RU2574816C2 - Mobile telephony module and method of determining suitable cell - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: present invention relates to a GSM communication module, which enables the application that controls it to specify a set of required criteria relating to the characteristics of the packet switching service offered by the cell. Said set of criteria can be taken into account by said module at various levels. The module can take said criteria into account in the initial method for selecting a cell for connecting thereto. The module can also take said criteria into account in the method for reselecting a new cell and in the method of monitoring neighbouring cells.

EFFECT: avoiding connection with a cell for which a packet switching service is unavailable, including all characteristics required for said application, especially if such a cell is available around the communication module.

11 cl, 5 dwg

Description

The present invention relates to the field of mobile telephony and, more specifically, to the field of so-called machine-machine communication modules. However, the present invention can be applied to any wireless telephone device.

Initially, in cellular mobile telephone networks, wireless telephone communication devices were simple handsets for transmitting voice via a cellular radio network, while voice transmission was carried out using a circuit switched service. In short, simple voice transmission was not sufficient, and the terminals were equipped with means for transmitting data in accordance with packet-switched protocols, such as the Internet Protocol (IP, defined in RFC 791). These improvements have led the development of various generations of communication standards, such as GPRS (General Packet Radio Service, General Packet Radio Service), EDGE (Enhanced Data Rates for GPRS Evolution, improved data rates for the development of GPRS), UMTS (Universal Mobile Telecommunications System, universal mobile communication system) and HSUPA (High Speed Uplink Packet Access, high-speed uplink packet access).

A packet-switched service is implemented by the GPRS subsystem, while GPRS denotes, in accordance with the context, a packet-switched mode or types of coding and subsequent modulation (CS1 ... 4, GMSK (Gaussian manipulation with a minimum frequency shift)) of the symbols over the air. EDGE is a type of burst mode that differs from GPRS only in other coding and modulation (MCS1 ... 9, 8-PSK (8-position phase shift keying)) of data over the air; the full protocol stack of the radio channel is identical. Thus, unless otherwise indicated, GPRS will denote a packet-switched service based on GSM (Global System for Mobile Communications, a global mobile communications system) regardless of radio access technology.

Since GSM networks mainly provide circuit-switched service, packet-switched service is its dynamic part. The network operator can activate the specified service only in some cells or deactivate it at a specific time of the day to free up resources, in particular radio resources, for a circuit-switched service. Such a function is well suited for a user to use traditional mobile telephony.

In this context, the GSM standards provide for the selection of the base station with which the mobile phone is connected based on the quality of the circuit-switched service. These mechanisms do not take into account the availability or characteristics specific to a packet-switched service.

GSM networks are increasingly used in the so-called machine-machine context. In this context, the equipment is equipped with a GSM communication module, which it uses to communicate with other equipment or to obtain the necessary services. The GSM communication module is controlled to a greater extent by the application, not the user. These applications set communication requirements that must be absolutely met for the application to work correctly. Even if some of these applications can use a circuit-switched service, the overall ability to operate a packet-switched service is essential. In addition, a number of characteristics of the specified packet-switched service may be necessary for the correct operation of the specified application.

In this context, it is undesirable for the system’s mobile communication module to connect to a cell for which a packet-switched service is not available, including all the characteristics necessary for the specified application. All this is even more true if such a cell is available in the environment of the communication module.

The present invention seeks to solve the above problems by using a cell selection method taking into account one or more criteria related to the characteristics of the packet-switched service provided by the specified cell. Preferably, these criteria are also included in the cell reselection method if said module is already connected to the first cell.

Using the specified method in accordance with the present invention provides priority connection of the communication module with those cells that provide a packet-switched service that meets the criteria specified by the application for its correct operation.

The present invention relates to a method for determining whether a cell is suitable, a wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, which includes a step of checking the network to which the specified cell belongs; the step of verifying that the specified cell is not prohibited; the step of verifying that the location zone is not prohibited; the step of checking the quality of the radio channel in the event of a loss of radio connection; and the step of checking at least one criterion related to the characteristics of the packet-switched service provided by the specified cell.

According to a particular embodiment of the present invention, the packet-switched service is a GPRS service, said method including the step of verifying the support of said hundredth packet broadcast control channel (PBCH).

