FR2966685A1 - Method for inhibiting femto case installed outside e.g. origin's territory, of operator in telecommunication field, involves deciding inhibition or non inhibition of operation of femto case based on result of detection and analyzing steps - Google Patents

Abstract

The method involves detecting a network code (PLMN) corresponding to the environment network in which a femto case (10) is located when the femto case is equipped with an analyzer (20). The network address, associated to the femto case, is analyzed. The network code, encountered by a mobile telephone (11) in a radio relation with the femto case, is detected. The inhibition or non inhibition of operation of the femto case is decided based on the result of detection and the analyzing steps.

Description

METHOD FOR DETECTING AND INHIBITING A FEMTO HOUSING INSTALLED OUTSIDE THE TERRITORY OF AN OPERATOR [1] TECHNICAL FIELD OF THE INVENTION [2] The invention relates to a method for detecting and inhibiting the installation of a housing femto or any other comparable device outside the territory of an operator on which the case depends. The invention finds a particularly advantageous application in the field of telecommunications. [3] STATE OF THE ART io [04] A Public Land Mobile Network (PLMN) for example of the GSM (Global System for Mobile Communication) or UMTS (Universal Mobile Telecommunication System) type also known as the mobile network comprises base stations ensuring telecommunications management with subscribers' mobile phones. The base stations are associated with ls macrocells having a range of the order of 10 to 30km, microcells having a range of about 500m and picocells having a range of about 100m. [5] In addition, femto cells having a reduced range are known. A femtocell or femto cell is associated with a femto box 20 installed in a subscriber connected to the core network of the operator ("core network" in English) through any type of IP connectivity, including conventional Internet access via ADSL in the homes or small businesses. The femto boxes provide access to the mobile services of the operator via a standard mobile telephone, this telephone being able to communicate with the mobile network on a rather limited coverage which has the particularity of being reduced to a residential access zone or business. [6] The use of a femto box may be restricted to only the members of the home or the authorized business. This is called the "closed" mode described in WO2008 / 047041 to which reference will be made. [7] The use of the femto box may also be restricted to a community of subscribers to a specific service consisting in making the coverage of the femto boxes available to any person in the community. This is called "open" mode. Of course the two modes of access "open" and "closed" can coexist. [8] The installation of a femto box being carried out directly by the user, the operator can not know the exact location of his installation. However, it is important to be able to detect an installation of the box outside the territory covered by the operator due to: io - legal and regulatory constraints insofar as an operator is not allowed to broadcast on frequencies outside its territory, - interference constraints to the extent that an operator should not interfere with the networks of foreign operators, and - tariff constraints in so far as calls from abroad ls via a femto box would be seen as local calls. [11] In order to detect the installation location of network equipment connected to the Internet, it is common to analyze the network address ("IP address") associated with this equipment in relation to a copy of the RIPE database. European IP networks, listing the different ranges of public IP addresses allocated in Europe, as well as the Internet access providers and the corresponding countries. However, a femto box installed abroad can connect to the operator's network through a proxy server, tunnel or virtual private network (VPN), and thus appear as having a IP address of the territory of the operator. In this case, the femto housing could be wrongly considered by the operator as installed in the territory of the operator. The object of the invention is in particular to allow a more reliable detection of the installation of a femto box abroad in order to be able, if necessary, to inhibit its operation. [011] OBJECT OF THE INVENTION [012 For this purpose, in the case where the femto box is equipped with a mobile radio network analyzer ("sniffer" in English), the method according to the invention advantageously detects the network code or codes of the environment in which find the femto case. The method according to the invention also analyzes the network address of the femto box with respect to a copy of the database listing the various IP addresses, here in Europe, and the service providers and the corresponding countries. [14] In the invention, the last network code encountered by the mobile phone is detected. For this purpose, it analyzes a location message ("Location Update" in English) issued by the phone. This