EP2396960A1 - Management of a telephone service and the power status of a communication terminal on the basis of the presence of a user - Google Patents

Abstract

According to the invention, in order to manage telephone service continuity in relation to a user associated with a communication terminal (TC) and at least one communication device (DC), a server (SC) connected to the communication terminal and to the communication device can: switch off the communication terminal following detection of an event relating to the absence of a user in the vicinity of the communication terminal, and activate a call transfer from the communication terminal to the communication device based on a profile of the user. The server can also: switch on the communication terminal following detection of an event relating to the presence of the user in the vicinity of the communication terminal, and deactivate the call transfer from the communication terminal to the communication device.

Description

TELEPHONE SERVICE MANAGEMENT AND ¹ STATE POWER OF COMMUNICATION TERMINAL ACCORDING TO THE PRESENCE OF

USER

The present invention relates to a telephone service management and power state of a communication terminal according to the presence of a user. More particularly, the invention relates to the management of the continuity of telephone service during a power on or off of communication terminals, such as telephones, based on presence information on the users of these communication terminals. .

Currently, a communication terminal, such as a landline telephone, consumes electrical power continuously, when it is connected to the power grid and remains constantly energized. In the context of a company, each communication terminal is associated with at least one user, that is to say used specifically by this user in the office in which this user works. When this user is absent from his office, the communication terminal remains powered and consumes unnecessary electrical energy. On the other hand, this user can manually turn off and on the communication terminal for the sake of saving energy. However, this manual action is occasional and remains a constraint for the user. In addition, when the communication terminal is turned off manually, the user does not have means to be contacted by a person knowing only the call number of the communication terminal.

An object of the invention is to overcome the above disadvantages by automatically managing the power off or on a user's communication terminal while ensuring a continuity of telephone service with respect to the user.

To achieve this objective, a method for managing a continuity of telephone service with respect to a user who is associated with a fixed telephone type communication terminal and at least one communication device. communication, the communication terminal and the communication device being connected to a communication server, is characterized in that it comprises the following steps: detecting an event relating to the absence of the user near the communication terminal, powering off the communication terminal following the detection of said event, and activating a call transfer from a call number of the communication terminal to a call number of the communication device according to a profile of the user.

Advantageously, the communication terminal is automatically switched off when the user is absent and is no longer near the communication terminal. The communication terminal therefore no longer consumes electrical energy when the user is absent. In addition, although the communication terminal is de-energized, the user can still be contacted via the communication device, which may be, for example, a voicemail server, a landline telephone at the home of the user, or a mobile radio telephone of the user.

Moreover, since the communication terminal is off when the user is absent, no other person can use the communication terminal, which limits any fraudulent use of the communication terminal.

According to other features of the invention, the event relating to the absence of the user may correspond to the output of the user of a given geographical area, or at the beginning of a predefined time interval.

According to another characteristic of the invention, the method may furthermore comprise the following steps: detecting an event relating to the presence of the user near the communication terminal, switching on the communication terminal following the detection of said event , and disable the call transfer from the call number of the communication terminal to the call number of the communication device. According to other features of the invention, the event relating to the presence of the user may correspond to the entry of the user in a given geographical area, or at the end of a predefined time interval.

Advantageously, the communication terminal is automatically switched on when the user is present near the communication terminal. The communication terminal has therefore not consumed electrical energy during the entire absence of the user.

The invention also relates to a server for managing a continuity of telephone service with respect to a user who is associated with a fixed telephone type communication terminal and at least one communication device, the communication terminal and the communication device being connected to the server, characterized in that it comprises: means for de-energizing the communication terminal, following detection of an event relating to the absence of the user in the vicinity of the communication terminal, and means to activate a call transfer from a call number of the communication terminal to a call number of the communication device according to a profile of the user.

According to another characteristic of the invention, the server may further comprise: means for powering up the communication terminal, following detection of an event relating to the presence of the user in the vicinity of the communication terminal, and means for disabling the call transfer from the call number of the communication terminal to the call number of the communication device.

The present invention and the advantages it provides will be better understood from the following description given with reference to the appended figures, in which:

FIG. 1 is a schematic block diagram of a telecommunications system according to one embodiment of the invention for managing telephone service with respect to a user; and FIG. 2 is an algorithm of a telephone service management method with respect to a user.

