Out of the 20,000 customers 1NCE serves today, over 13% are from the automotive sector. which are based in 39 countries.

13% of all 1NCE consumers are active in transport and logistics, including asset tracking, equipment rental monitoring, commercial vehicle telemetry, cold chain monitoring, remote food & and beverage monitoring, and other solutions.  

1NCE's utility customers represent 20% of the whole base with projects spanning 90 countries, driving innovations in smart metering and sustainable energy solutions.

Infrastructure holds 8% share of 1NCE customers’ portfolio, optimizing global infrastructure monitoring with IoT. 

Smart Cities is one of them ajor growth sectors in IoT, constituting over 1000 customers in 1NCE portfolio, including Street Lighting, Waste Management, Smart Parking, and other use cases.

We currently assist more than 1,200 customers involved in pest control, crop monitoring, smart irrigation, bee colony analysis, and other scenarios, constituting 7% of 1NCE customer base. 

Consumer IoT covers multiple IoT use cases, prominently related to Wearables, Consumer Asset Tracking, Service Robotics, and Home Appliances across the US, UK, Germany, Italy, South Korea, Japan, and China.

250+ of our customers have set up their remote monitoring, clinic environment management, medication dispensing, healthcare asset tracking, and more solutions across over 87 countries. 

9% of 1NCE customers run Industrial Automation use cases, such supply & cold chain monitoring, predictive maintenance, remote diagnostics, building automation, and more.

1NCE is the preferred choice for Point-of-Sale Terminals, Electronic Shelf Labeling, and Bending Machines within the Retail Sector, spanning major regions such as the US, UK, EU, South Korea, Japan, and China, with typical deployment sizes ranging from 1,000 to 10,000 devices.

Teltonika is a leading provider of IoT modules, devices, and solutions originating from Lithuania, offering a diverse range designed for various applications.

Telit Communications is an international company specializing in providing wireless communication modems and services for the Internet of Things (IoT).

Thales, a French company, specializes in developing modems and modules tailored for IoT application and designed to meet the diverse needs of IoT devices, ensuring efficient communication across various industries.

Google (Cloud) IoT Core, is a cloud-based and fully managed service which provides device registration, authentication, authorization within the Google Cloud resource hierarchy, and device metadata storage (in the cloud).

Symantec's IoT security solutions revolve around proactive, adaptive, and technically strong measures to improve the security within IoT environments via device protection mechanisms, data encryption, identity and access management, and anomaly detection algorithms.

Based in Sydney, Australia, NetComm has been a leading innovator in the field of telecommunications and connectivity since its founding in 1982. NetComm's product range includes a diverse selection of networking hardware, software, and services, with a notable specialization in IoT (Internet of Things) gateways.

Armis Centrix stands as a cybersecurity solution for oversight, protection, management, and optimization of Operational Technology (OT), Internet of Things (IoT), and Industrial Control Systems (ICS) assets, systems, and processes within diverse environments.

Dell Technologies is a multinational company, based in the US, with a broad manufacturing portfolio. Beyond computers, laptops, and servers, Dell is a manufacturer of IoT gateways.

Thales IoT SAFE is an interoperable IoT security service designed for the deployment of IoT applications. Operated as a plug-and-play Software as a Service (SaaS), it implies minimal integration efforts and automated cloud data security environment for SIM-equipped IoT devices. In collaboration with TELUS, a leading Canadian mobile network operator, and the Canadian Internet Registration Authority (CIRA), Thales provides SIMs and the IoT server, adhering to the "GSMA IoT SAFE" specifications.

Intel NUC, a pioneer in IoT edge computing from the United States, specializes in providing compact yet powerful edge computing hardware. Their NUC series encompasses edge servers equipped with Intel processors, offering high-performance computing for real-time analytics and local data processing. The devices include embedded systems that facilitate on-device processing and seamless integration into edge environments. 

Cisco Systems, commonly known as Cisco, is a multinational technology company headquartered in San Jose, California, USA. The company specializes in a wide range of products and services, including networking hardware, software, and services for businesses, service providers, and government organizations. Among its products are IoT gateways, which facilitate seamless connectivity, data aggregation, and secure communication for IoT devices and sensors across various industries and applications.

AWS IoT Device Management, as part of Amazon Web Services (AWS), plays a vital role in facilitating robust IoT device management strategies. It stands as one of AWS's services, offering customers the capability to securely enroll, organize, monitor, and remotely administer IoT devices at a large scale.

Azure IoT Hub is a cloud-based managed service that is a central messaging hub for communication between an IoT application and the devices. It supports diverse messaging patterns such as device-to-cloud telemetry, file uploads, and request-reply methods for IoT device control.

