JP2002521986A - Method, apparatus and system for operating a mobile telecommunications terminal in a public cellular mobile radio network - Google Patents

Abstract

The present invention relates to a solution for the operation of a mobile telecommunications terminal in a public cellular mobile radio network having at least one base transmitting / receiving station and a mobile station, wherein the local The radiating low power transmitter, i.e. the mobile station upon receiving the first information of the picocell transmitter, logs off from each base transmitting / receiving station and shuts down, while transmitting the second information from the picocell transmitter. It is re-enabled upon reception, so that corresponding communication takes place over the network.

Description

DETAILED DESCRIPTION OF THE INVENTION

The invention relates to a mobile in a public cellular mobile radio network having at least one base transmitting / receiving station and a mobile station, in particular a mobile telephone according to the preamble of claim 1, 5 or 6. The present invention relates to a method, apparatus and system for operating a telecommunications terminal.

[0002] Wireless communication devices, ie, mobile radio transmission / reception devices (used as terminal devices) are known. For example, here, wireless, mobile, satellite communication, packet radio telephone, and the like are simply mentioned.

In addition, such telecommunications devices or terminal devices can be used in international mobile radio networks, for example in the GSM standard (Global System for Mobile C
It is known to operate by ommunication.

In such mobile wireless networks, telephone subscribers are equipped with communication means and can use data services and other services over the network. Known public mobile wireless networks may connect to other networks, for example, a public telephone network or an ISDN network, or a cabled local network. Further, connections from and to other public mobile wireless networks may be supported.

[0005] With respect to GSM mobile wireless networks, one of a very large number of wireless units is a mobile communication system with a cell structure, wherein each wireless cell is served by a base transmitting / receiving station and a base transmitting / receiving station.
The receiving stations each make a connection to the subscriber's mobile station via a corresponding over-the-air interface.

[0006] The base transmitting / receiving station is generally served by a so-called base control. The plurality of base controllers are connected to the mobile switching center, and the mobile switching center takes charge of required switching technology functions within a predetermined power supply area in the wireless network.

However, the increased use of wireless telecommunications services due to the occupation and activation of mobile stations can lead to the impairment of sensitive electronic equipment due to the already low transmission capacity in the critical frequency range. There is a danger that. This is the case, for example, with unauthorized and unqualified users of the mobile station, ie when the mobile telephone is on an airplane. A similar danger exists when a mobile telephone or mobile telecommunications terminal is used, for example, in a hospital or in a space where there is a risk of explosion, for example near a gas station.

[0008] The intentional or unintentional use of mobile telephones in public areas, for example, theaters, movie theaters, etc., is also perceived as an obstruction.

It is therefore an object of the present invention to shut down or deactivate a mobile telephone or mobile telecommunications terminal in an area of electromagnetic compatibility or in other dangerous areas, especially in areas of security importance. Operation of a mobile telecommunications terminal in a public cellular mobile radio network with at least one base transmitting / receiving station and a mobile station, especially a mobile telephone, so that no disturbing high-frequency transmission power is emitted. To provide a method, apparatus, and system for use.

According to the invention, this object is achieved by a method according to claim 1, wherein the mobile station logs off as a subscriber in the mobile radio network upon receiving the first information of the locally radiating low power transmitter, At that time, after the network logoff, the mobile station is completely deactivated with respect to the radio cell and deactivated, or the call is cut off from the network side so as to be deactivated, and / or outgoing. Device according to claim 5, wherein the mode is changed to a call blocking mode and is reactivated when receiving second information from the locally radiating transmitter).
The problem is solved by an operating system of a mobile telecommunications transmission device having the requirements of claim 6, the configuration and embodiments of which the invention is at least suitable for the purpose are derived from the dependent claims.

The basic technical idea of the method according to the invention is that the mobile telephone is improved so that the mobile telephone can receive locally specific low power transmitters each receiving specific first information. In each case, the next base transmitting / receiving station logs off the service and goes into the inactive state.

[0012] Upon receiving the second information of the locally radiating transmitter, the mobile telephone can automatically re-enter the active state and notify the network. Network logons and logoffs take place within standard protocol exchanges with the respective next base transmitting / receiving station.

