NL2013323B1 - Measuring apparatus, system and method for distribution of data. - Google Patents

Abstract

The invention relates to a measuring device, comprising: - a sensor, for measuring the value of a parameter; - a beacon, for sending a presence signal with or without a communication request to communication devices; and - communication means for establishing a connection with a communication device on the basis of a response of the communication device to the presence signal or the communication request and for sending information on the basis of the measured value of the parameter to the communication -design.

Description

Measuring device, system and method for disseminating measurement data

The invention relates to a measuring device, a system and a method for distributing measuring data.

To prevent dangerous situations, it is known to provide measuring devices that measure a certain parameter, such as, for example, seismic activity. These measuring devices are connected via a fixed, wired network connection to an external server for transferring the measured parameter.

The network has a fixed organization. On the basis of this parameter, relevant authorities, such as emergency services, governments and those present in an area, are then provided with the measured values. If there is reason to do so, warnings can be sent based on this information, for example in a certain radius around the measuring device where a calamity has been detected.

In some cases, however, it may happen that the measuring device is no longer able to use the network connection when this calamity occurs precisely as a result of this calamity, for example due to the loss of the data connection. As a result, the measuring device is no longer able to perform an essential function at that moment, namely its signaling function. This can be the case, for example, if the parameter is seismic activity: earthquakes can disrupt or even destroy the fixed, wired network connection.

It is now the object of the invention to reduce or even prevent the abovementioned disadvantages.

This object is achieved according to the invention with a measuring device, comprising: - a sensor, for measuring the value of a parameter; - a beacon, for wirelessly sending a presence signal to communication devices; and - communication means for establishing a connection with a communication device on the basis of a response of the communication device to the presence signal for sending information on the basis of the measured value of the parameter to the communication device.

Because the measuring device is provided with a beacon next to a sensor, it is possible to send a presence signal to communication devices. The moment a communication device detects this signal, then a connection can be established by the communication device or by means of the communication means of the measuring device. In this way the measuring device is no longer dependent on wired connections for sending the signal.

The presence signal is preferably transmitted within a certain interval between, for example, 100 milliseconds and 10 seconds. An example of a beacon that can be used advantageously here is a Bluetooth beacon, because this beacon also comprises integrated communication means, which, when a communication device responds to the presence signal, can realize a connection with the communication device. Bluetooth also has the advantage that it is widely used in communication devices, so that the number of suitable communication devices that can process the presence signal is large.

In an advantageous embodiment of the measuring device, the measuring device comprises a battery which is adapted to supply the measuring device. In this way, the operation of the measuring device will be minimally or not limited by, for example, disruptions in the wired power supply via the power network.

In a preferred embodiment of the measuring device according to the invention, the parameter is seismic activity.

A measuring device provided with means for measuring seismic activity offers the possibility of observing seismic activity, on the basis of which it is possible to warn people of earthquakes. With this measuring device it is achieved that this is still possible on the basis of the information from the measuring device, even if, due to these conditions, fixed data connections but also fixed power connections are unreliable.

In yet another preferred embodiment of the measuring device according to the invention, the measuring device comprises evaluation means for comparing the measured value of the parameter with an alarm range, wherein the evaluation means are connected to the control of the beacon for sending only a beacon substantially through the beacon. presence signal after measuring a value of the parameter in the alarm range by the measuring means.

By providing the measuring device with evaluation means which ensure that the measuring device only sends the presence signal when a value of the parameter that is within the alarm range is measured, the energy consumption of the measuring device when the measured value is not in the alarm range is reduced. As a result, a possible battery of the measuring device can moreover be designed smaller than in a situation in which the measuring device transmits the presence signal irrespective of the value of the measured parameter.

In a further embodiment of the measuring device according to the invention, the presence signal comprises a communication request.

The object of the invention is further achieved with a system comprising a measuring device according to the invention and further comprising the communication device.

The communication device is suitable for making connections with other devices. The communication device can herein be a mobile telephone and in particular a smartphone. However, it can also be a communication device that is not a mobile telephone, but which has means for connecting to the communication means of the measuring device. If the beacon is, for example, a Bluetooth beacon, a communication device with possibilities for Bluetooth transfer is also suitable, for example. MP3 players with Bluetooth features, such as an iPod Touch from Apple Ine., Can also act as a communication device.

With this system it is thus possible to transfer the information from the measuring device to third parties with the aid of the communication device.

