Abstract

The current vision of internet of things aims at connecting anything with everything. It is estimated that there will be 18 billion connected devices in 2022. Applications like utility meters, robotics, smart street lighting, process automation, solar and wind farms are expected to grow. High end requirements for automated driving, industrial automation and e-health exist. Cellular IOT is expected to bring new use cases to address latest requirements in the market. There is a need to provide large coverage in a power efficient manner while providing a high battery life. There is a need to have a kit which connects seamlessly and has a small form factor. The requirements on latency and throughput are relaxed in some cases while stringent in others. Stringent requirements make use of more radio resources. There is increased demand for system capacity and network availability. In this paper we make use of nRF9160 kit a low-cost device where a reduction in the cost and complexity has been achieved. The performance objectives of coverage, throughput, latency, capacity, power efficiency and complexity are met. This kit provides a reliable and future proof solution in the long term. The kit is built for the global market and allows roaming over multiple networks.

Highlights

  • 1.1 BackgroundThe current vision of internet of things aims at connecting anything with everything

  • The requirements on latency and throughput are relaxed in some cases while stringent in others

  • As very few vendors exist in the market who have tested readymade solutions in the market the quest for easy and reliable Cellular IoT is difficult

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Summary

Background

The current vision of internet of things aims at connecting anything with everything. Cellular IOT is expected to bring new use cases to address latest requirements in the market [2]. There is a need to provide large coverage in a power efficient manner while providing a high battery life. The performance objectives of coverage, throughput, latency, capacity, power efficiency and complexity are met [5]. This kit provides a reliable and future proof solution in the long term. Low power wide area networks typically use internet transport protocols and constrained devices like MQTT [7]. There is a need to address the operation of a large number of legacy devices. A large number of legacy topologies must meet the standards of robustness, resilience and availability

Project Methodology
Algorithm processing at kit
Results and Discussion
Conclusion

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