Introduction: Climate change causes more articulated weather conditions: at some places experts count with more droughts while at other places with more floods. Even if features of droughts and floods are total different from each other both of them belongs to water related disaster: in case of drought amount of water is below required while in case of flood amount of water is too much. Drought and flood mean end positions of the water amount scale. Other part drones are around us: more and more applications can be seen almost all part of our life. Therefore it is very important to gather examples and finding possibilities to support water related disasters. Method: This article focuses mainly on author’s own practices and experiences using drone however practices and experiences made by others were also adapted to the results of the study as well as the examples wrote in the relevant literatures. Results: On the time scale there are three different options for using drone to support water related disaster management. Before floods drone can take river bed surveys as a kind of preventive application. During flood drone can support decision makers with the “eagle eye” view of the flooded area providing objective and relevant information. After disaster experts can use drones for mapping or remapping the affected area for making quick assessment about damages caused by the flood. In case of forest fire we can also use the above approach however in this article the flood examples of drone applications are dominated.
The general feature of disasters is that the resources of the bodies responsible for elimination are limited. In order to reduce the limitation of resources, it is appropriate to examine at least in principle the possibility of applying new instrument or method; if the application of the new instrument or method can be considered both professionally and economically feasible, it is unnecessary to postpone its introduction. The professional efficiency is a necessary, but not a sufficient condition however the economic efficiency necessarily includes the fulfilment also of the first condition.
The wider use of drones raises the question of that this tool can be used or not to prevent and eliminate disasters, is it able to reduce the resource scarcity or to increase the effectiveness of preventive and intervening activities. This can be particularly useful in cases where the aerial reconnaissance could provide effective assistance, but the cost of using conventional flying method―pilots on board―is very high and therefore managers avoid using it. This article try to show some applications to help decision makers how and why to use drone in case of water related disasters.
Drone can be used for different purposes; previously the military activity was the most frequently application [
Most of researchers have no doubt about climate change. Two third of the Earth surface covered by water therefore higher average temperature means more evaporation potential. Even if the global humidity expected to raise distribution of falling rain or snow seems to be more hectic than nowadays [
authorities to be responsible for mitigation, experts use tools for early detection or prevention like fire weather index in case of drought or flooding models in case of flood. Author gives an overview of the possibilities of using drone in both cases.
In long term drought periods vegetation loses its moisture reducing the threshold of ignition [
In case of high fire risk authorized services can use drones for quick fire detection. Quick fire detection means smaller fire size therefore fire service can suppress or control it much easier and with higher effectiveness. In this case burnt area as well as damages will be limited. Looking at the fire curve of forest fire, the damage-time function gives an exponential dynamic that in ideal circumstances diverges to infinity but in reality till natural barriers or extension of the forest.
It can be seen on
Less resource means not only direct save of the money spent fire services but it reduces also the risk of inadequate fire service. During long term forest firefighting fire brigades are far from departments which allocation were optimized
for the quick but short termresponses like building fires in the home city, car accidents or even short term forest fires.
If using drone the average time from the fire ignition to the fire detection is less than the time of traditional fire report means that the drone is effective in expert view. If the reduced response time is able to save as much value forest as the costs of using drone means that the drone application is effective not only in experts view but also in economic view.
In most cases fires were caused by illegal or irresponsibly human activity [
Naturally, drone can support fire management also during the fire suppression. Fire brigades arriving to fire front require quick information like location of hot spots, scale and size of fire, water resources, path ways to fire front, etc. Traditional reconnaissance, that means walking around the area takes time, using traditional aerial reconnaissance, which means ordering piloted aircraft, takes lot of money however using drone can support the first responders with limited costs very quickly and effectively.