Although the transfer protocol between the measuring device and the communication device is preferably Bluetooth, it is also possible in a first strategy that multiple types of ad hoc transfer protocols are used for the connection, for which purpose the measuring device is provided with suitable means in that case. In this case, it may be advantageous if, for example, the measuring device initially attempts to establish a connection via the most preferred protocol, and if this fails with a subsequent less preferred protocol, and when this fails with a subsequent, less preferred protocol, and so further.

In a preferred embodiment of the system according to the invention, at least the measuring device or the communication device comprises locating means for determining the geographical location of the measuring device.

When the measuring device or the communication device, or possibly both, are equipped with means for determining the location, it is possible to use the source of the information in processing the information originating from the measuring device. The locating means may comprise a GPS receiver, or means for connecting to surrounding stations, with which the location can be determined. The geographical location can also be stored in advance in a memory of the measuring device, in particular when this measuring device is arranged at a fixed location.

In yet another preferred embodiment of the system according to the invention, the communication device is adapted to form an ad hoc network with further communication devices for distributing the information.

If the communication device is provided with means for forming an ad hoc network with further communication devices, there is the possibility of transmitting information via this ad hoc network, such as the information originating from the measuring device. Because communication devices in ad hoc networks are not dependent on fixed data connections, such a system is less susceptible to malfunctions.

The object of the invention is further achieved with a method for distributing measurement data, comprising the following steps: - measuring a value of a parameter by a sensor of a measuring device; - sending a presence signal to communication devices through a beacon of the measuring device; - communication means of the measuring device realizing a connection with a communication device on the basis of a response of the communication device to the presence signal and - transmitting information on the basis of the measured value of the parameter to the communication by the measuring device device - performing an evaluation step by the communication device, for evaluating further actions to be taken.

In this method, a value of a certain parameter, for example seismic activity, is measured by a measuring device. This is preferably done on a regular basis with fixed time intervals. Preferably at the same time, a beacon sends a presence signal with a communication request. The moment a communication device receives this signal, the communication device with and the communication means of the measuring device will establish a connection with each other, whereafter information is transmitted.

On the basis of this information, the communication device will proceed to an evaluation step after receiving the warning. This evaluation step is preferably started as soon as possible after the start of receiving the warning, except that sufficient information is present at the communication device for performing the evaluation step.

As a result of the evaluation step, the communication device can then proceed to warnings, for example in the form of a notification.

Communication devices used in the method can be equipped with a specific app for carrying out the method, which enables the ad hoc connection of the communication device to the measuring device, for example by switching on, making detectable or making connectable a Bluetooth connection. Because users of a communication device would like to be informed of any warnings based on the information sent by the measuring device, they will often be inclined to install the app on their communication device. As a result, a large number of communication devices will be available that can participate in the method.

By this method, the transfer of information from the measuring device is realized in a reliable manner, wherein the measuring device is not dependent on a fixed, wired network connection. This advantage arises in particular under fault-prone circumstances, such as earthquakes. In the case of earthquakes, in this way, for example, on the basis of the information about pre-earthquakes with the method, a warning can be sent for the possibly following main quake.

The information preferably comprises the geographic location of the measuring device or the first receiving communication device. In this way a more intelligent evaluation can be carried out by the further communication devices or the server in the chain. After all, in particular with further warnings, it will generally not be clear where the source of the warning lies due to the nature of the ad hoc networks. For example, more distant (further or secondary) communication devices that are further away from this location may exhibit different behavior when receiving the warning or further warning.

In yet another advantageous embodiment of the method according to the invention, the measuring device establishes the connection with the nearest communication device. A reliable connection is hereby obtained which consumes a relatively low amount of energy in relation to connections over a large distance, in particular when the connection is wireless.

As a result of the movement of communication devices, when establishing the connection or the further connection, a communication device that moves away from the measuring point but is closest to it may be a less suitable choice than a slightly more distant communication device. device approaching the measuring point.

In a preferred embodiment of the method according to the invention, the presence signal is directed at random communication devices.

By transmitting the presence signal aimed at random communication devices, the greatest possible potential of communication devices can be achieved. As a result, there is a good chance that a communication device will be found that establishes a connection between the measuring device and the communication device with the communication means on the basis of the presence signal.

In a further preferred embodiment of the method according to the invention, the information comprises a measured value of the parameter.

For example, if the information comprises the measured value of the parameter, then in the evaluation step the measured value can be compared with reference values or an alarm range. In this way a better estimate can be given about the seriousness of the situation. This data can also be used for scientific purposes.

These advantages are moreover present if the information includes both the location of the measuring device and the measured value of the parameter, because this increases the number of correlation possibilities.

