Read more:<\/span> <\/strong> Learn why LoRa technology is the best option for smart cities and smart building applications <\/div>\n\t\t<\/a>\nSigfox<\/b> offers a network for connecting low-power IoT devices that send small amounts of data. It\u2019s power-efficient and scalable, allowing millions of battery-operated devices to connect over many square kilometers. Suitable use cases include smart meters, security devices, environmental sensors, and smart street lighting.<\/p>\n
Sigfox is effective due to its ultra-narrowband technology that uses a radio transmission method known as binary phase-shift keying (BPSK). Sigfox encodes data in two steps: first, it takes very narrow chunks of the spectrum; second, it changes the phase of the carrier radio wave. The receiver can thus only listen to a tiny slice of the spectrum, which is supposed to mitigate the effect of noise. To manage the network, you only need an inexpensive endpoint radio and a more sophisticated base station that ensures better communication.<\/p>\n
Connectivity of tomorrow<\/h2>\n <\/p>\n
When it comes to the connectivity of tomorrow and advanced networking, it\u2019s essential to mention 5G and low-earth orbit satellites, which promise greater bandwidth, lower power consumption, and the ability to transmit greater volumes of data.<\/p>\n
5G<\/h3>\n 5G<\/b> is an ideal solution for applications that require lots of bandwidth and for weighty machine-type communications. Fifth-generation wireless technology, or 5G, will be able to connect massive numbers of sensors and smart devices within a network. As IoT solutions get more complex and intricate and generate more data, there will be a growing demand for bandwidth \u2014 and 5G will be there to face this challenge. 5G is expected to unify smart machines in an environment where seamless flows of information between devices are possible across longer distances and within shorter amounts of time. 5G reduces power requirements to extend battery life.<\/p>\nLow-earth orbit satellites<\/h3>\n
Compared to large geostationary satellites, clustered low-earth orbit satellites are a better alternative<\/a> to connect remote areas to the outside world. Though they\u2019ll still serve a purpose, geostationary satellites are less reliable, less responsive, and more expensive. Companies like SpaceX, OneWeb, and others are rising to the challenge to develop small, low-earth orbit satellites that can function anywhere and be stationed in clusters. According to Deloitte Insights<\/a>, in addition to providing internet access to rural and isolated communities, low-orbit satellites could also become essential networking infrastructure tools for industries such as energy, mining, transportation, and even finance that operate in remote areas.<\/p>\nConclusion<\/h2>\n While the connectivity options of today can\u2019t quite keep up with industry trends, that opens room for improvement for the connectivity of tomorrow. As companies design their IoT strategies, they must be open to change in order to meet new connectivity standards and customer preferences. They should also be prepared to investigate new business models, since advances in IoT connectivity may open some surprising opportunities.<\/p>\n","protected":false},"excerpt":{"rendered":"
Learn which technologies best fit which industries and your business, as the number of IoT connectivity options grows <\/p>\n","protected":false},"author":15,"featured_media":58904,"template":"","class_list":["post-19424","blog","type-blog","status-publish","has-post-thumbnail","hentry","blog-category-internet-of-things"],"acf":[],"yoast_head":"\n
IoT Connectivity Options: Requirements across Industries - Intellias<\/title>\n \n \n \n \n \n \n \n \n \n \n \n\t \n\t \n\t \n \n \n \n\t \n