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Beyond the Net Community Projects Development Growing the Internet Internet of Things (IoT)

A drone project to change humanitarian disaster response in Philippines.

Philippines is the 4th most disaster-prone country in the world. When a natural disasters hits we are completely wiped out. In remote and rural parts of the Philippines, telecommunications networks can be spotty most of the times. This scenario is willing to change thanks to the Internet Society’s Philippines Chapter new project supported by Beyond the Net Funding Programme.

The aim of the project is to send UAVs — or what most of us call drones — in disaster zones to act as wireless relays and data aggregators. The drones would set up a local MESH network to help people to get in touch with the loved ones. It would also help emergency workers to work safely and talk to one another. The project will also make possible that the drones will be able to work with Unmanned Ground Vehicles (UGVs) to find information about the situation on the ground.

In the recent years, interest in Unmanned Aerial Vehicles (UAVs) has been evidenced by innovations in this emerging field. Hobbyists and scientists alike have leveled up the use of UAVs in many ways such as forestry surveys, remote sensing and disaster management. While much of the focus of drones to date has been on military applications and as toys, the future of drones as humanitarian tools is getting more promising by the day. Commercial industries view drones as the new logistics support mechanism for parcel delivery, they are also used by environmental bureaus for tracking river flow changes.

In a country prone to disasters like the Philippines, researchers saw the opportunity to implement drones in the field of disaster management. Over the years, the Ateneo de Manila University Innovation Center has been developing use cases for drone technology, mostly for mission-critical scenarios as decision-support platform. Dr. Nathaniel Joseph Libatique, a professor at Manila University said: “We can all do optimization on battery life, rotor design, and frame aerodynamics, but at the core of engineering for humanity is the UAV’s payload – this niche is a breeding space for innovation. Say for example, we can do a fly-by and detect victims in a collapsed building, or do cooperative flights with ground teams – we can cover the breadth of a situation while scaling up value-added systems such as location detection, risk profiling, and even internet connectivity!”

Using hybrid communications technologies and devices – Push-To-Talk (PTT) Radio, Android-based protocols, Raspberry Pi hubs, 915 MHz and 760 MHz transceivers and delay tolerant communications standards (RFC 5050) – the project team continues to demonstrate how critical information such as victim or survivor identities and needs can be robustly transmitted to command and control using bump communications, aggregation and store and forward techniques. Information analysis such as facial recognition and pre-stored information of survivor social networks, especially for the elderly and PWDs, enable an efficient and targeted response.

Flying over the municipality of San Juan, Batangas, a province 140 kilometers south of Metro Manila, the team did a series of experiments that demonstrated the role of UAVs integrating connectivity, highlighting cooperation and underscoring collaboration. In a disaster situation, responders use various radio communication media and this presents an opportunity to interface drones with these devices. Systems incorporating ground vehicles and UAVs provide the breadth and scale necessary to respond to disasters and undertake victim rescue apart from purely imagery missions. In this series of tests, the team did propagation measurements between “victims” and drones functioning as rescuer/alert vehicle. The UAV was flown above the antenna setup subject to the applicable civil aviation rules, utilizing the frequency (760 MHz) as approved for experimental use by the telecommunications regulator. Initial results reveal the potential of UAVs to complement ground teams in the performance of victim rescue support.

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Growing the Internet Technology

INET Kathmandu: Three Key Lessons from Nepal Earthquake

Last year a 7.6 magnitude earthquake struck various parts of Nepal, leaving nearly 9,000 people dead and destroying over half a million homes. Relief and recovery efforts in affected areas went on for several months, involving multiple agencies, and the re-building continues. In March, our INET Kathmandu conference brought together International agencies, local stakeholders involved in emergency planning, services and relief work discuss the role of Information and Communication Technologies (ICTs) in disaster management and what lessons can we learn from Nepal. The conference was the first of such deliberations focusing on the use of the Internet and ICTs after the last year’s earthquake, and had very good response from both the local community and international organisations. 

