EP1058218A2 - Method and telecommunication device for data transmission - Google Patents

Abstract

A telecommunications system has a communications central office (CCO) (10), a communications processing installation (CPI) (20), a transmitter-receiver station (30) and first (40), second (41) and third (42) telecommunications devices. The CPI acts as a paging server. The CCO acts as a mobility server.

Description

State of the art

The invention is based on a method for Information transfer according to the type of the main claim and the subordinate procedural claim and one Telecommunications device according to the genus of sibling device claims. There are procedures and Telecommunication devices for the transmission of information between a telecommunication device and one Central via a communication network, in particular Telecommunications system according to the DECT standard, known where by pressing a single button on one Telecommunication terminal of the telecommunication system a connection to an internal or external participant can be built. Here, a user saves the Telecommunications terminal, for example, a phone number in a memory of the telecommunications terminal, so that then pressing a button is enough, one Connection to the subscriber who saved the Number corresponds to establish.

Advantages of the invention

The inventive method with the features of Main claim and the invention Telecommunication device with the features of the first sibling device claims have the Advantage that a telecommunication devices Additional function is provided, according to which events in Formed and processed in the form of simple signals that they have preconfigured messages, for example Trigger paging messages or telephony messages. In order to can already existing communication connections between telecommunications devices, for example Telecommunications terminals, and a center as Transmission channel can be used for event messages.

By the measures listed in the subclaims advantageous further developments and improvements of the Main claim specified and that in the first Device claim specified Telecommunication device possible.

It is particularly advantageous that depending on the Sensor signal a first code in the Telecommunications device is generated, the Terminal signal includes the first code. This can Information about the type of sensor signal and thus the event activating the sensor from the Transfer telecommunication device to the control center become.

It is also advantageous that the first code information in a memory in the telecommunication device be saved and that the first code using the first code information depending on the sensor signal is generated. As a result, the first code information is used the implementation of event signals on paging / telephony messages.

Another advantage is that the Telecommunication device an input device comprises, by pressing the input device Terminal signal is generated. This serves the Telecommunications device also the manual entry of Data and the telecommunications device can, at least when it comes to entering data, also as Telecommunications terminal can be used. The Input device also has the advantage that a Programming the code information, especially in the form a key code - for example "# 1234 alarm call x" - is possible. Furthermore, by means of the input device causes simple dialing on a first Device actuators can be controlled on a second device. Consequently such dialing operations are a long-distance effect of the first Device to the second device.

The inventive method with the features of secondary method claim and the inventive Telecommunication device with the features of the second sibling device claims have against The prior art has the advantage that it is in one Telecommunications system create the additional function, according to Messages, especially paging messages or telephony messages, from the telecommunication device so be prepared as simple switching signals Can control environmental events or actuators. This in turn allows existing Telecommunication connections between Telecommunications devices and a headquarters as Transmission channel for action messages can be used.

By the measures listed in the subclaims advantageous further developments and improvements of the secondary method claim specified method and that in the second sibling device claim specified telecommunications device possible.

It is particularly advantageous that the base station signal a second code includes that the second code the actuator is assigned and that by sending the actuator signal activated by the telecommunication device of the actuator becomes. This enables the control of events using the Base station signal can be carried out easily.

It is also advantageous that second code information in a memory in the telecommunication device are stored and that the actuator signal using the second code information depending on the second code is generated. This has an effect on the one to be controlled Processes, especially by means of simple dialing processes, possible.

Another advantage is that the Telecommunication device a playback device comprises, by receiving the base station signal the telecommunication device the playback device is activated. This creates the possibility that an incoming message to the telecommunications device too is reacted manually, for example in that a User a signal generator as a playback device Telecommunication device hears or a message on the Display device sees and corresponding reactions initiates.

According to the subordinate claims of the siblings Device claims are advantageous developments and Improvements to the invention Telecommunication device possible.

It is particularly advantageous that the sensor and / or the actuator is directly connected to the second interface. The second interface is in particular as a wireless radio or Infrared interface designed so that the Telecommunication device in the local area around the Sensor and / or actuator is mobile, so the possibility there is, the telecommunication device in this case can also be used as a telecommunications terminal.

It is also advantageous that the sensor and / or the Actuator indirectly, especially via a charger, with the second interface is connected. This makes it possible the telecommunication device according to the invention as Telecommunications terminal very easy for the inclusion of Sensor switching states and / or for the control of actuators to use.

