WO2010085974A1 - Method for recognizing unnecessary cell changes in a mobile radio network - Google Patents

Abstract

The invention relates to a method for operating a cellular mobile radio network. In said method, each cell (n) in the mobile radio network has a unique identification (n), and the identification of the current cell (n) for a mobile radio terminal that is currently registered in a cell is temporarily stored in the network. Additionally, at least the registration time (t) in the current cell (n) is stored, in particular temporarily, especially in order for the network to detect unnecessary cell changes.

Description

 Method for detecting unnecessary cell changes in a mobile network

The invention relates to a method for operating a cellular mobile radio network, wherein each cell of the mobile radio network has a unique identifier, and wherein the identifier of the current cell is temporarily stored on the network side to a currently registered in a cell mobile terminal.

Mobile networks allow users to use the services offered, in particular via different wireless technologies, such as 2G (GSM / GPRS / EDGE), 3G (UMTS / HSxPA) or LTE.

The mobile networks are usually in radio network and "core network", i. the core network, divided.

The radio network provides for the radio coverage, the "core network" acts other functions of the network such as the localization of the terminals, so that the customer can be reached at any time by initiating the so-called paging (broadcast within a network area comprising multiple cells) for so-called "paging". Mobile Terminated Calls, ie calls within a mobile network in which the called terminal is a mobile terminal. The mobile operators have the opportunity to prioritize the

Radio technologies (2G (GSM / GPRS / EDGE), 3G (UMTS / HSxPA) or LTE).

There are locations in the network that are the boundary between a radio technology and the other.

The standards have defined various possibilities so that, depending on the quality of the radio coverage or the prioritization of the radio technologies, either the terminals automatically change from one cell to another and thereby send a request to the Core Net (eg area change procedure, so-called Routing Area Update) Procedure, abbreviated RAU) or, depending on the quality of the radio coverage or the prioritization of the radio technologies, the network forces the terminals to change from one cell to another (handover procedure).

The two procedures described above result in a change in the location of the terminal operating in the core network, i. registered in the Core Net.

The nodes of the core network are able to distinguish between switching within the node and switching to another node through the usual signaling that is exchanged during a cell change.

If a terminal is at the boundary between 2 or more cells or wireless technologies, it may be in an unstable state and often switch between the different cells or radio techniques: this problem can also be described as a ping-pong effect or carousel effect. This results in unnecessary or superfluous cell changes.

There are terminals that switch between two or more cells or two or more wireless technologies often and quickly back and forth. A particular disadvantage is that this causes an unnecessary signaling load in the network and drastically reduces the battery life of the terminals.

The object underlying the invention is to overcome these disadvantages and to provide a method which is suitable for detecting unstable cell change situations and thus for detecting unnecessary, superfluous cell changes in order to be able to prevent unnecessary cell changes if necessary.

This object is achieved by a method according to claim 1. Further advantageous embodiments of the invention are specified in the dependent claims.

Particularly advantageous in the method for operating a cellular mobile network, each cell of the mobile network having a unique identifier, and wherein the identifier of the current cell is temporarily stored on the network side to a currently registered in a cell mobile terminal, it is that in addition at least the time of Registration is stored in the current cell, in particular, is temporarily stored.

Preferably, the identifier of the cell n-1 used in the current cell n before the registration of the mobile radio terminal and the time t-1 of the registration in the previously used cell n-1 are additionally stored, in particular temporarily stored.

In a triggering of a change procedure between two cells, which are treated by the same core node (Intra change) for registration of the mobile terminal in a new cell n + 1 of the mobile network, the identifier of the new cell n + 1 with the identifier of the before Registration in the current cell n used cell n-1 compared, and in a match of the identifiers of the cells n + 1 and n-1, an evaluation of the times (t-1) and (t + 1) of the registration in the previous cell n-1 and the current time takes place, wherein when falling below a determinable time interval Δt = (t-1) - (t +1) the change in the new cell n + 1 on the network side as superfluous, ie as unnecessary detected, in particular is rejected.

This means that the rejection is optional, initially such a change is detected on the network side as a superfluous change and counted.