According to a specific embodiment of the present invention, the packet-switched service is a GPRS service, wherein said method includes the step of verifying support for said hundredth EDGE standard.

According to a particular embodiment of the present invention, the packet-switched service is a GPRS service, said method including the step of checking a network mode used by said cell.

According to a particular embodiment of the present invention, the packet-switched service is a GPRS service, said method including the step of verifying that the specified cell is under congestion notification (CCN).

The present invention also relates to a method for selecting a cell by a wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, characterized in that said method includes the step of eliminating cells that have been identified as cells that are not suitable, as stated above.

According to a specific embodiment of the present invention, said method includes the step of selecting a priority of cells that have been identified as cells that are suitable, as described above.

The present invention also relates to a method for cell reselection by a wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, characterized in that said method includes a step of initiating cell reselection if said cell is no longer defined as a cell, which is suitable as indicated above.

According to a specific embodiment of the present invention, said method includes a step of checking transmission quality of RLC control units (radio link control) upon reception during packet mode transmission.

The present invention also relates to a wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, including for determining whether a cell is suitable: means for checking the network to which the specified cell belongs; means for verifying that said cell is not prohibited; means for verifying that the location area is not prohibited; means for checking the quality of the radio channel in the event of a loss of radio connection; and means for checking at least one criterion relating to the characteristics of the packet-switched service provided by the specified cell.

According to a specific embodiment of the present invention, said module includes means for controlling it from the application side so as to define for it a set of criteria related to the characteristics of the packet-switched service.

The above characteristics of the present invention, as well as other characteristics will become more apparent from reading the following description of embodiments of the present invention, which is given in relation to the accompanying drawings, among which:

Figure 1 illustrates the overall architecture of the functioning of machine-machine communication;

Figure 2 illustrates an example of connecting to a packet-switched service;

3 illustrates a flowchart of a procedure for determining whether a cell is suitable in an embodiment of the present invention.

The context of machine-machine communication corresponds to the context in which equipment for processing information should be connected to the service without direct user control. This could be, for example, the case of a payment terminal that connects to its bank’s servers, a train ticket vending machine, a passenger car, an alarm system, or a meter such as a gas or electric meter for remote reading.

Figure 1 shows the overall architecture of the functioning of machine-machine communication. The hardware item 1.1 includes a GSM communication module 1.2. The specified equipment is surrounded by a group of base stations 1.3, 1.4, accessible by radio. Each of these stations defines a GSM cell. GSM module 1.2 selects one of the indicated cells and connects, for example, to base station 1.4. This base station is supposed to provide a packet-switched service, in this case GPRS. This service has an affordable connection to a packet-switched network 1.5, typically the Internet. The communication module may also use the specified packet-switched service to connect to a remote device 1.6, which itself is connected to a communication network 1.5.

Equipment 1.1 typically includes an information processing device for executing an application managing a service for which the equipment is designed. This application requires communication, and for this it refers to the GSM communication module. These requirements depend on each application. Further in the present description, said application is called a machine-to-machine application. Thus, it sets the specified requirements and controls the communication module.

A machine-to-machine application typically requires data exchange using a packet-switched service, but sharing or independent use of a circuit-switched service may also be required. Most existing modules provide two services, but usually not at the same time. They are called modules, GPRS Class B in the document TS 22.060 3GPP (3 ^rd Generation Partnership Project, the Third Generation Partnership Project) "General Packet Radio Service (GPRS ); Service Description; Stage 1" ( "service of general packet radio (GPRS); Service description ; stage 1 ").

The indicated equipment usually interacts with the communication module via a serial connection of the RS-232 or USB type, or even Bluetooth with standard or specialized AT commands (modem control commands). The standard used is described in document TS 27.007 3GPP “AT command set for User Equipment (UE)”.

Each cell in the GSM network transmits information intended for mobile equipment on the main frequency (the frequency of the beacon that is specific to it), this is a beacon channel that includes the Frequency Correction Channel (FCCH) and the Synchronization Channel (SCH). This information includes a synchronization code. Specific information is also transmitted via the Broadcast Control Channel (BCCH) and includes the network number, criteria for the C1 and C2 radio channels for selecting the cell according to the received power, information related to GPRS, if the cell provides GPRS, the indicator of the forbidden cell and frequency list of lighthouses of neighboring cells. This information is transmitted in the form of blocks of information called system information (System Information, SI).

