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eUICC and Multi-IMSI: Global Roaming Solutions for IoT Deployments

2022-09-08
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More Internet of Things (IoT) devices are coming online every year — growing from an estimated 13 billion in 2020 to 24 billion by 2025, according to GSMA Intelligence. An increasing percentage of IoT projects require connectivity. Sixty-four percent require national coverage, and 34% need international coverage for global roaming.  

Connecting devices for global coverage can be challenging, hard to manage and can increase overall costs. Roaming SIMs — particularly those that take advantage of new technologies like multi-IMSI and eUICC — can help overcome the complex challenges of global IoT deployments. 

What Is Global Roaming?

Global roaming allows consumer or IoT devices to connect to local networks beyond a mobile network operator’s (MNO’s) “home” geography. It requires a contractual and technical setup between MNOs in different territories. This setup enables seamless cellular communications to customers in multiple coverage areas.  

While global roaming for consumer devices has existed for a while, the needs of roaming IoT devices are different and may present additional challenges. Depending on the use case, even a momentary drop in coverage could have a significant business impact. The challenges in achieving global IoT coverage include: 

  • Fluctuating costs 
  • Roaming restrictions in different world regions 
  • Mission-critical devices that must always remain connected 
  • Evolving cellular technologies: new (LPWA, VoLTE) and sunset (2G and 3G) 

Adapting global roaming services for IoT means considering the differences in business models between consumer and IoT devices. For travelers carrying mobile devices, there’s a short value chain with usage-based costs for a short time. These are simple use cases driven by a single vertical, usually yielding high average revenue per user (ARPU).  

With IoT connectivity, it’s a different story. The connectivity is for long-lasting machines with a longer value chain. IoT connectivity has diverse use cases driven by multiple verticals — in many cases, those with low ARPU. As a result, MNOs are considering ways to compensate for the low roaming ARPU by increasing usage-based costs or introducing access-based charges. This trend is causing price instability. IoT service providers need to develop viable and flexible solutions to provide good global coverage and stable costs for many years.  

Roaming Restrictions: A Turning Point for IoT Connectivity 

Due to the pandemic, there has been increased digital tool use. The year 2020 became a turning point for IoT connectivity. Roaming revenues from consumer devices dropped with the decrease in international travel. 

This changed the MNOs perspective on IoT. They began to focus more on IoT network technologies and develop new billing formats to support the IoT business models for better monetization.

In many world regions, roaming restrictions or permanent roaming restrictions still pose challenges to IoT device deployments. These restrictions prevent the permanent presence of an IoT SIM in a vital market or limit the time a SIM can roam on the network. They might be the results of local regulations or commercial decisions by the MNOs. These restrictions are present in several key markets, including:

  • Australia
  • China
  • Turkey
  • United States
  • Brazil

 Among other things, roaming restrictions are a tool to increase ARPU. As MNOs are trying to monetize IoT, more roaming restrictions can be expected, which could add further complications. 

Cellular LPWA Roaming: Risks and Rewards

Cellular LPWA networks support IoT device needs, particularly those deployed in remote areas and running on battery power. LTE-M and NB-IoT are cellular LPWA technologies. The main advantages of these are low-power modes, which are ideal for battery-power operation, a requirement for an array of IoT device applications (e.g., water and gas meters, wearable trackers, etc.).

LTE-M is better for services relying on devices with high mobility requirements, while NB-IoT is more for stationary indoor applications. The top use cases for planned IoT deployments are similar between the two technologies and include:

  • Automotive
  • Consumer electronics
  • Health care
  • Public sector

There are currently 108 NB-IoT networks and 56 LTE-M networks worldwide. However, rolling out roaming agreements to support these two technologies has been challenging, especially with NB-IoT. 

From the MNO’s perspective, LTE-M provides higher ARPU and diverse functions as part of the existing LTE network. NB-IoT is more complicated. While it can support millions of devices on a single cell tower, it presents challenges that affect the return on investment and costs. As a result, it may be seen as a local service, and coverage and roaming agreements are still limited. Telit estimates that less than half of NB-IoT networks worldwide are ready for NB-IoT roaming.

Challenges to Scaling Licensed Cellular LPWA

Several challenges persist for IoT developers looking to deploy their licensed cellular LPWA devices worldwide: 

  • Coverage is still limited in many areas. 
  • Roaming requires agreements between MNOs. These negotiations are in progress, but there’s no global coverage yet. 
  • 2G and 3G network sunsets need new technologies and functionalities (e.g., VoLTE) to rollout and replace them. New network technologies and, more importantly, roaming agreements may be slower to rollout. 