It is also advantageous that the first interface is designed as a radio interface. This is one Change the spatial arrangement of the components of the Telecommunications system by simply implementing the Telecommunication devices possible.

It is also advantageous that the first interface is wired. This gives you the opportunity existing telecommunications devices, for example wired end devices to continue to use and in one something to be created or changed Integrate telecommunications system.

drawing

Figur 1 ein Telekommunikationssystem mit drei Telekommunikationsvorrichtungen,

Figur 2 die Telekommunikationsvorrichtung mit drei Sensoren und einem Aktor,

Figur 3 die Telekommunikationsvorrichtung mit den drei Sensoren, dem Aktor und einem Ladegerät und

Figur 4 die Telekommunikationsvorrichtung mit den drei Sensoren, dem Aktor und einer Drahtschnittstelle.

Embodiments of the invention are shown in the drawing and explained in more detail in the following description. Show it

FIG. 1 shows a telecommunication system with three telecommunication devices,

FIG. 2 shows the telecommunication device with three sensors and one actuator,

Figure 3 shows the telecommunications device with the three sensors, the actuator and a charger and

Figure 4 shows the telecommunications device with the three sensors, the actuator and a wire interface.

Description of the embodiments

In Figure 1 is a telecommunications system with a Communication center 10, one Communication processing system 20, hereinafter referred to as Communication PC 20 is called, a transmitting / receiving station 30, a first Telecommunication device 40, a second Telecommunication device 41 and a third Telecommunications device 42 shown. The Communication center 10 is both with the communication PC 20 and also connected to the transceiver station 30. The sending / receiving station is with everyone Telecommunications devices 40, 41, 42 connected. The Communication center 10 is in the example in particular as PBX executed and is used to manage the connected to the transceiver station Telecommunications devices 40, 41, 42. The Communication center 10 is also referred to below Mobility Server 10 designated. The transceiver station 30 is separate from the Communication center 10 provided. In an advantageous Embodiment of the invention

Telecommunication system, the transceiver station 30 however also integrated in the communication center 10 his. Furthermore, several sending / receiving stations can be used 30 be connected to a communication center 10 and controlled by this. The communication PC 20, the hereinafter also referred to as paging server 20 over a preferably wired interface with the Mobility Server 10 connected. As an interface between the Mobility server 10 and the paging server 20 is particular a V.24 cable connection is provided. The connections between the transceiver station 30 and the Telecommunication devices 40, 41, 42 are According to the invention in particular according to a standard for Radio interfaces, for example according to the DECT standard intended. The transmitting / receiving station 30 takes over Tasks of a base station in one Telecommunications radio network for the Telecommunication devices 40, 41, 42. The connection between telecommunications devices 40, 41, 42 and the communication center 10 is accordingly between the Telecommunications devices 40, 41, 42 and the transceiver station 30 wirelessly trained and between the Transceiver station 30 and the communication center 10 wired version. However, according to the invention a different execution of the connection between the telecommunications devices 40, 41, 42 and the Communication center 10 possible, for example first telecommunication device 40 consistently wired and especially direct, that is not over the detour of the transmitting / receiving station 30, with the Communication center 10 is connected by what wire interface 46 to be described later Telecommunications devices 40, 41, 42 is realized. In Figure 1, the three telecommunications devices 40, 41, 42 representative of a plurality of Telecommunications devices shown either via a single transceiver station 30 or via several transmitting / receiving stations 30 with the Communication center 10 are connected. Of course is also an architecture of the telecommunication system conceivable with only one telecommunication device.

The other figures are based on the example of the first Telecommunication device 40 different Embodiments of the invention Telecommunications devices 40, 41, 42 shown.

