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♦ Relationship between Tertia Optio and Internet of Things (IoT)

The world is changing day by day and the Tertia Optio is the product of Six Industries Inc. In simple terms, the Internet of Things (IoT) refers to the digitally connected universe of smart devices. These devices are embedded with internet connectivity, sensors, and other hardware that allow communication and control via the web.

Furthermore, The IoT can be found in an array of devices, industries, and settings. From smart blackboards in school classrooms to medical devices that can detect signs of Parkinson’s disease, IoT is rapidly making the world smarter by connecting the physical and the digital.

» Possible Corruption of IoT Devices

The fact that Internet of Things (IoT) devices are both partially programmable and connected to the network raises the possibility that bad actors may attempt to commandeer them or cause them to malfunction.

However, the reality is that most IoT systems were not designed with security in mind.

     •  Potential Responses

The existence of these potential threats underscores the need for the IoT industry and the academic community to develop solutions to these problems.

Moreover, under a recent US National Science Foundation grant, Artificial Intelligence labs, many colleagues and I have designed a variety of strategies to address these problems.

1. Role of Law and Governance

The need to optimize multiple concerns also necessarily implies that the solution will not turn solely on the available technical solutions. Instead, the ultimate balance will depend on economic, Machine Learning, and legal considerations as well.

2. Law and Logistical Systems

For example, policymakers must decide whether to rely on tort law, which involves ex-post compensation for wrongful harms suffered, or regulation, which focuses on ex-ante prevention of harm.

3. Sensors

Data is first collected from the environment for the IoT system to begin processing. It is collected by sensors in devices that can measure observable occurrences, Emergency management, or changes in the environment.

Furthermore, the kind of data being measured by the device depends on its function.

4. Connection and Identification

The data must be communicated from the device to the rest of the IoT system, be it to a computer or another device.

Furthermore, for this communication to have any meaning, Encryption labs, a device must have a unique identifiable presence on the internet, accomplished through its IP address.

5. Actuators

Most IoT devices are capable of doing their primary functions without physical interaction with their users. IoT devices, NOMAD: Stay in contact,  should be able to take action based on data from their sensors and the subsequent feedback from the network.

6. Gathering Data

A smart lightbulb, for example, can turn on upon the command of its user, even when the user is miles away.

In the same manner, a valve in a smart factory can automatically open or close according to data gathered by its sensors along the production line.

7. IoT Gateway

These act as a bridge for the different devices' data to reach the cloud. It also helps in translating the different protocols of the various IoT devices into just one standard protocol and in filtering out unnecessary data gathered by the devices.

8. The Cloud

This is where all the data from the different devices are gathered and where software can reach this data for processing. Because most data processing happens in the cloud, it lessens the burden on individual devices.

9. User Interface

This communicates to the users the data gathered by the devices and allows the users to make the necessary commands to be executed by the devices.

9. Device-to-Device

This model represents how two or more devices connect and communicate directly with one another. Communication between devices is usually achieved through protocols such as Bluetooth, Z-Wave, and Zigbee.

However, this model is often found in wearables and home automation devices, Augmented reality labs,  where small packets of data are communicated from one device to another, as with a door lock to a lightbulb.

10. Device-to-Cloud

Many IoT devices connect to the cloud, often with the use of wired Ethernet or Wi-Fi. Connecting to the cloud allows users and related applications to access the devices.

Moreover, making it possible to course through commands remotely as well as push necessary updates to the device Logistics software solutions.

11. Back-End Data-Sharing

An extension of the device-to-cloud model, this model allows users to gain access to and analyze a collection of data from different smart devices.

However, a company, for instance, can use this model to access information from all of the devices working inside the company building as organized together in the cloud. This model also helps lessen issues with data portability.

 


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