step can be substituted for the detection of the network code by the femto box in the case where the latter does not include a network analyzer, or to be complementary in the case where the box receives no radio signal. [15] Preferably, the method also implements a method in which the recurring traces of the network codes returned by the femto box or the mobile telephone are analyzed to determine whether the telephone frequently switches from a connection to the network of a mobile phone. foreign operator (non-boundary) to a connection to the femto housing. [16] Depending on the result of the various methods mentioned above, the core network decides whether or not to inhibit the femto box. [017] The invention can be implemented in the context of a so-called "scoring" method in which a score is assigned to each method implemented, and it is decided to inhibit or not the operation of the housing by according to the overall score obtained. [18] Alternatively, the invention is implemented within the framework of a structured algorithm in which the different methods are logically articulated with each other. [19] The invention thus has the advantage of not being sensitive to the possible errors of the base (for example RIPE) listing the different ranges of network addresses and to be able to detect the femto boxes 30 seeking to connect to the network of the operator with a different network address than the country where the boxes are installed. The invention also makes it possible to identify the countries in which the boxes are installed in the absence of radio coverage and if it is necessary to dispense with a network analyzer to locate the femto housing. [020] The invention therefore relates to a method for inhibiting a femto-type housing installed outside the territory of an operator, said territory of origin, on which the femto housing depends, the femto housing being connected to a core network telephony mobile via a network module connected to a network of Internet type, this network module having a network address, characterized in that it comprises the following steps: io - in the case where the femto housing is provided with a network analyzer, detecting a network code corresponding to the networks of the environment in which the femto box is located, - analyzing the network address associated with the femto box by means of a copy of a base establishing the correspondence between ranges network address and a service provider, - detect the last network code encountered by a mobile phone in radio relation with the femto box after sending a location message by the tee. mobile phone, and - depending on the result of the previous steps, decide to inhibit or not the operation of the femto housing. [021] According to one implementation, the method further comprises the step of calculating the frequency of passage of a network code of a territory to a network code of a femto box by means of a trace analysis of telephone network codes in an HLR module of the core network. According to one embodiment, in the context of an overall score calculation algorithm, the method comprises the following steps: in the case where the femto box is equipped with a network analyzer, assign a first score the result of the analysis of the network code detected by the femto box according to the territory corresponding to the network code detected, 30 - assign a second score to the result of the analysis of the network address of the femto box according to the presence or not on the service provider's territory of origin corresponding to the analyzed network address, - assign a third score to the result of the detection of the last network code according to the territory corresponding to the detected network code, - calculate the sum of these scores to obtain an overall score and compare this overall score to a threshold value, s - decide whether to inhibit the operation of the femto box according to the result of this comparison. [023] According to one implementation, the first score assigned is different depending on whether: - a network code of the original territory is detected, io - a network code of the original territory is not detected, but a code is detected foreign network of a non-neighboring territory, - a network code of the territory of origin and a network code of a non-bordering foreign territory are detected, - a network code of the territory of origin is not detected but one can detect one radio cell of a neighboring foreign territory. [24] According to one embodiment, a third score is assigned according to whether the network code returned by the mobile telephone corresponds to the network code of the operator on which the femto box depends or to a network code of another operator which covers the territory of origin or a foreign network code. [25] According to one implementation, the scores assigned are refined according to the frequency of passage of the mobile phone connection of a non-neighboring foreign network to a connection to a femto box. According to one embodiment, in the context of a structured