FIG. 2 shows the first telecommunication device 40 with a first sensor 80, a second sensor 81, a third sensor 82 and with an actuator 70. The sensors 80, 81, 82 and the actuator 70 are each connected to the first telecommunication device 40. In addition to a radio interface 45, this includes playback devices 50 and input devices 60. The radio interface 45 serves for the communication of the first telecommunication device 40 with the communication center 10 and, together with a wire interface 46 to be described later, is also referred to below as the first interface 45, 46. In the exemplary embodiment, the first telecommunication device 40 is designed as a telecommunication terminal, which is why the first telecommunication device 40 is also referred to below as the first telecommunication terminal. Correspondingly, the second and third telecommunication devices 41, 42 are also referred to below as second telecommunication terminal 41 and as third telecommunication terminal 42. In FIG. 2, three sensors 80, 81, 82 are shown as examples, which are connected to the first telecommunication terminal 40. According to the invention, more than three sensors or even fewer than three sensors can also be connected to the first telecommunication terminal 40. The sensors 80, 81, 82 are essentially designed as switches, which deliver a binary signal with the two states “low ^” and “high” to the first telecommunication terminal 40 as a sensor signal. The sensors 80, 81, 82 are directly coupled to the first telecommunications terminal 40 in that the sensors 80, 81, 82 are connected in parallel with the input devices 60. Keys are usually provided as the input device of a conventional telecommunications terminal, for example a DECT terminal. The direct coupling of the sensors 80, 81, 82 to the first telecommunication terminal 40 is therefore preferably implemented according to the invention in that the sensors 80, 81, 82 are each connected in parallel with individual keys of the input devices 60. Furthermore, it is also possible according to the invention that one or more of the sensors 80, 81, 82 does not supply a binary signal with two states, but rather a multi-stage sensor signal with three states, for example. In this case, for example, two or more keys of the input devices 60 can be connected in parallel to such a sensor, the actuation of a first of the two keys corresponding to a first of the three states and the actuation of a second of the two keys corresponding to a second of the three states. In the following, for the sake of simplicity and without restricting the generality, we shall speak of binary signals.

According to the sensors 80, 81, 82, the actuator 70 is direct coupled to the first telecommunications terminal 40 by the actuator parallel to the playback devices 50 is switched. More common as playback devices Telecommunication terminals, for example DECT terminals usually serve display devices, for example LCD displays, as well as acoustic playback devices, such as for example terminal signaling devices, which also act as beepers be designated. In the example, the direct coupling of the Actuator 70 to the first telecommunications terminal 40 Parallel connection of the actuator 70 with an acoustic Terminal signal generator implemented.

The connection of the first telecommunication terminal 40 with the sensors 80, 81, 82 and the actuator 70 is in following also as the second interface of the first Telecommunications terminal 40 denotes.

The procedure for an event message with direct coupling the sensors 80, 81, 82 and the actuator 70 to the first telecommunication terminal 40 is to follow to be discribed. From a sensor, for example that an event to be reported is detected by the first sensor 80, which results in the first sensor 80 as an output signal for example, the status "high" is signaled. It is in following provided that the first sensor 80 by Parallel connection with key "4" of the input device 60 of the first telecommunication terminal 40 is connected. The fact that the first sensor 80 in the example is Binary signal "high", causes a key press of the Key "4" on the first parallel Telecommunications terminal 40 is simulated. So it will by connecting the first sensor 80 to the first Telecommunications terminal 40 given the possibility that the actuation of input devices 60, in particular Buttons, not manually performed by a user must, but automatically depending on the conditions of sensors 80, 81, 82 can be realized. In the further should now be assumed that for the "4" key of the first telecommunication terminal 40 first Code information in a memory, not shown first telecommunication terminal 40 are stored.

For example, the following first code information in the not shown memory of the Telecommunications terminal 40 as to be sent Information at the press of a key "4" saved: "## 1234 Process alarm 4". They’re not illustrated memory of the first Telecommunications terminal 40 stored first Code information associated with the "4" key by the sensor signal of the first sensor 80 via the Radio interface 45 of the first telecommunication terminal 40 sent to the Mobility Server 10 as the first code. in the Mobility server 10 is recognized, for example on the basis of the Paging identifier "##" that the just received first Code information contains paging information, which is why the Mobility server 10 this to the paging server 20 forwards. The paging server now evaluates the destination address "1234" and sends according to the evaluation result one or more paging calls, for example with the Message "Process alarm 4" to the Mobility Server, the or the paging calls to any telecommunication terminals 40, 41, 42 in the telecommunications system. That or the end devices called thereby signal the incoming paging call acoustically and show for example the message "Process alarm 4" in the display, so that a User can respond to the message accordingly. If necessary, the message on the called terminal is closed acknowledge.

According to the invention, for each input device 60 A sensor is provided for the first telecommunication terminal 40 his. For a numeric keyboard, this results in: Input device 60 of the first Telecommunications terminal 40, for example Possibility to go through ten different sensors Parallel connection to the ten existing buttons on the numeric keyboard directly with the first To couple telecommunications terminal 40. Specifically designed telecommunication terminals can of course also the connection of a larger number of Provide sensors. Sensors 80, 81, 82 used to respond to any Input variables are predictable. For example it is According to the invention provided that sensors based on chemical Sizes, especially concentrations of any substance such as for example, smoke, gases or the like react the first telecommunications terminal 40 can be coupled. According to the invention, other sensors react to physical ones Sizes in particular pressure, temperature, radiation or the like. The connection between the sensors 80, 81, 82 and the first telecommunication terminal 40 designed according to the invention in particular wired, they can, however, be wireless, for example through Infrared connection.

