Multi-IMSI and eUICC facilitate seamless IoT connectivity, offering cost-effective and versatile solutions for global cellular service. Learn the differences between IMSI vs eUICC to make informed choices in telecommunication management.
Multi-IMSI vs eUICC – Exploring Global Connectivity Options
Multi-IMSI vs eUICC: Global connectivity has long been complicated, with hurdles rooted in the vast ecosystem of network providers. Connecting to a single provider and having connectivity anywhere in the world has not been possible. Global connectivity challenges are increasing as data sovereignty and permanent roaming regulations are adopted in more and more countries. The world is demanding digitalization, and connectivity options are adapting to meet those needs. A few options exist, and this blog explores two of the mainstream options and how to choose between Multi-IMSI vs eUICC.
Multi-IMSI: A Multiple Operator Approach
The connectivity on a device is enabled through a SIM card – whether it’s a physical SIM, eSIM, or iSIM. The SIM stores the profile of the selected Mobile Network Operator (MNO) through the IMSI (International Mobile Subscriber Identity). Primarily, and historically, SIM cards have been a single IMSI, which means that a device could only connect to one MNO, whether that be Telefonica, Vodafone, Deutsche Telekom, or otherwise.
This is a fine situation for consumer devices, as many users only need to connect to one network and, if they travel internationally, can connect to local networks through roaming agreements that allow for local connections for “foreign devices” between 30 to 90 days.
The Challenges of a Single IMSI
A single IMSI for an IoT device, however, is not ideal if the device travels – for example, an asset tracker or equipment monitoring devices. It is also not ideal if a device is manufactured in one region and then deployed in another. Permanent roaming has been the option in these instances, but has significant drawbacks.
The latency in data communications through the home network and then on to the local network is much higher, so reliability and performance may suffer. This makes roaming not ideal for automotive, IP camera, and battery-operated use cases, among others.
Permanent roaming has been an option for permanently deployed devices, but again, the drawbacks of roaming are the same, in addition to the growing number of countries that have banned permanent roaming. Additionally, for deploying devices across a large geographic area, leveraging a single network operator isn’t possible. Wrapped around all of these challenges are the high costs associated with roaming. Also, roaming agreements can quickly change, leaving devices in the dark.
The Benefits of Multi-IMSI
Multi-IMSI allows multiple profiles to be stored on the SIM card, which allows the SIM to connect to more than one operator. With a single IMSI, coverage can be lost, or gaps in service may occur. With connected devices, losing coverage, visibility, or data communications is not an option.
Multi-IMSI also sidesteps any network faults that might occur. With a single IMSI, if a local network or the core network fails, there would be no service at all. However, leveraging a multi-IMSI applet means that devices can automatically connect to the networks held by the other IMSIs as well as switching to another core network.
Finally, it also reduces the reliance on roaming agreements. Multi-IMSI connectivity aims at delivering services through direct relationships with local network operators, so local connectivity is used directly as much as possible instead of through a roaming agreement hosted through your home network. This also has positive cost implications, as you have better control over what network you want to use based on coverage or cost, so you can optimize your pricing.
eUICC: A Carrier-Agnostic Approach
Another approach to global connectivity, which is similar to Multi-IMSI but has key differences, is eUICC.
eUICC stands for Embedded Universal Integrated Circuit Card, and it is a GSMA-standardised technology that can be leveraged in many different form factors. A common misnomer for eUICC is eSIM, but eUICC is the technology, and eSIM is a form factor. eUICC can be used in numerous SIMs—mini, nano, micro, eSIM, or iSIM.
The Benefits of eUICC
The GSMA standard allows the eUICC to provision Over-the-Air (OTA), which allows organizations to add profiles from new carriers and switch those profiles remotely – removing the need to change the SIM card in the device physically. This allows for one SIM and multiple profiles. Again, this has circumvented the historical challenge of carrier lock-in, particularly for OEMs. A device manufacturer might have 1,000 devices being sent to 10 different countries that need 12 different carriers. That’s a lot of SIM cards and logistics to manage.
Or the OEM might not even know where the devices will be deployed. They might send 1,000 SIMs to an IoT distributor, reseller, or service provider that will then deploy the devices worldwide, so having a carrier-agnostic SIM that can be provisioned later on to the carrier of choice is a great option.
