DE102015201270B4 - Alarming system for emergency services and central server - Google Patents

Abstract

A method for alerting emergency services (8), by means of a central server (1) and the individual emergency services (8) associated mobile terminals (2), wherein in case of an emergency call the central server (1) an alerting signal at least to individual mobile terminals (2 ), wherein the alarm signal comprises at least one place of use (7) or a collection point for the emergency services (8), via the mobile terminals (2) an acknowledgment signal via a received alarm signal to the server (1) is transmitted back, the server ( 1) based on current traffic data performs an isochronous calculation for a region around the place of use (7) or the collection point, wherein a mobile terminal (2) retrieves the isochronous calculation of the region or a selected part of the region from the server (1) and an expected arrival time at the Site (7) or the collection point to the server (1) is transmitted, with the expected arrival time in A Depending on the nature of the emergency call the emergency services (8) are compiled and alarmed depending on the additional information, the Server (1) in response to the acknowledgment signals checks whether enough emergency services (8) have acknowledged the alarm signal with a desired additional information, the server (1) automatically alarm further emergency services (8), if not enough emergency services (8) have acknowledged, the additional information is a level of education or a qualification.

Description

The invention relates to a method for alerting emergency services and a central server.

From the EP 1 170 712 A2 an alarm system for forwarding alarm messages from alarm devices via a mobile / telephone network is known, in which the alarm message of the respective alarm device is transmitted wirelessly or wired to an alarm receiving device in an alarm center. In this case, the alarm receiving device has a control device for evaluating the alarm message according to alarm content and expected time required for the alarm and a related mobile device and / or a radio modem for automatically forwarding the alarm message to the mobile stations or the subscriber terminals of the telephone network. The addressed mobile stations or subscriber devices transmit an acknowledgment signal to the alarm receiving device which counts the number of acknowledgment signals to ensure the alarming of a minimum number of persons.

For many operations, it is necessary or helpful to know when the individual forces can arrive at a site or a collection point. Thus, for example, fire brigade trains can be assembled according to the order in which the individual forces arrive. However, the alarming system usually does not know the position of the mobile terminals when the emergency services are on standby. However, querying the positions without the consent of the emergency services can be a significant interference with their privacy and data protection law be questionable.

From the US 2007/0030144 A1 a method for alerting emergency services is known, wherein a central server transmits an alarm signal to emergency services or the associated mobile devices via a mobile network. The alerting signal includes specific data, such as location or collection point, with the mobile devices sending an acknowledgment signal to the central server. The central server and the mobile network have access to another server that has data about the current locations of the mobile devices. For example, the mobile devices send their location data together with the acknowledgment signal upon receipt of the alarm signal. The central server in conjunction with the other server determines in a further step on the basis of current traffic data, the actual position of the mobile devices and the site a route planning and sends the corresponding data to the mobile devices of the emergency services.

A similar procedure is from the DE 10 2007 008 780 A1 known.

From the US 2011/0153183 A1 For example, a method for traffic analysis based on historical position data of users of a system is known wherein areas may be displayed in the form of isochronous representations.

The invention is based on the technical problem of providing a method for alerting emergency services, which enables improved temporal coordination of emergency services without disproportionately violating their privacy. Another technical problem is creating a central server to implement the process.

The solution of the technical problem results from a method having the features of claims 1 or 2 and a central server with the features of claims 4 or 5. Further advantageous embodiments emerge from the subclaims.

The procedure for alerting task forces is carried out by means of a central server and the mobile units assigned to the individual task forces. In addition to the classic stand-alone server, the term central server also includes virtualized servers that form a virtualized server network. The central server can therefore generally also be described as a server-side system. In the event of an incoming emergency call to the central server, the central server transmits an alerting signal to at least individual mobile terminals. To which and how many can be, for example, depending on the nature of the emergency call. In this case, the server can be part of a control center system (for example the fire brigade), so that the emergency call for the server can actually be the incoming emergency call of a person. But it is also possible that the incoming emergency call is converted by the control center system in an emergency call signal for the central server and transmitted to this. The communication between the central server or the mobile terminals can take place via a mobile radio network or in a special frequency band. The alarm signal includes at least one site or a collection point for the emergency services or both. The mobile terminals then transmit an acknowledgment signal back to the server, so that the server receives a response about the successful alarm.

Furthermore, the server performs an isochron calculation for a region around the place of use or the collection point on the basis of current traffic data. The size of the region is chosen such that in this the mobile terminals are distributed. This is can be estimated, as rescue teams on standby may only stay within a certain area. By means of the isochron calculation, areas are now determined from which the journey to the place of use or to the collection point can take place within a same time range. It is understood that very small time periods mean a higher computational effort, on the other hand reduced to large time periods the validity of the temporal forecast of the expected arrivals. The subdivision of the isochrones may also be adapted to the emergency call (eg the type of deployment and / or the urgency) and / or the region. The mobile terminal may then retrieve the isochron calculation of the region or a selected portion of the region (eg, a sector or quadrant) from the server. Thus, starting from a current location of the mobile terminal, an expected arrival time at the job site or the collection point can be determined and transmitted to the central server. The determination can be made, for example, by the deployment force, for example, by selecting an isochronous, or automatically by the mobile terminal, for example, by means of a position determination device (eg, a GPS receiver) determines the current position and assigns an isochronous, then to the central server is transmitted. Thus, the central server knows the expected time of arrival of the task force, without knowing the current position of the task force or the mobile terminal.