Cisco Edge Software Solutions are represented by two basic tools - Edge Device Manager and Edge Intelligence, which enhance connectivity, ensure security, and foster efficient data management at the edge.

Azure IoT Edge as a part of Azure IoT Hub, a device-focused runtime provided by Microsoft that improves the deployment, execution, and monitoring of containerized Linux workloads. This runtime allows businesses to use cloud analytics closer to their devices, enabling better insights and offline decision-making. With Azure IoT Edge, you can run analytics at the edge, respond quickly to emergencies, and optimize data transfer to the cloud.

Google Cloud Platform (GCP) provides solutions for IoT analytics mostly via Google Cloud IoT Core suite for scalable and efficient analytics capabilities for handling IoT data.

AWS IoT Greengrass is a cloud service and open-source edge runtime for Internet of Things (IoT) applications. It enables creation of intelligent device software, offering local processing, messaging, data management, and machine learning inference. It includes pre-built components to expedite application development.

The Oracle Retail Suite is a specialized software solution catering to the Retail vertical. It provides retailers with specific tools to manage inventory, improve customer experiences and operations through the integration of IoT technologies.

Honeywell Forge is a specialized software solution designed for verticals such as Building Management and Industrial applications. This technical powerhouse serves as a unified platform, using IoT technologies to enhance operational efficiency, optimize resource utilization, and ensure a secure and connected environment within these specific verticals.

Azure Stream Analytics is a managed cloud-based stream processing engine by Microsoft Azure, which operates as a Platform as a Service (PaaS) without the need for users to manage underlying hardware or infrastructure. This service is designed for the analysis and processing of large volumes of streaming data with sub-millisecond latencies.

Bosch Mobility Solutions centers its software approach on transforming vehicles into digital platforms, continuously collecting, storing, and utilizing data to improve services and functionalities. This software-centric strategy enables vehicles to evolve dynamically throughout their lifecycle, offering continuous updates and improvements.

NXP Semiconductors, headquartered in Eindhoven, Netherlands, is a global semiconductor leader renowned for its IoT sensors and connectivity solutions. Originally part of Philips Electronics, it became independent in 2006. NXP specializes in microcontrollers, IoT sensors, and connectivity chips, offering comprehensive solutions for IoT applications. Their services include software development tools, system integration support, and technical assistance. 

Analog Devices (ADI), headquartered in Norwood, Massachusetts, is a global leader in the IoT sensors manufacturing. ADI specializes in advanced sensor technologies, offering precision measurement sensors, temperature sensors, accelerometers, and inertial measurement units (IMUs).

u-blox, headquartered in Thalwil, Switzerland, is a leading IoT module manufacturer providing diverse IoT modules, such as cellular, LPWA (Low-Power Wide-Area), and GNSS (Global Navigation Satellite System) modules as well as connectivity services supporting 4G/LTE, 5G, NB-IoT and LTE-M.

STMicroelectronics is a global semiconductor manufacturer known for its sensor technologies, with origins dating back to the merger of SGS Microelettronica and Thomson Semiconducteurs in 1987. They offer a wide range of sensors, specializing in IoT applications. 

The Mobile Switching Center (MSC) is a core part of the GSM/CDMA network that serves as a control center within the Network Switching Subsystem (NSS). 

LoRaWAN or Long-Range Wide Area Network, is now a leading technology within the license-exempt low power wide area (LPWA) space. LoRaWAN networks are typically laid out in a star-topology in which gateways relay messages between end devices and a central network server.

AWS IoT Core is a managed cloud service provided by Amazon Web Services (AWS) that offers a set of features for IoT device management, data processing, and communication between devices and cloud applications.  

Access Point Name or APN and is a connection point that enables devices to access the internet or connect to private networks via cellular networks. It is essential for cellular IoT devices as it determines the type of network access these devices acquire and brings more security.

IoT SIM cards comprise multiple data including the IMSI or International Mobile Subscriber Identity which works as a unique identifier for mobile subscribers. It is comprised of three distinct digit parts: Mobile Country Code (MCC) shows the primary operating country of the subscriber and is represented by 2-3 digits.

OpenVPN is an open-source virtual private network (VPN) protocol that utilizes SSL/TLS encryption to create secure and encrypted tunnels for data transmission. It operates across various operating systems like Windows, macOS, Linux, Android, and iOS. 

According to industry reports, approximately 48 percent of surveyed decision-makers utilize the Industrial Internet of Things (IIoT) for both supply chain management and industrial asset management. Asset management systems often lack real-time visibility, leading to inefficiencies and increased operational costs.

