FR2981238A1 - Communication method for routing phone call signals from communication network to mobile phone, involves applying routing parameters in order to route communication signals received by portable communication device - Google Patents

Abstract

The method involves implementing a routing application (111) in a data storage component (102) of a portable communication device (101), where the application has routing parameters for routing communication signals. A triggering device (140) located within a predetermined zone (130) is activated, where the triggering device is adapted to communicate with the communication device. Trigger signals of the triggering device are emitted toward the communication device to start the application. The parameters are applied so as to route the communication signals received by the communication device. An independent claim is also included for a communication system.

Description

FIELD OF THE INVENTION The present invention relates to the field of mobile telephony and, more specifically, to a communication method and a communication system for processing communication signals such as call signals. telephones intended for mobile phones. State of the art Nowadays, thanks to the geographical coverage of the mobile telephone networks, a mobile phone user can be reached almost at any time and regardless of the location of the mobile phone. However, under certain conditions, it is preferable that the user is not reachable.

Thus, in terms of road safety, current regulations tend to prohibit the driver's use of the mobile phone under penalty of sanctions. A driver may sometimes unintentionally fail to disable, that is, turn off, his mobile phone. Subsequently, when the mobile phone receives signals of telephone calls incessantly, the driver can be led, despite the ban, to use his mobile phone to answer a phone call.

Similarly, in terms of aviation safety, the cell phones of the passengers of an airplane must either be activated in flight mode in order not to transmit or receive telephone call signals, or completely disabled. Indeed, an activated mobile phone capable of transmitting or receiving a telephone call signal may cause electromagnetic compatibility problems with the electronic equipment necessary for piloting the aircraft. The consequences of forgetting the deactivation or putting the mobile phone in airplane mode can therefore be detrimental.

In addition, for the convenience of mobile phone users, it may be necessary to restrict the reception of calls during a certain period of time. Thus, during the night, a user may wish to receive the only signals of telephone calls from specific people, such as members of the user's family, for example. Restrictions on receiving phone calls may also be necessary when the caller is dependent on a different time zone than the use of the mobile phone. Thus, the user is not disturbed at inappropriate times.

SUMMARY OF THE INVENTION The object of the present invention is to provide a method and a communication system to avoid at least one of the aforementioned disadvantages.

A first object of the invention relates to a communication method for routing communication signals from a communication network and intended for a portable communication device comprising a data storage component, said portable communication device being located at within a predetermined area, said method comprises the following steps: implementing a routing application in the data storage component of the portable communication device, said routing application comprising routing parameters associated with the communication signals for realizing routing of communication signals; activating a localized triggering device within the predetermined area and adapted to communicate with the portable communication device; transmitting trigger signals from the trigger device to the portable communication device to trigger the routing application; applying the routing parameters to route the communication signals received by the portable communication device.

Preferably, the trigger signal transmitting step comprises transmitting an identification signal from the trigger device to the portable communication device to signal the presence of the trigger device to the portable communication device.

Advantageously, the step of transmitting triggering signals comprises transmitting an authentication signal from the trigger device to the portable communication device to authenticate the trigger device to the portable communication device. Preferably, the step of applying the routing parameters comprises the following steps: reception by the communication network of a communication signal intended for the portable communication device; determining the recipient of the received communication signal; transmission of the received communication signal to the recipient; identification of the telephone line number associated with the communication signal; search for the routing parameter associated with the telephone line number; routing of the received communication signal according to the routing parameter. Preferably, the transmission step comprises transmitting the received communication signal to the portable communication device. Alternatively, the transmission step comprises transmitting the received communication signal to the signal processing component.

Preferably, the step of searching for the routing parameter comprises sending a request to the portable communication device to identify the routing parameter associated with the telephone line number.

A second object of the invention relates to a communication system comprising a portable communication device adapted to receive communication signals from a communication network, said portable communication device comprising a data storage component, the component of data storage being provided with a routing application for routing the received communication signals, said communication system comprising a trigger device located within a predetermined area and adapted to communicate with the portable communication device when the portable communication device is located within the predetermined area, said trigger device for triggering the routing application of the portable communication device.