In a triggering of a change procedure between two cells, which are handled by two different core network nodes (Inter change) for registration of the mobile terminal in a new cell n + 1 of the mobile network, the identifier of the new cell n + 1 with the identifier of the previously used Cell n are compared, and in a match of the identifiers of the cells n + 1 and n takes place an evaluation of the times (t-1) and (t) of the registration in the previous cell n-1 and the current time, which falls below a determinable Period Δt = (t + 1) - (t) the change in the new cell n + 1 network side as unnecessary, ie is detected as unnecessary, in particular, is rejected.

This means that even in the case of an interchange from a first core network node to another core network node, the rejection again takes place optionally, initially such a change is detected on the network side as a superfluous change and counted. As redundant, that is unnecessary, a change in an unstable state can be called.

The mobile network is divided into cells n. These cells are each grouped into a larger "group", so-called areas, which are usually referred to with different terms such as in particular Location Areas, Routing Areas, Service Area or Tracking Areas. These terms each designate an area that includes multiple cells of the cellular mobile network. Each cell is identified with a unique identifier, the global identifier. The global identifier (English: global cell id). This "Global Cell ID" contains the identifier of the cell and the group where this cell belongs.

When a terminal is booked in a cell, the core network, i. the so-called "Core Network" is the global identifier of the cell where the mobile station is registered.

If the terminal remains silent for a given time and shows no activity, the current global cell tag is usually erased. If a request is sent to the network to reach the terminal or to send data to the terminal, then the core network must initiate a broadcast, a so-called paging procedure.

When a terminal announces itself due to the quality of the radio coverage and / or the priority of the various radio technologies to change from one cell or cell group (for example, Location Area 1) to another cell or cell group (for example, Location Area 2) Radio network and the terminal the entire identifier of the cell, where the terminal wants to go to the "core network", ie the core network.

On the other hand, if the radio network decides to force a terminal to change due to the quality of the radio coverage and / or the priority of the various radio techniques, the radio network and the terminal send the entire identifier of the cell where the terminal is to become the "Core Network".

The "Core Network" thus knows the global cell ID where the terminal wants or has to go.

If a terminal has changed cell, the "Core Network Node" previously erases the old global cell identifier from its memory and stores the new identifier. This hitherto usual deletion of the data of the previously used cell or cell group is inventively replaced by the fact that these data are stored at least temporarily and are available for further evaluation.

The invention thus consists, in particular, of storing, in addition to the global cell identifier n, the time t at which the storage took place.

The invention is applicable both when both cells are operated upon initiation of a cell change by the same core network node (intra-exchange), as well as when operating on cells of different core network nodes (interchange).

Application Intra-change:

When both the former and the current and next cells are handled, managed and operated by the same "Core Network Node", when a request is received in the "Core Network", the global cell identifier n is due to a change update the location of the terminal, so according to the invention the last global cell identifier n and the time t of storage, which had been stored as the current identifier n, in another additional temporary memory as previous identifier n-1 with the associated time stamp t-1 stored before the new current cell identifier n + 1 is stored and thereby the older cell identifier n and the old time stamp t is overwritten by the new time stamp t + 1.

As a result, the corresponding node knows about the "Core Network":

The global cell identifier n of the cell in which the terminal is currently registered;

The time t at which the current global cell identifier n was stored;

The global cell identifier n-1 of the cell in which the terminal was previously registered (before the change to cell n), and The time t-1 at which the previous global cell identifier n-1 was stored, ie the time t-1 of the registration in the previous cell n-1

Since, when triggering a cell change, the data of the cell n + 1 to which the terminal is to be transferred are transmitted as indicated above, a comparison of the identifier of the cell n + 1 to be changed with the identifier of the cell n + 1 can be transmitted. 1, in which the terminal was registered before registration in the current cell n, take place. If a match of the identifiers n-1 and n + 1 is determined, then it can be further evaluated at which time t the change from the previous cell n-1 to the current cell n has taken place. If this time difference .DELTA.t falls below a predefinable limit value, it can be concluded that an unstable position between the cells n-1 = n + 1 and n.

Application Interchange:

On the other hand, if the current cell, on the other hand, treats the former cell and the next cell by two different "Core Network Nodes", ie manages and operates when a request is received in the "Core Network", the global cell identifier n is due a change of the location of the terminal to update, so according to the invention, the last global cell identifier n and the time t of storage, which had been stored as the current identifier n, in another additional temporary memory as previous identifier n-1 with the associated time stamp t -1 is stored before the new current cell identifier n + 1 is stored, thereby overwriting the older cell identifier n and the old time stamp t by the new time stamp t + 1.

