What Makes Edge Computing a Critical Aspect of IoT

The time it takes for cloud computing to complete client communication was an issue that affected the popularity of devices connected to the Internet of Things (IoT). In other cases, swift communications by way of cloud computing require greater bandwidth. Yet such issues, especially when and where the use of IoT devices are concerned, have been solved through edge computing.

What Exactly is Edge Computing?

In cloud computing. all resources are being controlled by a central system of a network, which collects and processes all data before computing takes place. As a result, there is latency or an ensuing lag, which transpires before the server can perform action, which in turn affects the efficiency of an IoT device.

Edge computing came into fore to solve latency issues by making the computing actions and communications take place in real time. To do so, it became important to bring data collection and storage capabilities at the edge of a network.

Computing at the edge of a network minimizes the latency or the amount of time it takes for an IoT device to receive data that will enable it to perform a feature action. These actions are critical considering the huge amount of data that networks organize, store and process, especially in remote locations that have limited or no connectivity at all to a central network

This year, the global market for edge computing is estimated to reach $6.72 billion, with IoT devices playing important roles in getting people to interact without meed to touch surfaces and at a safe ftom each other.

Smart Mirrors in Smart Fitting Rooms : Enhancing the Advantage of Physical Outlets Over Online Stores

A critical setback in shopping for apparels online is the inability of online buyers to visualize if a particular outfit would look good on them. Prior to the boom of online shopping as a result of the COVID-19 pandemic, market researchers found out that most buyers window shop via online stores; but make actual purchases in physical outlets. To further enhance the shopping experience of customers, high-end boutiques made their fitting rooms smarter by adding Smart Mirrors that allow customers to try on different styles and sizes without the need to remove and put on garments several times over.

Now more than ever, smart fitting rooms with Smart Mirrors are likewise changing the shopping scenes in physical stores, in order to make their business advantage over online stores continue to work.

Yet the technology is something that ecommerce software developers are also working on in order to make the online shopping experience for garments at par, or even better. After all, online stores run on digital technology, to which adding another application that can meet the capabilities of smart fitting rooms, is not as difficult to accomplish.

How Do Smart Mirrors Work in a Smart Fitting Room?

A Smart Mirror allows boutique shoppers to see themselves wearing variations in colors and sizes of a garment they want to buy. Instead of having to change clothes when trying out different garments, shoppers find it easier to decide which style, color and/or size of clothes are the best fit.

Even if their original choice does not work out well for them, shoppers can simply look for alternative choices by way of the touchscreen Smart Mirror. Since the touch screen can detect a customer’s size, shape, body contour and measurements it can also present other garments as recommendations.

The Smart Mirror works by way of a motion sensor and Radio Frequency Identification (RFID) reader, with both technologies working together in recognizing the physical shape and size of the customer as well as identifying the garments brought inside the fitting room by the customer.

The entire physical store experience is made even better if the Smart Fitting Room is also equipped with POS systems; enabling a shopper to complete the purchase before stepping out of the smart fitting room.
Smart fitting rooms provide customers the ability to call for store assistance in ordering the color, size or new garment they want to buy just to make sure they are making the right buying decision/s.

In addition, the garments have RFID tags, which can detect if an item is being taken out of the physical store without completion of the payment process that includes removal of the RFID tag.

A Quick Look at Quantum Computing as Explained in Simpler Terms

Quantum computing is the latest technological trend in computing that is enabling industry professionals to achieve astounding scientific breakthroughs. While quantum can be understood as the smallest unit of a physical property like matter or energy, its use in quantum computing is a bit difficult to grasp for ordinary folks.

After all, the field of quantum computing, mainly involves individuals who have broad understanding and experience with quantum mechanics, linear algebra and theories about probability, machine learning and information.

A Simple Explanation of Quantum Computing from Forbes

A Forbes 2017 magazine article written by Bernard Marr, a strategic business and tech advisor to companies and government, describes quantum computing in simpler terms. According to Marr, quantum computers use qubits, which is short for quantum bits, instead of the bits that traditional computers are using.

To describe the difference between qubits and bits, Marr explained that a bit can take position on any of the two poles of a sphere. A qubit on the other hand, can be at any point within a sphere. A sphere in computers is the programming architecture framework supporting storage of data collected for processing.

This denotes that quantum computers make use of qubits that have the ability to keep huge amounts of info and at the same time, use less energy compared to traditional computers. Through a quantum sphere, computing can open gateways for new processors that work much faster than the current models in use today.

Industries that Use Quantum Computing

At the time Marr wrote the article, governments and huge tech companies like IBM and Google were already investing in quantum computing technology. They already expected that the technology will transform the world, as quantum computing can solve various computer shortcomings, whilst allowing efficiencies initially considered as impossible to achieve.

Recently, the capabilities of quantum computing played a significant role in efforts to prevent coronavirus from spreading and in the development of vaccines to counter the virus. Quantum computing became the instrument for monitoring, analyzing and challenging data, regardless of the data source.

In recent developments, many in the financial and banking sector are now using quantum computing for fraud detection, managing credit risk, and high frequency trading.