Why Choose NB-IoT for Your Business?

As businesses continue to adapt their tech strategies, OEM’s are looking for network technologies that will best support their future customer needs.

Delivering long-term application connectivity across a variety of business use cases, power consumption, cost, reliability and performance are critical. That’s why Narrowband Internet of Things (NB-IoT) is a highly feasible option for many companies, across many industries, to adopt IoT solutions.

For businesses, NB-IoT technology provides connectivity to a large set of assets that aren’t suitable for traditional cellular connectivity because of the restrictive cost or power requirements. NB-IoT has the potential to support companies enable application innovation, meet increasing needs for access to information, and help in drawing data insights and business outcomes. Especially small and medium-sized businesses need Narrowband-IoT as a basis to make the IOT suitable for the mass market. Only with NB-IoT do many manufacturing entrepreneurs have the chance to effectively network their products and equipment. This will assist them to create new customer relationships and business models. This is where NB-IoT is a reasonably priced technology for the

Internet of Things.

Long runtimes, high scalability and a deep building penetration at low costs are critical to the success of any IoT project. NB-IoT overcomes many of these limitations as it is standards based and carrier grade, working in licensed

dedicated spectrum bands, providing businesses a wide array of benefits such as:

1. Better security 

2. Carrier grade reliability 

3. Long life battery 

4. Ubiquitous coverage 

5. Long sistance abilities 

6. Cost savings

No matter the size of your business, nb-iot devices and technology are certainly an option to consider. They are reliable and secure, with a quick connection that cannot be beaten. Looking ahead as the technology evolves, NB-IoT devices will provide the right benefit at the right cost for your business applications.

The tracking ability of nb-iot devices is being utilized in many emerging use cases across dozens of vertical markets. NB-IoT’s characteristics, reliable connectivity, support for a high number of devices per cell, lower cost, LTE-based security, integration capability and low power consumption, will support a wide range of use cases and business benefits now and in the future. Because NB-IoT marks off so many factors for industrial, public and consumer use, it’s enabling real business use cases that derive value instead of enabling mere applications.

The potential industry applications of NB-IoT:

• Retail:

 Large numbers of devices like barcode scanners and geolocation beacons to improve customer experiences and to access real-time information on stock availability and track items in the supply chain.

• Transportation: 

From private to public transportation, from supply chain logistics to public transit sensors could provide valuable data insights, improving traffic analysis, navigation, and congestion

• Smart Buildings: 

Alarm and event detection systems can be powered by NB-IoT from gas leakage diagnostics to home intrusion detection, or offer intelligence for detected events such as a sudden increase in temperature or the presence of smoke that might lead to fire.

• Smart Cities: 

From smart parking sensors to reduce traffic to smart rubbish bins and street lamps, NB-IoT could be integrated into existing infrastructure at a low cost acting as the backbone of all connected things.

• Smart Metering: 

There is adoption in water and gas metering lower costs and improve service quality by remotely analyzing the sensors.

• Environment: 

Affordable, battery-powered environmental sensors can be used at non-powered locations to capture air conditions and provide data for more accurate forecasts and actions.

• Research: 

Research organizations use nb-iot devices to track packs of animals in the wild in order to research their living habits and migration patterns.

• Agriculture

Additionally, nb-iot devices can be used to track all of an individual’s personal posessions such as their pets, phone, tablet, car keys, and computer or the eldest and kids. Asset tracking, will have the largest share of overall LPWA connections in 2023, accounting for over 45% worldwide, ABI says.

NB-IoT will provide companies with valuable analytics, improve real time decision making, and increase productivity.

source:https://eclipse.com.tr/why-to-choose-nb-iot-for-business-applications/

Snapshot of Two Key Forms of Cellular IoT: LTE-M and NB-IoT

Cellular IoT helps physical things (like sensors) connect to the internet through the same mobile networks as smartphones. This simple and important feature of cellular IoT, makes this technology highly important for many industrial and individual applications.