When a terminal leaves a "core network" node to switch to another "core network" node of the same kind, the temporary storage in which the current cell n is stored becomes not deleted. This allows the "Core Network" node to use the information known as the "current cell" n when the terminal comes back and semantically interpret this as an "earlier cell" even though it has been placed in the temporary "current cell" memory.

As a result, the corresponding node of the "Core Network" knows after a change from another accounts of the same kind:

The global cell identifier n of the cell in which the terminal was last registered in this node, which can be interpreted as a previous cell.

The time t at which the current global cell identifier n was stored.

As indicated above, when the cell change is initiated, the data of the cell n + 1 to which the terminal is to transition is transmitted, in the case where the former and the current cell are handled by two different "Core Network" nodes , a comparison of the identifier of the cell n + 1, in which is to be changed, with the identifier of the cell n, in which the terminal was last registered in this "core network" node done. If a match of the identifiers n and n + 1 is found, then it can be further evaluated at which time t + 1 the change from the current cell n to the following cell n + 1 is requested. If this time difference .DELTA.t falls below a predefinable limit, it can be concluded that an unstable position between the different cells.

The invention uses the above information to provide a redundant, i. unnecessary change of the cell in which the terminal is registered, i. is registered to recognize.

When a terminal announces itself due to the quality of the radio coverage to change from one cell n to another cell n + 1, the radio network sends the entire identifier of the cell n + 1 where the terminal wants to go.

If, due to the quality of the radio network, the radio network decides to command the terminal to change from the current cell n to another cell n + 1, the radio network sends the entire identifier of the cell n + 1 where the terminal should go the core network. The "Core Network" node then compares according to the invention the global cell identifier n-1, where the terminal was previously registered, and the cell identifier n + 1, where the terminal is to be registered, in particular in the case where the cell with the identifier n + 1 and n-1 are handled by the same "Core Network" node.

However, the invention is applicable even if the cell n where the terminal was last registered and the cell n + 1 where the terminal is to be registered are assigned to two different core network nodes, i. in the event that the terminal is to change from a cell assigned to another "Core Network" node to that "Core Network" node.

When the terminal changes within the same "Core Network" node, and when both cell identifiers n-1 and n + 1 are equal and the time difference Δt = (t + 1) - (t-1) between the current time (t + 1) and the time stamp t-1 of the registration of the older cell n-1 is below a predetermined limit, the cell change is considered unnecessary and, depending on the configuration, can be denied by the Core Network node.

When the terminal switches between two "core network" nodes and if the two cell identifiers n and n + 1 are the same and if the time difference Δt = (t + 1) - (t) between the current time (t + 1) and the time stamp t of the registration of the older cell n is below a predetermined limit, the cell change is judged unnecessary and, depending on the configuration, can be denied by the Core Network node.

Preferably, in the event of a rejection of a change in the new cell (n + 1), a corresponding message is generated on the network side in order to prevent an immediate re-triggering of a change procedure

Preferably, the identifier of a cell n, n + 1 comprises a cell identification and an area identification. Through the cell identification, the so-called Global Cell ID, and the area identification for the identification of the different areas (Areas), a clear assignment, identification and evaluation for the detection of unstable states and detection of unnecessary cell changes is possible.

The term "cell change" covers both the change from one cell n to another cell n + 1 of the same radio technology, as well as the change from one cell n of a first radio technology to another cell n + 1 of another radio technology.

Preferably, the data on the network side rejected changes comprising at least the identifiers of the cells (n, n + 1) and / or the identifier of the mobile station are stored on the network side for further processing.

The "core network" can thus conduct a statistic, ie store such data and thereby both count the unnecessary cell changes and store data of the affected customer and terminals in order to allow the operator the most affected customers and / or cells and / or Identify terminal types.

The invention will be explained in more detail with reference to FIGS. Show it:

Figure 1 shows an unstable state with multiple switching between two cells within a core network node;

FIG. 2 shows an unstable state with multiple changes between two cells of two different core network nodes;

FIG. 3 is a flow chart of a first embodiment of the method according to the invention;

Figure 4 is a flowchart of a second embodiment of the method according to the invention.

