IPv6 Convergence for IoT Cyber–Physical Systems

We describe the evolution of the IoT towards a heterogeneous multitopology network subject to dynamic change and volatility yet still capable of secure and dependable operation. As part of this evolution, we outline the key changes in wireless communications technologies and heterogeneous networking that have arisen during the development of the IoT. We briefly outline the emerging area of cyber–physical systems, and associated technical challenges. We then describe how IP convergence can be viewed as the narrow waist connecting endpoint devices and fieldbus devices with applications and services in new Industry 4.0, and cyber–physical system use cases. We outline how a protocol-packing approach can be used for encapsulating LoRaWAN frames with IEEE 802.15.4 and IEEE 802.11 frames. Extending this, we propose a method for ultracompressed IPv6 signaling, and detail how this can be achieved in an example low-power wide-area technology, namely LoRaWAN. To support our proposed approach, we provide real-world analyses where IPv6 commands undergo a process of ultracompression and are then conveyed to a LoRaWAN endpoint. We find that IPv6 command ultracompression can potentially support command packet sizes that are over 20x smaller than the reported worst-case maximum protocol data unit size of 81 bytes.