Cellular IoT is basically a developed connectivity system, that connects various objects to the internet. Especially with the development of 5G technology, cellular IoT is going to gain more importance and frequency of use over time, since it can be applied to many fields. Cellular networks can connect smartphones to Google Maps, E-mail accounts and more; it carries our voice through the air, and it not only provides connection with our friends and family but enables us connecting with the physical objects surrounding us like electricity meters, hospitals, boilers, streetlights etc. It can also be used for many industrial applications like manufacturing and agriculture.

It’s foreseed that the number of devices that connect to internet by using cellular IoT technology will increase dramatically in the coming years. More than 20 billion devices are expected to be connected through this technology by 2023.

Why is Cellular IoT expanding so much?

Cellular networks which provide big flows of data are prevalent all around the world, which is an advantage of not being in need of creating new physical infrastructures in order to support IoT networks. For a long period of time, cellular-enabled IoT devices consumed too much power, that decreased their practicality for the applications. However, today, new kind of cellular technologies, such as NB-IoT, are able to transmit reasonable amounts of data accross significant distances without the need of draining the battery. With the help of 5G technology, there is no reason not to be optimistic for the brilliant future of cellular IoT technologies.

Snapshot of Two Key Forms of Cellular IoT: LTE-M and NB-IoT

Either LTE-M or NB-IoT technologies are used for all current cellular IoT applications. You basically pick one of these two technologies according to the GSM cellular infrastructure used in your neighbourhood. On the other hand, there are significant differences between these aforesaid technologies. So, for now no matter what, you should choose the one which is compatible for your city.

LTE-M

As mentioned before, LTE technology is standart in the US, in majority of European countries and China as of 2019. It is estimated to overhaul GSM for cellular IoT applications. LTE-M, which is abbreviation for “Long Term Evolution for Machines’’, is a kind of network standard that let’s IoT devices to piggyback on present cell networks.

With essentially just a software update, LTE-M-enabled devices can communicate with the cloud. In general, LTE-M devices are the best match to “mission-critical” applications in which real-time data transfer makes the difference—for example, self-driving cars or emergency devices in smart cities. NB-IoT

NB-IoT, which stands for “Narrowband-IoT,” is great for areas without good LTE coverage, or when you only need to transfer small amounts of information—for example, when using a soil sensor for smart agriculture or an energy usage monitor in a smart city. NB-IoT uses only a narrow band of the total bandwidth cell towers project. If you’re deploying in an area in which GSM is the standard cellular technology. On the other hand, if you foresee needing to send only small amounts of data across the internet periodically, NB-IoT might be the right choice.

5G and the Future of Cellular IoT

Despite all the hype around 5G, it’s actually just like all the other “Gs” (i.e., generations) of the cellular internet; 5G is better, way faster, and stronger. 5G will most likely transform the IoT landscape, even though it’ll likely operate in tandem with LTE and GSM cellular networks into the 2020s. On the industrial IoT end, ultra-secure, private 5G networks will be enabling millions of devices operating at tenfold the speed of existent networks.

On the consumer end, 5G can make self-driving cars or immersive VR & AR environments a reality. It’s an exciting time to be learning about the power of cellular IoT.

Kaynak: https://eclipstek.com/what-is-cellular-iot/

The potential industry applications of NB-IoT

As businesses continue to adapt their tech strategies, OEM’s are looking for network technologies that will best support their future customer needs.

Delivering long-term application connectivity across a variety of business use cases, power consumption, cost, reliability and performance are critical. That’s why Narrowband Internet of Things (NB-IoT) is a highly feasible option for many companies, across many industries, to adopt IoT solutions.

For businesses, NB-IoT technology provides connectivity to a large set of assets that aren’t suitable for traditional cellular connectivity because of the restrictive cost or power requirements. NB-IoT has the potential to support companies enable application innovation, meet increasing needs for access to information, and help in drawing data insights and business outcomes. Especially small and medium-sized businesses need Narrowband-IoT as a basis to make the IOT suitable for the mass market. Only with NB-IoT do many manufacturing entrepreneurs have the chance to effectively network their products and equipment. This will assist them to create new customer relationships and business models. This is where NB-IoT is a reasonably priced technology for the Internet of Things.

