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Internet of Things (IoT) refers to the way that more and more physical devices are collecting and exchanging data over the internet. When this data is aggregated and analyzed, IoT represents a tremendous opportunity for improvements in accuracy and efficiency. Currently, IoT is doing a better job collecting data than using it — but its potential is limitless. IoT will have an increasing impact on bandwidth needs it grows.
Consumer uses include connected cars, entertainment applications such as gaming, smart TVs and media players, wearable technologies such as FitBits, and a growing assortment of smart home devices. Commercial IoT includes devices used in corporate settings to improve marketing and study consumer habits, control inventory, healthcare and more, while industrial IoT covers manufacturing and utility use. IoT can even assist with the management of critical infrastructure such as bridges, railway tracks, and wind farms by monitoring usage and structural factors.
Experts predict that anywhere from 25 to 50 billion devices will be connected to the internet by 2020. In 2015, the Organization for Economic Cooperation and Development estimated that a family of four had an average of 10 connected devices, which will increase to 50 by 2022 – and that’s consumer usage alone, without considering the exponential growth of IoT in commercial and industrial settings.
Several challenges exist in the evolution of IoT that threaten to limit its potential, such as security, compatibility, and standards – as well as privacy issues related to how gathered data is used.
One much-publicized issue with IoT is that many devices are easy for hackers to co-opt into distributed denial of service (DDoS) attacks that disable key online services. In a DDoS attack, “botnets” send high volumes of traffic to a specific network. The resulting overload can shut down the network, blocking people from accessing email, websites, online banking and so on. It is crucial that developers of IoT consider and address security issues to help prevent DDoS attacks before consumers lose trust in IoT. It is also important that companies protect their businesses from these DDoS attacks and add a DDoS Mitigation service to their arsenal.
Many IoT devices operate wirelessly, while others are connected. Most IoT devices use very little bandwidth, but the sheer volume of devices going online means more bandwidth will be needed. As IoT grows, it will be necessary to make sure your network can accommodate these changes.
The amount of data that IoT devices collect and transmit will increase as the technology continues to develop, which will in turn contribute to the need for increased bandwidth. (For example, when smartphones became capable of transmitting images and streaming video, the need for bandwidth jumped significantly.)
Consumers expect that bandwidth will always be available at the fastest speeds possible, even as IoT increases demand. Companies like DQE that focus on bandwidth and scalable solutions will be critical as need explodes. Reliability is similarly important, and DQE’s self-healing fiber-optic network offers superior redundancy to automatically detect and redirect in the event of a fiber cut or other interruption.
Count on DQE to continue to provide scalable, reliable bandwidth solutions for your business as your bandwidth needs grow.Tags: bandwidth, DDoS Mitigation, IoT