Method of and apparatus for cell reselection in a mobile communication network
TECHNICAL FIELD The present invention relates to a mobile communication system, and particularly to such a system where false PLMN- identities can be allocated, whereby the adjacent cells a mobile terminal shall have possibility to use for cell reselection can be limited to a subset of the adjacent cells which exist in the system information on the transmission channel in, for example, a UMTS-cell.
PRIOR ART
In existing systems, system information usually is transmitted on the transmission channel, in for instance UMTS, about the adjacent cells a mobile terminal shall use as potential cells for cell reselection in idle position and in connected state, but not in connected position DCH- state . The adjacent cells can be on the same frequency, another frequency, or be based on another radio access technology than UMTS, such as GSM.
In this system information, the PLMN-identity of the adjacent cell is included as an option in a separate system information block, for instance "system information block type 18" (SIB18) . If the PLMN-identity is included in the system information, a mobile terminal of Version 4 or later shall limit the adjacent cells the mobile terminal shall use for call reselection to those cells the PLMN-identity of which either are the same as that by the mobile terminal selected PLMN, or an equivalent PLMN-identity. The PLMN which a given mobile terminal shall regard as equivalent to the selected PLMN are signaled to the mobile terminal as a list of equivalent PLMN in the messages LOCATION AREA UPDATING ACCEPT and ROUTING AREA UPDATE ACCEPT [24.008]
In the circuit switched domain in the core network, the mobility handling in the idle position is based on location areas, LA, whereas the mobility handling in the packet domain is based on routing areas, RA. A routing area, RA, is always a part of a location area, LA. In reality LA and RA normally are identical.
The American patent US 6,387,027 Bl describes a method and a system to avoid repeated registration attempts to a PLMN which does not allow registration of/for a certain mobile terminal. At the same time, registration attempts are allowed to other PLMN which have been placed on a list with/of PLMN-identities, which earlier have denied registration, but which may allow registration on a later occasion. At least a part of the list can be deleted and can be deleted at convenient points of time. When a part of the list not possible to delete is filled with PLMN- identities which have denied registration, the rest of PLMN-identities are moved to the part of the list which can be deleted. The part of the list which can be deleted is deleted when the mobile terminal is switched off.
The American patent document US 2003/0185183 Al relates to mobile communication devices, for instance mobile terminals, which can communicate with a computer network. A Network Access Controller (ANC) is provided to fill the list of adjacent cells of a mobile terminal with non- adjacent cells, i.e. with cells which are served by another ANC. The list of adjacent cells shall be transmitted to a mobile terminal which is in an adjacent cell. The ANC in question which serves the current cell of the mobile terminal identifies non-adjacent cells in the list, to which non-adjacent cells transfer of calls cannot be made. The current ANC instructs the mobile terminal to terminate the call, at which the mobile terminal re-establishes the call with a new cell which provides the strongest signal.
The new cell preferably is the cell to which the mobile terminal has moved.
The American patent document US 2003/0040311 Al relates to cell reselection of a mobile terminal in a mobile communication system. Adjacent cells are classified as cells which can receive signals and cells which can not receive signals, based on observed signal strength. At cell reselection, information about state is only searched for the adjacent cells which have been classified as being able to receive signals, or receiving signals, whereupon one of these adjacent cells is selected for cell reselection.
The European patent application EP 1 353 521 Al describes cell reselection of a mobile terminal when a plurality of PLMN from different operators are available. In order to make cell reselection possible, a list of PLMN-identities of all base stations which can be received is transmitted in such a format that the mobile terminal easily and rapidly can derive the criteria which are necessary for cell reselection.
Disadvantages of the above described technology are that : cells with the same PLMN-identity as that by a mobile terminal selected PLMN cannot be excepted from being used for cell reselection; and for the fraction of adjacent cells with a given PLMN, different from the by the mobile terminal selected PLMN, either all these adjacent cells must be used for cell re- selection, or all be excluded from cell reselection, based on if the given PLMN has been signaled as an equivalent PLMN or not to the mobile terminal. It consequently is not possible to exclude from cell reselection some, but not all, adjacent cells with a given PLMN-identity.