As an example for the sequence of event control, the following assumed that over any in Integrated telecommunication system Telecommunications terminal 40, 41, 42 or via paging Server 20 a message, in particular a paging Request to the first telecommunication terminal 40 is generated, which is connected to the actuator 70. The Message is transferred from paging server 20 to mobility server 10 sent and from there to the first telecommunications terminal 40 forwarded as a base station signal. The incoming message, especially the paging call, is on first telecommunications terminal 40 through the Playback devices 50, in particular acoustically by the Terminal signal generator, signaled. The base station signal includes a second code assigned to the actuator 70 is. By connecting the actuator 70 in parallel to Terminal signal generator of the first telecommunication terminal 40 that on the first telecommunication terminal 40 received base station signal to the actuator 70 forwarded to its by the incoming signal Binary state changes, for example from the binary state "low" changes to the binary state "high"; and with that too controlling event. According to the invention are in one not shown memory of Telecommunications devices 40, 41, 42 second Code information stored by receiving the Base station signal triggered, the playback devices 50, in particular a display element, for example as text to be displayed. This will make the Actuator 70 activated as described above. As actuators any switch used according to the invention, the Activate devices at desired events trigger. For example, the invention provides that when signaling an excessively strong Smoke development, for example from a sensor 80, 81, 82 of the first telecommunication terminal 40 an actuator 70 of the second was registered Telecommunications terminal 41 is activated, the one Relay switches on a fire door in this way activated that the smoke development affects one limited building area. The related with sensors that can have more than two states, considerations are of course also accordingly to transmit the signals to the actuators more than one bit, that is more than two states, In this case, such work Actuators with more than one Playback device 50 or with a more complex one Playback device 50 together.

In Figure 3 is the first according to the invention Telecommunication device 40 with the three sensors 80, 81, 82, the actuator 70 and a charger 90. Identical reference numerals from previous figures denote identical components and facilities of the first telecommunications terminal 40 or connected to the first telecommunication terminal 40 Components. In the illustrated in Figure 3 Embodiment of the invention Telecommunications terminal 40 are sensors 80, 81, 82 or the actuator 70 not directly to the first Telecommunications terminal 40 unlocked, but over the charger 90 with the first telecommunication device 40 coupled. Wireless telecommunications terminals, such as for example, portable DECT terminals are usually used together with a charger that the Telecommunications terminal is assigned to each ensure that the battery is charged Power supply for the portable telecommunication terminal ensure is always sufficient.

A communication link between charger 90 and the first telecommunication terminal 40 is used for control of pre-programmed speed dial calls. If a sensor 80, 81, 82 reports the binary signal "high", for example, then this signal is supplied to the charger 90, which is a corresponding signal via the communication link between the charger 90 and the telecommunications terminal 40 sends to the telecommunications terminal 40. The Processing this signal in the telecommunication terminal 40 and the subsequent behavior of the Telecommunication system correspond exactly to what already exists was described in connection with Figure 2. For the reverse direction, that is from Telecommunication terminal 40 to the actuator 70 is too controlling event also via the Communication link between the first Telecommunications terminal 40 and the charger 90 passed. By connecting the actuator 70 to the charger 90 the actuator is controlled by incoming signals, that is for example activated or deactivated by a Binary information about the communication link between the charger 90 and the telecommunications terminal 40 and is sent to actuator 70. The connection of the Sensors 80, 81, 82 and the actuator 70 to the Charger 90 can be used, for example Connection lines happen, their number for example the sum of the number of sensors and actuators corresponds. For that described in connection with Figure 2 An example of an event message would therefore be the first Sensor 80 via line "4" the event message to Send charger 90, whereupon the charger 90 on corresponding signal to activate button 4 of the first Telecommunications terminal 40 or Activation of the call pre-programmed on key 4, i.e. the code information - for example "# 1234 alarm call x" - transmitted. In the reverse case that information is used to carry out an event control the receipt of such information on the first Telecommunication terminal 40 the information to the charger communicated via the communication link, whereupon the Charger implements the event control and the corresponding actuator 70 activated.

