domains come together.
Security – There is a risk that users' sensitive personal data could be compromised if all their devices are connected to the Internet. This can result in a loss for the user. Therefore, data security is the biggest challenge. The team involved is also huge. IoT networks can also be at risk. Therefore, the safety of the equipment is also crucial.
Auto configuration – This is one of the most important features of the IoT. IoT devices can update their software as needed with minimal user input. In addition, they can configure the network so that new devices can be added to an existing network.
Advantages of the Internet of thinking
The Internet of Things offers many benefits in our daily lives. Some of its benefits are listed below:
Human Effort Minimization- When IoT devices interact and communicate with each other, they can automate tasks, help improve business services, and reduce the need for human intervention.
Time-Saving- Reducing human effort will save you a lot of time. Saving time is one of the main benefits of using the IoT platform.
Improved data collection- Information is easily accessible even when we are far from our actual location and is frequently updated in real-time. Thus, these devices can access information from anywhere and anytime on any device.
Better security- If we have a connected system, it can help to control homes and cities more intelligently using mobile phones. Increase security and ensure personal protection.
Efficient use of resources- By knowing the functionality and operation of each device, we can increase resource use and monitor natural resources.
Disadvantages of the Internet of thinking
Security Issues- IoT systems are interconnected and communicate over networks. Thus, despite all security measures, the system offers little control and can lead to all kinds of network attacks.
Privacy concerns- An IoT system provides critical personal information at full granularity without active user involvement.
Rising Unemployment- Unskilled or even skilled workers are at high risk of losing their jobs, leading to high unemployment rates. Smart surveillance cameras, robots, smart ironing systems, smart washing machines, and much more are replacing the people who used to do these jobs.
System Complexity- Designing, developing, maintaining, and sharing the advanced technology of an IoT system is quite complicated.
The entire system is susceptible to damage- If the system fails, it is possible for all connected devices to be damaged.
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