Empowering awareness with a digital twin for mission critical communications

The United Nations “Sendai Framework for Disaster Risk Reduction 2015–2030” proposes a shift of paradigm, emphasizing disaster risk management as opposed to disaster management. This highlights the importance of new procedures, according to which the whole community living in an area must be informed of and involved in the management of the risk of a disaster and of its effects. A make-or-break condition to enable this approach is to be aware of the crucial role of information before, during, and after the emergency event. Exploiting information at best depends on technical and human factors. On the technical side it requires a tight integration between a flexible and efficient communication infrastructure and data processing instruments that can collect and expose the information to the various stakeholders. On the human side it requires full awareness of the available instruments and of their capabilities, not limited to the public protection and disaster relief (PPDR) forces, but also to local stakeholders and private citizens. The core proposal of EDIT4MCC is the implementation of a Digital Twin (DT) of the Mission Critical (MC) communication network that will be used to: • Train the general public on the available MC services, to increase and extend awareness and response capabilities beyond the PPDR forces; • Experiment new services with the goal to augment the response capability as well as the effectiveness of the communication; • Study fault recovery and resilience by simulating the various fault scenarios that could occur during the emergency and evaluate how it is possible to cope with them introducing new network components and resources. The basic motivation is that it is not possible to interfere with the normal operations of the network and/or to allow the general public to experiment with it, for various reasons, most of all because we do not know when an emergency may occur ad therefore the real infrastructure must be always ready to operate. The DT implementation will reproduce the functionality of MC communication services as well as the possibility to connect and integrate real components from the ground. This will allow: • to test the effectiveness of monitoring systems and their degree of integration with the whole infrastructure; • to design and experiment new services starting from the available data, allowing crowdsourcing from the local community. The DT proposed will be implemented in the cloud exploiting the NFV technology, and will provide: • Ease of description of the network architecture (thanks to the software descriptors foreseen by the NFV MANO specification); • High degree of reconfigurability (point and click activation of components and network services is a standard feature of NFV MANO compliant platforms); • Conformance with the real infrastructure thanks to the usage of virtual components that are based on full functional software implementing the protocols and not on software simulators.