For cells providing a GPRS packet switching service, some cells provide a Packet Broadcast Control Channel (PBCCH), while others do not provide this channel. The presence of a channel is indicated in a block of information called SI13 of the BCCH channel. If such a channel exists, the RVSSN channel is organized so that it broadcasts information, in particular, on the presence of additional channels that provide the module with notification of a GSM call in channel-switched mode, while information is transmitted in packet-switched mode. . In addition, new criteria have been set for the radio channel, such as C31 and C32 instead of C2, while criterion C1 is supported. Information broadcast on the PBCH channel is formed, like BCCH channel information, into blocks of information called Packet System Information (PSI). This information is described in 3GPP TS 44.060 “MS-BSS Interface RLC / MAC Protocol” (“MS-BSS Interface RLC / MAC Protocol”).

A cell may provide a packet-switched service without providing a PBXCH channel, but then there will be no benefits related to broadcasting said information.

A packet-switched service is a dynamic service. The network may modify the characteristics of this service at any time or even omit them. Accordingly, the broadcast transmission of information on the BCCH and PBXCH channels is modified. These changes are indicated by placing binary flags in these channels, namely the bits of the change marks (Change Mark).

To access the services of the GSM network, a subscription from the network operator is required. This subscription also fixes the conditions for roaming in other networks. The necessary information is stored on the SIM card (Subscriber Identity Module) associated with this subscription and used by the module to access the network.

To use the network services, you must select a cell to connect to it. A method for selecting said cell includes searching for this network over a radio channel and then registering therein. The registration procedure is described in TS 23.122 3GPP “NAS Functions related to Mobile Station (MS) in idle mode” and can be automatic when the module itself selects a network in according to specified criteria, or manual. In this case, the module provides the user or application with a list of currently available networks, after which the user or application must select the desired network. In accordance with the configuration of the network and the module, the registration procedure can be performed separately for the circuit-switched service and the packet-switched service, or simultaneously for two services. To enable the use of packet-switched services, in this case GPRS, the module must be “connected” to the GPRS service on the network.

With automatic network selection, cells detected in the radio environment are first sorted in the order of priority of their networks according to the standard, and then are calculated by the module in accordance with criterion C1. When a cell is selected, the module starts with the group of networks that have the highest priority, and looks for a suitable cell among them with the best criterion C1. If there is no suitable cell in this group, it goes to the next network group or, otherwise, it is located in the found cell and initiates the registration procedure.

A method for determining whether a cell is suitable is described in 3GPP document “Functions related to Mobile Station (MS) in idle mode and group receive mode” ") (paragraph 3.2.1). The specified method includes the following steps:

- step of checking the network to which the specified cell belongs;

- the step of verifying that the specified cell is not prohibited;

- the step of verifying that the location zone is not prohibited;

- step of checking the quality of the radio channel in the event of a loss of radio connection.

When manually selecting a network, the specified module searches for the network via the radio channel and displays the search results in order of priority of the networks. In the case of a dialogue between a machine-machine application and the module using AT commands, the display displays information in response to the command "AT + COPS =?"

After registration is completed in the network, the module continuously checks whether it is in the best cell in terms of the received power of the radio channel and whether the specified cell is still suitable. If this is no longer the case, and the module is in standby mode, that is, it does not communicate using either circuit switching or packet switching, this module initiates a cell reselection procedure. A complete list of re-election triggering criteria is given in TS 03.22 3GPP "Functions related to Mobile Station (MS) in idle mode and group receive mode") ( paragraph 4.5).

In the absence of a suitable cell, the module considers that the contact with the network has been lost and starts searching for the network again.

If the module transmits data using GPRS, then for specific network configurations, referred to in the NCO0 and NCО1 standard, the module is autonomous when re-selecting a cell, but for other configurations, such as NCO2, it changes the cell in accordance with the network instructions, the decision on which generally accepted based on power measurements and radio channel quality reports transmitted by the module.

