FR2806860A1 - SMS transmission system uses computer with cache memory storing number and location data to enable portability of number between networks - Google Patents

Abstract

The procedure for sending short messages (SMS) to mobile networks uses a computer with SS7 connections capable of interrogating all the Home Location Registers (HLRs) of the country where portability of numbers is required. The computer comprises a cache memory for all the mobile subscribers of the country where portability is realised, in order to know which HLR to interrogate, without searching again, once it has been found once. The procedure for sending short messages (SMS) to mobile networks uses a computer with SS7 connections capable of interrogating all the Home Location Registers (HLRs) of the country where portability of numbers is required. The computer comprises a cache memory for all the mobile subscribers of the country where portability is realised, in order to know which HLR to interrogate, without searching again, once it has been found once. The cache memory is initially empty, but information is constructed progressively by the HLR searches when a subscriber is not already in the cache memory, or he has changed network.

Description

1. State of the art for sending short messages Terminating <U> Mobile </ U> The sending of short messages Termines Mobile (SMS-MT) is described in the GSM reference document (Global System Mobile). I1 implements a 3-phase process a) From the Mobile Destination Address, a lookup table (called HLR Levels) used to find the Home Location Register (HLR) of this subscriber, who is for example

Min <SEP> Max <SEP> address <SEP> HLR <SEP><SEP> name of the <SEP> network
<tb> +85288800000 <SEP> +85288899999 <SEP> +85288700001 <SEP> A
<tb> +85288700000 <SEP> +85288799999 <SEP> +85288700002 <SEP> A
<tb> +85298800100 <SEP> +85298899999 <SEP> +85298800000 <SEP> B
<tb> +85293300010 <SEP> +85293399999 <SEP> +85293300001 <SEP> C
<tb> +85293500000 <SEP> +85293599999 <SEP> +85293300002 <SEP> C In the example above, the HLR address of the network subscriber A +85288712345 is immediately found to be +85288700001.

b) Send a Send Routing Infor- mation (SRI) to this HLR to obtain the address of the MSC (Mobile Switching Center), the switch visited by this mobile.

c) Sending a Short Message Forward Short My Mobile Terminated Sage (SMSMT) to the visited MSC that relays to the recipient mobile. In the event of failure, different conventional recovery methods may be used.

However, this method must be adapted, after the invention, for certain cases.

<I> </ I> Portability <I> Number </ I> cases Several countries such as the Netherlands, Hong Kong, the United Kingdom and many more in the future have implemented Number Portability. (MNP in English). In order to develop competition between mobile network operators, the MNP allows a subscriber to keep the same number even if he changes his mobile operator in the same country (MNP country).

As a result, it is not possible to determine from the mobile number, which network it belongs to and which HLR to interrogate. In the example above, a mobile +85288712345 could belong to network C, if it changed its subscription from A to network C.

<I> Incomplete <I> HLR <I> dial plans with </ I> </ I> short </ I> Interfunction </ I> (SMS) For large networks , there can be several hundred number intervals (about 1000 for the largest, like France Telecom), in the table above, because the number of HLR and the new numbers are evolving when the number of subscribers increases. In case multiple buckets have agreed to send short messages (SMS) from one network to another, each one should send the updates to all its interworking partners when it adds rows to its tables from HLR, otherwise its partners could not send SMS to new subscribers.

GSM networks are accessed from the International, through an IGP (International Gateway Point), possibly followed by a NGP (National Gateway Point) and the (GMSC) of the Gateway Message Switching Center where the translation is carried out subscriber number -> Global Name (GT) of the HLR so that foreign networks do not have to manage a numbering plan of the network receiving a telephone call or SMS. According to the realizations, this translation can be done in the IGP, a possible NGP or in the GMSC (s) of the destination network In the case of an SMS, the foreign network sends the SEND ROUTING INFO REQ to the HLR of which the Called Party Address SCCP is equal to the address of the mobile recipient which is very simple.

However, the establishment and maintenance of the numbering plan in the IGP, the NGP and to a lesser extent in the GMSC (s) is an operation which requires precise simultaneous knowledge of the numbering plans and a corresponding administration. with many personalities.

In any case, the initial implementation of the HLR tables in the IGP, the NGP and their maintenance requires a large organization if there are many operators in the country, if it is not done automatically as permitted by the present invention.