The integration of the Internet of Things (IoT) into healthcare helps to receive real-time data and support remote monitoring capabilities, which hence improve patient outcomes, and reduce healthcare costs. IoT connectivity, in particular wireless cellular connectivity and LPWA technologies, are widely adopted as they can function in wireless, mobile, and hard-to-reach environments. 

The increasing demand for efficient transportation solutions leads to constant urban evolution. In 2021, the smart parking sensor technology market recorded figures of 957,000 units. Smart parking enabling IoT connectivity addresses issues of congestion, pollution, and the frustration of finding parking spaces in busy cities.

According to Statista, the worldwide market for intelligent waste disposal management was valued at approximately $2 billion in 2022. It was projected to experience a consistent annual growth rate (CAGR) of 14.98% until the close of the decade, with the aim of reaching $6.2 billion by 2030. Incorporating IoT into industrial waste disposal management transforms traditional practices. By integrating sensors, IoT connectivity options that enable remote control, and data analytics, it's possible to adopt more sustainable waste practices globally. 

On December 21, 2021, Berg Insight reported that Europe and North America had a combined 49 million monitored alarm systems by the end of 2020. In Europe, this number is expected to grow to 20.4 million by 2025 at a 4.0 percent CAGR, while North America is projected to reach 36.4 million systems by 2025 with a 2.4 percent CAGR. Traditional alarm systems often lack real-time data capabilities and intelligent responses, resulting in limited effectiveness. However, with IoT technology, organizations are changing the way they protect their assets and respond to security threats. Learn more about alarm and security systems powered with IoT with Berg Insight.

IDC's projections for 2023 indicate a modest 2.2% increase in smart home device shipments, with this growth trend anticipated to extend through 2027, culminating in a total of 1.23 billion devices by then. The segments like security cameras, connected doorbells, door locks, and smart displays are poised for growth, driven by an expanding user base, global economic recovery, and the development of emerging markets. The advent of IoT (Internet of Things) technology is reshaping the way we interact with and optimize our living spaces. Explore more about how conventional households turn into smart homes, delivering enhanced convenience, energy efficiency, and better security features. Learn more about Smart Home and IoT trends in the IDC report. 

Smart Buildings, powered with IoT connectivity, have emerged as intelligent ecosystems where data-driven automation, analytics, and real-time insights change the way we interact with built environments. With IoT interconnected systems it is possible to enhance comfort, security, and resource management, while also reducing environmental impact.

Smart metering, empowered by IoT connectivity, helps to control energy, water, and gas consumption levels with real-time data transmission capabilities. According to the Transforma Insights IoT Forecast Database, global annual shipments in 2021 were comparable, with gas seeing 36.4 million and water 37.5 million.

With the growth of global population and the need for sustainable agriculture, IoT connectivity is being used more often to optimize work processes, improve crop yields, reduce resource consumption, and ensure food security for future generations. Let's explore the key hardware employed in the realm of smart farming and their various practical applications.

In the year 2021, the global smart hospitality sector generated around 19 billion U.S. dollars in revenue. IoT-enabled smart hotel ecosystems, including devices, connectivity hardware, and software fuel its potential growth that may reach 133.7 billion U.S. dollars by the year 2031, with a remarkable compound annual growth rate (CAGR) of 22 percent. 

With changing and evolving customer preferences, connected lighting industry also adopts, focusing on convenience, sustainability, and energy conservation. Businesses tend to utilize smart lighting solutions in the offices more often to boost employee productivity and enhance well-being.

IoT technology offers real-time insights that optimize operations, cut costs, and enhance safety within vehicle tracking. The connected car sector stands out as a prominent category within our IoT projections, accounting for 28% of cellular connections by the close of 2021 and only marginally decreasing to 26% by 2030.

AWS IoT Analytics is one of AWS solutions for analysis of data originating from IoT devices. The platform excels in real-time data collection, agile processing through Lambda functions, purpose-built time-series storage, and advanced analytics with ad-hoc SQL queries and hosted Jupyter Notebooks. Applications span predictive maintenance, proactive replenishing, process efficiency scoring, and smart agriculture. 

A multitude of devices seamlessly exchange information. From personal computers and mobile phones to burgeoning Internet of Things (IoT) applications, this interconnected environment thrives on efficient communication protocols.

From intelligent thermostats whispering temperature adjustments to industrial machines sending real-time production data, countless devices engage in a silent conversation, forming a vast network of information exchange.

Ever wondered how your phone calls and texts always find the right person? It's all about a complex network with its own language. One key term you might encounter is MSISDN which stands for Mobile Station International Subscriber Directory Number.

Discover the evolution of cellular network speeds, from the modest 50kbps of 2G to the blazing 20Gbps of 5G. Explore the differences between 2G, 3G, 4G, and 5G networks and understand their implications for connectivity in our digitally driven world.