The complete list of neighbor cell beacon frequencies supported by the module includes a list transmitted over the beacon channel of the cell with which the module is connected, and possible cells are added to or removed from network messages as described in TS 44.60 3GPP RLC / MAC Protocol MS Interface -BSS "(" MS-BSS Interface RLC / MAC Protocol "). The module regularly measures the average frequency power in this list. If necessary, the module sends to the network the result of power measurements of the six most powerful neighboring cells. When the specified module is connected to the GPRS service, unlike only the GSM connection, the module may not decode the information channels of these six most powerful neighboring cells.

The radio channel criterion C1 is calculated in accordance with the received radio channel capacities and the maximum radio channel power, which can be transmitted in accordance with the wording described in the document TS 45.008 3GPP "Radio subsystem link control". It should be noted that this criterion is presented differently depending on whether the initial cell selection phase or the reselection phase is included.

In all cases, if C1 is less than or equal to zero, the cell is not suitable.

In the GPRS protocol stack, at the top of the physical layer of the radio channel is the RLC / MAC layer, level 2 in accordance with the OSI model (Open System Interconnection, open system interaction). Information is transmitted at the indicated RLC / MAC level in blocks. There are RLC control units for controlling transmission, and RLC data blocks carrying application data.

At the physical level, these blocks are transmitted using a modulation scheme. It is possible to use several modulation schemes that are resistant to interference in the radio channel and the bandwidth that they allow. The more robust the modulation scheme adopted, the smaller the allowed bandwidth. Adaptation is continuously performed to select the best modulation scheme in accordance with the current quality of the radio channel. At any time, a modulation scheme is selected that provides the choice of the best bandwidth. However, this selection only distributes data blocks. In order to ensure their good transmission in all cases, these control units are always transmitted in accordance with the most stable circuit designated CS1.

The possibility that the module is informed about the cell using a circuit switched service when it is connected to the packet modulation service depends on a network mode called NMO (Network Mode Operation), as described in TS 23.060 “ General Packet Radio Service (GPRS); service description; Stage 2 "(" General Packet Radio Service (GPRS); Service description; Stage 2 ").

When the network operates in accordance with the NMO1 mode, the module is informed about the reception of a circuit switched service call, whether it is in standby mode or transmits data while providing a packet switched service.

When the network is operating in accordance with NMO3 mode, the module can sometimes miss circuit-switched service calls, even if it is in standby mode.

NMO is a broadcast in SI13 if the cell does not have a PBCC channel, and in PSI13 if the cell has a PBCC channel.

If the application running the equipment requires a packet-switched service, this is usually done in accordance with the flowchart of FIG.

In the first step 2.1, the application verifies that the module is indeed registered on the network. Otherwise, a network search is initiated. After that, if necessary, at step 2.2, the application continues to connect the module to the packet-switched service. Then, in step 2.3, the application configures the PDP context (Packet Data Protocol, packet-switched protocol), which contains the information necessary to establish a communication session. After that, in step 2.4, the application establishes a point-to-point connection, that is, a connection using the PPP protocol (Point to Point Protocol) between the application and the module. This activates the PDP context. The PPP communication line transfers the IP address (Internet Protocol) to the application and the IP address to the module. A PDP context is a data item shared by a module and a GPRS network. It contains, among other things, the IP address that the network has assigned to the module. The module redirects this IP address to the application through PPP. The specified IP address is used for connections using UDP (User Datagram Protocol) or TCP (Transfer Control Protocol) in another application, which is basically external to the GPRS network.

In general, GPRS networks deactivate the PDP context after some time, and sometimes they also force GPRS to shut down.

If there is a restriction by the GSM standard during the initial selection or reselection of a suitable cell, the availability of a packet-switched service is not a cell selection criterion. The module can select an authorized cell that provides the best radio reception, but does not provide GPRS service, even if the application is running, the equipment requires access to the packet-switched service for its operation. Even if the selected cell had an available service, the application may require specific service functionality that will not be available. In the current standard, there is no possibility of choosing as a priority cells that provide a packet-switched service whose characteristics correspond to the expectations of the application.