For example, depending on the reliability of the connection, historical measured values of the parameter can also be sent via the connection. This offers the possibility to include noise in the evaluation step. For example, it may be that a measuring device is arranged at a location where a relatively different value of the parameter is always measured. In the case, for example, seismic activity is measured, then it may be the case, for example, that a measuring device located next to a highway itself already senses some vibrations, which one may want to filter out in the evaluation step.

In yet a further preferred embodiment of the method according to the invention, after receiving the information, the communication device displays a message, wherein the message is directed at a user of the communication device.

The communication device hereby displays a message as a result of the outcome of the evaluation step. This message may for example consist of a sound signal, a light signal, a vibration of the communication device and / or a message on the screen of the communication device. The information, which may comprise a relative value specified in digital format, is hereby converted into a message that can be interpreted by a user. If use is made of the aforementioned app for carrying out the method, this app can be used for controlling the communication device (such as, for example, a telephone or smartphone) for such notifications. In this way the user of the communication device will be informed about the observations of the measuring device, on the basis of which the user can take action by, for example, fleeing.

In yet another preferred embodiment of the method according to the invention, after receiving the information, the communication device establishes an ad hoc connection with a further communication device, the communication device after the connection with this further communication device transfers the information to the further communication device.

Because the communication device makes a further connection with a further communication device after receiving the information, the information is further distributed. In this way the distribution area of the information is expanded. In particular if this step is repeated a number of times, it is possible to serve a large area. Because this is an ad hoc connection, the communication device for transferring the information is not dependent on facilities which provide a connection between the communication devices, such as a GSM network.

Because these provisions can be damaged due to the effect of the measured value of the parameter, the method is reliable.

Although in principle a number of types of communication transfer between communication devices are possible when applying the method according to the invention, such as, for example, transmission via a GSM network, such as, for example, a data network that forms part of this network, it also deserves the same here It is preferable to use an ad-hoc network, because one is at least dependent on fixed data connections that may have been damaged as a result of a calamity or have otherwise been reduced in operation.

The further communication device can then again perform the same steps as the communication device, such as, for example, the evaluation step, after which the information may be sent to additional communication devices. In an advantageous embodiment, a further, or additional, communication device that is far away from the measuring device will, based on the evaluation step, proceed less rapidly to display an additional message directed at a user.

Preferably, connecting the communication device to further communication devices comprises the following steps: - detecting further communication devices by the communication device; - making a further ad hoc connection with a communication device detected in the previous step by the communication device; and - transmitting a further warning by the communication device via the further ad hoc connection from the previous step.

In an advantageous embodiment of the method according to the invention, the communication device makes the connection with the closest further communication device. A reliable connection is hereby obtained which consumes a relatively low amount of energy in relation to connections over a large distance, in particular when the connection is wireless.

The information preferably has a unique identification number and the further communication device verifies against the unique identification number whether the additional communication device or the information has been received for the first time and only becomes an ad hoc connection based on the receipt of the established when the information has not been previously received.

By using this preferred embodiment, it is prevented that a further or additional communication device that receives information several times with the same unique identification number processes or displays the same information several times. In a preferred embodiment, to prevent this, route information about the already traveled route of information (along the communication device and any further and any additional communication devices) is also sent with the information. The route information can be included by the communication device in an assessment step such as the evaluation step or for carrying out further steps or not.

Various transfer protocols are conceivable for making the ad hoc connections between communication devices, but transfer via a wireless protocol is preferred because of the low interference sensitivity. The 802.llx protocol is even more preferred here because it can cover a relatively large range, while the protocol is still reliable, widely applicable and generally available on communication devices.

Here too, however, it applies that several transfer protocols are used for the connection, whereby it may be advantageous if, for example, the measuring device initially tries to make a connection via the most preferred protocol, and if this fails with subsequent less preferred protocols, and so on. .

The communication device can also preferably continue to search for a specific period of time during the detection step in a second strategy until a suitable further communication device is found. If this is not found, then the communication device can preferably repeat the detection step after a certain interval to send the information, if suitable communication devices are found.

Here, it is also possible to provide a combination of the two strategies mentioned above.

In another preferred embodiment of the method according to the invention, after receiving the information, the communication device sends the information to a server by means of a further connection of the communication device to the internet.