Solutions for Global Roaming: eUICC and Multi-IMSI

Telit has connected over 200 million devices from 7,000 customers worldwide. We deliver connectivity and management capabilities with our comprehensive portfolio of IoT modules, connectivity services and platforms. Whether you want to displace SIM cards in your current IoT offers or forge your path into the future with Telit NExTPlus eSIM technology, we are here to help. 

IoT connectivity providers are meeting the challenges of global roaming with a few different solutions, including eUICC and multi-IMSI: 

Multi-IMSI 

IMSI stands for International Mobile Subscriber Identity, a unique number identifying a mobile subscriber. In roaming scenarios, the home network is also identified by the IMSI. In practice, a multi-IMSI SIM carries multiple MNO identities and can use the roaming agreements of each identity. It can also be made to switch to a different MNO.  

This functionality enables the connectivity provider to offer its service based on the MNO with the most suitable coverage, network technology and cost according to a specific use case.  The multi-IMSI SIM’s flexibility allows connectivity providers to support the long-term deployment of diverse use cases in an ever-changing landscape.  

Multi-IMSI service is typically available only through IoT mobile virtual network operators (MVNOs). It provides a more advanced and comprehensive solution for IoT deployments. Choosing an MVNO can usually yield better service at lower costs and better support for mission-critical services. 

eUICC 

The standard that serves as a framework for profile switching is the embedded Universal Integrated Circuit Card (eUICC). It specifies how a single SIM can hold multiple profiles and swap them over the air (OTA) securely.  

In most cases, the eUICC SIM will include a local profile (also known as a native profile) that can support deployment in a permanent roaming restriction market. This solution is usually known as localization. Another SIM profile can be a multi-IMSI profile.  

eUICC and multi-IMSI can work together to provide an even more comprehensive solution to global roaming challenges. From a functional perspective, this creates one SIM with true global coverage — a feat that’s not possible with any other solution. 

Using eUICC may carry premium costs due to the technology’s advanced capabilities and sophisticated connection management and security infrastructures. However, eUICC allows devices to bypass roaming restrictions, or support local network technology if it’s not available through roaming agreements.  

A Scalable, Future-Proof IoT Solution with eUICC and Multi-IMSI

Many verticals and use cases will benefit from the combined eUICC and multi-IMSI solution. IoT devices, such as health monitors and POS terminals, are often on the move and must stay connected to fulfill their mission-critical goals.  

The ideal IoT connectivity provider should be prepared for the challenges of large-scale IoT deployments with global coverage that supports both eUICC and multi-IMSI. Telit NExT™, a mobile core network providing coverage for over 200 countries with multi-IMSI capabilities, is ready to meet those challenges.  

Telit NExTPlus™ provides future-proof global connectivity eUICC Platform. NExTPlus enables secure, remote switching between global roaming and local profiles. You only need one SIM for your deployment’s complete life cycle, which means no costly on-site SIM swapping. 

Speak with a Telit IoT connectivity expert to discover flexible, future-proof connectivity for your IoT deployment. 

