FR3112230A1 - Method and system for managing the distribution of voice messages within spaces - Google Patents

Abstract

The invention relates to a method for managing, by a computer system (100) hosted by a first communicating node of a wireless communication network for the broadcasting of voice messages within spaces, the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to the first communicating node, on a computer system implementing such a method as well as on a communicating node of a wireless communication network for broadcasting messages voices within spaces including such a system. Figure for abstract: 2

Description

Method and system for managing the broadcasting of voice messages within spaces

Technical field of the invention

The present invention relates to the field of security and alarm systems for buildings, in particular security and fire alarm systems. The invention relates in particular to a method for managing, by a computer system hosted by a first communicating node of a wireless communication network for the broadcasting of voice messages within spaces, the broadcasting of at least one portion of a voice message by means of a loudspeaker connected to the first communicating node. The invention also relates to a computer system implementing such a method, it also relates to a communicating node of a wireless communication network for the broadcasting of voice messages within spaces comprising such a system as well as a wireless communication for broadcasting voice messages within spaces comprising such a communicating node.

State of the prior art

It is known that certain traditional security and fire alarm systems connect by means of cables a plurality of smoke detectors arranged in spaces and sirens making it possible to warn people in the event of the presence of smoke and/or a fire . In addition, we also know that some more advanced systems can warn people by broadcasting not only alarms but also voice messages, in order to better alert people to the risks involved. However, it also turns out that, depending on the spaces that must be secured, the connection of the detection elements and the sirens by means of cables often entails constraints of realization and significant costs, and, to circumvent this, some systems of Known security and fire alarm devices use detection devices and sirens that communicate by means of radio frequency signals. However, as much as the use of cables to connect means of sound broadcasting (e.g. sirens, loudspeakers) does not pose any problem when only alarms are broadcast, as much as the use of radio communications, inducing range and propagation delay, poses certain synchronization problems when voice messages are broadcast. For example, if we consider a wireless communication network for broadcasting voice messages within spaces of a security and fire alarm system such as the one shown schematically in Figure 1, comprising the communicating nodes A-E, each connected to a loudspeaker which allows the broadcasting of voice messages, network in which the nodes transmit and receive data frames by means of radio frequency signals, and in which node A is within range of nodes B and E, node B is within range of nodes A and C, node C is within range of nodes B and D, node D is within range of node C, it is understood that, if node A starts broadcasting a voice message when it transmits the radio frame including the message to node B, which, in turn, begins broadcasting the voice message upon receipt of the radio frame, and that the acoustic signals broadcast by the loudspeakers to which nodes A and B are connected are diffused in common places of a space , then a person who will be in these places will simultaneously perceive the voice message broadcast by node A and, with a delay, the voice message broadcast by node B, which will ultimately make the voice message imperceptible.

The invention aims to overcome this drawback. The object of the invention is indeed to provide a method and a system which contribute to, in a wireless communication network for the broadcasting of voice messages within spaces, making it possible to synchronize the broadcasting of voice messages between the communicating nodes of the network so that the vocal messages are perceptible for people and this whatever the places of the space where they are, in particular the places of the spaces where the acoustic signals are diffused by loudspeakers connected to different nodes.

This object is achieved, according to a first object of the invention, by means of a management method, by a computer system hosted by a first communicating node of a wireless communication network for the broadcasting of voice messages within spaces, the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to the first communicating node, the method comprising the steps of:

• determining whether data characterizing a voice message and data characterizing a first timeout parameter have previously been received from a second communicating node; and when it is established that this is not the case,
• determining data characterizing a first timeout parameter as a function of the number of communicating nodes of the communication network;
• determining data characterizing a voice message;
• manage a transmission of data characterizing a first timing parameter and data characterizing a voice message by interacting with a communication device by radiofrequency signals of the first communicating node; And
• managing the broadcasting of the voice message by means of the loudspeaker according to the data characterizing a first timeout parameter; or, when it is established that data characterizing a voice message and data characterizing a first timeout parameter have previously been received from a second communicating node,
• determining data characterizing a second timing parameter from the data characterizing a first timing parameter;
• managing a transmission of data characterizing a second timeout parameter and data characterizing a voice message by interacting with the communication equipment by radiofrequency signals;
• managing the broadcasting of at least a portion of the voice message by means of the loudspeaker according to the data characterizing a second delay parameter.

According to a variant, the step consisting in managing the broadcasting of the voice message by means of the loudspeaker according to the data characterizing a first timeout parameter and the step consisting in managing the broadcasting of at least a portion of the voice message to the medium of the loudspeaker as a function of data characterizing a second delay parameter may comprise the steps of:

• determining data characterizing a third timeout parameter as a function of a time elapsed since the start of the broadcast of the voice message; And
• manage a transmission of data characterizing a third time delay parameter and data characterizing a voice message by interacting with the communication equipment by radio frequency signals.