With reference to FIG. 1, a telecommunications system according to one embodiment of the invention comprises at least one presence detector DP, a presence server SP, a communication server SC, at least one communication terminal TC of a user , and at least one less a DC communication device of the user, interconnected through a telecommunications network RT. The telecommunications network RT may be a wired or wireless network, or a combination of wired and wireless networks.

In one example, the telecommunications network RT is a network of high-speed packets of the IP ("Internet Protocol") type, such as the Internet or an intranet. In another example, the telecommunications network RT is a TDM type network ("Time Division Multiplexing" in English) or a private network specific to a company supporting a proprietary protocol.

A communication terminal TC of a user is connected to the communication server SC through the telecommunications network RT.

For example, TC communication terminal is a fixed telephone type

TDM or a fixed telephone type voice on IP network. According to another example, TC communication terminal is a POE type fixed telephone ("Power Over

Ethernet "which is powered via an Ethernet connection, without being connected to the power grid.

The communication terminal TC is associated with a power supply interface IA, which may be a housing comprising a switch that is connected to the electrical network. The power supply interface IA controls the power supply of the fixed telephone and makes it possible to switch on or off the communication terminal TC.

When the communication terminal TC is on, it can be in a normal mode in which all the functions of the terminal are available or in a restricted mode, such as a "standby" mode, in which only certain predefined functions of the terminal are available. What Whatever the mode in which the terminal is, the terminal always consumes power when it is powered on.

In the case of a POE-type telephone, the IA power interface can be incorporated into the phone without being connected to the power grid. Turning off the phone also saves the power needed to power the phone.

Each communication terminal TC is associated with a user, who is for example the owner of the phone or the only person to whom the phone is assigned in an office for example. As a variant, a communication terminal TC may be associated with several users.

The power supply interface IA is connected to the communication server SC via the telecommunications network RT. The power supply interface IA communicates with the communication server SC for example via the Ethernet protocol. The power supply interface IA is controlled by the SC server in a state such as "open circuit" to switch off the communication terminal or to another state such as "closed circuit" to turn on the communication terminal. The communication server SC controls the power interface according to a message received from the presence server SP. The presence server SP transmits a message to the communication server SC following the detection of an event relating to an absence or presence of the user near the communication terminal TC. Such an event is detected by a presence detector DP connected to the presence server SP. The presence server SP can be informed of a detected event in time, the event corresponding to the beginning or the end of a predefined time interval. For example, a time slot is a predefined time slot corresponding to a predicted time of presence or absence of the user in the room in which the communication terminal TC is located. In the context of a business, a time interval may correspond to a predefined time slot during which the user is expected to be present in the office, such as from 8:00 to 20:00. In this case, a presence detector DP can be likened to a software module controlling scheduled schedules relating to the user. More precisely, other time intervals may correspond to time slots of a user-defined calendar, such time slots being related to absences of the user, for example for business trips. In this case, a presence detector DP can be likened to a software module managing a calendar of the user. The presence server SP can be informed of a detected event in a given geographical area, the event corresponding to the entry or exit of the user of a geographical area in which the communication terminal is located. For example, this event is detected by a RFID identification ("Radio Frequency IDenfication" in English), by means of a badge of the user to access said zone. For example, in the context of a company, a geographical area may be the company site, a building of the company in which the user works, or the user's office. In this case, a presence detector DP can be likened to an access terminal to the geographical area. In another example, the presence server SP can be informed of the presence of the user when the latter logs on to his personal computer which is connected to the company network and which is supposed to be located near the terminal of the company. TC communication. In this case, a presence detector DP can be likened to a software module included in the personal computer that controls the opening and the logoff by the user.

In general, a presence detector DP has the function of detecting the presence or absence of a user near the communication terminal TC. The user can be considered close to the communication terminal, for example when the user is able to see or hear the communication terminal or more broadly when the user is at the place of the communication terminal, it is in the same room, or the same building, or the same site. With regard to a detected event in time, the user can be considered near the communication terminal for example during a time slot during which it is expected that the user is at work or more precisely in his office.