algorithm, in the case where the femto box does not have a network analyzer, the method comprises the following steps: analyzing the network address associated with the box femto, if the address does not correspond to a service provider present on the territory, then the operation of the femto box is inhibited; otherwise we go to 30 - the step of detecting the last network code encountered by the mobile phone, if the last network code returned by the mobile phone corresponds to the operator code on which the box depends, then allows the operation of the housing femto; otherwise - we check if the last network code corresponds to a foreign network, if this code does not correspond to a foreign network then we allow the operation of the femto box, otherwise - we go to the analysis step if the phone frequently passes a connection to a foreign network to a connection to the housing, if this passage is frequent then we inhibit the operation of the femto housing, otherwise it allows the operation of the femto housing. [027] According to one embodiment, in the case where the femto housing is equipped with a network analyzer, the detection step io is first implemented by the femto box of a network code, and - it is verified if the network code corresponds to a foreign network code; if the network code does not correspond to a foreign network code then it is checked whether a network code corresponding to a network code of the original territory is detected, if the network code corresponds to a network code of the original territory ls, then allows the operation of the femto box, otherwise we go to the step of analyzing the network address, - if the network code corresponds to a foreign network code, then we check if the network code corresponds to a network code of one neighboring territory, if the network code does not correspond to a neighboring network code then the operation of the femto box is inhibited, otherwise - it is checked whether the network code corresponds to a network code of the original territory, if this network code corresponds to the network code of the original territory then we allow the operation of the femto housing, if not - we check if we detect the presence of a radio cell of a territory bordering 25, if we do not detect the presence of u radio cell of a neighboring territory, so we inhibit the operation of the housing, otherwise we go to the network address analysis step. [28] BRIEF DESCRIPTION OF THE FIGURES [29] The invention will be better understood upon reading the following description and examining the accompanying figures. These figures are given for illustrative but not limiting of the invention. They show: [30] FIG. 1: a schematic representation of a mobile network in which the method according to the invention is implemented; [31] Figure 2: a diagram of the steps of the "scoring" method according to the invention; [032] FIG. 3: a diagram of the steps of the method according to the invention taking the form of a structured algorithm implemented with a femto box devoid of a radio receiver; [33] Figure 4: a diagram of the steps of the method according to the invention in the form of a structured algorithm implemented with a femto box provided with a radio receiver. [34] Identical, similar or similar elements retain the same reference from one figure to another. [35] DESCRIPTION OF EXAMPLES OF THE INVENTION ls [036] Figure 1 shows a femto housing 10 in connection with a mobile phone 11 via a radio link 12. This housing 10 is connected to a core network 13 of a mobile operator via a network 14 of the Internet type. For this purpose, the femto box 10 is preferably integrated with a module 16 modem / router connected to the network 14 for example 20 via a telephone line. This module 16 has an IP1 network address. [037] The core network 13 allows subscribers to communicate inside and outside the network by providing the means of interconnection with other fixed or mobile networks. A PLMN network code is associated with the network 13. This network code is broadcast by the base stations of the radio part (not shown). The PLMN network code of the network 13 is therefore broadcast only in the territory covered by the operator called in the following document "the original territory (" TO "in the diagrams)" (adjacent areas near). In territories not covered by the operator, that is to say territories other than the territory of origin, 30 other PLMNs are distributed by the networks of other operators. [38] The femto box 10 may or may not be equipped with a network analyzer ("sniffer") comprising a radio receiver for detecting the PLMN network codes broadcast in the territory where the femto box 10 is installed. Preferably, this analyzer 20 will have the broadest possible band to detect all types of mobile networks in the world with decryption of the main carrier in order to derive the PLMN network code (for 2G / 3G networks) or its equivalent for other types of networks. [39] Figure 2 shows a diagram of the steps of the "scoring" method according to the invention. [040] In a first step E1, the