According to another variant, the step consisting in managing the broadcasting of the voice message by means of the loudspeaker according to the data characterizing a first timeout parameter can comprise a step consisting in managing the broadcasting of the voice message so that it begins at the end of a duration equal to the value opposite that of the first timeout parameter.

According to another variant, the step consisting in managing the broadcasting of at least a portion of the voice message by means of the loudspeaker according to the data characterizing a second timeout parameter can comprise the steps of:

• determining if the value of the second timeout parameter is negative; and, where it is established that this is the case,
• manage the broadcast of the voice message so that it starts after a duration equal to the value opposite that of the second timeout parameter; or, when the value of the second timeout parameter is determined to be positive,
• truncate a portion of the voice message based on data characterizing a first timeout parameter; And
• manage the broadcast of the remaining portion of the voice message so that it begins immediately.

According to another variant, the duration of the truncated portion of the voice message is equal to the sum of the value of the first delay parameter and of a pre-established propagation duration.

Furthermore, the invention also relates to a system for managing the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to a first communicating node of a wireless communication network for the broadcasting of voice messages within spaces, the system comprising at least one information processing unit, comprising at least one processor, and a data storage medium configured to implement a method as described above .

In addition, the invention also relates to a program comprising program code instructions for the execution of the steps of a method as described above, when said program is executed on a computer.

Furthermore, the invention also relates to a medium that can be used in a computer on which a program as described above is recorded.

In addition, the invention also relates to a communicating node of a wireless communication network for the broadcasting of voice messages within spaces comprising a system as described above.

Finally, the invention also relates to a wireless communication network for the broadcasting of voice messages within spaces comprising at least one communicating node as described above.

Brief description of figures

Other characteristics and advantages of the invention will appear on examination of the detailed description below, and of the appended drawings, in which:

is a functional diagram of a wireless communication network for broadcasting voice messages within spaces according to the invention;

is a block diagram of a system according to the invention;

is a flowchart illustrating the steps of a management method according to the invention; And

is a graph showing radio frames transmitted and received over time by communicating nodes of a wireless communication network for the broadcasting of voice messages within spaces according to the invention.

Detailed description of the invention

An example embodiment of a wireless communication network for broadcasting voice messages within spaces according to the invention to which reference will be made in the remainder of the description is illustrated schematically in FIG. 1. Such a network , which is for example part of a security and fire alarm system, comprises five communicating nodes A-E, each hosting, for example within a single box, a system 100 for managing the broadcasting of at least one portion of a voice message according to the invention and at least one radio frequency signal communication device 200 allowing the transmission and reception of radio frames (i.e. data frames transmitted by radio frequency signals). In addition, in order to allow the broadcasting of voice messages within spaces in which they are installed, each of the communicating nodes of the network is connected to a loudspeaker. In addition, each communicating node is equipped with an internal clock and, within a wireless communication network for the broadcasting of voice messages within spaces according to the invention, it is considered that the internal clocks of all the communicating nodes of the network are synchronized, for example by means of the implementation by the communicating nodes of known methods allowing the synchronization of internal clocks of communicating nodes in wireless communication networks. Finally, according to the configuration illustrated, which is presented solely for the purpose of clarity, it is considered by way of non-limiting example that the nodes A-D are separated two-by-two by a distance of 30m, that the node E is separated from the node A at a distance of 20m and that the propagation time of a radio frame between a node and the node(s) which are within its range is 300ms.

Thus, according to the invention, each communicating node of a wireless communication network for the broadcasting of voice messages within spaces is equipped with a system 100 for managing the broadcasting of at least a portion of a message speech by means of a loudspeaker connected to the communicating node. And, according to the invention, a system 100 for managing the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to a communicating node which equips each communicating node is a computer system, schematically illustrated in FIG. 2, which comprises an information processing unit 101, comprising one or more processors, a data storage medium 102, at least one input and output interface 103, allowing the acquisition of data (or signals ) and the supply of data (or signals), as well as hardware and software elements 104 for interacting with a communication device by radiofrequency signals 200 of a communicating node.

Furthermore, according to the invention, all the elements described above contribute to enabling the system 100 according to the invention to implement a method for managing the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to a first communicating node of a wireless communication network for the broadcasting of voice messages within spaces, as described below in connection with figures 3 and 4.