Let’s define GPRS as the following. GPRS, or General Packet Radio Service, is a cellular network technology, which is also called 2.5G. It implies packet-switching, data transfer in smaller packets in comparison with dedicated circuits of older generations.

Discover the components and functioning of IoT firmware, including microcontroller software, network stacks, security modules, update mechanisms, and diagnostic tools. 

In order to perform properly, connected devices need to obtain specific IoT updates within software, firmware, security features, and more. Let’s dive deeper into which kind of updates can take place. 

Over-the-Air (OTA) updates in IoT imply wireless delivery of software updates and patches directly to internet-connected devices. This technology eliminates the necessity of manual presence and actions, simplifying device control and maintenance.

An IoT SIM card for Smart Watches and other wearable devices uses cellular internet connectivity to allow rapid data delivery to the cloud. This means users may access to the internet and deliver data without using a smartphone.

Connecting M2M applications with SIM cards is not really a new phenomenon. The so-called Machine-to-Machine communication is quite often associated with the Internet of Things, in short IoT. But what is difference of both terms, M2M and IoT? Do you need different SIM-Cards for M2M solutions than for IoT applications?

This article is the first of three about IoT connectivity and the choice of standards. In this part we emphasize on licensed vs. unlicensed radio technology standards and want to investigate into some common communication standards for Low Power Wide Area (LPWA) use cases to give you a better understanding what you should aim for, depending on the project you’re developing.

Anyone who talks about IoT and cellular mobile radio is confronted with a multitude of terms, especially regarding the different standards. Here is our overview of mobile radio standards from the past, the present and the near future.

NB-IoT vs. LTE-M: What are the strengths of each technology? For which areas of application are they best suited? We give answers.

There are many ways to extend battery lifetime in cellular networks. PSM and eDRX are only two of them. In our multiple part blog series, we want to take a closer look on how developers can get the maximum runtime out of their devices and where to expect obstacles.

MQTT, CoAP and LwM2M: An important factor for the energy consumption of an IoT device is the volume of data that is transmitted with each communication. The more data, the longer the device must remain active and the greater the power consumption. Choosing the right communication protocol can save a lot of energy.

Mobile operators shutdown old networks to make space for new technologies. While consumers usually won't be affected much by the technology change, it can have a huge impact on IoT installations. What can you do to avoid sudden device disconnection?

Network providers put a lot of hours and technology into ensuring that all devices connected to the Internet of Things are always reliably available. However, IoT developers and end users alike have additional tools available to optimize their devices and platforms so that they work reliably with communication networks.

The Internet of Things has dramatically facilitated humans’ lives, creating a vast ecosystem of remotely controllable devices. At the same time, progress doesn’t stand still and the global IoT market is expected to grow to 24.1 billion devices in 2030, generating $1.5 trillion in annual revenue.

IoT technology, with a particular focus on connectivity, is emerging as a powerful catalyst for sustainability transformation. Research conducted by Gartner, Transforma Insights, Berg Insight, and the US Department of Energy highlights its versatile contributions to environmental conservation. These contributions range from reduced CO2 emissions to water conservation achieved through remote management and analysis.

eUICC technology, often referred to as eSIM, promises the ability to change operator profiles, remote provisioning and management of SIM profiles, and eliminate the need for physical SIMs. eUICC is still an emerging technology, so we encourage all IoT enthusiasts to get familiar with the relevant background on how eSIMs can be used, who are the key players and providers, and what the most common use cases are.  

Learn more about choosing the right IoT SIM for your project.

eUICC capability is one of the current drivers of flexibility and composability in the ongoing uptake of IoT. Setting up an eUICC-powered IoT solution means to check for compatibility across all critical elements along the value chain, starting with choice the IoT connectivity provider or the SIM provider but of course also including the selection of compatible eUICC IoT hardware. Enclosed we give you a comprehensive guide over major features, trends, and relevant players around eUICC-capable IoT hardware, modules, and chipsets to allow you getting more familiar with the IoT ecosystem.

Building an IoT device comes with many challenges, and the choice of the connectivity provider is a crucial task. In this context eUICC is a pivotal technology as it allows customers to add, switch, or change the IoT connectivity provider remotely. In order to have the right eUICC setup, one needs to consider the specific requirements and specifications of the IoT SIM card.  

The following provides an overview of the key criteria around the IoT SIM card when using it in combination with eUICC. Familiarize yourself with the different IoT SIM form factors, the often-used terms such as iSIM or eSIM, and the relevant SIM suppliers.    

Learn more about How to Choose the Right IoT SIM.