In a particular embodiment, a presence detector DP may be included in the communication terminal TC and able to communicate with a user equipment, such as a mobile phone. When the communication terminal TC is de-energized, the DP detector can be powered by a battery or capacity. For example, the presence detector DP can detect the presence of the user when a connection type WiFi or Bluetooth is established with a mobile phone of the user.

According to an embodiment of the invention, when a presence detector DP detects an event, the detector transmits a message, called MesD detection message thereafter, in a predefined format to the presence server SP.

The message MesD contains a DP presence detector IdDP identifier, a user IdU identifier, and DonE event data relating to the detected event. According to a first example, the presence detector DP is a software module managing a user's diary and the DonE event data are relative to the beginning or the end of a predefined time slot. According to a second example, the presence detector DP may be a terminal for access to a geographical area and the DonE event data are relative to the date and time of identification of the user's RFID badge as well as the user's action type, which can be the user's entry or exit from the zone.

Following reception of the mesD detection message transmitted by the presence detector DP, the presence server SP transmits a message, called the presence message MesP thereafter, to the communication server SC. For example, the message MesP contains the IdDP identifier of the presence detector DP ₁ the user IdU and the DonE event data optionally modified in another format.

Following receipt of the presence message MesP transmitted by the presence server SP, the communication server SC controls the power supply interface IA to switch off the communication terminal or to switch on the communication terminal, and control at least one action to ensure a continuity of telephone service with respect to the user in the case of switching off the communication terminal.

For this purpose, the communication server SC identifies an identifier IdTC of the communication terminal associated with the user identifier IdU, for example in a correspondence table. The communication server SC determines the address of the power supply interface IA associated with the terminal of communicating and transmitting a request to the power interface for controlling the power on or off of the communication terminal based on DonE event data. For example, the communication server analyzes DonE event data to determine whether the user is present or absent near the communication terminal.

According to a first example, if the DonE event data is relative to the user's entry in a given geographical area or to a user's arrival at work schedule, the SC server controls the power-up. the communication terminal of the user. According to a second example, if the DonE event data is relative to the user's output from a given geographical area or to a starting time of the user's work, the server SC controls the power off of the terminal communication of the user.

Optionally, before switching off the communication terminal, the latter produces an audible and / or visual warning to warn the user, if the latter is still present, that the terminal will be powered off. The warning is for example produced a few minutes before the communication terminal is switched off.

In the case where the communication server controls the power down of the user's communication terminal, the server performs at least one action to ensure a continuity of telephone service with respect to the user, the action being defined by a user. set of instructions associated with the user identifier IdU, for example in a user profile associated with the user identifier IdU. According to an embodiment of the invention, the user initially fills in a user profile to indicate one or more DC communication devices from which the user can be called or can consult a message left by another user. As examples, a communication device DC is a voicemail server, or a fixed telephone at the home of the user, or a mobile radio telephone. For example, the user profile contains a call number of a voicemail server and / or at least one call number of another user's communication terminal.

To ensure continuity of telephone service, the communication server SC activates a call transfer feature from the number for calling the communication terminal TC to the call number of a user's DC communication device Optionally, the call transfer is configured according to a call sequence, for example corresponding to a call to a first party. communication device of the fixed telephone type, then to a call to a second mobile phone type communication device, then to a call to a third communication device of the voice server type

For example, the communication server SC is a switch PABX ("Pvvate Automatic Branch eXchange" in English) The communication server SC comprises means, such as software or a combination of hardware and software, configured to control in particular switching on or off the communication terminal and activating or deactivating a call transfer from the communication terminal to a communication device

The management of events and the continuity of telephone service with respect to the user in the communication server SC can be partly defined by a system administrator, and partly defined by the user via a software interface in a personal computer For example, a priority can be assigned to certain types of events in relation to other types of events. For example, the communication terminal is switched on at 9 o'clock and the communication terminal is switched off. is scheduled to 18h If the arrival of the user in a given geographical area of the company is detected before 9am, for example by an RFID identification, then the communication terminal is turned on during the detection of the arrival In addition, according to the configuration chosen, the power off of the communication terminal can be executed only when the delegate the user's departure before or after 18h, or on the contrary can be executed only at 18h regardless of the user's departure time Optionally, if the power off of the communication terminal is programmed to 18h and if the user is always present at 18h, the user can be warned, by an audible and / or visual warning, that the terminal will be de-energized The power off of the communication terminal can be carried out after said warning within a time limit predetermine allowing the user possibly to cancel the power off of the communication terminal.