If a mobile terminal is forced to unnecessarily use an adjacent cell for cell reselection, this may result in: faster consumption of battery because the mobile terminal has to measure at more cells; and - longer time delays at cell reselection because it may take longer time to identify right cell to make cell re¬ selection to, when there are more candidate cells.
Further negative effects will occur when the mobile terminal makes cell reselection to a cell to which it should not make cell reselection. What effects will occur and how large these will be depends on how this is handled in the new cell, but typically this will result in further delays and possibly also unnecessary load in the new cell.
Delays at cell reselection deteriorates the quality of offered services, for instance by increased risk to miss incoming calls due to missed paging, delays at set up of service, deteriorated session continuity in connected position FACH/CELL PCH/URA PCH-state.
One aim of the present invention consequently is to overcome these disadvantages.
SUMMARY OF THE INVENTION
The present invention relates to a method, a device and a computer program product according to the independent patent claims, in order to, among other things, overcome the disadvantages of the known technology mentioned above. Preferred embodiments are defined in the non-independent patent claims.
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will be described thoroughly in the following, with reference to enclosed drawing, in which:
Fig. 1 schematically shows a mobile communication system in which the present invention can be used.
DESCRIPTION OF PREFERRED EMBODIMENTS The present invention now will be described in more details. In the description of the invention the following acronyms and abbreviations will be used:
GSM Global System for Mobile Communications DCH Dedicated Channel GPRS General Packet Radio Service GSN GPRS support node
HSDPA High Speed Downlink Packet Access IMEI International Mobile Equipment Identity IMEI-SV IMEI and Software Version Number IMSI International Mobile Subscriber Identity/
International Mobile Station Identity LA Location Area MSC Mobile Switching Center PLMN Public Land Mobile Network RA Routing Area SGSN Serving GSN UMTS Universal Mobile Telecommunications System
Generally the invention can be described by the steps to: - associate false PLMN-identities, falsePLMN, to certain cells in the lists of/over adjacent cells, and transmit these false PLMN-identities instead of the actual PLMN- identities in the list of information about adjacent cells on a transmission channel in, for instance, UMTS, and to - signal these false PLMN-identities as equivalent PLMN to the mobile terminals which shall have possibility to make cell reselection to the associated adjacent cells, but not to other mobile terminals.
Fig. 1 shows schematically a mobile communication system including a plurality of public mobile communication
networks, PLMNl, PLMN2. Each PLMN includes a number of cells PLMNl cell 1, PLMNl cell2, PLMN2 cell 1, PLMN2 cell 2, PLMN2 cell 3, which cells include lists of adjacent cells with information about which adjacent cells a mobile terminal, MT, in a first cell, PLMNl cell 1, shall use for cell reselection.
According to the invention, false PLMN-identities, FalsβPLMN, are associated to one or more other cells, PLMN2 cell 3, in a list of neighboring/adjacent cells. These false PLMN-identities are transmitted instead of the actual PLMN-identities in the information about adjacent cells which is transmitted on a transmission channel in the first cell, PLMNl cell 1. Further, these false PLMN-identities are signaled as equivalent PLMN to the mobile terminal, MT, which shall be allowed to make cell reselection to an associated adjacent cell, PLMN 2 cell 3, but not to the mobile terminals which shall not be allowed to make cell reselection to the associated adjacent cell, PLMN 2 cell 3. Furthermore, if PLMN2 is not equal to PLMNl, PLMN2 is signaled as equivalent PLMN to all mobile terminals that shall be allowed to make cell reselection to any cell in PLMN2, for example to PLMN2 cell 1, PLMN2 cell2.
All mobile terminals read/determine from the system information which PLMN that is associated to each adjacent cell. If this PLMN is neither the PLMN to which the mobile terminal is registered nor included in the equivalent PLMN list of the mobile terminal, then the mobile terminal will exclude the corresponding adjacent cell as a candidate for cell reselection.