4 is the first according to the invention Telecommunication terminal 40 with the three sensors 80, 81, 82, the actuator 70 and a wire interface 46 shown. Identical reference numerals from previous Figures denote identical components and devices of the first telecommunication terminal 40 or from to the first telecommunication terminal 40 connected components. In the illustrated in Figure 4 Embodiment of the invention Telecommunications terminal 40 communicates this via the Wire interface 46 with the mobility server 10 of the Telecommunications system. The connection of sensors 80, 81, 82 and the actuator 70 to the first telecommunication terminal 40 is either directly or via a charger 90 accomplished. The sequence of an event control or an event message is identical to that in connection with the previous figures described processes.

Claims (14)

Method of transferring information between a Telecommunication device (40, 41, 42), in particular Telecommunications terminal, and a center (10) via a Telecommunications network, characterized in that, preferably by means of a sensor (80, 81, 82) Influencing variable is detected that depending on the Influencing variable a sensor signal to the Telecommunication device (40, 41, 42) is sent, that depending on the sensor signal and regardless of a user-initiated connection Terminal signal from the telecommunication device (40, 41, 42) is transmitted to the control center (10). A method according to claim 1, characterized in that in Dependency of the sensor signal a first code in the Telecommunication device (40, 41, 42) is generated the terminal signal comprising the first code. A method according to claim 1 or 2, characterized in that that first code information in a memory in the Telecommunication device (40, 41, 42) stored and that the first code using the first Code information depending on the sensor signal is generated. Method according to one of claims 1 to 3, characterized characterized in that the telecommunication device (40, 41, 42) comprises an input device (60), whereby Actuation of the input device (60) the terminal signal is generated. Method of transferring information between a Telecommunication device (40, 41, 42), in particular Telecommunications terminal, and a center (10) via a Telecommunications network, characterized in that a Base station signal from the center (10) to Telecommunication device (40, 41, 42) is transmitted, that depending on the base station signal from the Telecommunications device (40, 41, 42) an actuator signal is sent to an actuator (70) and that depending the actuator signal of the actuator (70) to trigger an action is activated. A method according to claim 5, characterized in that the base station signal comprises a second code that the second code is assigned to the actuator (70) and that by the Sending the actuator signal from the Telecommunication device (40, 41, 42) the actuator (70) is activated. A method according to claim 5 or 6, characterized in that that second code information in a memory in the Telecommunication device (40, 41, 42) stored and that the actuator signal using the second Code information depending on the second code is generated. Method according to one of claims 5 to 7, characterized characterized in that the telecommunication device (40, 41, 42) comprises a playback device (50), whereby the reception of the base station signal at the Telecommunication device (40, 41, 42) Playback device (50) is activated. Telecommunication device (40, 41, 42) for Carrying out a method according to one of claims 1 to 4 with a first interface (45, 46) to a control center (10) over a telecommunications network and with a second Interface, characterized in that the Telecommunication device (40, 41, 42) a sensor (80, 81, 82) is assigned that the sensor (80, 81, 82) an influencing variable is detectable that depending on the Influencing variable a sensor signal at the second interface the telecommunication device (40, 41, 42) can be received is that depending on the sensor signal on the second Interface of the telecommunication device (40, 41, 42) a terminal signal at the first interface (45, 46) of the Telecommunications device (40, 41, 42) is deductible. Telecommunication device (40, 41, 42) for Implementation of a method according to one of claims 5 to 8 with a first interface (45, 46) to a control center (10) over a telecommunications network and with a second Interface, characterized in that the Telecommunication device (40, 41, 42) an actuator (70) is assigned that a base station signal from the center (10) to the telecommunication device (40, 41, 42) is transferable that by receiving the Base station signal at the first interface (45, 46) the telecommunication device (40, 41, 42) Actuator signal at the second interface of the Telecommunication device (40, 41, 42) is removable, that the actuator (70) by receiving the actuator signal from the second interface for triggering an action can be activated. Telecommunication device (40, 41, 42) according to claim 9 or 10, characterized in that the sensor (80, 81, 82) and / or the actuator (70) directly with the second Interface is connected. Telecommunication device (40, 41, 42) according to one of claims 9 to 11, characterized in that the Sensor (80, 81, 82) and / or the actuator (70) indirectly, in particular via a charger (90) with the second Interface is connected. Telecommunication device (40, 41, 42) according to one of claims 9 to 12, characterized in that the first interface (45, 46) as a radio interface is trained. Telecommunication device according to one of claims 9 to 13, characterized in that the first Interface (45, 46) is wired.

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