This invention relates to an automatic method for releasing and guiding rescue and life-saving appliances that implement the method.
Self-propelled, u-shaped rescue vehicles have proven to be particularly effective when rescuing people from the sea, rivers and reservoirs, and at the present time there is strong demand for this alternative to the traditional rescue appliances, namely lifebuoys.
The speed of intervention and rescue, coupled with the option of remote control over the rescue appliance, are the reasons behind the said demand from the owners of leisure and professional vessels, cruise ships, maritime authorities and coastal bathing area managers.
The state of the art closest to this invention is the system and method described and disclosed in national patent of invention n° PT 116052.
An auto-rescue method is disclosed by which, in response to an alarm triggered by a personal beacon, the rescue appliance is released. The appliance consists of an unmanned, u-shaped vehicle. However, it has been found that, especially when weather and sea conditions are difficult, communications between the person overboard and the command centre and the rescue vehicle are key to the rescue operation’s effectiveness and efficiency. This invention covers a method and system that adds an additional device to the automatic rescue operation: an UAV (Unmanned Aerial Vehicle) or drone.
The use of USVs (Unmanned Surface Vehicles) in water, to rescue people who are in difficulty in water, is becoming increasingly frequent. The quality of the communication of the person’s location is key in the type of rescue that employs these means. The invention referred to in the background uses a personal beacon, usually attached to the user’s wristband. Now the signal emitted by this type of beacon is often of poor quality, either because the wristband is underwater as the wearer struggles to stay afloat, or because of the waves or wind that prevent the signal from having sufficient range, that is to reach the telecommunications tower that is in a safe location, either on a vessel or on land. In addition, if the safe place is on a vessel travelling at a relatively high speed, say 20 knots, just 30 seconds after the person fell overboard they will be at a linear distance of 300 metres from the vessel. For a better understanding of how dramatic the situation is, think of an Olympic-size swimming pool which is 50 metres long. The distance the person overboard has to cover to reach safety just thirty seconds after they fell in the water is equal to 6 Olympic-size swimming pools.
Thus one aim of this invention is to provide an automatic method of rescuing a person overboard that is safe and reliable since the means employed are released speedily and travel at compatible speeds, since communication between the invention’s various technical devices is conducted easily and smoothly and since it ensures that when the signal reaches the technical recipient of the invention it is of a quality that can be handled by the said signal recipient’s processor.
One aim of the invention is to ensure that the guiding of the USV towards the person in difficulty in the water is conducted by way of a drone or UAV because these devices have a better response time than an USV, since they can fly at speeds up to five times the speed of an USV, i.e. at around 160 km/h. Therefore, as soon as the invention controller detects the incident, in addition to activating and releasing the USV, configured to receive and transport the person in difficulty in the water, for instance a U-shaped vehicle, they also activate and release an UAV, or drone, equipped with signal reception and transmission equipment, which as soon as it detects a RF signal emitted by a Personal Alarm Beacon pairs with it, and maintains the same geographical position as the geographical position of the Personal Alarm Beacon and sends location data to the controller in the command tower.
This invention provides a water rescue system as defined in claim 1.
For a better understanding of this invention a description will now be given of the preferred configuration, although it is purely for illustrative purposes, as per the attached drawings, in which:
The essential components of the automatic release and guiding of rescue appliances method are a Personal Signal Emitting Beacon (102), an USV – Unmanned Surface Vehicle (1), and an UAV – Unmanned Aerial Vehicle (4).
The UAV (4), the Personal Signal Emitting Beacon (102), and the USV (1), all contain a tracker which calculates their geographical position in real time. The same is true of the Base Station.
Under a preferred way of implementing the invention the tracker can be a GPS device. However, the invention may be employed when using other types of tracker. For example, the person’s location may be calculated by way of triangulating an acoustic signal, or in another preferred manner by way of surveillance cameras linked to the systems components.
The USV (1) incorporates an electronic module, which houses the said tracker, a signal receiver/transmitter, and a processor that processes the signals received from the Personal Signal Emitting Beacon (102), from the UAV (4), or from the Command Tower’s (202) aerial (3).
Two types of signal may be emitted: alarm and location, coded according to the transmission/reception frequency.
The USV processor is equipped with signal processing and data processing equipment, and is connected operationally to the propellers. The processor can alter the position and speed of the propellers.
As per the invention, the Command Tower (202) houses a computer that includes a processor where software has been installed that allows it to perform the following functions:
Under another preferred implementation of the automatic release and guiding of rescue appliances method, in addition and after detecting the presence of a human being on the USV (1), it receives and processes in real time the UAV (4) geographical position data and the USV (1) geographical position data and sends directional control signals to the USV (1) to guide the USV (1) to a safe location.
The safe location is preferably a place on land. Nonetheless, the safe location may be a place on the water such as a vessel or a pontoon boat. The safe location is preferably the vessel equipped with the rescue appliances, USV and UAV. Equally preferable is the vessel out of which the person to be rescued fell. In another version the safe location is a pontoon boat floating outside of the zone in which waves break on a beach (see
The invention method may operate in such a way that once a human being has been detected on the USV (1) by way of sensors, the processor is configured to plot a course to a safe location and send signals guiding the USV (1) to the said location.
However, and a preferred manner, as an alternative or in addition, the USV may be fitted with a presence button so that a human being’s presence on the USV is detected when the presence button is pressed.
At any time during the rescue, as per claim 2, the automatic release and guiding of rescue appliances method may, preferably, be overridden and controlled manually by an operator.
Under a preferred way of implementing the invention and in addition, the position, image and sound data received are data collected by a camera, so that the position may be calculated by supplementary means and it is possible to enter into visual and audio contact with the person overboard.
The invention incorporates an Unmanned Surface Vehicle -USV - (1), fitted with a processor that acts upon the means of communication, propulsion and steering, and which cooperates with the processor in the command tower (202), enabling it to adopt the automatic release and guiding of rescue appliances method.
The Unmanned Surface Vehicle - USV - (1) is preferably a U-shaped vehicle.
The invention includes an Unmanned Aerial Vehicle - UAV -(4), fitted with a processor that acts upon the means of communication, propulsion and steering, and which cooperates with the processor in the command tower (202), enabling it to adopt the automatic release and guiding of rescue appliances method.
The invention also includes a Personal Alarm Beacon (102), fitted with a processor that acts upon the means of communication, transmitting alarm and positional signals, and which cooperates with the processor in the command tower (202), so as to adopt the automatic release and guiding of rescue appliances method.
Finally, it is clear that the guiding system and method described and illustrated herein, as well as the Personal Beacon, the UAV and the USV, configured to implement the invention method, may be modified and altered without stepping outside the scope of this invention’s protection, as defined in the attached claims.
Number | Date | Country | Kind |
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116338 | May 2020 | PT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2020/055106 | 5/29/2020 | WO |