Long runtimes, high scalability and a deep building penetration at low costs are critical to the success of any IoT project. NB-IoT overcomes many of these limitations as it is standards based and carrier grade, working in licensed dedicated spectrum bands, providing businesses a wide array of benefits such as:

1. Better security 2. Carrier grade reliability 3. Long life battery 4. Ubiquitous coverage 5. Long sistance abilities 6. Cost savings

No matter the size of your business, nb-iot devices and technology are certainly an option to consider. They are reliable and secure, with a quick connection that cannot be beaten. Looking ahead as the technology evolves, NB-IoT devices will provide the right benefit at the right cost for your business applications.

The tracking ability of nb-iot devices is being utilized in many emerging use cases across dozens of vertical markets. NB-IoT’s characteristics, reliable connectivity, support for a high number of devices per cell, lower cost, LTE-based security, integration capability and low power consumption, will support a wide range of use cases and business benefits now and in the future. Because NB-IoT marks off so many factors for industrial, public and consumer use, it’s enabling real business use cases that derive value instead of enabling mere applications.

The potential industry applications of NB-IoT:

• Retail: Large numbers of devices like barcode scanners and geolocation beacons to improve customer experiences and to access real-time information on stock availability and track items in the supply chain.

• Transportation: From private to public transportation, from supply chain logistics to public transit sensors could provide valuable data insights, improving traffic analysis, navigation, and congestion

• Smart Buildings: Alarm and event detection systems can be powered by NB-IoT from gas leakage diagnostics to home intrusion detection, or offer intelligence for detected events such as a sudden increase in temperature or the presence of smoke that might lead to fire.

• Smart Cities: From smart parking sensors to reduce traffic to smart rubbish bins and street lamps, NB-IoT could be integrated into existing infrastructure at a low cost acting as the backbone of all connected things.

• Smart Metering: There is adoption in water and gas metering lower costs and improve service quality by remotely analyzing the sensors.

• Environment: Affordable, battery-powered environmental sensors can be used at non-powered locations to capture air conditions and provide data for more accurate forecasts and actions.

• Research: Research organizations use nb-iot devices to track packs of animals in the wild in order to research their living habits and migration patterns.

• Agriculture

Additionally, nb-iot devices can be used to track all of an individual’s personal posessions such as their pets, phone, tablet, car keys, and computer or the eldest and kids. Asset tracking, will have the largest share of overall LPWA connections in 2023, accounting for over 45% worldwide, ABI says.

NB-IoT will provide companies with valuable analytics, improve real time decision making, and increase productivity.

Kaynak: https://eclipstek.com/why-to-choose-nb-iot-for-business-applications/

What are the advantages of NB-IoT?

Industrial IoT’s unique, low-power, low bandwidth requirements have led to the development of cellular network families series such as LPWAN and NB-IoT that are the primary means of connecting these devices to central servers.

These networks are designed mainly for IoT devices’ needs, which are not addressed adequately by either cellular networks, which offer high bandwidths at the expense of power consumption and protocols such as Wi-Fi and Bluetooth, which are not scalable.

NarrowBand-Internet of Things (NB-IoT) is a standards-based low power wide area (LPWA) technology, that doesn’t operate in the licensed LTE framework. It either works independently, in unused 200-kHz GSM bands or on LTE base stations allocating a resource block to NB-IoT operations.

What are the advantages of NB-IoT?

NB-IoT technology with simpler waveform and a 200 kHz NB-IoT frontend and digitizer offers reduced conversion complexity, buffering, and channel estimation. This efficiency in turn, minimizes power consumption enabling a battery life of more than 10 years and cost savings.

Rolling out NB-IoT on a licensed spectrum means improved reliability for users. The underlying technology is less complex than traditional cellular modules, which simplifies design, development, and deployment for OEMs. What is more, it offers the same tried security and privacy features of LTE-M networks.