A step that can be carried out by the communication device as a result of the evaluation step is the communication device sending the information to a server via a data connection to the internet. By means of the internet it is hereby possible to place the information in a central location, possibly far away from the measuring device. The internet is very suitable here because it can be used to transfer the information over a great distance. The server is herein preferably equipped with a storage for at least temporarily storing the information. Here too, use may be made of the aforementioned app. In this way, the app can facilitate the dissemination of information to other authorities, such as emergency services or governments.

In a further preferred embodiment of the method according to the invention, upon receipt of the further information, the server performs an evaluation step, comprising in that order the following steps: - compiling a method based on the information by the server on the basis of criteria target group alert group; and - sending the group warning by means of the Internet through the server to secondary communication institutions associated with the target group.

When coordinating the further distribution of the information as a group warning, it is advantageous if the server sends the data about the group warning to the secondary communication devices associated with a target group for which the warning may be relevant. The target group may, for example, consist of people who, for example on the basis of data from the relevant communication device, are present at that moment in an area, such as a certain radius, around the measuring device of the information on which the group warning will be based, or who based on their registration are known as living in this area. This can also be, for example, people who are otherwise known as potentially interesting target groups for such a report, for example because they have installed the aforementioned app on their communication device, or because they use this app relatively often.

In yet another preferred embodiment of the method according to the invention, the secondary communication device performs a further evaluation step after receiving the group warning.

In this evaluation step, the secondary communication device will determine whether it is necessary to spread further warnings on the basis of the group warning, such as for example directed to the user of the communication device, but also to communication devices around the communication device such as for example previously described. This can for instance be an advantage if these further communication devices do not fall within the range of the server.

In another preferred embodiment of the method according to the invention, the connection is terminated immediately following the end of the transmission.

By disconnecting the connection, such as the ad hoc connection or the further ad hoc connection immediately after the end of the transmission, the power consumption of the participants in the connection is further reduced. This provides advantages for the design of, for example, a battery in the measuring device used, as well as the power supply of the communication equipment.

Both the ad hoc connection of the measuring device with a communication device, the further ad hoc connection of a communication device with a further communication device and / or the further connection of a communication device with a server used in the method principle applied. This is because the distribution of the warnings is accelerated in this way.

Although the measuring device, the system and the method according to the invention relate to measuring the value of a parameter and thereby cite seismic activity as an example, it is also possible to apply the invention in an equivalent manner to other measuring devices, such as, for example, measuring devices. for fire, burglary and carbon monoxide content, or possibly a combination of the aforementioned measuring devices.

These and other features of the invention are further elucidated with reference to the accompanying drawings.

Figure 1 shows schematically an example of a method according to the invention.

Figure 2 shows schematically an example of a method according to the invention.

Figure 3 shows a variant of Figure 1.

In figure 1 a measuring device 3 is attached in an area 1 to a building 2. This measuring device 3 measures seismic activity in the area 1. In this area 1, communication devices 4, 5, 6, 7, 8, 9, 10 are arranged with also telephone masts 11, 12 with a respective area 13 in normal operation. 14 for connecting the communication devices 4, 5, 6, 7, 8, 9, 10 to a GSM network connected to the Internet 15.

Measuring device 3 transmits a presence signal within a range 16. At the moment that a communication device, in this case communication device 4, receives the presence signal, then this communication device 4 will make contact with measuring device 3 for making a wireless connection 17. Via this connection information about the the value of the parameter measured by the measuring device 3 is transferred to the communication device 4.

Communication device 4 is provided with an app for responding to presence signals and subsequently making the connection 17 with the measuring device 3.

Although this app itself has possibilities for evaluating the value of the parameter measured by the measuring device 3, it is desirable that for external facilitation of further steps it is transferred to an external server 18. External server 18 is connected to the internet 15, however, the communication device 4 is within the range 13 of the telephone mast 11, which is disrupted, and thus cannot be used to send the information to external server 18 via the internet 15.

For this reason, after receiving the information, the communication device 4 will start a detection step to find further communication devices that are suitable for forming an ad hoc connection and thus for receiving the warning wirelessly. Possibly, communication devices 5, 6, 7 are detected here. Thereafter an ad hoc connection 19 will be made with the nearest communication device 5. This process is repeated a number of times via ad hoc connection 20 to communication device 6, and via ad hoc connection 21 to communication device 7. Communication device 7 is present within the range 14 of transmission tower 12, whereby this communication device 7 can transfer the information to external server 18 via the connection 22 with transmission tower 12, and its connection 23 with internet 15.

It is possible that measuring device 3 also makes a connection 24 with communication device 8 for transferring the information, whereafter communication device 8 transmits the information to further communication device 7 via ad hoc connection 25, however, if further communication device 7 is present at that moment has already received the information via connection 21, then the further communication device 7 will recognize this information and will not re-transmit it to external server 18.