A more detailed description of an embodiment of the invention follows after this. In this embodiment a given location area, LA, or a routing area, RA, is studied. Let the set M be the set of all mobile terminals and let the
set G be the set of all adjacent cells to/of all cells in the given location area, LA, or the routing area, RA. An adjacent cell is defined by two cell identities, the identity of the adjacent cell itself, and the identity of the cell which has the adjacent cell in its list of adjacent cells.
Note that a certain cell can occur a plurality of times in the set G because it can be adjacent cell to a plurality of cells in the location area, LA, or the routing area, RA.
In order to get a subset m of all mobile terminals M in the mobile network to exclude a subset g of the set G in/of all adjacent cells to all cells in a given LA or RA from cell reselection, the following is made.
Associate to the subset g of adjacent cells a false PLMN- identity, falsePLMN, which is not the same as the actual PLMN-identity for any of the adjacent cells in G1 and indicate this false PLMN-identity as PLMN-identity of these adjacent cells in the system information, as a system information block, for instance SIB18. With the actual PLMN-identity of a given cell is, in this description, aimed at the PLMN-identity which is indicated in the system information on the transmission channel in the given cell, for instance a given UMTS-cell.
When a mobile terminal enters into LA or RA and makes a request for updating of location, for instance LOCATION UPDATING REQUEST, alternatively a request for updating of routing area, for instance ROUTING AREA UPDATE REQUEST, then transmit falsePLMN of the list of equivalent PLMN to the mobile terminal if, and only if, it does not belong to the subset m. If the actual PLMN-identity of any, one or more, of the adjacent cells in the subset m differs from the by the mobile terminal selected PLMN-identity, also
these actual PLMN-identities shall be part of the list of equivalent PLMN-identities of the mobile terminals which are not part of the subset m.
All mobile terminals determine from the system information which PLMN that is associated to each adjacent cell in the set G. If this PLMN is neither the PLMN to which the mobile terminal is registered nor included in the equivalent PLMN list of the mobile terminal, then the mobile terminal will exclude the corresponding adjacent cell as a candidate for cell reselection.
For adjacent cells belonging to the subset g, the associated PLMN is a falsePLMN that is not equal to the PLMN to which the mobile terminals are registered. For a mobile terminal belonging to the subset m, falsePLMN is not included on the equivalent PLMN list of the mobile terminal, and the mobile terminal will then exclude this adjacent cell as a candidate for cell reselection. For a mobile terminal not belonging to the subset m, a falsePLMN is included on the equivalent PLMN list of the mobile terminal, and the mobile terminal will then keep this adjacent cell as a candidate for cell reselection.
In cases the subset g consists of the amount of all adjacent cells with a given actual PLMN-identity, and where this given actual PLMN-identity is different from the PLMN- identity in the current location area, LA or the routing area, RA, the same effect can be achieved by indicating the actual PLMN-identity in the system information block, for instance SIB18. The same applies when the subset g consists of a union of sets, all of the type which has been described above.
The subset m of the et M including all mobile terminals in the mobile network can be defined on basis of the
information which is available in the MSC-node or SGSN-node which transmits the list of equivalent PLMN to the mobile terminal in a LOCATION AREA UPDATING ACCEPT- or ROUTING AREA UPDATE ACCEPT-message, for instance IMSI, IMEI, or IMEI-SV.
The present invention can be generalized to include a plurality of sets Im1,gx,falSePLMN1J i=l...N, so that each mobile terminal which belongs to the subset In1 excludes the subset Sr1, of adjacent cells from cell reselection, provided that the subsets gx are disjunctive and .falsePLMNi is different from falsePLMNk when i is different from k.
It should be understood that a mobile terminal can belong to a plurality of subsets In1 The number of subsets In1 a mobile terminal can belong to is only limited by the maximal length of the list of/over equivalent PLMN, which normally is five PLMN. The maximal length, however, can be varied and it may also be extended for newer versions of mobile terminals.
It further should be understood that in each location area, LA, or routing area, RA, independent sets of {mlrgx,falSePLMN1) i=l..JST, can be used.
The present invention can be used in a plurality of fields of use, such as, a) network sharing, b) handling of mobile terminals with error, c) handling of mobile terminals with different functionality, and d) in connection with multiple PLMN in Version 6. These fields of use now will be exemplified.
a) Network sharing. Suppose that a number of operators share certain parts of their networks by an agreement about limited national roaming. The limitation is constituted by
an operator's customers being allowed only to roam in certain LA or RA of the other operators.
