Wearable IoT Trends: Personal and Business Use in 2023

Wearable IoT Trends: Personal and Business Use in 2022

Wearable IoT devices remain one of the most popular trends of IoT, which in turn is also in quite a ride across a wide range of industries. Global user spending on IoT wearable technology last year was $81.5 billion, up 18% from 2020. Spending is expected to exceed $90 billion in 2022.

AA business that maintains pace with trending IoT wearable technologies may gain a market advantage, collecting accurate data through wearable devices by making informed data-driven decisions, as well as improve customer acquisition and retention rates by delivering a suite of new features, services, and an unforgettable customer experience. Let’s peek into the future of wearable trends the industry will follow in 2023.

In this article, we will try to tell you about the latest trends in wearable IoT devices that can definitely help your business get better.

IoMT, fitness wearables devices are expecting ongoing growth

The COVID-19 pandemic has dramatically changed the way people think about their health and has also led to a technological shift in how healthcare works. The increased interest in the Internet of Medical Things as a result of this has not yet shown signs of decline.

The Internet of Things allows doctors and clinics to provide services beyond the traditional clinical environment. With the use of wearable devices, patients receive more integrated care and wide access to quality home treatment. Machine-to-machine connectivity allows for mass data collection and information exchange from wearable devices, which in turn provides unlimited opportunities for remote health monitoring.

What are the specific ways wearables help to improve the customer experience and organize a systematic approach to personal health care? Let’s give some examples.

Patients with diabetes or arterial hypertension should self-monitor blood pressure or blood glucose levels several times a day. Wearable devices can measure these indicators automatically without any extra patient effort, avoiding negative scenarios for the development of chronic disease.

Using data on the current state of the patient, as well as having a history of data on his well-being over a certain period, the device can be used to monitor the effectiveness of drugs, as well as to select the dosage, and track their intake at the right time.

The exchange of patient data through connected devices can inform the doctor about any dangerous changes in health and well-being, while a timely response makes it possible to avoid negative consequences.

The same is about athletes and team physicians, who can benefit from wearable devices as physiological activity sensors built into them monitor heart rate, sleep cycles, body temperature and breathing. This allows athletes and sports teams to track movements, workloads and biometric markers to maximize performance and minimize injury.

The improvement trend in sensors seen over the past few years will also play in favor of healthcare and sports medicine devices. Increasing the possibility of accurate readings will improve the quality of data collected and allow users to get more out of using devices.

Security issues: still in the spotlight

As wearable devices are taking off, the security and privacy risks for companies and end users become increasingly worrying. Hacker protection and ensuring the privacy of users’ data will be the in focus for software and device manufacturers throughout 2022.

What makes IoT technology not secure enough? Poor access controls, limited encryption, vulnerable software and weak vendor security create vulnerabilities that attackers can exploit.

At the dawn of wearable devices’ era, the creators’ priority was to establish a unique user experience, which, due to the wow effect, attracted fans of fashionable technological innovations. Having gone a long way from a slightly useless high-tech toy to a sought-after device with a lot of useful features, wearable devices should now become our indispensable companions in all areas of life, which you can trust any data without fear about its safety.

In the near future, security will finally stop being a super-feature as IoT vendors provide more built-in security. This should be taken into account at all stages of project creation, from design to testing and validation.

By the way, evolving biometric technologies will help improve data security through more advanced methods of reliable identification and authentication. However, this is only one of the layers of integrated security that will definitely become a priority when promoting new wearable devices to the market.

Edge Computing: expanding real-time data transfer capabilities

Improving data security issues are linked to edge computing. Meanwhile, the possibilities of edge computing go far beyond security and lead us into a new era of convenient and seamless use of IoT devices, in particular, smart wearables and augmented reality gadgets.

Edge computing is the next wave of cloud computing evolution, pushed by the advent of 5G networks over the globe. Just as the mass deployment of cloud computing once enabled the decentralization of IT and gave end users powerful enterprise-grade data processing resources, today’s edge computing brings the revolutionary ability to use complex data analytics without the IT infrastructure required in previous generations.

Advances in edge computing are paving the way for faster and more efficient applications, enabling devices with greater accuracy, security, and power efficiency. Network edge computing allows the device to no longer send data to a central server for processing, ensuring a consistent experience in any conditions. This means power savings and longer battery life.

Processing data at the edge instead of transferring it to a central server reduces the chances of hackers intercepting it. There is no need to store the information in memory, as the information is exchanged with the edge device and then returned to the user.