<I> Case of A sending to </ I> a subscriber <I> B with which i1 has </ I> a roaming agreement, <I> but </ I> the mobile <I> recipient visits </ I > <I> itself an operator C </ I> that has <I> disagree </ I> roaming <I> with A. </ I> This case is illustrated by Figure 3. As Operator A has a roaming agreement with B (and allows SMS interworking), A can query HLRs from B and get the address (Global Name (GT)) of the MSC visited by the receiving mobile that is in the network. If A does not have a roaming agreement with C, he can not send SMS to network C.

<U> 2. Description of the </ U> Portability <U> Implementation of the Number for </ U> SMS <I> Components of the Invention </ I> The invention consists of - A computer (MNP-SMSC) connected to the SS7 network (SS7 signaling network that can connect all GSM and CDMA operators) and able to send requests and receive replies from all HLRs in the MNP country) (Fig 1.a) This MNP-SMSC function is unique for the country MNP. It can be located at an operator in another country, which has roaming agreements with all operators in the MNP country or located in the administration that provides the function of Gateway International, so that the MNP- SMSC can address all HLRs.

- A fixed table of all the HLR addresses of the different operators, this table can be built by a search engine (Fig 1.b) - A table of HLR levels which is empty at the origin because we do not necessarily know at start of the range of the destination numbers corresponding to which HLR (Fig 1.c) - A large cache, which is also empty at the beginning, and which allows by a search in fast memory to find, with the mobile number as argument , the address of the corresponding HLR, if it exists in the table (whether the recipient remained in his home network or not) without having to search for the HLR. This memory cache is necessary so as not to require interrogation of the different HLRs (Fig 1.d).

A computer program capable of sending a Send Routing Info to a given HLR with an address that it chooses, and mainly able to retry another HLR if the recipient is not found, or to send the SMS. -MT if he is found.

In which case, it is necessary to redo an HLR search. So the cases where a search is needed are only at the beginning (once) and each time the receiver changes its network subscription. It is not frequent. In addition, the invention may consist of a "Conversion Unit" installed at each operator who wants the MNP functionality to send SMS messages to all its subscribers (with normal numbers or "imported" from other networks). The Conversion Unit "is essentially an MNP-MSC but does not require a large cache.

<I> Description of operation </ I> The sending of an SMS-MT from operator A to operator B must be considered. Operator A (whether or not in the same country) must first send the SMS to the MNP-SMSC as explained in detail in Figure 1.

- The MNP-SMSC first looks (1) in its cache to find the address of the recipient. If he does not find it, he will search the HLR starting with the "nominal" (2) from "HLR levels" corresponding to the subscribers of his network that did not go away (this corresponds to the maximum probability pl) . If it does not find it, it looks for the HLR (3) in the order p1 / cl> p2 / c2> ....> pn / cn where pi is the probability of finding the destination address in the HLRi and this is the cost of research for this HLR. We show that it is the search order that minimizes the cost among all n! (factorial n) possible orders. See "Operational Research", 1995, Press Bridges and Roads, page 102, by A. Henry Labordere.

The SMS-MT is then conventionally sent with the MAP message "Forward Short Message MT" and a new entry is made (4) in the cache which is thus updated.

The HLR levels at the beginning are empty and built from the list of HLR (1) - Searching in the cache can use an optimized search method such as the binary dichotomy. The average number of searches in memory for 3,000,000 subscribers is less than 20 if the numbers are stored in sequential order each time a number is added. In our implementation, we use 8 bytes for each number and 8 bytes for The HLR address (global name), with a floating-point representation, thus the total is only 48 MB bytes which is easily readable with a medium-sized computer server without complicated database. In case the cache memory is accidentally destroyed, it is rebuilt by self-learning.

- If it finds the destination address in the cache memory, but the HLR responds to "unknown subscriber", it means that the recipient has changed network and an HLR search is done. It has been measured that a complete search of 15 HLRs takes about 12 secs. This is due to the response time of the HLRs and the SS7 transmission time. Thus a search for HLR is required only initially and if a subscriber changes network.

To improve things, as explained in Figure 2, but this is not mandatory, each operator can have his own "Conversion Unit" (CU), which is seen as one of his HLRs, so that the message that he sends to one of his own subscribers does not pass through the MNP-SMSC com mun. Their SMSC interrogates (1) this "CU" which, in turn, interrogates the HLRs of this network (2) in order to determine if it is one of its own subscribers. Otherwise the CU sends the SMSC to the common MNP-SMSC (3). <U> 3 Level Self-Learning </ U> HLR Even without Number Portability, HLR level maintenance must be done automatically to provide quality of service and minimize costs according to the invention.