Preferably, the routing application includes an activated state to allow the reception of triggering signals from the triggering device.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, objects and features of the invention will appear more clearly on reading the following description given with reference to the drawings, in which: FIG. 1 represents a diagram of a communication system, in a mode embodiment of the invention; FIG. 2 represents a diagram of the different steps of a communication method, according to one embodiment of the invention.

DETAILED DESCRIPTION OF THE EMBODIMENT FIG. 1 shows a communication system 100 comprising a portable communication device 101 such as a mobile phone. The portable communication device 101 comprises a housing (not shown). The housing includes a display screen (not shown), a keyboard (not shown) with keys associated with specific characters such as numbers and letters. The housing also includes elements such as an antenna (not shown) and electronic components (not shown) for transmitting and receiving communication signals such as telephone call signals. Thus, the electronic components comprise for example a SIM card, an electronic component providing a telephone function, an electronic component for routing a signal to a system (not shown) providing a messaging function, a microprocessor (not shown) and a component The portable communication device 101 is capable of communicating with a communication network 120 such as a mobile telephone network belonging to a mobile telephone operator. The communication network 120 comprises a communication server 121. The communication server 121 comprises in particular a signal receiving component 122, a signal processing component 123 and a data storage component 124. The reception component 15 signal 122 receives the different communication signals from other communication servers. The signal receiving component 122 may transmit a received communication signal to the portable communication device 101 or alternatively to the signal processing component 123. The signal processing component 123 performs the processing of the received communication signals. The data storage component 124 makes it possible to store data relating to the characteristics associated with the processing of the communication signal. The portable communication device 101 may, for example, actively transmit this data, stored in the data storage component 102, to the data storage component 124. Alternatively, the communication server 121 may transmit a request to the portable device communication device 101 to obtain the transmission of this data from the data storage component 102 of the portable communication device 101 to the data storage component 124. The signal receiving component 122 carries out the determination of the destination of the data signal. received communication based on the absence or presence of data within the data storage component 124. The recipient comprises either the portable communication device 101 or the signal processing component 123. The portable communication device 101 can transmit and receive communication signals from callers, ie correers The communication signal comprises, for example, a voice call, a text message or any type of communication signal from another communication device transmitted via the communication network. communication network 120. As shown in Figure 1, the portable communication device 101 is located within a predetermined area 130. The predetermined area 130 may represent an area of about a few square meters or a few hundred meters square. The predetermined zone 130 comprises, for example, the passenger compartment of a vehicle, the space reserved for passengers inside an aircraft or the space inside a theater, a living room or a room. 'a local of a company. According to the invention, the portable communication device 101 comprises a routing application 111, that is to say a routing software, intended to manage the routing, that is to say the transmission of the communication signals coming from of the communication network 120 and intended for the portable communication device 101. This routing application 111 can be stored in the data storage component 102 of the portable communication device 101 as soon as the manufacturing and assembly step of the portable device of communication 101. The routing application 111 can also be implemented after the manufacture of the portable communication device 101. Thus, a specific provider can make the application 111 available to the users of portable communication devices 101 by means of Internet sites. for example. Users can then download the routing application 111 to store it within the data storage component 102 of the portable communication device 101. The routing application 111 can be activated automatically when the portable device of the device is powered on. communication 101 or manually by the user by means of a feature located on the portable communication device 101. The routing application 111 includes a routing program 112 for carrying out the routing. The routing application 111 also includes a database 113. This database 113 lists, on the one hand, telephone line numbers associated with callers and, on the other hand, routing parameters or setpoints associated with these phone line numbers. Thus, the user can define and set, before any use of the routing program 112, an association between a routing parameter and a telephone line number. The telephone line numbers identify the callers associated with the communication signals. Thus, depending on the telephone line number associated with the call signal of a caller, the routing program 112 applies the associated routing parameter as indicated in the database 113. The routing parameter may indicate to route the communication signal to the electronic component of the portable communication device 101 providing the telephone function so that the user can enter directly into communication with the caller. This type of routing parameter relates in particular to communication signals from hospitals and intended for a user such as a doctor. The routing parameter may also indicate routing the communication signal to the electronic component of the portable communication device 101 associated with the system providing the messaging function. Thus, the communication signal is routed to a voice mail server located on the communication network 120 so that the user can not enter into communication with the caller.