Identical reference symbols designate identical components or processes. In FIGS. 1 and 2 unstable states are shown, as a result of which a repeated cell change of a registered mobile radio terminal takes place from a first cell 1 into a second cell 2 and vice versa within the mobile radio system.

In the example illustrated in FIG. 1, the first cell 1 is operated by a first core network node 10 (Core Network 10) and the second cell 2 is operated by a second core network node 20 (Core Network 20), i. that the cells 1, 2 are incorporated into different core networks 10, 20.

In the second example shown in Figure 2, both the first cell 1 and the second cell 2 are operated by a single core network node 30 (Core Network 30), i. that the cells 1, 2 are integrated here in the same core network node 30 and managed by this.

Fig. 1 Inter case:

During the first registration of a mobile radio terminal in the cell 1, the cell identification 1 and the time t1 of this first registration are detected. The fields for the previous registration are not yet occupied in this case, since the logging in of the terminal takes place for the first time, for example after switching on the device.

Due to the quality of the radio connection, a cell change 11 is triggered from the first cell 1 to another cell 2. When the mobile radio terminal is registered in this second cell 2, the identifier 2 of this cell and the time t2 of the registration are stored in this cell 2.

If, due to an unstable situation, a renewed change 21 is triggered back from the second cell 2 into the first cell 1, the core network node 10 has the data of the previously used cell 1 and the time t1 of the earlier registration and the target cell 1 and further the time t3 of registration in this cell 1vor. This indicates the identity of the identifier 1 of the previous cell (s) and the target cell (n + 1). Further, the time stamp t1 of the previous log-on in the cell 1 can be evaluated, ie, if the cell identities (n + 1) and (n) match, the elapsed time since the previous registration in the target cell can be determined. If it falls below a predetermined time limit, it can be concluded that an unstable situation.

Fig. 2 intra-case:

During the first registration of a mobile radio terminal in the cell 1, the cell identification 1 and the time t1 of this first registration are detected. The fields for the previous registration are not yet occupied in this case, since the logging in of the terminal takes place for the first time, for example after switching on the device.

Due to the quality of the radio connection, a cell change 11 is triggered from the first cell 1 to another cell 2. When the mobile radio terminal is registered in this second cell 2, the identifier 2 of this cell and the time t2 of the registration are stored in this cell 2.

If, due to an unstable situation, a renewed change 21 is triggered back from the second cell 2 into the first cell 1, then the core network has the data of the previously used cell 1 and the time t1 of the earlier registration in cell 1 and, furthermore, the data of the cell currently used cell 2 at time t2 of registration in this cell 2 before and the next cell 1 at time t3.

This indicates the identity of the identifier 1 of the previous cell (n-1) and the target cell (n + 1). Furthermore, the time stamp t1 of the previous log-on in the cell 1 can be evaluated, ie it can be determined upon detection of the coincidence of the cell identifiers (n + 1) and (n-1) the elapsed time since the previous registration in the target cell. If it falls below a predetermined time limit, it can be concluded that an unstable situation. In the case of repeatedly triggered changes 11, 21 from the first cell 1 to the second cell 2 and vice versa, the identifiers and time stamps of the registration of the mobile radio terminal are present in the current, current cell as well as in the previously used cell.

According to the invention, the following is thus provided in particular:

In addition, the core network nodes (i.e., the core network) additionally at least temporarily store the time t at which the global cell identifier n is stored during the registration of the terminal.

In the event of a change in the location of the terminal, the core network nodes store the previous global cell identifier n-1 and the time stamp t-1 at which the cell identifier n-1 was registered and stored so that the current cell identifier n and the former cell identifier n-1 are stored. 1 available to the Core Network.

When a terminal announces itself to the "Core Network" to switch to a new cell n + 1, then the "Core Network Node" knows the former (n-1), the current and the desired future cell identifier ( n + 1). This allows the core network nodes to detect when a terminal wants or should go back to a cell in which it was previously logged in.

A parameter (timer) is defined in the core network node, which specifies how long after a change a change from one cell and back to the same cell is detected as before, and thus counted and treated as superfluous.

In the case of a change of the location of the terminal back to the previous location, the "core network" nodes compare the current time t + 1 with the time t (in case of switching between two different nodes) or (t-1) in case of a change within the same node to which the terminal was previously registered and which was stored Difference .DELTA.t between the two time stamps t-1, t + 1 or smaller than the timer, the cell change is detected as unnecessary.