This enables designers to create wearable devices capable of transmitting video, audio, or large data streams in real-time, providing consumers with an impressive experience in a small and functional package. All this is due to decentralized computing, which makes it possible to process data directly on the device and in real-time while reducing the need for memory, bandwidth and improving energy efficiency.

Read Also: IoT in consumer electronics

Advanced connectivity technologies: wireless data rates will increase

About 48 billion gadgets connected to the Internet create a load on the existing network. A decentralized network has an advantage over a centralized one only if there are no significant delays in communication between connected devices. Network bandwidth is the bottleneck of IoT technology. Low bandwidth means high network latency, so devices can’t communicate fast enough and the technology can’t work efficiently.

In the past, high-speed connectivity was possible through a cable or fiber-optic connection. The need for a wireless connection limits the use of wireless devices, as it can be inconsistent or have a low data rate. Fortunately, the accelerated advancement of infrastructure for 5G networks in recent years promises seamless data exchange to stimulate the wearable IoT market.

The new type of connection enables not only higher speed and lower latency, but also brings more power because minimizing the time of wireless data transmission will provide greater system energy savings.

Telecommunications infrastructure upgrade by carriers is just getting underway, but this move paves the way for much more data to be transmitted over the wireless network, meaning that people who wear smart devices will receive a lot more digital information. Accelerated delivery to the cloud for faster decision-making will certainly be critical for technologies such as smart automation or AR/VR implemented in wearables.

Wearables in fintech: IoT devices are getting popular

Using the IoT wearables in FinTech helps entrepreneurs solve critical issues and create innovative services for customers. But it’s not just about consumers who expect service providers to follow fashion and maintain pace with the times.

Collecting the vast amount of data from wearable sensors enables high-quality big data analytics and allows the implementation of artificial intelligence solutions based on machine learning algorithms. Moreover, wearable devices create additional points of interaction between the financial institution and the client, the value of which does not depend on the location of the consumer. Detailed personal information and real-time behavioral data enable targeted personalized services provided timely.

The global contactless payment market is expected to grow from $10 billion to $18 billion by 2025. E-payments are gaining immense popularity due to the speed and security of real-time transactions. Smartphones and wearable devices still largely dominate in contactless payments, so the growth in its demand will contribute to the advancement of e-Pay technology.

However, wearable innovations in the near future will not be limited to the smartphones we already know. According to research, consumers in the US and Europe are willing to use an average of 5 wearables per smartphone, and this is the niche where businesses can look for potential customers for their services. Paying with smart jewelry, withdrawing cash from ATMs, smart authentication, voice technology for mobile banking – this is an incomplete list of what should soon become commonplace to ordinary users. Fintech providers and e-commerce are to be prepared for this.
Read Also: eCommerce Ecosystem: What You Should Know

Industrial IoT: wearables achieve new heights

Fueled by the success of Apple and Samsung devices, wearables are becoming one of the key interfaces for IoT access not only in the consumer space but also in the enterprise. Wearables Industrial Internet of Things is rapidly accelerating, so we will see a lot of innovation in IoT development the upcoming years. These technologies will allow companies to significantly improve productivity and efficiency, and therefore the bottom line.

Providing augmented reality-enabled remote assistance, improving workplace ergonomics, and real-time processes monitoring for better practical decisions are just some examples of how wearable devices may be successfully used in an industrial enterprise. IoT devices allow businesses to keep things like communication within teams, secure work environments for employees, or remote process control under even better control.

Application developers should think about how to implement the elements of IoT into ordinary workers’ equipment like goggles or hard hats, turning them into smart glasses and a smart helmet.

Whatever area your business operates in, Industry 4.0 has certainly touched it anyway, and in the coming years, digitalization will only gain momentum and attract more and more attention. As an integral part of the IoT, wearable technology is something that can really set you apart from your competitors today, and what will be a must for staying in the consumer’s eye tomorrow.

Read also: The Future of Precision Farming using IoT

Conclusion

In conclusion, wearable IoT technology is rapidly evolving and changing the way we live and work. With the increasing demand for more connected and convenient devices, wearable Ios devices are becoming more advanced and sophisticated. As wearable IoT technologies continue to evolve and expand, it is essential to stay informed and stay up-to-date on the latest trends and developments in this exciting field. Therefore, if you had ideas about how to apply wearable IoT technologies in your business, you can contact us to discuss the idea and further actions for its implementation.