Here are the three key lessons that we learnt from the discussions:

Power Supply

During the Nepal earthquake, the electricity network was damaged, leading to power outages that created further panic and insecurity among the people. With no power available to charge their mobile phones, people were not able to communicate inwards / outwards on their location, emergency needs and ascertain if their loved ones were fine. Solar panels and Generators did help but it took much time to transport and install them in affected communities. Keeping the fuel supply intact for generators was also an issue. Speakers concluded that power supply management, its distribution and availability needs to be kept on high priority for both Pre and Post Disaster Management Strategies.

Radio Stations

Radio station networks still play a vital role in providing information to communities affected by a disaster. In case of the Nepal earthquake, radio stations helped tremendously in broadcasting first-hand information. It should be noted that remote communities in developing countries still depend on information based on local languages(s). Community based radios in Nepal provided that critical link during early stages of the disaster. INET Kathmandu concluded that radio stations – and well-informed community radio in particular – can play a vital role during disaster response work and thus is important to ensure their operations are up and running. 

Role of Social Media

Statistics show clearly that people are already engaging in disaster relief management on social media, likewise government departments and agencies can use social media to directly inform people about natural hazards and disaster warning. Social media was widely used during the Nepal Earthquake not only by individuals, but also by organizations such as the Nepal Police and Nepalese National Emergency Operation Center. According to Nepal police official, there were more ‘person location finding’ requests received via social media than SMS. Social media also helped Nepal police to collate ‘what is needed where’ information from the ground and to mobilize collection and distribution of relief supplies like food, shelter etc. There were many incidents of immediate rescue of people stuck after the earthquake after such messages were sent to Nepal Police through social media channels. Experts at the conference suggested that Governments should now consider implementing their own social media strategy especially for disaster management operations.

It is not possible to stop natural disasters from taking place. What we can do is ensure that rescue and relief services are efficient and able to provide timely response – ICTs at all levels, are a significant tool in getting the right information to the right people at the right time to save lives and reduce losses.

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Growing the Internet Technology

Lessons from The Nepal Quake: Tech's Role When Disaster Strikes

When disaster strikes many of us, no matter where we are, want to do something. 

The net, with its ability to connect us all, is becoming the tool of choice for digital humanitarians and citizens to lend a hand. 

Is it making a difference? 

Looking at the After Nepal’s devastating 2015 earthquake, the Internet became a lifeline. 

And while communication is now considered a crucial part of aid and social media is part of the toolset, privacy, power and access are just some of the complex challenges that digital humanitarians must navigate when using these platforms in their work to help communities in need. 

The Internet Society’s Asia-Pacific Bureau and Internet Society Nepal Chapter are organizing INET Kathmandu aimed to bring together International agencies, Rapid response groups and local stakeholders involved in disaster planning, management and relief services to deliberate and inform thoughts on: 

  • Lesson from the 2015 Earthquake in Nepal
  • Regional developments, experiences and best practices
  • Technological paradigms in disaster risk reduction
  • Future mechanisms for disaster management 

We need you to be part of the discussion. 

If you’d like to join the event in person you can register online HERE 

You can also watch the live stream of the conference on 18th March and you can also be part of the discussion by following #INETKTM on twitter.

We look forward to having you take part!

Categories
Growing the Internet Internet of Things (IoT) Open Internet Standards

The Internet as a lifeline in Asia-Pacific

Disaster management is becoming more and more prominent in the region’s policy agenda—and with good reason. UNESCAP in a recent report noted that more than half of the world’s 226 natural disasters in 2014 occurred in Asia-Pacific. Active tectonic plate movements in the Pacific and Indian Oceans, areas that also generate a lot of tropical typhoons, combined with increasingly denuded forests have made the region the most disaster-prone in the world. Perhaps more alarmingly, the study found that Asia-Pacific countries are largely ill-equipped to deal with these crises.