The user can then decide whether to customize the voicemail message to indicate the reason for his absence to any caller associated with the telephone line number. The routing parameter can also provide for routing a communication signal to a server located on the Internet network. The user can thus return the caller to the website of a social network on which the user has a personalized web page such as a profile. Thus, the user can, before setting up the routing method, indicate on his personalized page a message explaining the reason for a future unavailability. The user can therefore remotely notify using this profile any caller who would seek to reach him during a period of unavailability. The communication system 100 also comprises a triggering device 140 located near the portable communication device 101 within the predetermined zone. Thus, the trigger device 140 is located at a distance of a few tens of meters from the portable communication device 101 for example. Trigger 140 includes an enable and disable component 141 whose power-up initiates the operation of trigger device 140. Activation and deactivation component 141 may operate in an automatic mode or in accordance with FIG. a manual mode. Thus, the activation and deactivation component 141 can be automatically switched on as a result of the user's prior action on an external device (not shown) connected to the activation and deactivation component 141. Alternatively the activation and deactivation component 141 may be energized by a direct action of the user on the trigger device 140. The triggering device 140 also includes a communication component 143. Upon activation of the component On activation and deactivation 141, the communication component 143 is activated to transmit trigger signals including identification and authentication signals within the predetermined area 130. The communication component 143 uses a technology communication network for wireless and short-range personal networks. This communication technology must be compatible with the communication technology available on the portable communication device 101. Thus, the communication component 143 can operate according to Bluetooth technology, Zigbee TM or radio frequency identification technology (RFID) by example. The dimensions of the predetermined zone 130 are dependent on the communication technology used by the communication component 143. Within the predetermined zone 130, the tripping device 140 can operate in association with a single portable communication device 101 or simultaneously with several portable communication devices. When the triggering device 140 is activated, the communication component 143 periodically transmits identification and authentication signals at short range to any portable communication device 101 located in the predetermined area 130. The identification signal comprises identification data relating to the identity of the trigger device 140. The authentication signal comprises authentication data relating to the authenticity of the triggering device 140. The transmission of the identification signal makes it possible to transmit to the routing application 111 the data relating to the identity of the triggering device 140. The transmission of the authentication signal makes it possible to transmit to the routing application 111 data relating to the authenticity of the trigger device 140. The issuance of this authentication signal is optional. Indeed, the routing application 111, after receiving the identification signal, may optionally require the transmission of the authentication signal. These two types of signals make it possible to inform the routing application 111 of the portable communication device 101 that the triggering device 140 is activated for this portable communication device 101. Next, a step of verifying the identification data and the authentication takes place to verify either the identification data alone or the identification data and the authentication data. This verification step can be performed either by the routing application 111 within the portable communication device 101, or by an external application (not shown) responsible for managing this verification. In the situation where the routing application 111 carries out the verification of the identification and authentication data, the routing application 111 interrogates a database (not shown) comprising identification and authentication data relating to to one or more routing devices 140. Thus, the routing application 111 searches the database (not shown) for identification and authentication data identical to the data sent by the trigger device 140. Routing application 111 finds the same data in the database (not shown), so routing application 111 can reliably initiate the routing method required by activation of trigger device 140. Alternatively, an external application (not shown) proceeds to the verification of the identification and authentication data transmitted by the triggering device. In this situation, the routing application 111 must transmit this data to the external application (not shown) by means of the communication network 120. The external application uses an external database (not shown). Then, the verification step consists in finding within the external database the identification and authentication data as transmitted by the triggering device 140. When the external application finds the identical data in the database of external data, the external application sends a signal to the routing application 111 to indicate the reliability of the trigger device 140. Therefore, the routing application 111 goes into operation and the routing method is operational. Deactivating the activation and deactivation component 141 deactivates the communication component 143. The triggering device 140 is therefore also deactivated. Alternatively, when the portable communication device 101 is no longer present in the predetermined zone 130, the identification and authentication signals of the trigger device 140 can not reach the portable communication device 101. Therefore, in this situation, the activated state of the trigger device 140 has no effect on the portable communication device 101 and no routing method takes place. The triggering device 140 also comprises a processing unit 145 comprising one or more microcontrollers. The triggering device 140 then comprises a power supply system (not shown) for supplying the activation and deactivation component 141, the communication component 143 and the processing unit 145 of the trigger device 140. The energy supply system includes, for example, the battery of a vehicle, the Electricité de France (EDF) network. According to one embodiment of the invention, the portable communication device 101 is located within a predetermined zone such as the passenger compartment of a vehicle. As shown in FIG. 2, the portable communication device 101 is activated in a step 200. The portable communication device 101 comprises the routing application 111 which is activated in a step 202. In this embodiment, the communication device 101 Trigger 140 is located within the passenger compartment of the vehicle for example on the socket of the cigarette lighter located in the vehicle. In a step 204, from the start of the vehicle by the user, the activation and deactivation component 141 is activated to the extent that the power of the cigarette lighter plug is dependent on the vehicle start. Thus, the trigger device 140 and the communication component 143 are also automatically activated. Another alternative would be to manually activate the activation and deactivation component 141 by means of a device such as a switch located on the triggering device 140. In a step 206, the communication component 143 transmits a signal d. identification to signal its presence within the predetermined area 130. This step 206 occurs repeatedly according to a configurable period of time. In a step 208, the portable communication device 101 receives the identification signal. After receiving the identification signal, the routing application 111 requires the sending of an authentication signal from the trigger device 140. The communication component 143 then transmits in a step 210, the authentication signal to the portable communication device 101. Insofar as the routing application 111 is activated, it receives the authentication signal in a step 212. Then, in a step 214, the routing application 111 performs a verification credentials and authentication data received. In the situation where the verifications do not make it possible to identify and authenticate the triggering device with the portable communication device 101, the method does not continue. In the situation where the verifications make it possible to identify and authenticate the triggering device with the portable communication device 101, various operating methods can be implemented in order to carry out the routing method. According to the embodiment shown in FIG. 2, the portable communication device 101 autonomously manages the routing of the communication signals. Thus, following steps 200 to 214, the communication server 121 receives a communication signal to the portable communication device 101 in a step 300. In a step 302, the communication server 121 transmits the communication signal directly. to the portable communication device 101.

