The Internet of Things(IoT) is a technology that represents the ecosystem of online, connected devices we share our world with. Known for its technological wonders, it refers to the first iteration of the internet as simply a network of computers. As the internet grew, new things were innovated and added, including phones, printers, scanners, and even heavy industrial machinery. Today, everything is online and connected, hence the term Internet of “Things”. It has helped businesses improve processes, boost earnings, and provide better customer services.
Intelligent connectivity increased rapidly during the pandemic, for it throttled traditional working techniques and demanded enterprises to find new ways to maintain productivity.
As more and more things are being connected with the internet, the fear of getting hacked increases, and security has become a concern. With up-and-coming technologies, companies need to ensure data security to retain their clients.
Experts believe that by 2022, IoT network hacking will become a common phenomenon. The number and size of cyber attacks are increasing rapidly. Companies like Sierra, Wireless, and others that have been previously hacked have adopted IoT-driven cyber tools. Other companies like Microsoft, Ericsson, and U-Blox have developed their threat detecting tools and techniques. The problem lies in the way companies approach security. Each company wants to have a closed ecosystem of products that cannot function alongside another company's products. This has proven to be detrimental to the security, and the way this problem can be solved is by implementing open source security standards that each company must abide by.
The healthcare industry has been experimenting with IoT technologies for years now. With everything going on for the past two years, it isn’t surprising that healthcare has been one of the most active areas of IoT development. Medical technology retailers can expect hands-free IoT product offerings that use edge computing and advanced sensor-like techniques to monitor chronic health issues. Different types of equipment like sensors, trackers, and fitness bands to monitor lifestyle and the increase in telemedicine and remote healthcare adoption. Specialized equipment like wheelchairs, heart rate monitors, oxygen pumps, defibrillators, blood pressure monitors, insulin pumps, and many more are all connected, collecting data to help doctors understand patients' conditions better.
Medical professionals can now collect data on patients’ conditions using Internet of Things devices in the healthcare industry without the risks of bringing big groups of possibly contagious people together nearby. This also allows them to examine, diagnose, and treat a large number of patients and expand healthcare to areas where physical access to doctors or hospitals is difficult due to the distance.
Edge Computing and IoT are closely linked together. To put it simply, it means designing devices with onboard analytic capabilities that allow computing to take place as close to the source of the data being analyzed as possible. It all makes sense in the context of cloud computing, where data collected by “dumb” sensors like cameras or microphones is transferred to the cloud for analysis. An advantage of data being transferred to the cloud is relieving the network from overcrowding. Another advantage is that it's faster. Since organizations are looking towards hybrid cloud ecosystems to deliver services to their customers, edge computing is becoming an essential part of the solution when there is a requirement to deliver fast and secure IoT services. When we consider the privacy issues of pervasive IoT, another benefit becomes clear: if a gadget is collecting personal data, users have the peace of mind of knowing that they may access the insights it provides without ever leaving their custody. Thanks to more effective battery and user interface designs, a growing amount of computer power is becoming available in even smaller and more power-efficient devices.
IoT devices are frequently vulnerable to security infringements making them the perfect targets for DDoS attacks. Blockchain technology, also known as distributed ledger technology, surfaces as a viable method for ensuring data security while utilizing encryption techniques and peer-to-peer communication without intermediaries. It is one of the most critical IoT trends as it addresses essential IoT scalability and security issues. Blockchain is an information game-changer because of its outstanding capabilities and benefits, allowing data to be recorded and shared by a user’s community. It is more commonly discussed in terms of IoT data security. Banking and financial organizations are increasingly using blockchain techniques to secure their operations. Similarly, blockchain is currently one of the most popular Internet of Things technologies due to its capacity to ensure data security without intermediaries through encryption techniques.
Atidan specializes in helping your business realize its true potential with the help of the latest technologies to make sure that you come out ahead. With decades of experience and a tremendously powerful platform, our goal is to help you realize the full potential of today's cutting-edge technologies. Atidan is proud to have associated with numerous pharmaceutical companies to help with their technological needs in the past. With a presence in over 14 countries, We have software engineers that can help you maximize your technology investments and bring new efficiencies to your business. Our team of developers, architects, and specialists bring a diverse array of technology frameworks and a rock-solid approach to ensure your application works seamlessly. Atidan’s expert consultants will work actively with your business process managers, IT staff, and executive leadership to identify your requirements and help you reach your business goals. At Atidan, our goal is to tend to all your technology needs so that you can focus on running your business.