This may soon change, with the help of technology. Around the region, numerous pilots seek to help developing countries monitor shifting temperatures and weather conditions—water levels, soil moisture, wind speed, rainfall rate—using solar powered sensors and cheap, tiny, single board computers like Raspberry Pi. These early warning systems can transmit data wirelessly through mobile networks and satellite links to a central server, helping to detect impending hazards like landslides and flash floods.

In Vanuatu, ICTs were widely credited as instrumental to minimising the death toll from Cyclone Pam. As the category 5 cyclone approached the country, several government agencies, working with mobile operators, drew up a plan to coordinate evacuation and recovery. A task force was formed, additional staff contracted, and free SMS alerts sent to citizens throughout the archipelago. Communications infrastructure was badly affected, but satellite phones dispatched in advance allowed first responders to organise relief efforts. Cyclone Pam, despite being one of the most powerful to hit the South Pacific, suffered 11 casualties—much lower than the 1987 category 4 cyclone that struck Vanuatu and left 48 dead.

ICTs were just as useful in the wake of the violent earthquake in Nepal in April. The tremors, which flattened entire villages and displaced close to half a million people, mobilised the global community to act, in no small part through online channels. Internet giants Google and Facebook each deployed tools that let individuals post or search for updates on friends and relatives in the country. Telecom carriers and VoIP applications offered free mobile and landline calls to Nepal, and regional e-commerce firms like Paytm collected donations for earthquake victims.

Thousands of volunteers across the world, including Nepalese expatriates, plotted feeds from social media networks, news and satellite images onto online maps. On the ground, groups like the World Food Programme turned to lightweight, inflatable mobile data antennas, which look like big beach balls, to restore connectivity in remote locations, allowing aid workers to collect, upload and verify information. Geo-tagging enabled platforms like ShakeMap to continuously show the disaster’s impact in real-time, giving a clearer picture of which roads were blocked, or who was stranded where—much like Ushaidi had done during the 2011 earthquake in Christchurch, New Zealand. Online connectivity was essential particularly when phone lines became congested, and survivors relied on the Internet to reach out to their loved ones.

Such emergencies highlight the value of low-cost and low-energy networks that can be deployed easily, especially in the immediate aftermath of a disaster, when communication is most critical. Nepal, for instance largely preserved its international connectivity throughout the quake and its 300 aftershocks. Much of the damage was at the last mile which, along with severed power lines, impaired the average person’s ability to go online.  

One solution lies in systems that can connect with each other even when the Internet is down. Commotion Wireless, for instance has developed an open source software that allow devices to communicate peer to peer using unlicensed spectrum, forming a mesh network that is highly redundant, and capable of sharing an Internet connection that is beamed or made available close by.

A similar idea in the Philippines takes resilience a step further. Showcased at the 12th APT ICT Development Forum last month, the project, jointly conducted by university-based Ateneo Innovation Centre, the DOST ICT Office and Japanese partners, employs mobile transponders that relay urgent messages from victims and rescuers to vehicles roving disaster areas. Equipped with one terabyte near-cloud servers, the latter will act as computing nodes, aggregating information that can be passed on to other vehicles until it reaches the global Internet.

A crucial ingredient to this concept is delay-tolerant networks, which incrementally store and move data along until it gets to its destination—a good option for places that lack reliable and instantaneous bandwidth. But perhaps even more crucial are policies that enable innovators to test and scale technologies that may be useful in disaster relief and preparation. As an example, many of these initiatives are pushing to have freer use of TV white space or more broadly, frequencies in the 700 to 800 Mhz bands, which have wider coverage and can penetrate through metres of debris.

The onset of climate change can only mean more frequent, unpredictable and severe cyclones, droughts, avalanches and tsunamis that injure hundreds and cause devastation that may take years, if not decades to repair. ICTs are becoming more advanced, available and in many ways cheaper but at the end of the day, these tools are precisely, tools. It is the human component—coordination, collaboration and trust between various stakeholders—that make technologies work before, during and after every calamity.