These expectations may, for example, include the presence of the PBXCH channel, the NMO mode of network operation, which is suitable when the application requires the sharing of a packet-switched service and a circuit-switched service. In addition, it is desirable to ensure that the module can search for a new special (ad hoc) cell if the selected cell deactivates the packet-switched service with the help of an operator or if the quality of the radio channel becomes unsatisfactory compared to the requirements of the application.

Recent versions of the 3GPP standard include handover packets for changing cells during GPRS transmission, if the quality of the radio channel has deteriorated too much, but few networks and modules can do this. The RXLEV_ACCESS_MIN parameter broadcast by the cell and fixed by the operator may be fixed too long to have the good GPRS reception quality needed for the application running the UE.

The present invention provides a GSM communication module providing means for an application that controls it to set a set of necessary criteria related to the characteristics of a packet-switched service provided by a cell. This set of criteria can be taken into account by the module at various levels. The module can take these criteria into account in the initial selection of the cell to which it is connected. He can also take these criteria into account in the method of re-selecting a new cell, as well as in the method of monitoring neighboring cells. Preferably, each of the criteria is divided into a priority criterion and an exclusion criterion. According to the priority criterion, cells having the specified criterion have priority. According to the exclusion criterion, cells that do not have the specified criterion are excluded from the cell selection or reselection procedure. These two types of criteria provide the ability to differentiate between the desired criteria and the criteria required by the application. Preferably, each criterion has a default value used if the criterion is not specified by the application.

The use of these additional criteria by the module does not include any modifications to the network by the operator, since the modules in accordance with the present invention operate in the context of an existing network.

In an embodiment of the present invention, the means for managing various criteria provided by the module include an additional specific AT command. An application can use this command to set the criteria to use. Any other means of communication may be used in accordance with the connection established between the application and the module. In particular, it is possible to modify the module configuration file or use a specific module programming interface. In all cases, control tools often provide the module with a list of criteria that should be applied to search, select, or reselect cells.

In an embodiment of the present invention, the criteria relate to information received from the BCCH or PBCH channels, if present. These criteria relate, inter alia, to the presence of the PBXCH channel, EDGE support, network operating mode (NMO) and support for CCN_ACTIVE notification (Cell Congestion Notification, cell congestion notification). Other criteria may also be used.

The priority criterion is set with respect to the presence of the PBMC channel. If this criterion is active, then the cells having the PBXCH channel take precedence in the operations of selection or reselection. If the specified criterion is inactive, the presence of the PBXN channel is not used. In the absence of any indication, by default, the module preferably selects cells having a PBXCH channel. The exclusion criterion is also set to enable exclusion of cells that do not support the RVSSN channel. By default, all cells are received regardless of the support of the PBXN channel.

With regard to EDGE support, the priority criterion provides a preferred selection of cells providing EDGE support. By default, EDGE support is neutral. The exclusion criterion provides the ability to reject cells that do not support EDGE. By default, reception of cells with EDGE support is provided.

With regard to the network operating mode, the criterion provides the ability to set priorities for various modes. By default, cells operating in accordance with NMO1 mode have priority over cells operating in accordance with NMO2 mode, which in turn have priority over cells operating in accordance with NMO3 mode. The criterion makes it possible to exclude cells that do not work in accordance with the specified mode. By default, all modes are allowed.

With regard to support for congestion notifications, the priority criterion provides a preferred selection of cells providing CCN support. By default, cells that do not provide CCN support are preferred. The criterion makes it possible to exclude cells that do not provide CCN support. By default, cells that do not provide CCN support are allowed.

The criterion also makes it possible to modify threshold power values received in connection with a circuit switched service and a packet switched service. These threshold values in the standard are denoted by APP_RXLEV_ACCESS_MIN and APP_GPRS_RXLEV_ACCESS_MIN and are used to calculate criterion C1, which participates in the selection policy. Preferably, these threshold values cannot take negative values to avoid selecting cells whose received power is too low. By default, all threshold values are constant and equal to zero.

It may also be preferable to provide means for modifying the minimum threshold value of the radio channel quality for transmitting RLC control units so that the GPRS service functions in the serving cell. This parameter is denoted by GPRS_RLC_RXQUAL_MIN and its default value is 7.