housing 10 detects with the analyzer 20 the PLMN network code or codes of the radio environment in which the housing 10 is located and returns them to the core network 13 for analysis. Depending on the territory corresponding to this PLMN network code, a first score S1 is assigned. ls [041] So if we detect a network code of the territory of origin (condition C1.1), then a minimum score S1 is assigned, for example O. However, if we do not detect a PLMN network code of the territory of origin, but that a foreign PLMN network code (outside the territory of origin) of a non-neighboring territory (condition C1.2) is detected, then the maximum score S1 is assigned, for example 20. If detects a PLMN network code of the original territory and a network code of a non-neighboring foreign territory (condition C1.3), then a first intermediate score S1 is assigned, for example 10. If a network code of territory of origin but that a radio cell of a neighboring foreign territory is detected (condition C1.4), then a second intermediate score S1 (less than the first) is assigned, for example 5. [042] In addition , the core network 13 has access to a copy of a base 22, the base of the RIPE (IP networks E European), matching the European IP address ranges, the service provider to which the ranges have been allocated, and the country where it operates. In a second step E2, this base 22 is used to assign a second score S2 according to the presence or absence of the service provider on the territory of origin. [43] Thus if the IP1 network address belongs to a range identified as allocated on the original territory (condition C2.1), then a minimum score S2 is assigned, for example O. On the other hand, if the network address IP1 belongs to a range identified as allocated outside the original territory s or on a range not managed by the RIPE (case of an American service provider, for example) (condition C2.2), then a maximum S2 score is For example, according to the standard, when connected to the femto box 10, the telephone 11 transmits a location message 24 ("Location io Update") containing an identifier that defines the LAC location area ("Location Area Code" in English) in which the telephone 11 was before losing the radio link with the network, and the PLMN network code of the last network encountered by the telephone 11. In a third step E3 , the heart network 13, v a home location register (HLR) module 25 containing static data relating to user subscriptions and dynamic location data analyzes the PLMN network code of the location message. If the PLMN network code sent by the telephone 11 corresponds to the network of the operator on which the box 10 depends (condition C3.1), then a minimum score S3 is assigned, for example O. On the other hand, if the PLMN network code corresponds to a network of a foreign operator (condition C3.2), then a maximum score S3 is assigned, for example 20. If it is a PLMN code of a neighboring network then the score is intermediate. Another score S3 may be allocated if the PLMN network code corresponds to a network code of another operator covering the original territory. [45] In a fourth step E4, the recurring traces of the PLMN network codes reassembled by the mobile telephone 11 are analyzed and in particular the frequency of passage of a PLMN from one of the P1-P3 countries to the PLMN of a femto box 10. The step E4 is implemented to calibrate the different scores S1-S3 obtained in steps E1-E3. In one example, this refining will consist in multiplying the scores S1-S3 respectively by a factor proportional to the number of passages from a country P1-P3 to a femto box. [46] In a step E5, the various calibrated S1-S4 scores are summed to obtain an overall score SG. In a step E6, this global score SG is compared with a threshold value VS. If this score SG is lower than the threshold value SG then the connection with the housing 10 femto is allowed. On the other hand, if the score SG is greater than the threshold value SG then the operation of the femto box 10 is inhibited, the threshold value VS being determined empirically. [47] Of course, the score allocation scale S1-S3 can be reversed and high S1-S3 scores will be assigned when there are femto housing location indices 10 in the territory. original. In this case, it is decided to inhibit the femto box 10 when the score SG is below the threshold value VS. [48] In the case where the femto box 10 is devoid of a network analyzer, the overall score SG is calculated only from the scores S2 and ls S3, where appropriate refined by the step E4, the threshold value VS being then adapted accordingly. FIG. 3 shows a diagram of the method according to the invention taking the form of a structured algorithm implemented with a femto box 10 without a network analyzer. [050] This method firstly implements the step E2 for analyzing the IP1 network address associated with the femto box 10. For this purpose, E2.1 is checked if the IP1 network address belongs to a range. addresses identified as allocated in the territory of origin. If the IP1 address does not correspond to an address allocated on the home territory then the operation of the housing 10 is inhibited. Otherwise, step E3 for detecting the last network code encountered by the mobile telephone 11 is passed. 