Compared to LTE-M1, NB-IoT has lower bitrates and better link budgets. New physical layer signals and channels are engineered to meet the demanding requirement of extended coverage, rural and deep indoors. NB-IoT penetrates deep underground and into enclosed spaces providing 20+dB coverage indoors.

While billions are invested into LTE networks, there are still many areas around the world with less LTE-M networks, even though network rollouts are going-on. There are larger GSM deployments, where unused bands can be utilised to leverage for NB-IoT. This increases the possibility of affordable NB-IoT deployments globally. Supported by all major mobile equipment, and module producers, NB-IoT can co-exist with 2G, 3G, and 4G mobile networks.

NB-IoT Use Cases

Smart     metering

Facility     management

Security     applications

Healthcare

Asset     tracking

Smart     city infrastructures

Connected     industrial appliances such as welding machines or air compressors.

Kaynak: https://eclipstek.com/what-is-nb-iot/

What is an Industrial Cellular Modem?

You might be unable to answer the question, “what is cellular IoT?” But probably you’re familiar with the underlying technology. Cellular networks connect your iPhone to Google Maps, Instagram, and Email; they carry your voice through the air. As we connect to our friends and family, we’re also seeing the value of connecting with the physical objects around us: the streetlights, parking meters, and hospitals that occupy our everyday urban lives, or the myriad industrial applications like manufacturing and agriculture that connectivity can enhance.

The same cellular technology behind your smartphone is empowering the next wave of innovation in the dawning “Internet of Things” (IoT). In this ever changing technological world, more and more devices are getting connected together and building internet of things (IoT) architecture across the world. In fact, all the internet devices will be connected in future. IoT is a key facilitator of this possibility by delivering machine-to-machine and machine-to-person communication on a huge scale. FMI predicts that there will more than 30 billion connected devices by year 2024. But what is “cellular IoT” and why should you expect to be hearing a lot more about it?

What is Industrial Cellular IOT?

Cellular IoT offers advanced connectivity technologies similar to the technology behind your smartphone that connect billions of devices and sensors to the Internet across the globe. Instead of needing to create a new, private network to house your IoT devices, they dwell on the same mobile network as smartphones. These advanced technologies include 3G, 4G, 5G, and LPWA (Low Power Wide Area) cellular technologies such as NB-IoT and LTE-M. Cellular IoT offers global coverage, reliable connection of IoT devices, and low-cost hardware that is required for cellular IoT connections.

Cellular networks capable of facilitating massive flows of data are now widespread around the globe, so we don’t need to build any new physical infrastructure to support cellular IoT. Cellular networks provide the backbone for much of what we know, allowing us to access the internet, get rides, connect with friends, shop, watch videos, and much more. In addition to the personal benefits we’re all familiar with, cellular networks also serve a critical and growing role in many Internet of Things applications. Although connectivity technologies continue to be improved, ultimately, there will always be a tradeoff between power consumption, range, and bandwidth. Cellular connectivity has historically been focused on range and bandwidth at the expense of power consumption.

It’s called a cellular network because the network operators split up areas into “cells”. Each cell has a cell tower that operates at a different frequency than adjacent cell towers. The area of each of these cells depends on usage density. In a city, each of these cells might only have a range of a half mile, while cells in rural areas may have a range of up to 5 miles. As users move between cells, their frequency is automatically changed to switch over to new cell towers (called a handoff). You’ve almost definitely heard terms like 3G or 4G before. These refer to the 3rd and 4th generations respectively. Each generation is a set of standards and technologies that are defined by a standards body call the ITU Radiocommunication Sector (ITU-R). Starting with 1G systems, which were introduced in the early 1980’s, a new generation has been introduced about every 10 years since. Each generation has brought new frequency bands, higher data rates, and new transmission technologies (which are non-backwards compatible).

2G, 3G, and 4G, new cellular technologies like NB-IoT and LTE-M are aimed specifically at IoT applications. The next generation of cellular connectivity (5G) promises to be revolutionary, offering speeds of up to 100Gbps (compared to the 1Gbps of current 4G). This massive bandwidth will be a critical enabler for many applications of the future including autonomous vehicles, augmented and virtual reality, and more.