In this case: n-1 identifier of the cell in which the terminal before switching to the current

Cell was registered; n identifier of the current cell; n + 1 identifier of the cell to be changed to; t-1 time (time stamp) of the registration in the previous cell n-1; t time (timestamp) of the registration in the current cell n; t + 1 time of request of change to the next cell n + 1

If the core network, i. If the core network nodes have detected a superfluous request for a cell change, the core network nodes refuse the requested cell change and thereby send a dedicated reason (reject cause) that can be interpreted accordingly by the terminal and the wireless network, thus making a new request for the cell same cell change does not take place immediately thereafter.

If the core network nodes have detected a superfluous request for a cell change, the "core network nodes" preferably store the customer data, the terminal identifier, the cell identifier and all other information that is necessary for later processing / evaluation of the unnecessary cell changes to improve the quality of the wireless network and the services offered.

FIG. 3 shows a flowchart of an embodiment of the method according to the invention for detecting unstable states in the event that the terminal is represented within the same core network node.

During the registration 100 of a mobile radio terminal in the current cell, the identification of the current cell n is stored in step 110 and the time stamp t of the registration of the mobile radio terminal in the current cell n is stored in the next step 120. With the registration of the mobile terminal in the current cell n is the moment of the booking of the mobile station in this cell of the mobile network meant, respectively the time t of the change in the current cell n.

If the core network on the part of the mobile station or on the part of the radio network receives a request 130 to change to another cell n + 1 within the network, it is checked whether data of a previous cell n-1 are present. However, this is only the case if the mobile station was previously registered in another cell n-1 before registration in the current cell n.

However, if the mobile station was registered for the first time in the current cell n, for example, after a startup of the mobile terminal, it is now after checking 140 whether the data of the previous cell n-1 and it is determined that this is not the case, in Step 150 cached the identifier of the current cell n as well as the time of registration t in this current cell n and determined that it is an ordinary handover process, ie is an ordinary change procedure 160, which is performed accordingly.

However, if the mobile station before the current cell n had already been registered in a previous cell n-1, then the identifier of the previous cell n-1 and the time t-1 of the registration were buffered in this previous cell and are now available for evaluation.

In a next step 170 it is now checked whether the identifier of the target cell n + 1 matches the identifier of the previous cell n-1. This is done in the next step 180. If the target cell n + 1 and the previous cell n-1 are not identical to each other, then it is an ordinary switching procedure which is triggered and performed in the next step 190.

However, if the identifiers of the target cell n + 1 and the previous cell n-1 are identical, then in a next step 200, an evaluation of the time stamp, the registration t-1, is made in the previous cell n-1. If a predeterminable time threshold is exceeded, then it is an ordinary change process that is triggered and carried out in a next step 210 since enough time has elapsed since the previous registration.

However, if it is determined in the check 200 that a predefinable time threshold has passed below the registration t-1 in the preceding cell n-1, a redundant change procedure 220 is detected and a change to the cell n + 1 that with the preceding cell n -1 can be prevented.

If such a superfluous cell change 220 is detected, an initial step is taken in an intermediate step 230, which allows a further evaluation: at least one counter is incremented.

In an optional step 240, further data such as, for example, the identifier of the target cell n + 1 and the identifier of the source cell n as well as the corresponding time stamp of the registrations for further optional evaluations 250 can be detected and stored.

Furthermore, the identification of an unstable state by detecting a superfluous cell change allows the deposition of a corresponding denial message 270, which can be evaluated by the radio network and / or the mobile station accordingly, so that a further request not triggered immediately following the network-side denial of the cell change again becomes.

However, this is done only optionally after step 260, if the operator of the "Core Network" node has so desired by configuration. "Should a denial of the needless cell change request not be desired, then the" Core Network "node becomes Initiate and perform an ordinary switching procedure in the next step 261. FIG. 4 shows a flow diagram of a further embodiment of the method according to the invention for detecting unstable states in the event that the terminal is to switch between two different "core network" nodes.