051] Indeed, if a femto box 10 installed abroad is connected to the core network 13 via a proxy server, a tunnel or a virtual private network referenced 27 in Figure 1, it can connect to the core network 13 in 30 transiting traffic via 27.1 equipment located on the territory of origin. The IP address of the device 27.1 will then appear to the core network 13 as that of the femto box 10. It is therefore not 2966685 It is sufficient to detect a network address of the original territory to deduce that the femto box 10 is located on this territory and allow its operation. [52] This is why we check E3.1 if the last PLMN network code sent by the mobile phone 11 corresponds to a PLMN network code of the original territory. If this is the case, then we allow the operation of the femto box 10. Otherwise we check E3.2 if the PLMN network code sent by the mobile corresponds to a foreign network code. If this PLMN code does not correspond to a foreign network then the operation of the femto box 10 is allowed. [53] Otherwise E4, E4.1 is analyzed if the telephone 11 frequently passes from a connection of a foreign network (no adjacent) to a connection to the housing 10. If this passage is frequent then the operation of the femto box 10 is inhibited. Otherwise the operation of the femto box 10 is allowed. By frequent passage, is meant a frequency which depends on the distance from the country of the foreign network of the territory of origin, for example France. So for a country like China, if you have one pass per day for two days, you can conclude that the femto 10 housing is installed in China, for closer countries (like the European countries for example), you need 20 stronger frequency as 2 passes per day. [54] As shown in FIG. 4, if the box 10 is provided with a network analyzer 20, then the detection step E1 is first carried out by the femto box 10 of the PLMN network code (s). radio environment in which the femto box 10 is located. [055] It is checked whether a PLMN network code corresponds to a foreign network code. If the PLMN network code does not correspond to a foreign network code then E1.2 is checked if the network code corresponds to a network code of the original territory. If the PLMN network code corresponds to a network code of the original territory, then the operation of the femto box 10 is allowed, otherwise step E2 is carried out. [056] If the PLMN network code sent by the femto box 10 corresponds to a foreign network code, then E1.3 is checked if the PLMN network code corresponds to a network code of a neighboring territory. If the PLMN network code does not correspond to a network code of a neighboring territory then the operation of the femto box 10 is inhibited. [57] Otherwise, that is, if the PLMN network code corresponds to a network code bordering then we check E1.4 if the PLMN network code corresponds to a network code of the original territory. If this PLMN network code corresponds to the network code of the original territory, then the operation of the femto box 10 is allowed. [58] Else we check E1.5 if the presence of a radio cell io of a neighboring territory is detected. If the presence of a radio cell of a neighboring territory is not detected, then the operation of the housing 10 is inhibited. Otherwise (if the presence of a neighboring cell is detected), it proceeds to step E2 of FIG. 3.

Claims (8)

REVENDICATIONS1. Method for inhibiting a femto-type housing (10) installed outside the territory of an operator, said home territory, on which the femto housing depends, s the femto housing (10) being connected to a core network (13) of telephony mobile via a network module (16) connected to a network (14) of the Internet type, this network module (16) having a network address (IP1), characterized in that it comprises the following steps: in the case where the femto box (10) is provided with a network analyzer (20), detecting (E1) a network code (PLMN) corresponding to the networks of the environment in which the femto box (10) is located , - analyzing (E2) the network address (IP1) associated with the femto box (10) by means of a copy of a base (22) establishing the correspondence between network address ranges and a service provider, ls detecting (E3) the last network code (PLMN) encountered by a mobile telephone (11) in radio relation with the box ier femto (10) following the sending of a location message (24) by the mobile phone (11), and - depending on the result of the preceding steps, decide to inhibit or not the operation of the femto housing (10). ). 20 2. Method according to claim 1, characterized in that it further comprises the step of calculating (E4) the frequency of passage of a network code (PLMN) of a territory to a network code (PLMN) of a femto box 10 by means of a trace analysis of the telephone network codes (11) in an HLR module (25) of the core network. 