Perhaps one of the most transformative effects of 5G will be that it can serve as a substitute for physical cable. Instead of the time and resource intensive build-out of cable infrastructure, cities and businesses can use 5G to meet their needs. This also opens up new applications to using the cloud, which might have previously been limited by the amount of data that needed to be sent, instead relying on local processing.

In addition to high bandwidth, 5G also promises ultra-low latency and a high degree of reliability, making it an enabler for industrial IoT applications as well. The factories of the future can forego wired Ethernet in industrial production environments to become dynamic and reconfigurable factories that change with new demands and requirements.

Consumer IoT vs. Industrial IoT – What are the Differences?

Although most ink dedicated to discussing the Internet of Things (IoT) has gone towards discussing the concept’s consumer variant, the Industrial Internet of Things (IIoT) is beginning to capture significant attention for its role in helping manufacturers and industrial companies optimize processes and implement remote monitoring capabilities that would have been considered almost impossible just a decade ago.

But what exactly is the industrial IoT and what distinguishes it from consumer-oriented applications such as smart fridges and air conditioners? Here are some important distinctions to help delineate the boundary between the consumer and industrial IoT ecosystems.

IIoT     devices are built to be industrial strength deployment need to be able to     survive environments that simply wouldn’t be encountered by consumers.     Such conditions include extremes in power, humidity and temperature and     environmental conditions as such.

IIoT     Systems must be designed for scalability. Because IIoT systems can result     in the generation of billions of datapoints, consideration also has to be     afforded to the means of transmitting the information from the sensors to     their final destination – usually an industrial control system such as a     SCADA (supervisory control and data acquisition) platform.     In order not to overwhelm these centralized systems with data, IIoT     manufacturers are increasingly devising hardware that can carry out     preliminary analytics directly at the device-level rather than on a     program running in a cloud-based server

IIoT     devices have unique communications and power requirements. IIoT sensors     are often installed to measure parameters at remote infrastructure that is     difficult to physically access. Such infrastructure can be situated below     the surface (for example, at oil and gas facilities), atop high terrain     (for example, at water reservoirs), offshore (for example, on oil wells),     or even in a remote stretch of desert not accessible by roadway (at a     weather station).Deploying technicians to inspect these assets is     difficult and expensive. To minimize the amount of field visits required,     IIoT devices need to be engineered to have the maximum possible battery     life, which is often achieved by building them with industrial-grade     batteries.     IIoT’s unique, low-power, low bandwidth requirements have spurred the     development of a series of nascent network families such as LPWAN and NB-IoT that     are the primary means of connecting these devices to central servers.

IIoT     must meet unique cyber-security standards. Cyber-security is an important     challenge facing the Internet of Things (IoT) with 70% of the most     commonly used IoT devices containing vulnerabilities,     according to Hewlett Packard research.

Unlike     even sophisticated mass-market IoT products such as smart washing     machines, IIoT solutions often need to be white-labelled and tailored to     the individual usage requirements of the purchaser.For that reason, IIoT     technologies are often made available through a variety of means that     allow heightened customization and integration with other software     systems. This includes APIs or Platform as a Service (PaaS) offerings.

Industrial Cellular IOT Applications

Because of machine-to-machine communication and machine-to-person communication, humongous amount of data will be generated. For the proper functioning of IoT network, there is a need of data storage, data interpretation, and data transfer in real time at minimal cost and cellular networks are fulfilling this particular need of the market. Cellular technologies such as GSM, WCDMA, LTE, and future 5G have evolved with new functionality and new radio access technology narrowband IoT tailored to from an attractive solution for emerging low power wide area (LPWA) applications.

Segmentation on the basis of vertical: • BFSI • IT and Telecommunications • Healthcare • Retail • Energy and Utilities • Transportation • Others

Kaynak: https://eclipstek.com/what-is-an-industrial-cellular-modem/