[0013] The method may further include manually operating the mobile station to notify the network when there is no second information when leaving the transmission area of the locally radiating transmitter, If the specific information about the settable partial time is not received or not received much, it can be automatically switched to the operation state or the standby operation state.

The reception of specific information is signaled optically and / or acoustically to the mobile telephone user, with the information content or the information parameters being displayed on the mobile telephone display.

By optically and / or acoustically signaling, the mobile wireless user has entered a particularly dangerous area, and shortly thereafter the mobile wireless user's mobile telephone is deactivated. Be careful about that. In accordance with the present invention, the mobile telephone of the mobile wireless user is re-activated only as long as the mobile telephone of the mobile wireless user is located within the transmission area of the small power transmitter and the blocking code is being transmitted and received. As a result, interfering high frequencies are not radiated.

In the less critical area, the mobile station is not completely deactivated and can be kept in idle mode, after leaving the transmission area, in the normal state. A mechanism is used to automatically transition to standby mode, and the mobility management process takes place without the user of the mobile station entering data or commands.

Mobile telecommunications in a public cellular mobile radio network having at least one base transmitting / receiving station and a mobile station, in particular a transmitter / receiver arrangement, a microcontroller, a current supply unit and an input / output arrangement. The device according to the invention for the operation of a communication transmitter is based on a transmitter / receiver arrangement which has been modified to have a picocell radio for reception and evaluation of specific information. The picocell radio can supply the special information received to the microcontroller so that the signal to log off the network via the transmitter / receiver group is transmitted, and the current supply of the mobile telephone The unit can also be deactivated or switched off, but the picocell radio remains active.

Thus, according to the present invention, each mobile telecommunications device has a second transmitter / receiver configuration group, ie, a second low power radio system, especially a business radio system for mobile communication, in particular. , Including communication systems over small distances, ie in the area of so-called picocells.

An opposite station, that is, a picocell transmitter fixed station is provided, for example, at the entrance of an airplane, at the entrance of a hospital, or the like, and transmits specific information.

As soon as the picocell radio of each mobile station has reached the vicinity of the picocell transmitter fixed station, ie as soon as data can be exchanged without errors, the fixed station sends the picocell to the mobile telecommunications terminal via the picocell. A special code is used to convey information that the mobile telephone has been deactivated.

[0021] The mobile telephone then shuts down the cellular radio system, with the picocell radio still being active anyway. Thus, the picocell radio receives another information or code transmitted from the fixed station and becomes active again.

In an embodiment of the present invention, a DECT system or a Bluetooth system already integrated in the mobile telephone or additionally provided is used for the picocell radio system. Here, for example, the DECT radio unit can be used in a so-called dual mode handy GSM. That is, the picocell radio system is not used here or is used not only for the transfer of valid data, but also for the remote control of mobile radio equipment functions independently of user actions. , Or such a function is additionally provided.

By signaling the network notification along with the request by the picocell transmitter fixed station, the caller is signaled that a connection cannot be made immediately based on the predetermined location of the mobile radio network subscriber. You. Here, as is known, call forwarding or call storage may be switched. As usual, each mobile station before deactivation,
For example, within the area of a GSM mobile radio network, IMSI detach information is transmitted to the network and to each respective base transmitting / receiving station.

Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.

The figure shows the principle configuration of the picocell fastening station in the area of the door opening of the aircraft.

A picocell transmitter fixing station PS is provided on the fuselage F of the airplane, in the immediate vicinity of the door opening FT, and the picocell transmitter fixing station PS transmits low power, that is, local specific information. I do.

When the mobile telephone MT reaches the radiation area of the fixed station PS, for example when the user enters the airplane through the door opening FT, the picocell radio FS in the mobile telephone MT activates the corresponding mobile telephone MT. Receive information.

After receiving this information, the mobile telephone MT is logged off by a base transmitting / receiving station, not shown, and after the network logoff, the mobile telephone is completely deactivated or deactivated.

