5G IoT is not a panacea – connectivity in the dark

5 mins read

With 5G (fifth generation mobile networks) rearing its head and the Internet of Things going from strength-to-strength, everything in the world is becoming connected. Thanks to 5G IoT, in the not too distant future, high-speed connectivity will be available for all… except where it isn’t.

A 5G IoT utopia

5G promises mobile communications with speeds equalling, and in many cases, surpassing those achieved by home broadband. As well as the obvious benefits for mobile users, high-speed connectivity and increased availability will also benefit the IoT, allowing more devices to send and receive more data.

While this sounds like a data utopia, 5G IoT may not have all the answers. For example, what about connectivity between cities and across borders? In this article, we look at what’s needed for truly ubiquitous global IoT coverage and filling the gaps between coverage hotspots.

Smart cities and connectivity bubbles

The need for 5G is largely driven by the move towards smart cities. In a truly smart city, all things are connected. This means cars will have an intelligent dialogue with traffic systems, home appliances will communicate with utility suppliers, garbage trucks will communicate directly with waste bins and so on. In order for this to happen, a lot of bandwidth needs to be made available, which is where 5G comes in. Offering a theoretical download speed of 10,000 Mbps as well as ultra-low latency, 5G IoT has everything a smart city needs in terms of connectivity.

It would appear that for all of the reasons above, 5G has the Internet of Things sewn up, and for those within the urban sprawl, to some degree, it does. However, for those operating outside the urban bubble, across borders or in territories where 3G is still yet to be properly implemented, it’s not so simple. For much of the world, 5G will be out of reach for several years.

Don’t carry all your IoT eggs in one basket

In terms of connectivity, given the pace of change in the industry, carrying all of your eggs in one basket could be incredibly short-sighted. Simply put: if your IoT solution relies on only one method of connectivity, it will only work in places where that connectivity exists. In the short-term, 5G connectivity will fit into the same category as LoRa and SigFox – i.e. connectivity will only exist in bubbles. If your devices need to operate outside of the bubble they will need another connectivity option.

Outside the 5G IoT connectivity bubble

For businesses that need to operate outside of a connectivity bubble, other options have to be considered. The most common option for operating outside these bubbles is 4G/LTE. With a roaming data agreement, devices will still be able to operate outside the limitations of a 5G, SigFox or LoRa (LoRa networks can be integrated with Thingstream) network. Many network operators are able to offer international roaming data contacts that will allow a device to operate in several different countries, however, this comes with a significant and sometimes unpredictable cost and may still not have quite the coverage needed by the business.

4G/LTE coverage is patchy at best when you look at the global picture. Many countries have not yet upgraded and some don’t even have it on their radar at all yet. Even in developed countries like the UK, 4G is still very shaky once you get outside the big towns and cities. Combine the lack of ubiquitous 4G coverage with potentially high data costs and it soon becomes clear that a 5G/4G-based IoT network isn’t suitable for all – especially businesses that operate in remote locations or across borders.

global iot connectivity thingstream

Talk is cheap, so let’s use voice

Thingstream takes a different approach with its low-power IoT network. Instead of relying on the TCP/IP layer of the mobile network, Thingstream allows devices to send and receive messages using the voice-based GSM (2G) network. The big advantage of using 2G is the coverage. 2G is available in over 190 countries worldwide and in most cases runs alongside 3G and 4G communications. Where countries have not yet upgraded to 3G or 4G, 2G is usually widely supported by multiple carriers.

To ensure continuous connectivity, when powered up, Thingstream IoT enabled devices automatically hop onto the strongest 2G network available by default. Thingstream comes with global connectivity straight out-of-the-box meaning that wherever the device is, as long as there is at least one 2G mast within range, the device will be able to communicate effectively.

Nothing lasts forever – especially not 2G

The problem with using what is essentially old technology is that it won’t be around forever and that is true of 2G. In countries where full coverage is offered by 4G/5G, 2G is being switched off… eventually. For IoT deployments relying only on 2G, this will cause problems in the future. How far into the future we need to look depends on the territory in question. For example, South Korea has already shut down 2G but there are still third-world countries yet to see a full 3G rollout, let alone full 4G/5G implementation. For these countries, 5G could be as much as ten years or more away.

Even countries with good 4G coverage may be a while away from switching off 2G altogether. In countries where mobile rollout has been slow, innovators have had no choice but to use the older technologies. For example, in many African countries, the use of USSD shortcodes (a text-based messaging component of 2G) has become commonplace for allowing feature phone users access to websites and applications. For this reason, 2G will remain a very cost-effective option for some time.

Although it may be a long way off, Thingstream is ready for the 2G shutdown and will continue to offer hassle-free, fixed-cost connectivity regardless. Thingstream has adapted its unique approach to messaging and applied it to 4G/LTE, allowing its customers and users to continue reaping the benefits of ubiquitous connectivity without hefty roaming data charges.

Low-power is essential in the dark

All IoT devices require power to operate. If your device isn’t inside a connectivity bubble, there’s a good chance that it will need to operate without a power supply, relying on batteries to take the strain. Simply choosing bigger batteries isn’t the answer. The cost of charging hundreds or even thousands of devices soon adds up and the batteries themselves can also add a significant cost to a device.

For the reasons above, it’s important that IoT devices draw as little power as possible in order to ensure continuous operation between the bubbles. There are numerous ways to achieve this. In the case of Thingstream, low power is achieved by keeping IoT messages as small as possible and ensuring that devices are only awake and sending data when they need to do so. Along with this, the Thingstream SDK has a very small code footprint (approximately 12k Flash/5k RAM for an ARM Cortex M0) which allows for more efficient operation at a microcontroller level, further reducing the power used by the device.

5G IoT – in conclusion

Finding the right connectivity solution for IoT deployments is essential and a big part of that is WHERE it needs to work. 5G IoT may not have the answer yet and it may never achieve ubiquity but for those that need low-power, low-cost IoT that works in remote areas or across borders, there are other options available right now.

Thingstream brings all of these features under one roof, offering IoT ubiquity wherever in the world your devices need to be. If you’d like more information on the Thingstream platform or information or you’d like to find out if Thingstream global IoT connectivity is the right choice for you, please get in touch.


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