If the core network on the part of the mobile station or on the part of the radio network receives a request 330 to change to another cell n + 1 within the network but from another "core network" node, it is checked whether data of a previous cell n are present ,

However, if the mobile station was registered for the first time in the current cell n, for example because the terminal has never been registered in this "core network" node, then after checking 340, whether the data of the previous cell n is present and it is detected in that this is not the case, in step 350 the identifier of the future cell as well as the time of the registration t have been temporarily stored in this current cell n and it is determined that this is an ordinary switching process, ie an ordinary switching procedure 360, which is carried out accordingly ,

However, if the mobile radio terminal in front of the current cell n had already been registered in a previous cell n, the identifier of the previous cell n and the time t of the registration were buffered in this previous cell and are now available for evaluation.

In a next step 370 it is now checked whether the identifier of the target cell n + 1 matches the identifier of the previous cell n. This is done in the next step 380. If the target cell n + 1 and the previous cell n are not identical to one another, then this is an ordinary change procedure that is triggered and executed in the next step 390.

However, if the identifiers of the target cell n + 1 and the previous cell n are identical, then in a next step 400 an evaluation of the time stamp, the registration t in the previous cell n, takes place If a predeterminable time threshold is exceeded, then it is an ordinary change process that is triggered and carried out in a next step 410, since enough time has elapsed since the previous registration.

If, however, it is determined during the check 400 that a predefinable time threshold has fallen below since the registration t in the preceding cell n, a redundant change procedure 420 is detected and a change to the cell n + 1 which corresponds to the preceding cell n can be prevented ,

If such a superfluous cell change 420 is detected, an initial step is taken in an intermediate step 430, which permits a further evaluation: at least one counter is incremented.

In an optional step 440, further data such as, for example, the identifier of the target cell n + 1 and the identifier of the source cell n as well as the corresponding time stamp of the registrations for further optional evaluations 450 can be detected and stored.

Furthermore, the identification of an unstable state by determining a superfluous cell change allows discontinuation of a corresponding refusal message 470, which can be evaluated by the radio network and / or the mobile station accordingly, so that a further request is not triggered again immediately following the network refusal of the cell change becomes.

However, this only happens after it has desired it by configuration in step 460, if the operator of the "core network" node has not wished to do so, and refusing to deny the needless cell change request becomes the "core network" node initiate and perform an ordinary switching procedure in the next step 461.

Claims

claims

1. A method for operating a cellular mobile radio network, wherein each cell (s) of the mobile network has a unique identifier (s), and wherein the identifier of the current cell (s) is temporarily stored on the network side to a currently registered in a cell mobile terminal, characterized in that in addition at least the time (t) of the registration is stored in the current cell (s), in particular temporarily stored.

2. The method according to claim 1, characterized in that in addition the identifier of the before the registration of the mobile station in the current cell (s) used cell (n-1) and the time (t-1) of the registration in the previously used cell ( n-1) is stored, in particular temporarily stored.

3. The method according to claim 2, characterized in that when triggering a change procedure for registration of the mobile terminal in a new cell (n + 1) of the mobile network within the same core network node, the identifier of the new cell (n + 1) with the identifier the cell (n-1) used before registration in the current cell (s) is compared, and if the identifiers (n + 1, n-1) match, an evaluation of the times (t + 1, t-1) of the Registration in the previous cell (n-1) and the future cell (n + 1) takes place, wherein when falling below a definable period of time, the change to the new cell (n + 1) is detected on the network as a superfluous change.

4. The method according to claim 2, characterized in that when triggering a change procedure for registration of the mobile terminal in a new cell (n + 1) of the mobile network between two different core network nodes of the same type the identifier of the new cell (n + 1) is compared with the identifier of the cell (n-1) of the same core network node used before registration in the current cell (s), and if the identifiers (n + 1, n) match, an evaluation of the times (t + 1, t ) of the registration in the previous cell (s) and the future cell (n + 1), wherein when falling below a definable period of time, the change to the new cell (n + 1) is detected on the network side as a superfluous change.

5. The method according to any one of the preceding claims, characterized in that the change is rejected in the new cell (n + 1) on the network side as a superfluous change while the terminal a dedicated reason is sent so that the terminal does not try again in the new Change cell again.

6. The method according to any one of the preceding claims, characterized in that the data on the network side rejected superfluous change comprising at least the identifiers of the cells (n, n + 1) and / or the identifier of the mobile terminal are stored for further processing on the network side.

7. Computer program product comprising a running on a computing unit computer program, which performs the method according to one of the preceding claims, when it is executed on a computing unit of a mobile network.