CARISMAND SCM and Review Meeting

The CARISMAND Steering Committee Meeting will take place on the 26th-27th October 2016. A Review of the project will follow on the 28th in Malta.


CARISMAND – Culture And RISkmanagement in Man-made And Natural Disasters

As risks are not “objective” but socially and culturally constructed, disaster management which is aware, respects,and makes use of local cultural aspects will be not only more effective but, at the same time, also improve the community’s disaster coping capacities. CARISMAND is setting out to identify these factors, to explore existing gaps and opportunities for improvement of disaster policies and procedures, and to develop a comprehensive toolkit which will allow professional as well as voluntary disaster managers to adopt culturally-aware everyday practices. This goal will be achieved by approaching the links, and gaps, between disaster management, culture and risk perception from the broadest possible multi-disciplinary perspective and, simultaneously, developing a feedback-loop between disaster management stakeholders and citizens to establish, test, and refine proposed solutions for culturally-informed best practices in disaster management. Whilst experts from a variety of fields (in particular legal, IT, cognitive science, anthropology, psychology, sociology) will undertake a comprehensive collation of existing knowledge and structures, a number of Citizen Summits and Stakeholder Assemblies will be organised. Systematically, CARISMAND will use an approach that examines natural, man-made and technical disasters, placing at the centre of attention specific aspects that affect culturally informed risk perceptions, eg whether disasters are caused intentionally or not, the different “visibility” of hazards, and various time scales of disasters such as slow/fast onset and short- and long-term effects. By organising six Citizen Summits (two per disaster category per year in two separate locations) where such disaster risks are prevalent , and three Stakeholder Assemblies (one per year) where the results are discussed through a wide crosssectional knowledge transfer between disaster managers from different locations as well as from different cultural backgrounds.

Unlocking Wi-Fi Encryption during Disaster Response Operation: Implications for Privacy and Information Security



Responding to natural disasters has always been a very difficult and compassionate task. This is especially so when there are high death toll and colossal damage to property as recently witnessed in the 6.2 magnitude earthquake that struck central Italy and killed close to 300 people.[1] As always, on-the-ground activities are necessary for such emergencies, involving civil protection agencies, humanitarian organizations, and volunteers who quickly engage in search and rescue activities as well as other physical assistance to the victims and their community. But sometimes despite these rapid disaster response efforts, telecommunications breakdown can undermine humanitarian activities as seen, for instance, in Haiti in 2010.[2] The ability of the response team to communicate and use ICT devices is usually vital in the aftermath of a disaster and the impact of ICTs at such point cannot be overlooked.  In some cases, the deployment of ICTs is  indispensable, ranging from the use of drones to the activation of Facebook’s Safety Check and other online activities such as crowdsourcing and mapping of real-time information.

The recent earthquake in Italy, however, brings this to a new dimension: in the course of the response operations, the Italian Red Cross posted a message on its Twitter account asking residents within the affected locations to unlock their Wi-Fi network, including a step-by-step guide on how they can switch off their Wi-Fi network encryption.[3] The aim of this action is to facilitate communications and rescue operations, and this request was retweeted 3039 times at the time of this writing. A similar request was reportedly made by the Italian National Geological Association and Lazio Region.[4] It is noteworthy that this is not the first scenario that such a call had been made during a disaster response operation. In 2013, one NGO, Disaster Tech Lab, tweeted a called for people to open their Wi-Fi networks in the wake of the Boston bombing.[5] The tweet got minimal attention and was only retweeted 20 times, apparently because this organization is not as popular as the Red Cross.

While it was good news that the Internet functioned amidst such an enormous damage caused by the Italian earthquake, the call for opening up private Wi-Fi though with good intentions may have other risk implications on privacy and information security of the residents. Although such concerns may appear trivial when weighed against the massive damage caused by the disaster and the need for the rescue operations to go on smoothly in the short term, the long-term effect of having unencrypted networks in the whole neighbourhood cannot be overlooked. Especially, if no conscious efforts are made in the post-response phase of the disaster to ensure that residents lock back their network properly. As pointed out already by one commentator on Twitter, a malicious user in such cases could cause havoc for the owner of the network such as: sending illegal communications through such an open network; downloading illegal material; breaking into all the computers on the network; controlling any Internet-connected device on the network and/or hacking them as well as monitoring all communications traffic on the network.[6]  The implications of the above may not be trivial,[7] especially as many of the residents may not have adequate knowledge of what information security breach entails. Privacy implications of surveillance when the network communications and devices are monitored without the owner’s knowledge may be huge and could last for a long time.

Amidst this unprecedented calls, experts have suggested others less intrusive alternatives such as setting up a guest access point on the wireless network which may not require a password to log on.[8] Although this may not be easy to set up by a good number of WiFi owners, the risk is not absolutely zero because creating such access points may mean that the guest will use the owner’s traffic and might lock the account. Furthermore, the issues of responsibility and misuse such as downloading illegal material are still present. In Germany for instance, the Federal Court of Justice ruled in the Sommer unsere Leben decision [9]  that the private owner of a WLAN has the duty to examine the internet connection for reasonable security measures against the risk of unauthorized use and copyright infringement, which at the minimum, requires sufficient password-protection on the network.[10] Although the recent ruling by the Court of Justice, EU in Tobias Mc Fadden v Sony Music Entertainment Germany GmbH,[11] indicates that a private person that provides a free WiFi could benefit from the mere conduit exemption under Article 12 (1) of e-Commerce Directive, such a person is in principle, not precluded from an injunction which requires him on pain of payment of a fine to prevent third parties from infringing copyright via his Internet connection through technical measures such as password-protecting the network. He may also be required to reveal the identity of users of his network.

To tackle this problem in the context of disaster management, a long-term solution is necessary. A solution that will be managed by the Internet Service Providers (ISPs) and that will be less cumbersome and risky for the end users. For example, a solution where the ISPs make Wi-Fi endpoints part of the end users’ Internet router.[12] Essentially, this means that the modem that the ISPs give their customers also function as router units that may also be public hotspots. In this scenario, the combined modem/router unit will create two separate Wi-Fi networks — one will be the home Wi-Fi network, while the other will serve as a “public” network where others such as the emergency responders could connect and access the Internet. In general, this feature allows any of the ISP’s client to securely access the Internet through any of the ISP’s Wi-Fi endpoints including the ones in individual’s homes. Although the same physical hardware is utilized, this is considered an entirely separate connection and the traffic coming from the public Wi-Fi network will not be counted against the home owner’s bandwidth cap. Besides, it is the ISP that authenticates the users of this public network and manages the isolation of people connected to the public network from the private Wi-Fi network.  The ISPs have large security resources to secure the network as a whole.

This solution is already in place in some parts of the world. In Europe, ISPs such as Telenet, Proximus, BT, SFR, Fon, Telekom,, etc., have implemented this feature. The US Comcast’s XFINITY Wi-Fi also has it. Even though such services were not primarily developed for emergency situations, they could afford a more secure and less intrusive solution in accessing the Internet during disaster response operations.

On a broader scale, however, emergency response teams should proactively include Internet access policy in their activities. This will give them the opportunity to have a plan for Internet access during emergencies. There are existing platforms which could be currently utilized such as the global solution provided by[13] or by the Disaster Tech Lab’s Disaster Communication Services.[14] As rightly concluded by one commentator, “As the world becomes increasingly Internet-dependent, this discussion is not going to go away. With proper precautions in place, the Italian Red Cross’s initiative is admirable and even sensible, but in an emergency, depending on neighbors for vital communications isn’t a sustainable strategy.”[15]


Acknowledgment: Research leading to this blog received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 653748.