Thus, the communication network 120 operates in a known manner, without applying a routing method specifically required by the portable communication device 101. The routing application 111 within the portable communication device 101 then applies the routing method to any signal of communication received. Thus, the routing application 111 then identifies in a step 304 the telephone line number associated with the communication signal. Then, the routing program 112 searches for this telephone line number within the routing database 113 in a step 306. In the situation where the routing program 112 retrieves the telephone line number in the database 113, the routing program 112 then searches in a step 308 the routing parameter associated with the telephone line number found. In a step 310, the routing application 111 then applies to the communication signal the routing parameter associated with the telephone line number within the database 113. Thus, the routing application 111 proceeds with the routing by applying in particular the routing parameter. In a subsequent step (not shown), the routing application 111 routes the received communication signal according to the routing parameter. The received communication signal is therefore routed either to the portable communication device 101 or to the signal processing component 123 of the communication server 121. As previously mentioned, the communication component 143 periodically transmits an identification signal intended for the Portable communication device 101. Thus, insofar as the portable communication device 101 continues to receive the identification signal, the routing application 111 continues the processing of the communication signals according to the routing parameters established in the application. In the situation where the trigger device 140 is deactivated, the communication component 143 is also deactivated and the portable communication device 101 no longer receives an identification signal. Therefore, the routing application stops applying the routing method. Thus, the portable communication device 101 resumes direct communication with the communication network 120 and thus avoids the application of the routing method to the communication signals intended for the portable communication device 101. According to a second embodiment, the portable device communication, the routing application 111 and the triggering device 140 are activated. The communication server 120 manages the routing method in association with the portable communication device 101. Thus, after the step 214, the portable communication device 101 transmits to the communication server 121 of the communication network 120, a request to take in charge of the routing of the communication signals intended for the portable communication device 101. Thus, when the communication server 121 receives a communication signal intended for the portable communication device 101, the communication network 120 does not transmit the signal of communication. telephone call to the portable communication device 101. The communication server 121 then establishes a communication with the portable communication device 101 in order to obtain the information contained in the routing application 111. Thus, the communication server 121 applies the method routing according to the routing application 111 to any communication signal re u on the communication network 120 as shown in the first embodiment. As previously mentioned, the communication component 143 periodically transmits an identification signal for the portable communication device 101. Thus, insofar as the portable communication device 101 continues to receive the identification signal, the communication server 121 continues the processing of the telephone call signals according to the routing parameters established in the routing application 111. In the situation where the triggering device 140 is deactivated, the portable communication device 101 no longer receives an identification signal. Therefore, the portable communication device 101 sends to the communication server 121 an instruction to stop the routing process.