With reference to FIG. 2, a telephone service management method according to one embodiment of the invention comprises steps E1 to E6 executed in the telecommunications system. The method is described below with respect to a communication terminal TC associated with a user who is initially present in an office where the communication terminal is located.

At a preliminary step E01, a profile of the user is created in the communication server SC. For example, this profile is stored in the form of a correspondence table in a database and the correspondence table notably contains a user IdU identifier, a communication terminal IdTC identifier and Ensl instruction sets. respectively associated with TypE event types. In addition, a presence detector DP, which is a desktop access point, is configured to detect whether the user enters or leaves the office by an RFID identification.

In step E1, the presence detector DP detects an event relating to the absence of the user near the communication terminal. The event corresponds to the output of the user of the office, which is a given geographic area in which the communication terminal is located. The presence detector DP transmits a mesD detection message to the presence server SP in a predefined format. The message MesD contains a DP presence detector IdDP identifier, a user IdU identifier, and DonE event data relating to the detected event. DonE event data includes the identification date of the user's RFID badge and a type of action indicating the user's exit from the office.

In step E2, the presence server SP transmits a presence message MesP to the communication server SC. The message MesP contains the IdDP identifier of the presence detector DP ₁ the user identifier IdU, the event data DonE.

Optionally, the presence server SP analyzes the DonE event data and converts it into another format that can be interpreted by the communication server SC. In addition, the SP presence server can interpret DonE event data to give them an explicit meaning of the presence or absence of the user. According to the previous example on detecting the output of the desktop user, the server SP can add a data field meaning the absence of the user, or possibly restrict the content of the event data to the latter field of data.

In step E3, the communication server SC identifies the identifier IdTC of the communication terminal associated with the user identifier IdU in the correspondence table. The communication server SC analyzes the event data DonE to deduce a type of event TypE which is for example defined by "absence".

The communication server SC determines the address of the power supply interface IA associated with the communication terminal, previously identified by its identifier IdTC, and executes the set of instructions Ensl associated with the type event type TypE. For example, according to the set of instructions Ensl, the server SC transmits a request to the power supply interface IA to command the power off of the communication terminal. Furthermore, the communication server SC activates a call transfer function from the call number of the communication terminal TC to the call number of a user's communication device DC, which is a mobile telephone. radiocommunication.

Thus, the communication terminal TC of the user is automatically de-energized after the departure of the user and consumes no more electrical energy. When a person calls the user with the call number of the communication terminal, the call is redirected to the mobile phone of the user.

In step E4, the presence detector DP detects an event relating to the presence of the user near the communication terminal TC. The event corresponds to the input of the desktop user and transmits a mesD detection message to the presence server SP. The message MesD contains the IdDP identifier of the presence detector DP, the user IdU and the event data DonE relating to the detected event. The DonE event data contains, in particular, the identification date of the RFID badge of the user and a type of action indicating the entry of the user into the office.

In step E5, the presence server SP transmits a presence message MesP to the communication server SC, which also contains the identifier IdDP of the presence detector DP, the user identifier IdU, the event data DonE.

In step E6, the communication server SC identifies the identifier IdTC of the communication terminal associated with the user identifier IdU in the correspondence table. The communication server SC analyzes the event data DonE to deduce a type of event TypE which is for example defined by "presence".

The communication server SC, by executing the set of instructions Ensl associated with the Type event type, transmits a request to the power supply interface IA to control the power up of the communication terminal. Furthermore, the communication server SC deactivates the call transfer functionality from the call number of the communication terminal TC to the call number of a user's DC communication device.

Thus, the user's TC communication terminal is powered on automatically after the user's arrival and consumes power again. The user can be called again on the communication terminal TC.

Optionally, the correspondence table stored in the communication server SC also contains idDP identifiers of presence detectors DP associated with the sets of instructions Ensl, in order to determine a priority of certain types of events with respect to other types of instructions. 'event.