The calculation of the quality of the radio channel for transmitting RLC control units is performed for several RLC units. Preferably, a criterion is provided allowing the application to then modify this number, denoted by GPRS_RLC_RXQUAL_NB, which is 104 by default.

In the document 03.03 3GPP TS "Functions related to Mobile Station (MS) in idle mode and group receive mode" (paragraph 3.2.1) standard defines the concept of a “suitable cell” for defining a cell that can be selected for connection. In the context of the present invention, this concept has been advantageously expanded, and “a suitable cell for GPRS” is defined as a cell that is suitable in a standard value, which additionally provides a GPRS service and satisfies all the exclusion criteria defined above. Thus, this is the case of cells that can be selected in accordance with the standard and which are not excluded due to any additional criteria described.

FIG. 3 illustrates a method for determining such a cell in accordance with an embodiment of the present invention. According to this method, the availability of GPRS service, support of the PBXN channel, EDGE support, network operation mode and CCN support have been successfully determined. FIG. 3 consists of the flowcharts illustrated in FIGS. 3a, 3b and 3c, labels A and B show the relationship between the various flowcharts.

If it is determined in step 3.1 that the cell is suitable in accordance with the standard, step 3.2 of reading blocks SI3 and SI4 of BCCH channel information is carried out. Then, in step 3.3, it is determined whether GPRS support is indicated by these blocks of information. If so, in step 3.4, the SI13 block of the BCCH channel is read. Then, at step 3.5, the hundredth determines the support of the PBXN channel. If this is not the case, at step 3.6 it is checked whether support of the PBX channel is an exclusion criterion. If so, the cell is deemed unsuitable for GPRS. If so, in step 3.8, the GPRS information is decoded into block SI13 of the BCCH channel. If the PBXCH channel is supported, at step 3.7, the information block PSI13 is read into the channel, and then at step 3.9 the GPRS information is decoded into this block. After these steps 3.8 and 3.9 decoding proceed to fig.3b. At step 3.10, check EDGE support. If EDGE is not supported, in step 3.11, they check if this support is an exclusion criterion. If so, the cell is deemed unsuitable for GPRS. In case EDGE is supported or if this is not an exclusion criterion, at step 3.12, check whether the cell is functioning in accordance with the NBMO1 network operating mode. If the result of this check is negative, in step 3.13, it is checked whether the NMO1 mode is an exclusion criterion. If so, the cell is deemed unsuitable for GPRS, otherwise go to label B. If the cell does not function in accordance with NMO1 mode, in steps 3.14 and 3.15 the NMO2 mode is checked in the same way. If the NMO2 mode is also not a cell’s operating mode, therefore, it operates in accordance with the NM03 mode, which is checked at step 3.16 for compliance with the exclusion criterion. Fig. 3c shows what will happen after it is determined that the cell is operating in accordance with a non-exception mode of operation. Then, at step 3.17, CCN notification support is checked. If this support is not available and is an exclusion criterion, at step 3.18 it is recognized that the cell is not suitable for GPRS. Otherwise, the CCN notification is supported or not an exclusion criterion, and a cell is defined as a cell that is suitable for GPRS.

Preferably, the module includes a step of calculating a transmission quality value of the RLC control units upon reception during transmission in packet-switched mode. These blocks are always transmitted in accordance with the so-called stable modulation scheme CS1, and therefore, they are not dependent on changes in the modulation scheme. In an embodiment of the present invention, the calculation of this quality value is the average value of quality measurements for a set of received RLC control units. The number of enabled blocks is fixed by the parameter GPRS_RLC_RXQUAL_NB, which can be modified by the application. If there is a cell change, this calculation is re-triggered. If the quality value falls below the threshold value, the cell reselection step is started.

Upon initial selection of a cell, the standard cell search procedure is adapted to search for a cell suitable for GPRS, and not to search for a suitable cell in the value of an existing standard.

During the search phase of cells suitable for GPRS, in terms of selecting the best cell, the following steps are taken:

- in the first step, the cells are sorted in accordance with the priority of the network, if there are cells belonging to several networks;

- then apply the priority criteria specified by the application specified above in the present description;

- finally, the cells are sorted into subsets obtained in accordance with criterion C1, potentially modified by the specified application, in descending order of this criterion.