Incidentally, here also communication devices 9, 10 are present in area 1, which are not involved in the method, for example, as in the case of communication device 10, because it is relatively far away from measuring device 3, so that the information is transmitted by the communication devices 5, 6, 7, 8 are not sent to communication device 10, or because they are not provided with an app for use in the method, such as with communication device 9.

After the server 18 has received the information, a server is determined by the server 18. After this, server 18 will transmit a group warning via internet 15, as shown in Figure 2, with via a connection 26 to telephone mast 27 via ad hoc connections 28, 29, 30, 31 to the secondary communication devices 32, 33, 34, 35 another area 36. However, in a part of this area 34 that is outside the range 37 of the telephone mast 27, there are also communication devices 38, 39. If, upon receipt of the group warning, the secondary communication device 32 determines that it is necessary to search for other communication devices, it will start a detection step in which, for example, communication device 38 is found. After this, an ad hoc connection 40 will be made for transmitting the group warning. Similarly, communication device 38 can then make an ad hoc connection 41 with communication device 39 to further spread the group alert.

In the variant as shown in Figure 3, a measuring device 44 is also arranged on a building 42 in a space 43. Here, communication devices 45, 46, 47, 48 are also present in the space 43. When a value of the parameter is detected by the measuring device 44, the measuring device 44 will send a presence signal within a range 49. Upon receipt of this presence signal by, for example, communication device 45, communication device 45 will make a connection 50 with measuring device 44, with which the information will be transmitted to the communication device 45. This communication device 45 transmits the information to external server 54 via connection 51 with mobile phone mast 52, and its connection 53 with internet 15. Communication device 45 can also transfer this warning via ad hoc connections 55, 56 to further communication, respectively devices 46, 47, although communication device 46 is outside the range 57 of mobile phone mast 52. Incidentally, a further communication device 48 is also present here in area 43, but at such a distance from measuring device 44 that it does not receive the information sent by measuring device 44.

Claims (16)

A measuring device, comprising: - a sensor, for measuring the value of a parameter; - a beacon, for wirelessly sending a presence signal to communication devices; and - communication means for establishing a connection with a communication device on the basis of a response of the communication device to the presence signal and for sending information on the basis of the measured value of the parameter to the communication device. Measuring device according to claim 1, wherein the parameter is seismic activity. 3. Measuring device as claimed in claim 1 or 2, wherein the measuring device comprises evaluation means for comparing the measured value of the parameter with an alarm range, and wherein the evaluation means are connected to the control of the beacon for sending, mainly by the beacon, only a presence signal after measuring by the measuring means of a value of the parameter in the alarm range. Measuring device according to one of the preceding claims, wherein the presence signal comprises a communication request. A system comprising a measuring device according to any one of the preceding claims and further comprising the communication device. The system of claim 5, wherein at least the measuring device or the communication device comprises locating means for determining the geographical location of the measuring device. A system according to claim 5 or 6, wherein the communication device is adapted to form an ad hoc network with further communication devices for distributing the information. Method for distributing measurement data, comprising the following steps: - measuring a value of a parameter by a sensor of a measuring device; - sending a presence signal to communication devices through a beacon of the measuring device; - communication means of the measuring device realizing a connection with a communication device on the basis of a response of the communication device to the presence signal and - transmitting information on the basis of the measured value of the parameter to the communication by the measuring device device - performing an evaluation step by the communication device, for evaluating further actions to be taken. The method of claim 8, wherein the presence signal is directed to random communication devices. The method of claim 8 or 9, wherein the information comprises a measured value of the parameter. A method according to claim 8, 9 or 10, wherein the communication device displays a message after receiving the information, the message being directed at a user of the communication device. Method according to one of claims 8 to 11, wherein the communication device establishes an ad hoc connection with a further communication device after receiving the information, the communication device after the connection with this further communication device transfers the information to the further communication device. A method according to any of claims 8 to 12, wherein the communication device after receiving the information transmits the information to a server by means of a further connection of the communication device to the internet. Method according to claim 13, wherein the server performs an evaluation step after receiving the further information, comprising the following steps in that order: - compiling a target group group warning based on the information from the server ; and - sending the group warning by means of the Internet through the server to secondary communication institutions associated with the target group. The method of claim 14, wherein the secondary communication device performs a further evaluation step after receiving the group warning. A method according to any of claims 8 to 15, wherein a connection is broken immediately following the end of the transmission.