This, of course, also helps with permanent roaming restrictions and helps future-proof the device if a carrier change is needed.
The Challenges with eUICC
While eUICC certainly provides key benefits in achieving global connectivity, it isn’t without complexity. Most eUICCs are registered to a particular Subscription Management Secure Routing (SM-SR) service, which is responsible for enabling and disabling profiles and securing communications. If your chosen MNO isn’t an existing partner, you’re going to incur heavy costs to integrate.
And each time an organization wants to add new MNOs and their profiles to the eUICC, that creates an operator-by-operator approach, which is complicated. Leveraging multiple MNOs means multiple contracts, SLAs, agreements, and so on, which makes management cumbersome.
Downloading new MNO profiles uses a lot of data, and for IoT devices, which have a pretty low ARPU, you might be spending more on downloading profiles than the device generates in a single year.
This is not to say that eUICC isn’t a great technology and extremely helpful, because it is. It just can be applied in a different approach that maximizes its benefits while reducing its challenges.
Multi-IMSI vs eUICC – the Best of Both Worlds
One way to get the best out of Multi-IMSI and eUICC is to work with a multi-IMSI provider for connectivity services and use that as the first profile on your eUICC-compliant SIM. Within this single Multi-IMSI profile, dozens of profiles can be accessed. Switching IMSIs can be done OTA without the costs of downloading an entirely new profile because in many cases IMSIs are already provisioned in the profile or worst case only the IMSI is downloaded.
This approach allows the organization to work with a sole vendor that offers a complete connectivity management platform instead of multiple MNOs. All IMSIs can be viewed and managed through a single portal, and they can be switched whenever and without reaching out to individual operators.
Multi-IMSI and eUICC Approach
CommsCloud’s CloudConnect IoT SIM card delivered by floLIVE offers flexible solutions to global connectivity through eUICC and multi-IMSI technology.
If you want to learn more about our multi-IMSI approach, contact us. CommsCloud has been partnering with floLIVE to cover Africa since 2018 and has developed fit-for-purpose IoT Connectivity Solutions that work seamlessly and provide a high degree of uptime and resiliency.
CommsCloud IoT Connectivity Solutions | Empowering Your Business to Connect, Grow, and Thrive—Contact Us | +27 21 551 5526 or Get in Touch. Follow our journey across Africa with the social media links below.
Exploring Multi-IMSI: What You Need to Know
How does Multi-IMSI technology improve global connectivity?
Multi-IMSI (Multiple International Mobile Subscriber Identities) tech makes global connectivity better by allowing one SIM card to connect with different mobile operators in various countries. Users can switch between networks easily, cutting down on roaming charges and staying connected. Remote SIM provisioning lets you update SIM profiles quickly, which is perfect for international travel and businesses around the world. With access to multiple carrier networks, telecommunication providers can offer more reliable and extensive cellular network coverage.
What are the main benefits of using Multi-IMSI for IoT devices?
Using Multi-IMSI in IoT devices has many perks. It helps manage costs by connecting to the cheapest available network. Multi-IMSI provides easy SIM management and scalable integration across different mobile networks. This ensures smooth cellular service and cross-network compatibility, boosting the performance of IoT systems. As IoT devices rely more on 5G connectivity, Multi-IMSI supports this shift by offering uninterrupted, high-speed internet access.
How secure is Multi-IMSI compared to traditional SIM cards?
Multi-IMSI offers stronger security than traditional SIM cards. It uses advanced network authentication techniques to protect against unauthorised access. The secure element within the SIM card improves IMSI authentication, protecting sensitive subscriber identity information. This makes Multi-IMSI a safer choice for telecom services, defending users against potential cyber threats. Commscloud clients can trust that their communications are secured by top-notch network security tech.
Understanding eUICC: The Future of Connectivity
How does eUICC differ from traditional SIM cards?
eUICC, or embedded universal integrated circuit card, is a big step forward compared to traditional SIM cards. Traditional SIMs are physical cards that you insert into a device. eUICC, on the other hand, is a digital SIM that can be managed and changed remotely. It follows GSMA standards, making network authentication and switching between mobile operators much easier. Regular SIM cards need to be manually replaced and configured when changing networks. This can be annoying and time-consuming. With eUICC, the subscriber identity module is embedded in the device itself. This simplifies carrier switching and boosts cellular connectivity.