The standard in TS 45.008 3GPP “Radio subsystem link control” (paragraph 10.1) indicates that a module connected to a cell carries out monitoring of neighboring cells. This process includes monitoring the six most powerful cells in the list of neighboring cells. Then the module transmits to the network a report on the measurement of received capacities. Advantageously, this process, if modified to include the step of reading out information from the BCCH channels and possibly the PBCH of these cells to check exclusion criteria, is described above. In addition, this process includes the step of suppressing cells that have been thus identified as cells that are not suitable for GPRS. The process also includes the step of introducing a number of cells suitable for GPRS among the most powerful cells available.

In the document 03.03 3GPP "Functions related to Mobile Station (MS) in idle mode and group receive mode" (paragraph 4.5), the standard provides for a set of events triggering cell reselection. That is, if one of these events occurs, the module connected to the given cell will search for a new different cell to reconnect to it. Preferably, the module in accordance with the present invention also triggers a reselection in the following events:

- if the cell is within the exclusion criterion due to network modification of the packet-switched service, that is, if the cell is no longer defined as a cell suitable for GPRS. This may also be the case when the application sets a new exclusion criterion;

- if the measured value of the reception quality of the RLC control units falls below the threshold value specified by the application.

In all these cases, the module is disconnected from the current cell and searches for a new cell.

Thus, the present invention provides the ability to more optimally take into account the requirements of the application for communication. It applies to any GSM communication used in information processing equipment. Also, the present invention can be used in a simple mobile phone, in particular a smartphone, in which applications that require a machine-type connection can be placed.

Claims (11)

1. A method for determining whether a cell is a suitable wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, comprising the following steps:
- step of checking the network to which the specified cell belongs;
- the step of verifying that the specified cell is not prohibited;
- the step of verifying that the location zone is not prohibited; and
- step of checking the quality of the radio channel in case of loss of radio connection;
characterized in that said method also includes the step of checking at least one criterion related to supporting the functionality of a packet-switched service provided by said cell. 2. The method according to p. 1, characterized in that the packet-switched service is a General Packet Radio Service (GPRS) service, wherein said method includes a step of verifying support for said hundredth packet broadcast control channel (PBCCH). 3. The method according to claim 1, characterized in that the packet-switched service is a GPRS service, said method comprising the step of verifying support for the specified hundredth EDGE standard (improved data rates for developing GPRS). 4. The method according to claim 1, characterized in that the packet-switched service is a GPRS service, said method comprising the step of verifying the support of the network operation mode used by said cell.            5. The method according to claim 1, characterized in that the packet-switched service is a GPRS service, said method comprising the step of verifying support for the specified cell hundred cell congestion notifications (CCN). 6. A method for selecting or reselecting a cell by a wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, characterized in that said wireless communication module itself is connected with priority to a cell providing a circuit switched communication service and a packet switched communication service. 7. The method according to p. 6, characterized in that the method includes the step of eliminating cells that have been identified as cells that are not suitable, according to the method according to any one of paragraphs. 1-5. 8. The method according to p. 6, characterized in that said method includes the step of initiating cell reselection, if said cell is no longer defined as a cell that is suitable, according to the method according to any one of claims. 1-5. 9. The method according to p. 8, characterized in that it includes a step of checking the transmission quality of the RLC control units (radio link control) during reception during transmission in packet-switched mode. 10. A wireless communication module in a cellular mobile telephone network providing a circuit switched communication service and a packet switched communication service, including, for determining whether a cell is suitable:
- Means for checking the network to which the specified cell belongs;
- means to verify that the specified cell is not prohibited;
- Means to verify that the location area is not prohibited; and
- means for checking the quality of the radio channel in the event of a loss of radio connection;
characterized in that said module also comprises means for checking at least one criterion related to supporting the functionality of a packet-switched service provided by said cell. 11. The wireless communication module according to claim 10, characterized in that it includes means for controlling it from the application side so as to set for it a set of criteria related to supporting the functionality of the packet-switched service.

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