For this purpose, an SMSC with the same software as an MNP-SMSC is used when it is necessary to send SMS to a network whose HLR levels are unknown, incompletely known or frequently changing operator.

It is necessary to have a list of HLRs (4 below) but the "HLR levels" may be empty (only one interval at the beginning, the same for all HLRs), for example

Min <SEP> Max <SEP> address <SEP> HLR
<tb> +886935000010 <SEP> +886935999999 <SEP> +886935000001
<tb> +886935000010 <SEP> +886935999999 <SEP> +886935000002
<tb> +886935000010 <SEP> +886935999999 <SEP> +886935000003
<tb> +886939000000 <SEP> +886939999999 <SEP> +886935000001 We are still looking at the level given by the table, but it is likely that +886935000001 that was randomly selected is not the HLR for +886935032000, so HLR search is done which indicates that the subscriber belongs to the HLR +886935000003. The intervals are then organized by cutting one in 2.

Min <SEP> Max <SEP> address <SEP> HLR
<tb> +886935000010 <SEP> +886935434000 <SEP> +886935000003
<tb> +886935434001 <SEP> +886935999999 <SEP> +886935000001
<tb> +886935000010 <SEP> +886935999999 <SEP> +886935000002
<tb> +886935000010 <SEP> +886935999999 <SEP> +886935000003
<tb> +886939000000 <SEP> +886939999999 <SEP> +886935000001 so that next time the number will be found directly, as well as its neighbors, otherwise the process of separation in two will continue until HLR levels converge (in the sense that they no longer evolve), which only requires a few hundred SMS sending for a medium-sized operator In case a new HLR is added, the new subscriber will be found after a search and a new HLR level added. The process is therefore self-learning and requires manual inputs only when HLRs are added. <U> 4 Sending an operator A to a C </ U><U> C operator with whom he does not have a </ U> roaming agreement <U> direct </ U> MNP-SMSC serves as relay or "SMSC proxy" in the network A. C network can send SMS to the MNP-SMSC because the MNP SMSC belongs to the network B that has a roaming agreement with A.

The -SMSC queries (1) the HLR (s) of B for the global name of the visited MSC. It then executes its routing algorithm which indicates whether the MSC can be indirectly addressed (in network C which has roaming agreements with B) or in another.

In the latter case, the MNP-MSC sends the message (2) to a companion SMSC MNP which is in a network which has roaming agreements with C, the message data including the Global Title (GT ) of the visited MSC.

The "MNP-SMSC companion" will just have to send (3) the ordinary MAP FORWARD SHORT MESSAGE MT message to the receiving mobile phone through the visited MSC with which it has a roaming agreement.

Thus the network A has been able to send an SMS to the visited network C with which it does not have a direct roaming agreement, thanks to the use of an "SMSC proxy".

Claims (1)

<U> CLAIMS </ U> 1) Method for sending SMS short messages to mobile networks with number portability in the same country, characterized in that a computer with SS7 connections capable of interrogating is implemented all HLR countries where portability of the number is carried out, the computer including a memory cashe for all mobile subscribers of the country where the portability is carried out, to see which HLR to interrogate, without research, when was found a first time . 2) Method according to claim 1, characterized in that from the initially empty cashe memory, progressively builds by HLR searches when subscriber is not yet registered in the cashe memory, or when he changes network of subscription. 3) Method according to claim 2, characterized in that it builds numbering plan (HLR levels) by self-learning and sequential interrogation of the HLR, each time a subscriber is not found in the existing plan. 4) Method according to claim 1, characterized in that one builds the list of HLR of an operator by a systematic parallel search performed by a computer. 5) Method according to claim 1, characterized in that the computer with SS7 connections as SMSC relay for relaying short messages sent by an operator A to a subscriber of a network B visiting another network C, the latter does not have roaming agreement with the network A, by sending the SMS short message with the GT global name of the visited MSC to a companion SMSC in a network having a roaming agreement with the network C 6. The method as claimed in claim 1, characterized in that the computer is integrated with an international gateway IGP, a national gateway NGP or in the GMSC (s) of an operator.