What are the advantages of using eUICC for mobile network operators?
Mobile network operators gain many benefits from eUICC technology. Remote SIM provisioning allows them to manage SIM profiles and subscriptions without physically accessing the device. This leads to better SIM management and fewer logistics issues compared to traditional SIM cards. With eUICC, new mobile communications services can be deployed faster. Digital SIMs offer better security, reducing risks like theft and cloning that come with physical SIM cards. These improvements make eUICC a strong choice for carriers aiming to streamline operations and offer flexible mobile plans.
Can eUICC technology lead to reduced operational costs?
eUICC technology can cut operational costs for mobile network operators. Not needing physical SIM cards means saving on production, distribution, and storage expenses. Remote SIM provisioning simplifies SIM lifecycle management, making SIM configuration processes more cost-effective. eUICC also boosts SIM security, reducing losses from fraud and unauthorized access. Using digital SIMs in mobile data plans offers a cheaper and more efficient way to manage telecommunications networks, leading to significant savings for operators.
IMSI vs eUICC: Making the Right Choice for Your Needs
Which is better for long-term scalability, IMSI or eUICC?
When thinking about long-term scalability in IoT and mobile communications, both IMSI (International Mobile Subscriber Identity) and eUICC (embedded Universal Integrated Circuit Card) have their perks. IMSI has been used in telematics and mobile devices to identify subscribers on a network. But as 5G and eSIM technology grow, eUICC brings big benefits.
eUICC supports remote SIM provisioning, which is key for scaling IoT apps. Unlike IMSI, eUICC lets you switch between mobile operators without changing the SIM card. This flexibility boosts the scalability of cellular connectivity solutions.
How do deployment strategies differ between IMSI and eUICC?
Deployment strategies vary for IMSI and eUICC. IMSI-based solutions use traditional SIM cards provisioned by mobile operators, sticking to established SIM profiles and GSMA standards. Deployment usually needs physical access to each device for SIM replacement.
eUICC deployment uses digital SIM capabilities, allowing over-the-air updates and dual SIM functionality. This means you can manage and switch mobile plans remotely, making network authentication easier. eUICC fits well with modern telecommunications demands for dynamic SIM management, which is great for large-scale deployments.
What factors should you consider when choosing between IMSI and eUICC?
A few important factors help decide between IMSI and eUICC:
- Cost Management: Think about the total cost, including SIM replacement and provisioning costs.
- Security: Check the security protocols for each option; eUICC generally offers better security features.
- Mobile Subscription and Roaming: eUICC's flexibility helps with seamless roaming and easier management of mobile subscriptions.
- SIM vs eSIM: Consider if you need physical SIM cards or prefer the ease of eSIM technology.
- Industry Needs: Different industries, like mobile broadband and telematics, might have specific needs that one solution meets better.
- Future-Proofing: Pick a solution that supports 5G connectivity and other future advancements in mobile identity technologies.
Balancing these factors will help you choose the best option for your mobile network strategy, ensuring strong and scalable cellular connectivity.
Key Insights
- eUICC enables over-the-air provisioning of an initial operator subscription. It offers a carrier-agnostic approach and allows multiple providers on one card, enhancing versatility.
- Compared to traditional SIMs, eUICC SIMs are more secure and provide simplified connectivity for applications like autonomous vehicles, EV charging stations, and digital signage.
- IMSI is crucial for acquiring information about the cellular device in the HLR home. MSISDN and IMSI play a key role in verifying the identity of devices.
- Choosing between multi IMSI and eUICC depends on the need for cost-effective and simple connectivity. Both options promote versatility in mobile communications.
- Infrastructure players like flolive, simbase, Onomondo, and Hologram support eUICC technology deployment, ensuring standardized operations and enhanced security.
- Emerging technologies such as AI, embedded SIM, and digital SIM management benefit from the flexibility and adaptability provided by eUICC and multi IMSI solutions.
- Adopting eUICC can mitigate security vulnerabilities found in traditional SIMs, making it ideal for critical applications in emergency management and retail sectors.