Steps to Establishing Resilient and Almost Completely Dependable IoT Connectivity:
Take Your IoT Connectivity to the Next Level: Near 100% Globally, No Matter the Hurdles
Ditch the mere eSIM, get ready to roll out a reliable, globally-compatible eSIM IoT device. Constantly connected, no matter the network availability across various geographies, diverse regulatory environments, or permanent roaming issues. Until now, this was just a dream (all due to device-specific limitations). But diving into this revealing whitepaper from Eseye, discover how their innovative 3-step device assessment, validation, and remediation process, along with their exclusive architecture that interconnects with 25 global Mobile Network Operators, turns near 100% connectivity into a reality.
Check out this paper to find out:
- Root of the problems - Eseye's deep dive analysis uncovers that a staggering 80% of IoT device connectivity woes are device-related. However, Eseye customers with well-designed devices boast a 100% success rate, delivering all data within specified latency – an IoT industry milestone.
- Test your devices - Eseye suggests focusing on factors like swift switching between networks, IMSI transfers, battery efficiency, optimal connection localization, firmware updates, and regulatory compliance checks, which might be preventing you from reaching near 100% connectivity.
- Streamlined process - To achieve near 100% global IoT device connectivity, Eseye recommends a 3-step journey through device assessment, validation, and remediation (all of which they can assist you with).
Ready to ramp up resilience in your IoT products, standard, and experience what nearly 100% connectivity feels like? Delve into the wealth of recommendations outlined in this whitepaper.
Device Assessment
This initial phase involves Eseye scrutinizing potential points of failure in IoT devices, pinpointing critical aspects such as:- Switching Time: Ensuring devices can swiftly shift networks.- IMSI Transfers: Seamlessly transferring International Mobile Subscriber Identity (IMSI) to maintain connectivity.- Battery Optimization: Minimizing power consumption to boost device lifespan.- Connection Localization: Ensuring efficient connectivity with local networks.- Firmware Optimization: Updating firmware for improved performance and compliance.- Regulatory Compliance: Complying with regulations like SGP.32 to guarantee alignment with standards[1].
Validation
This stage entails testing devices under various scenarios to ensure they adapt to diverse network conditions, regulatory requirements, and potential outages. This includes:- Simulating network outages and permanent roaming scenarios.- Verifying compliance with a host of regulatory environments.- Evaluating device performance across multiple Mobile Network Operators (MNOs)[1].
Remediation
In this final phase, any identified issues are tackled. This involves:- Implementing design changes to boost device resilience.- Optimizing firmware and software to amplify performance and connectivity.- Ensuring seamless navigation of devices through diverse network conditions and regulatory environments[1].
Eseye's distinctive architecture, including interconnections with 25 global MNOs and local breakouts, plays a crucial role in attaining resilient connections. This comprehensive process enables IoT devices to maintain nearly 100% connectivity, even in challenging conditions such as permanent roaming or network outages[1].
- The innovative 3-step process by Eseye, which includes device assessment, validation, and remediation, holds the potential to revolutionize data-and-cloud-computing technology by making near 100% IoT device connectivity a reality.
- To enhance IoT device connectivity and potentially transform technology, it's crucial to focus on factors like device design, battery optimization, connection localization, regulatory compliance, and network switching abilities, as demonstrated by Eseye's comprehensive device assessment phase.