When a customer tries to roam in an LA or RA to which this customer is not entitled according to the network share agreement, the customer's LOCATION AREA UPDATING REQUEST- message or ROUTING AREA UPDATE REQUEST-message is rejected by a LOCATION AREA UPDATING REJECT-message or a ROUTING AREA UPDATE REJECT-message. The in the message indicated reason can, for instance, either be that roaming is not allowed in this location area "Roaming not allowed in this location area" , or that the location area is not allowed "Location area not allowed" .
With the present invention, the adjacent cells which a mobile terminal shall use for cell reselection can be limited in such a way that the adjacent cells which belong to an LA or an RA where the customer is not entitled to roam, are excluded. In this way, the mobile terminal avoids making superfluous attempts at LOCATION AREA UPDATING REQUEST alternative ROUTING AREA UPDATE REQUEST in prohibited LA and RA.
It should be noted that network sharing as above can be done in a large number of ways. Below two variants are specified, in which the invention can be useful in order to indicate something of the scope of the invention concept.
Network sharing scenario 1: All the operators which are involved in the network sharing agreement have own urban networks, whereas the countryside has been divided so that the operators will be responsible for one region each. In the urban networks, the customers only are allowed to be on the network of her/his own operator, whereas they in the countryside are allowed to be on that of the operator which has been given the responsibility of the region in question.
Network sharing scenario 2: An operator has, for instance, a UMTS-network and a GSM-network with PLMN-identity in common. A number of customers of other network operators are allowed to make national roaming in the UMTS-part of the network, but not in the GSM-part, i.e. all LA an/or RA in the GSM-network are prohibited to/for the customers of the other network operators .
b) Handling of mobile terminals with error In UMTS there is functionality specified for the mobile terminals which is not used initially, but which may be used when the networks are upgraded in order to raise the capacity, or improve the quality. Since this functionality is not used initially, there is a risk that mobile terminals will be spread on the market which mobile terminals have undetected errors which are discovered only when the network is upgraded. This may result in problems to the users having those faulty terminals, but they also can influence the system in a negative way, for instance by the quality and the capacity being deteriorated.
The present invention can be used to prevent these types of mobile terminals from making cell reselection in the cells in which the current functionality is used. Note that this need not imply that mobile terminals will lose coverage, because there may be other cells on other frequencies, or cells based on other radio access technologies.
c) Handling of mobile terminals with different functionality. In UMTS there are many different types of mobile terminals with different functionality. The different functionalities can be defined on the one hand depending on its version, but also depending on its terminal class and its terminal capabilities.
If an operator implements a certain network functionality only in certain cells, it may be useful to reserve these cells for those mobile terminals which have corresponding functionality. For instance, an operator may have implemented the function "High Speed Downlink Packet
Access" (HSDPA, UMTS Version 5) on an own frequency in one or more network nodes (hot spots) .
The present invention can be used to prevent mobile terminals which do not have the necessary functionality to make cell reselection in the cells in which the current network functionality has been implemented.
d) In connection with multiple PLMN in Version 6. Version 6 of the 3GPP-standard is going to be finalized and is planned to be stopped to/for new functionality in the near future. Multiple PLMN in Version 6 will make possible that a network operator can introduce functionality to have a plurality of PLMN in one and the same cell, at which separate PLMN for different operators can be used in cells in common in a shared national UMTS-network, which for instance makes 3G-roaming possible.
If this functionality is introduced, an adjacent cell can have a plurality of PLMN, but it still only will be possible to indicate one PLMN in the lists of adjacent cells. By means of false PLMN-identities it then will be possible to control to which cells each mobile terminal shall have possibility to make cell reselection. In that way it would be possible to save network capacity, because it would cost a lot of capacity to transmit multiple PLMN for all adjacent cells.
The present invention has been described above by means of an exemplifying embodiment and example, it however should be understood that these do not intend to limit the
invention which is only limited by the enclosed patent claims .