Furthermore, additional information is stored in the server for the individual task forces, namely the level of training or special qualifications or skills. Depending on the type of emergency call, the task forces are assembled and alerted depending on the additional information. The server then checks, depending on the acknowledgment signals, whether sufficient forces with a desired additional information have acknowledged the alarm signal, whereby the server automatically alerts other task forces, if not enough task forces have acknowledged.

In an alternative embodiment, a region around the site or the collection site is divided into areal cells. The subdivision can be carried out by both the server and the mobile terminal, the subdivision preferably taking place by the server. The subdivision is then retrievable by the mobile terminal. The emergency operator or a position-determining device of the mobile terminal can then select the cell in which the current position of the mobile terminal is located. The selected cell or centroid of the selected cell is then transmitted from the mobile terminal to the server. The server then calculates a route from the centroid to the job site or collection point. If the mobile device has only transmitted the cell, the server first calculates the centroid. The calculated route is then transmitted to the mobile terminal and is available to the task force. Based on the route, the server can then estimate the travel time of the emergency services.

Furthermore, additional information is stored in the server for the individual task forces, namely the level of training or special qualifications or skills. Depending on the type of emergency call, the task forces are assembled and alerted depending on the additional information. The server then checks, depending on the acknowledgment signals, whether sufficient forces with a desired additional information have acknowledged the alarm signal, whereby the server automatically alerts other task forces, if not enough task forces have acknowledged.

In one embodiment, it is possible to select by means of a selection function on the mobile terminal whether the centroid or the cell or the current actual position of the position-determining device is transmitted to the server. So it lies at the discretion of the task force, whether this wants to protect his privacy or wishes the most accurate route calculation.

With regard to the design of the central server, reference is made in full to the preceding statements.

• 1 ein schematisches Blockschaltbild mit einem zentralen Server und mobilen Endgeräten,
• 2 eine schematische Darstellung einer Isochronenberechnung und
• 3 eine schematische Darstellung einer in Zellen aufgeteilten Region.

The invention will be explained in more detail below with reference to preferred embodiments. The figures show:

• 1 a schematic block diagram with a central server and mobile terminals,
• 2 a schematic representation of an isochron and
• 3 a schematic representation of a cell-divided region.

In 1 is a central server 1 and by way of example three mobile terminals 2 shown. The central server 1 has at least one radio interface 3 as well as a memory 4 in which data on emergency services are stored. Depending on the embodiment, the data comprise a mobile phone number and possibly additional information for an emergency worker. The mobile devices 2 also each have a radio interface 5 and a position determining device 6 for example in the form of a GPS receiver.

The central server 1 receives via the radio interface 3 or another interface an emergency call as well as current traffic data. Depending on the nature of the emergency call, the server determines 1 How many and which task forces are necessary for the operation and chooses appropriate forces from the memory 4 out. The server 1 then sends via the radio interface 3 Alerting signals to the mobile devices assigned to the task forces 2 , The alarm signal includes at least one place of use or a collection point. Parallel runs the server 1 an isochron calculation for a region around the job site 7 , whose graphical result is exemplified in 2 is shown. There is a first zone Z1 , a second zone Z2 and a third zone Z3 where, for example, emergency services in the first zone Z1 between 0 to 5 minutes on the job site 7 mission forces in the second zone Z2 between 6 to 10 minutes and forces in the third zone Z3 between 11 to 15 minutes on the job site 7 can arrive.

The mobile devices 2 that receive an alerting signal, return an acknowledgment signal. Furthermore, a mobile terminal 2 the isochron calculation according to 2 or retrieve part of the isochron calculation. For example, the part may be a segment S, which is in FIG 2 is shown in dashed lines. This reduces the number of data to be transferred. The force of engagement 8th can then zone, for example 3 select and to the server 1 transferred back. Alternatively, the selection can be made automatically by the position determination device 6 respectively. It may additionally be provided that the emergency services 8th at your own request the exact current position to the server 1 can transmit. In this case, then the server 1 a route to the site 7 charge and to the mobile device 2 transfer.

As an alternative to the Isochronberecnung, the region around the site 7 also be divided into cells ZE1 to ZEn. The force of engagement 8th then the cell ZE associated with its current position or the centroids 9 their assigned cell ZE to the server 1 transfer. The selection can also be made again by the force 8th or automatically by the position determining device 6 respectively. The server 1 can then again a route to the site 7 charge and to the mobile device 2 transfer. Again, it may be provided again that the force 8th optionally the current position to the server 1 transfers. It should be noted that the shape of the cells ZE is not limited to squares and the cells ZE also need not all have the same shape, but may be any polygons.

