Why Satellite is Needed for IoT

20 Billion Internet-of-things devices by 2023

… and why satellite connectivity will be needed.

 

The IoT market in perspective

According to the 2017 Growth Enabler market pulse report for IoT, IoT serves two distinct user groups: business and individuals. These two user-groups can then broadly be classified into nine segments as shown in the following diagram: 

Internet-of-Things Market Overview

Consumer Segment

Use-cases are 1) Connected homes 2) Wearables 3) Connected cars and 4) Personal health.

For consumers, the value proposition is to save time, money and heighten personal convenience.

Adoption is set to grow as machine sensors in smartphones, wearable devices and other smart devices become more prevalent and affordable

Business Segment

Use-cases are 5) Retail 6) Industrial 7) Smart Utilities & Energy 8) Healthcare 9) Smart Cities.

For business, the value proposition is reducing business continuity risk through predictive “sensor driven” analytics that optimise operational performance, reduce costs and consequently increase profits and customer impact.

 

Communication Network Perspective

The Ericcson communication analysis divides the IoT market into short-range and wide-area segments. The short-range segment largely consists of devices connected by unlicensed radio technologies, with a typical range of up to 100 meters, such as Wi-Fi, Bluetooth and Zigbee. This category also includes devices connected over fixed-line local area networks and powerline technologies.

 

The wide-area segment consists of devices using cellular connections, as well as unlicensed low-power technologies, such as Sigfox and LoRa. At the end of 2017, an estimated 0.5 billion IoT devices were connected with cellular connections. This number is projected to reach 1.8 billion in 2023, or around 75% of the wide-area category.

By 2023 the short-range segment is expected to be 17,4 billion devices or 55% of the connected devices market. What is not made very clear in the Ericcson analysis is that part of short-range communication network architecture is a wide-area network circuit that connects the “on-site” short range network with the centralised cloud infrastructure. Each and every Wi-Fi, Bluetooth or Zigbee network deployed on a user campus must also be integrated with a reliable backhaul link.

 

 

By 2023 1,8 billion IoT devices to be connected via Cellular.

AND

1,7 billion devices on “off-grid” locations will be connected via satellite or wireless.

For any “off-grid” location, i.e. a location which is not connected to the national telco mobile or fixed line telecommunication grid, this backhaul connectivity must be provided by satellite or wireless alternative infrastructures.  Based on an estimate that 10% of locations will be “off-grid” this represents a need for alternative connectivity for 1,7 billion devices – almost the same as planned to mobile networks!

 

 

Conclusion

The Internet-of-things will certainly change the way we work, play and live. The user applications and business benefits will be developed to change our reality and the way we experience the world around us.

 

As can be expected, the fundamental requirement for this change to materialise is the need for reliable and scalable connectivity. With the wide footprint of cellular networks, and the dominance of 3G as a connectivity medium, Ericcson forecasted the 1,8 billion devices will be connected via cellular networks.

 

However, based on the total market forecast, it is expected that 1,7 billion devices will be operating from “off-grid” locations and will have to be connected using alternative networks such as satellite. It is thus expected that satellite and cellular networks will have equal share in the IoT connectivity sector.

 

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