According to an exemplary embodiment described hereinafter, another presence detector DP, which is a software module managing a user's diary, is configured to transmit a mesD detection message to the presence server SP according to absence schedules. and presence of the user.

The presence detector DP detects an event relating to the presence of the user near the communication terminal, the event corresponding to the beginning of a time slot of the user's presence or at the end an absence time slot, and the presence detector DP transmits a mesD detection message to the presence server SP. The message MesD includes in particular the presence detector IdDP identifier, the user IdU identifier and DonE event data which contain for example the start date of the time slot and a type of action indicating that the user is present in the office. The presence server SP transmits to the communication server SC a presence message MesP whose content is similar to that of the mesD detection message.

The user's profile can be configured to establish processing priorities according to the presence detectors used or to establish rules for processing a presence message received from a presence detector as a function of a presence message previously received. from another presence detector. For example for a given day, the calendar has memorized a time slot of the presence of the user in the office between 9:00 and 18:00, in order to automatically switch on the communication terminal at 9 o'clock and off at 18:00. According to said message processing rules, if the base station detects the arrival of the user in the office before 9am, the communication server processes the presence message from the base station to turn on the terminal since no presence message from the calendar has been received before. Furthermore, when the calendar detects that it is 9h and transmits a message to the communication server, the latter does not process the message since it has already received a message from the base station to power on. the communication terminal.

The user's profile can be further configured to establish rules for processing the received presence messages as a function of time. For example, the processing of messages from the software module managing a diary is performed only in the morning to turn on the terminal at 8 o'clock or is also performed for a long-lasting event such as a business trip to power off the terminal during the duration of this trip.

Optionally, with user and / or enterprise authorization, user presence information is encrypted and aggregated into a user-related history, to which a system administrator can access for purposes investigation, for example concerning a theft of the user's badge.

Claims

A method for managing a continuity of telephone service with respect to a user who is associated with a fixed telephone type communication terminal (TC) and at least one communication device (DC), the communication terminal (TC), and the communication device (DC) being connected to a communication server (SC), characterized in that it comprises the following steps: detecting (E1) an event relating to the absence of the user near the communication terminal (TC), switch off (E3) the communication terminal (TC) following the detection of said event, and activate (E3) a call transfer from a call number of the communication terminal (TC) to a number of call of the communication device (DC) according to a profile of the user.

2. Method according to claim 1, characterized in that the event relating to the absence of the user corresponds to the output of the user of a given geographical area.

3. Method according to claim 1, characterized in that the event relating to the absence of the user corresponds to the beginning of a predefined time interval.

4. Method according to one of claims 1 to 3, characterized in that it further comprises a following steps; detecting (E4) an event relating to the presence of the user near the communication terminal (TC), switching on (E5) the communication terminal (TC) following the detection of said event, and deactivating (E5) the transfer of call from the call number of the communication terminal (TC) to the call number of the communication device (DC).

5. Method according to claim 4, characterized in that the event relating to the presence of the user corresponds to the entry of the user in a given geographical area.

6. Method according to claim 4, characterized in that the event relating to the presence of the user corresponds to the end of a predefined time interval.

7. Method according to one of claims 1 to 6, characterized in that the communication device (DC) is a voicemail server.

8. Method according to one of claims 1 to 6, characterized in that the communication device (DC) is a fixed or mobile phone of the user.

A server (SC) for managing a continuity of telephone service with respect to a user who is associated with a fixed telephone type communication terminal (TC) and at least one communication device (DC), the communication terminal ( TC) and the communication device (DC) being connected to the server (SC), characterized in that it comprises: means for de-energizing the communication terminal (TC), following detection of an event relating to the absence of the user near the communication terminal, and means for activating a call transfer from a call number of the communication terminal (TC) to a call number of the communication device (DC) according to a profile of the user.

10. Server (SC) according to claim 9, characterized in that it further comprises: means for switching on the communication terminal (TC), following detection of an event relating to the presence of the user near the communication terminal, and means for disabling the call transfer from the call number of the communication terminal (TC) to the call number of the communication device (DC).