Instead of completely deactivating the mobile part, it is not possible to access the respective radio cells via the corresponding transmitter / receiver components in the mobile telephone MT, but the mobile telephone is not accessible. The picocell wireless device FS in the MT may remain in the reception standby state. In this embodiment, the second information is transmitted from the local radiating transmitter, that is, the picocell transmitter fixed station PS side (Abse
tzen), the mobile telephone is reactivated and notified to the network. The information to be transmitted is symbolized by reference symbol C, where the transmission interval is clear from the arrow notation.

Naturally, in the embodiment, even after the mobile telephone MT leaves the transmission area of the locally radiated transmitter or the picocell transmitter fixed station PS, the mobile telephone MT is manually reactivated and notified to the network. Good.

[0031] Advantageously, the user of the mobile telephone MT is optically and / or acoustically signaled that he has entered the transmission area of the fixed station FS.

In the described embodiment, the mobile telephone can be deliberately or unintentionally deactivated in safety-critical or dangerous areas. In this way, it is possible to avoid disturbance of sensitive electronic devices, for example, on civil transport aircraft. It is possible to block or prevent external calls to mobile telephones in areas of particular importance and where it does not want to interfere, and when leaving this area The blocking state can be automatically released. A known optical and / or acoustic method, using corresponding components of the mobile telephone, to indicate to the subscribers and users of the mobile radio network in a corresponding manner that they have entered or left the picocell area. Various signaling means can be used.

[Brief description of the drawings]

FIG. 1 shows the principle configuration of a picocell fixing station in the area of an airplane door opening

Claims (10)

[Claims] 1. A method of operating a mobile telecommunications terminal in a public cellular mobile radio network having at least one base transmitting / receiving station and a mobile station, for example a mobile telephone, radiating the mobile station locally. Log off upon receipt of the first information of the low power transmitter, wherein the mobile station is completely deactivated with respect to the radio cell after network logoff and deactivated, or deactivated from the network side Disconnecting the call to a state and / or transitioning to an outgoing call mode and reactivating when receiving the second information from the locally radiating transmitter. how to. 2. The mobile station according to claim 1, wherein when the locally radiating transmitter leaves the transmission area, the mobile station is manually activated and notified to the network in the case of the second information having an error. Method. 3. If the second information is not received over a predetermined time portion,
2. The method of claim 1 wherein each mobile station is automatically transitioned to an operating mode to a standby operating state. 4. The method according to claim 1, wherein the reception of the first and / or second information is optically and / or acoustically signaled, whereby the information content or the parameter can be displayed. The method of claim 1. 5. At least one base transmitting / receiving station and a mobile station, for example a mobile telephone (MT), wherein said mobile telephone (MT) comprises a transmitter / receiver component, An apparatus for operating a mobile telecommunications terminal in a public cellular mobile radio network having a controller, a current supply unit and input and output components, the transmitter / receiver component additionally comprising a picocell radio device (FS) to specific information (C
) For reception and evaluation, wherein the picocell radio equipment (FS)
Supplies the specific information (C) to a microcontroller, which transmits a network logoff signal through the transmitter / receiver group, wherein the microcontroller communicates with the base station. A device for deactivating parts of the transmitter / receiver components required for communication. 6. An operating system for a mobile telecommunications terminal in a public cellular mobile radio network having at least one base transmitting / receiving station and a mobile station, for example a mobile telephone, active in an access area or with respect to a radio cell. A picocell transmitter fixed station (FS) is provided at a mobile station for transmitting to or a location where operation of the mobile station is unacceptable or undesirable, and automatically deactivates mobile stations within the transmission area. Or a specific information for deactivating and reactivating is provided. 7. The system according to claim 6, wherein a low power picocell transmitter fixed station (FS) is provided in the area of the air passenger or cargo opening. 8. The system according to claim 6, wherein an existing picocell radio system is used as the picocell transmitter fixed station and for the associated radio device in the mobile telephone. 9. The system according to claim 8, wherein the picocell wireless system is a DECT or Bluetooth standard system. 10. A mobile telephone is a dual mode handy, for example,
The system according to claim 9, which is DECT-GSM-Handy.