参考译文
eUICC和Multi-IMSI:物联网部署的全球漫游解决方案
根据GSMA Intelligence的数据,每年都有更多的物联网设备上线——从2020年的估计130亿件增长到2025年的240亿件。越来越多的物联网项目需要连接。64%的人需要全国覆盖,34%的人需要国际覆盖来实现全球漫游。连接设备以实现全球覆盖可能具有挑战性,难以管理,并可能增加总体成本。漫游模拟人生——尤其是那些利用了多imsi和eUICC等新技术的模拟人生——可以帮助克服全球物联网部署的复杂挑战。全球漫游允许消费者或物联网设备连接到移动网络运营商(MNO)以外的本地网络“家”的地理位置。它需要在不同地区的跨国公司之间建立合同和技术架构。这种设置允许与多个覆盖区域的客户进行无缝蜂窝通信。虽然消费设备的全球漫游已经存在了一段时间,但对漫游物联网设备的需求是不同的,可能会带来额外的挑战。根据用例的不同,即使是短暂的覆盖率下降也会对业务产生重大影响。实现物联网全球覆盖的挑战包括:为物联网适配全球漫游服务意味着要考虑消费者和物联网设备之间的商业模式差异。对于携带移动设备的旅行者来说,短期内基于使用成本的价值链很短。这些都是由单一垂直驱动的简单用例,通常能够产生较高的每用户平均收益(ARPU)。有了物联网,情况就不同了。这种连接是为具有更长的价值链的长期机器提供的。由多个垂直领域驱动的物联网连接有不同的用例——在许多情况下,ARPU较低。因此,跨国公司正在考虑通过增加基于使用的成本或引入基于接入的收费来补偿低漫游ARPU。这种趋势正在导致价格不稳定。物联网服务提供商需要开发可行和灵活的解决方案,以提供良好的全球覆盖和多年的稳定成本。由于大流行,数字工具的使用有所增加。2020年是物联网连接的转折点。来自消费设备的漫游收入随着国际旅行的减少而下降。这改变了跨国公司对物联网的看法。他们开始更多地关注物联网网络技术,并开发新的计费格式,以支持物联网业务模式,以便更好地盈利。在世界许多地区,漫游限制或永久漫游限制仍然对物联网设备部署构成挑战。这些限制阻止了物联网SIM卡在重要市场的永久存在,或限制了SIM卡在网络上漫游的时间。它们可能是当地法规或跨国公司商业决策的结果。其中,漫游限制是提高ARPU的一个工具。由于跨国公司正试图通过物联网盈利,预计会有更多的漫游限制,这可能会增加进一步的复杂性。蜂窝LPWA网络支持物联网设备需求,特别是那些部署在偏远地区并使用电池供电的设备。LTE-M和NB-IoT是蜂窝LPWA技术。这些模式的主要优点是低功耗模式,非常适合电池供电运行,这是一组物联网设备应用(例如,水表和煤气表,可穿戴跟踪器等)的要求。LTE-M更适合依赖移动设备的业务,而NB-IoT更适合固定的室内应用。计划中的物联网部署的主要用例与这两种技术类似,包括:目前全球有108个NB-IoT网络和56个LTE-M网络。然而,推出支持这两种技术的漫游协议一直具有挑战性,尤其是在NB-IoT领域。 从MNO的角度来看,LTE- m作为现有LTE网络的一部分,提供了更高的ARPU和多样化的功能。NB-IoT则更为复杂。虽然它可以在一个基站上支持数百万台设备,但它带来的挑战会影响投资和成本的回报。因此,它可能被视为本地服务,覆盖范围和漫游协议仍然有限。Telit估计,全球只有不到一半的NB-IoT网络可以用于NB-IoT漫游。对于希望在全球部署其授权的蜂窝LPWA设备的物联网开发人员来说,仍然存在一些挑战:Telit已经连接了来自全球7000家客户的2亿多台设备。我们提供全面的物联网模块、连接服务和平台组合,提供连接和管理能力。无论您是想在当前的物联网服务中取代SIM卡,还是通过Telit NExTPlus eSIM技术开拓未来,我们都将提供帮助。物联网连接提供商正通过几种不同的解决方案来应对全球漫游的挑战,包括eUICC和multi-IMSI: IMSI代表国际移动用户身份(International Mobile Subscriber Identity),是识别移动用户的唯一号码。在漫游场景中,家庭网络也由IMSI识别。在实践中,一个多imsi SIM携带多个MNO身份,并可以使用每个身份的漫游协议。它也可以转换成不同的MNO。该功能使连接提供商能够根据特定的用例,以最合适的覆盖范围、网络技术和成本,提供基于MNO的服务。multi-IMSI SIM的灵活性允许连接提供商在不断变化的环境中支持多种用例的长期部署。多imsi业务通常只能通过物联网移动虚拟网络运营商(MVNOs)提供。它为物联网部署提供了更先进和全面的解决方案。选择MVNO通常可以以更低的成本获得更好的服务,并更好地支持关键任务服务。作为配置文件切换框架的标准是嵌入式通用集成电路卡(eUICC)。它指定了一个SIM卡如何可以保存多个配置文件,并在空中(OTA)安全地交换它们。在大多数情况下,eUICC SIM将包含一个本地配置文件(也称为本机配置文件),可以支持在永久漫游限制市场中部署。这种解决方案通常称为本地化。另一个SIM配置文件可以是一个多imsi配置文件。eUICC和multi-IMSI可以合作,为全球漫游挑战提供更全面的解决方案。从功能的角度来看,这创建了一个真正覆盖全球的SIM卡——这是任何其他解决方案都无法实现的壮举。由于eUICC技术的先进性能和先进的连接管理和安全基础设施,使用该技术可能需要额外的成本。然而,eUICC允许设备绕过漫游限制,或者在无法通过漫游协议使用时支持本地网络技术。许多垂直领域和用例将受益于联合eUICC和多imsi解决方案。物联网设备(如健康监控器和POS终端)经常处于移动状态,必须保持连接,以实现关键任务目标。理想的物联网连接供应商应该准备好应对全球范围内支持eUICC和multi-IMSI的大规模物联网部署的挑战。Telit NExT™是一个覆盖超过200个国家的移动核心网络,具有多imsi功能,已经准备好迎接这些挑战。Telit NExTPlus™提供面向未来的全球连接eUICC平台。NExTPlus允许在全球漫游和本地配置文件之间进行安全的远程切换。部署的整个生命周期只需要一个SIM卡,这意味着无需昂贵的现场SIM交换。 与Telit物联网连接专家对话,为您的物联网部署发现灵活的、面向未来的连接。
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