Claims (5)

A method for alerting emergency services (8), by means of a central server (1) and the individual emergency services (8) associated mobile terminals (2), wherein in case of an emergency call the central server (1) an alerting signal at least to individual mobile terminals (2 ), wherein the alarm signal comprises at least one place of use (7) or a collection point for the emergency services (8), via the mobile terminals (2) an acknowledgment signal via a received alarm signal to the server (1) is transmitted back, the server ( 1) based on current traffic data performs an isochronous calculation for a region around the place of use (7) or the collection point, wherein a mobile terminal (2) retrieves the isochronous calculation of the region or a selected part of the region from the server (1) and an expected arrival time at the Site (7) or the collection point to the server (1) is transmitted, with the expected arrival time in A Depending on the nature of the emergency call the emergency services (8) are compiled and alarmed depending on the additional information, the Server (1) in response to the acknowledgment signals checks whether sufficient forces (8) with a desired Additional information have acknowledged the alarm signal, the server (1) automatically alerts other emergency services (8) if not enough emergency services (8) have acknowledged, with the additional information is a level of education or a qualification. A method for alerting emergency services (8), by means of a central server (1) and the individual emergency services (8) associated mobile terminals (2), wherein in case of an emergency call the central server (1) an alerting signal at least to individual mobile terminals (2 ), wherein the alarm signal comprises at least one place of use (7) or a collection point for the emergency services (8), being transmitted via the mobile terminals (2) an acknowledgment signal via a received alarm signal to the server (1), wherein a region to the place of use (7) or the collection point is subdivided into planar cells (ZE), wherein the mobile terminal (2) has a position determining device (6), uses the position determining device (6) to determine a current cell (ZE) and a centroid (9) the cell (ZE) or the cell (ZE) to the server (1), wherein the server (1) ode a route from the centroid (9) to the place of use (7) ode calculated to the collection point and transmitted to the mobile terminal (2), in the server (1) to the individual emergency services (8) additional information is stored, depending on the nature of the emergency call the emergency services (8) compiled and alarmed in response to the additional information in which the server (1) checks in response to the acknowledgment signals whether sufficient emergency forces (8) have acknowledged the alarm signal with a desired additional information, whereby the server (1) automatically alerts further emergency services (8) if not enough emergency services (8) have acknowledged, with the additional information is a level of education or a qualification. Method according to Claim 2 , characterized in that by means of a selection function on the mobile terminal (2) is selectable whether the centroid (9) or the cell (ZE) or the current position of the position-determining device (6) is transmitted to the server (1). Central server (1) for alerting emergency services (8), wherein the server (1) is designed such that it can receive an emergency call and transmit an alarm signal to at least individual mobile terminals (2), wherein the alarm signal at least one deployment location (7 ) or a collection point for the emergency services (8), wherein the server (1) is designed such that an acknowledgment signal is received via a received alarm signal, wherein the server (1) is designed such that this is based on current traffic data isochronous for a region around the place of use (7) or the collection point is calculated and is available for retrieval of a mobile terminal (2), wherein additional information is stored in the server (1) to the individual emergency services (8), the server (1) being such is formed that, depending on the nature of the emergency call the emergency services (8) compiled in dependence on the additional information u be alerted, wherein the server (1) checks in response to the acknowledgment signals, if enough emergency services (8) with a desired additional information acknowledged the alarm signal, the server (1) automatically alerts other emergency services (8), if not enough emergency services ( 8), the additional information being a level of education or a qualification. Central server (1) for alerting emergency services (8), wherein the server (1) is designed such that it can receive an emergency call and transmit an alarm signal to at least individual mobile terminals (2), wherein the alarm signal at least one deployment location (7 ) or a collection point for the emergency services (8), wherein the server (1) is designed such that an acknowledgment signal is received via a received alarm signal, wherein the server (1) is designed such that this one region around the place of use ( 7) or the collection point is subdivided into area-like cells (ZE), whereby a route from the centroid (9) to the place of use is determined on the basis of a cell (ZE) transmitted by a mobile terminal (2) or a transmitted centroid (9) of a cell (ZE) (7) or is calculated to the collection point and transmitted to the mobile terminal (2), wherein in the server (1) to the individual emergency services (8) additional information is stored d, wherein the server (1) is designed such that depending on the nature of the emergency call the emergency services (8) are assembled and alarmed in dependence on the additional information, wherein the server (1) checks in response to the acknowledgment signals, whether sufficient forces (8 ) have acknowledged the alarm signal with a desired additional information, wherein the server (1) automatically alerts other emergency services (8) if not enough emergency services (8) have acknowledged, the additional information is a level of education or a qualification.

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