In time scale we can divide drone applications very simply. Before flood we can count with drone application as a cheap but effective tool for prevention and preparation; it is a kind of pre-flood management. During flood drone can support decision makers with real-time video supply to monitor the affected area or first responders with quick information; it is a kind of flood management. After flood we can use drone to make a quick assessment for the effective recovery; it is a kind of post-flood management. This time sectioning can be seen on
In case of serious drought the water level of rivers and many cases also of water reservoirs are very low [
photo-surveying or remapping of the river basin with using drones as an example shows at
Moreover, taking high resolution photos along the river basin we can check not only the basin condition but also the condition of flood barriers [
Besides the river basin or the flood barrier surveying to check the conditions of the dams can be even more important. Lower water level allows us to check that parts of the dam what is impossible at normal condition or high water level. Using drones we can take high resolution photos along the dams even at a hidden places and experts can evaluate many things like dam cracks, hair lines, corrosion of steel parts, deformations, etc. as an example shows at
Naturally, based on drone made photos we can extend this changing history not only for the dam condition but also for the changing of the river basin or the flood barriers [
Other objects as bridges, reliefs, channels or pump stations as well as the natural or planted vegetation located at the river-flats or flood basin can be also
surveyed by drone. Experts can check easily the condition of the hidden parts of the bridges, using thermal camera they can monitor the normal work of the pump stations but can even detect easily the overheating of the engines. Moreover the vegetation growth can be also under control to prevent proliferation.
During flood management drone can be also a useful tool in the hand of experts. With a high resolution mapping it can give precisions data about the flooding mechanism and the flooded area. This real-time information can support the management even if we have programs to predict the flooding mechanism. Based on the objective information management can optimize the resources which are always limited in case of emergency.
Even if authorized services make many efforts to rise the resistance or limit the vulnerability of the society anytime can happen an unpredictable situation. In these cases quick but objective information is required in which drone supported real-time monitoring can help a lot.
Drone can re-mapping the given area and can detect unexpected events like trapped people in houses at the flooded area or water leakage at dams or flood barriers as examples show at
Based on quick detection of leakages management can control the problem before its escalation. Moreover thermal images can also refer to the condition of the flood barriers. With a high resolution photos we can notice even the deformation of flood barriers which stability is very important to protect the populated area located many times behind the barriers. In case of slow deformation management can take safety measurements like making barriers stronger with sandy bags however in case of detecting large deformation ordering the evacuation
can be the best solution to protect population [
Floods are typical example for the slowly developing disaster but the flash flood can occur suddenly. It is very dangerous in a hilly area because in the narrow valleys water level can raise very quickly. Because of the narrow valleys flash floods can cause problems not only at the rainy areas but even far from it. It occurs so suddenly the people cannot escape from it, citizens or tourists can be trapped by the flushing water. Sometimes military resources also required to help [
Using drone, management can classify the critical places and can optimize the always limited resources. Drone can give help for the management not only with the real-time information but even with real activity like supporting lifesaving, first aid or special logistic. Based on the above the flash flood is one of the disasters where drone application can be very important and effective tool in the hand of first responders.
Against the above nice opportunities experts should take into account that most of drone types are not suitable for using in very bad weather condition. Usually operators should count with the power and turbulence of the wind but the cold temperature and high rate humidity can also be problems for the cheap but simply drones which are very effective in normal condition [
After high water moved away the flooded area remains deeply wet even for a long time, as
In special cases drone can support even the guard duty or police service to keep the concerned area in high level safety. Depending on the situation a strong safety control is required to protect settlements from criminal attacks.
Based on the above it can be seen post-flood management drone applications are in many cases the same or very similar to the pre-flood drone management. It is not an accident; post-flood management is a kind of prevention or depending
on view point it is preparedness for the next flood. These actions make both responsible organizations and society higher resistant and resilience against next flood.
Even if in most cases people think water related disaster means only flood it is not true. In case of drought amount of water is below required while in case of flood amount of water is too much but both of them can mean disaster. Drought and flood mean end positions of the water amount scale.
With drone applications fire service can detect hot spots earlier than the traditional civil report. If the reduced response time is able to save as much value forest as the costs of using drone means that the drone application is effective not only in experts view but also in economic view.
On the time scale there are three different options for using drone to support water related disaster management. Before floods drone can take river bed surveys as a kind of preventive application. During flood drone can support decision makers with the “eagle eye” view of the flooded area providing objective and relevant information. After disaster experts can use drones for mapping or remapping the affected area for making quick assessment about damages caused by the flood. In case of forest fire we can also use the above approach however in this article the flood examples of drone applications are dominated.
Based on the study author state that drone can be a very effective tool in the hand of well-trained experts to support water related disasters.
Restas, A. (2018) Water Related Disaster Management Supported by Drone Applications. World Journal of Engineering and Technology, 6, 116-126. https://doi.org/10.4236/wjet.2018.62B010