Thus, the portable communication device 101 resumes direct communication with the communication network 120 and thus avoids the application of the routing method to the communication signals intended for the portable communication device 101.

According to a third embodiment, the portable communication device, the routing application and the triggering device are activated. The communication server 121 autonomously manages the routing method. Thus, the communication server 121 includes an additional data storage component (not shown) for storing the routing application 111 specific to the portable communication device 101. This routing application 111 can be transmitted at a predetermined time by the Portable communication device 101. Thus, the communication server 121 applies the routing method according to the routing application 111 to any telephone call signal received on the communication network 120 as indicated in the first embodiment. As previously mentioned, the communication component 143 periodically transmits an identification signal for the portable communication device 101. Thus, insofar as the portable communication device 101 continues to receive the identification signal, the communication server 120 continues the processing of the telephone call signals according to the routing parameters established in the routing application 111. In the situation where the triggering device 140 is deactivated, the communication component 143 is also deactivated and the portable communication device 101 no longer receives an identification signal. Therefore, the portable communication device 101 sends to the communication server 121 an instruction to stop the routing process. Thus, the portable communication device 101 resumes direct communication with the communication network 120 in order to avoid the application of the routing method to the telephone call signals intended for the portable communication device 101. The embodiments described above are given as examples only.

Claims (10)

REVENDICATIONS1. Communication method for routing CLAIM signals1. A communication method for routing communication signals from a communication network (120) and for a portable communication device (101) comprising a data storage component (102), said portable communication device (101) being located within a predetermined zone (130), characterized in that said method comprises the following steps: - implementation of a routing application (111) in the data storage component (102) of the portable communication device (101), said routing application (111) including routing parameters associated with the communication signals for routing the communication signals; - activating a triggering device (140) located within the predetermined area (130) and adapted to communicate with the portable communication device (101); - Triggering device triggering signals (140) to the portable communication device (101) for triggering the routing application (111); - Application of the routing parameters in order to route the communication signals received by the portable communication device (101). The communication method as claimed in claim 1, characterized in that the step of transmitting triggering signals comprises transmitting an identification signal of the triggering device (140) to the portable communication device (101). ) to signal the presence of the trigger device (140) to the portable communication device (101). The communication method according to claim 1 or 2, characterized in that the step of transmitting trigger signals comprises transmitting an authentication signal from the trigger device (140) to the portable device of communication (101) for authenticating the triggering device (140) to the portable communication device (101). 4. Communication method according to one of the preceding claims, characterized in that the step of applying the routing parameters comprises the following steps: - reception by the communication network (120) of a communication signal for the portable communication device (101); Determining the recipient of the received communication signal; - transmission of the received communication signal to the recipient; - identification of the telephone line number associated with the received communication signal; searching for the routing parameter associated with the telephone line number; routing of the received communication signal according to the routing parameter. 2 98123 8 21 The communication method according to claim 4, characterized in that the transmitting step comprises transmitting the received communication signal to the portable communication device (101). The communication method according to claim 4, characterized in that the transmitting step comprises transmitting the received communication signal to the signal processing component (123). 7. The communication method as claimed in one of claims 4 to 6, characterized in that the step of searching for the routing parameter comprises sending a request to the portable communication device (101) to identify the parameter of routing associated with the telephone line number. A communication system comprising a portable communication device (101) adapted to receive communication signals from a communication network (120), said portable communication device (101) comprising a data storage component ( 102) characterized in that the data storage component (102) is provided with a routing application (111) for routing the received communication signals, said communication system comprising a localized triggering device (140). within a predetermined area (130) and adapted to communicate with the portable communication device (101) when the portable communication device (101) is located within the predetermined area (130), said triggering device (140) allowing the triggering of the routing application (111) of the portable communication device (101). Communication system according to claim 8, characterized in that the routing application (111) comprises an activated state to allow the reception of trigger signals from the triggering device (140). 10