3. Method according to claim 1 or 2, characterized in that in the context of an overall score calculation algorithm (SG), it comprises the following steps: in the case where the femto box (10) is provided with of a network analyzer (20), assigning a first score (S1) to the result of the network code analysis (PLMN) detected by the femto box (10) according to the territory corresponding to the detected network code, - assigning a second score (S2) to the result of the analysis of the network address (IP1) of the femto box (10) as a function of the presence or absence of the service provider's territory of origin corresponding to the analyzed network address, - to assign a third score (S3) of the result of the detection of the last lattice code (PLMN) according to the territory corresponding to the detected network code, - performing the sum (E5) of these scores to obtain an overall score (SG) and compare ( E6) this overall score at a threshold value (VS), - decide to inhibit or not the operation of the femto housing (10) depending on the result of this comparison. 4. Method according to claim 3, characterized in that the first score (S1) affected is different according to: - we detect a network code (PLMN) of the original territory (C1.1), ls - we do not detect a network code (PLMN) of the territory of origin, but a foreign network code (PLMN) of a non-neighboring territory (C1.2) is detected, - a network code (PLMN) of the territory of origin and a network code (PLMN) of a non-neighboring foreign territory (C1.3), 20 - a network code of the territory of origin is not detected but a radio cell of a neighboring foreign territory (C1.4) is detected. 5. Method according to claim 3, characterized in that a third score is assigned according to whether the network code (PLMN) returned by the mobile telephone (11) corresponds to the network code of the operator on which the femto box ( 10) or a network code from another operator that covers the home territory or a foreign network code. 6. Method according to one of claims 3 to 5, characterized in that the scores (S1-S3) affected are refined according to the frequency of passage of the mobile telephone connection (11) of a non-international network. adjacent to a connection to a femto housing (10). 7. Method according to claim 1 or 2, characterized in that in the context of a structured algorithm, in the case where the femto box (10) is devoid of network analyzer (20), it comprises the following steps: analyzing (E2) the network address (IP1) associated with the femto box (10), if the address (IP1) does not correspond to a service provider present on the territory, then the operation of the femto box (10) is inhibited ; otherwise we go to - step (E3) of detection of the last network code (PLMN) encountered by the mobile phone (11), if the last network code (PLMN) reassembled by the mobile phone (11) corresponds to the code of the operator on which the housing (10) depends, then the operation of the femto housing (10) is allowed; otherwise io - we check (E3.2) if the last network code (PLMN) corresponds to a foreign network, if this code (PLMN) does not correspond to a foreign network then we allow the operation of the femto (10), otherwise - We go to step (E4, E4.1) analysis if the phone frequently passes from a connection to a foreign network to a connection to the housing (10), if this passage is frequent then we inhibit the operation of the femto housing (10), otherwise the operation of the femto housing (10) is allowed. 8. Method according to claim 7, characterized in that in the case where the femto housing (10) is provided with a network analyzer (20), the detection step (E1) is first carried out by the femto box (10) of a network code (PLMN), and - it is checked whether the network code (PLMN) corresponds to a foreign network code; if the network code (PLMN) does not correspond to a foreign network code then it is checked (E1.2) if a network code corresponding to a network code of the original territory is detected, if the network code (PLMN) corresponds to a network code of the original territory, then we allow the operation of the femto box (10), otherwise we go to step (E2) for analyzing the network address, - if the network code (PLMN) corresponds to a foreign network code, 30 then we check (E1.3) if the network code (PLMN) corresponds to a network code of a neighboring territory, if the network code (PLMN) does not correspond to a neighboring network code then we inhibit the operation of the femto box (10), otherwise - it is checked (E1.4) if the network code (PLMN) corresponds to a network code of the territory of origin, if this network code (PLMN) corresponds to the network network of the territory of the origin then we allow the operation of the femto housing (10), otherwise - we check (E1.5) if we detect the presence of a radio cell of a neighboring territory, if the presence of a radio cell of a neighboring territory is not detected, then the operation of the casing (10) is inhibited, otherwise one goes to the step ( E2) network address analysis (IP1).