According to a first step 201, the system 100 according to the invention determines whether data characterizing a voice message and data characterizing a first timeout parameter have previously been received from a second communicating node. Indeed, if we refer to Figure 4, we see that the communicating nodes of the network transmit radio frames (Tx) which have a transmission time of 300 ms and which contain data characterizing a voice message to be broadcast (T ) and data characterizing a timeout parameter which, as will be seen below, alternately takes a positive or negative value. Thus, if we consider for example the communicating nodes B or C, they first receive (Rx) a radio frame which includes data characterizing a voice message to be broadcast (T) and data characterizing a timeout parameter, which, in the left part of the diagram, has a negative value. Node A, on the other hand, does not receive any radio frame beforehand since it is he who initiates the broadcasting of the voice message by the communicating nodes of the network.

Thus, when it has established during step 201 that no data has previously been received from another communicating node of the network, a situation which applies to node A and occurs at time t= 0, the system 100 according to the invention determines, according to a second step 202 of the method according to the invention, data characterizing a first timeout parameter as a function of the number of communicating nodes of the communication network. Thus, in the example illustrated in Figure 4, node A knows that the communication network includes five communicating nodes, and it knows that the transmission time of a radio frame is 300 ms. He deduces that the value of the first timeout parameter is -1500ms, which corresponds to the opposite (i.e. negative value) of the product of the number of communicating nodes and the transmission duration of a radio frame, and which, according to the network configuration exemplified in Figure 1, means that the communicating node A will manage the start of the broadcast of the voice message in 1500ms. Then, according to a third step 203 of the method according to the invention, the system 100 according to the invention determines data characterizing a voice message. To do this, for example, the system 100 according to the invention extracts the data characterizing a voice message from its data storage medium 102 on which they were previously recorded. Alternatively or cumulatively, at least a portion of this data is obtained by interacting with the radiofrequency signal communication apparatus 200 when at least a portion of this data is transmitted to node A by a server of a security system and of fire alarm. Then, according to a fourth step 204 of the method according to the invention, the system 100 according to the invention manages a transmission of data characterizing a first timeout parameter and data characterizing a voice message by interacting with the communication equipment by radiofrequency signals 200. Indeed, in the example illustrated in FIG. 4, the communicating node A transmits at t=0 a radio frame which contains the voice message to be broadcast and the first timeout parameter whose value is −1500 ms. Then, according to a fifth step 205 of the method according to the invention, the system 100 according to the invention manages the broadcasting of the voice message by means of the loudspeaker according to the data characterizing a first timeout parameter. Indeed, in the example illustrated in Figure 4, the communicating node A manages the broadcast of the voice message so that it begins after a period equal to the value opposite to that of the first timeout parameter, i.e. at t=1500ms. Then, according to a sixth step 206 of the method according to the invention, the system 100 according to the invention determines data characterizing a third timeout parameter as a function of a time elapsed since the start of the broadcast of the voice message and, according to a seventh step 207, the system 100 according to the invention manages a transmission of data characterizing a third timeout parameter and data characterizing a voice message. Indeed, at t=2000ms, the communicating node A transmits a radio frame which contains the voice message and a third timeout parameter, the value of which is 500ms, which corresponds to the time elapsed since the broadcast of the voice message was started. As will be seen below, this last radio frame transmitted by the communicating node A will allow the communicating node E to synchronize the broadcasting of the voice message.

On the other hand, when it has established during step 201 that data characterizing a voice message and data characterizing a first timeout parameter have been previously received from a second communicating node, a situation which applies to nodes B , C, D and E, and which occurs at t=300ms for node B, at t=600ms for node C and at t=900ms for node D, and at t=2300ms for node E, the system 100 according to the invention determines, according to an eighth step 208 of the method according to the invention, data characterizing a second delay parameter from the data characterizing a first delay parameter and, according to a ninth step 209 of the method according to the invention , it manages a transmission of data characterizing a second timeout parameter and data characterizing a voice message by interacting with the radio frequency signal communication apparatus 200. Indeed, in the example illustrated in FIG. 4, the node B tran smet at t=300ms a radio frame which contains the voice message to be broadcast and the second timeout parameter whose value is -1200ms, value which corresponds to the sum of the value of the first timeout parameter previously received, i.e. -1500ms, which was transmitted by node A at t=0, and the propagation time of a radio frame in the network. Similarly, node C transmits at t=600ms a radio frame which contains the voice message to be broadcast and the second timeout parameter whose value is -900ms, node D transmits at t=900ms a radio frame which contains the message to be broadcast and the second timeout parameter whose value is -600ms and the node E transmits at t=2300ms a radio frame which contains the voice message to be broadcast and the second timeout parameter whose value is 800ms. Then, according to a tenth step 210 of the method according to the invention, the system 100 according to the invention manages the broadcasting of at least a portion of the voice message by means of the loudspeaker according to the data characterizing a second timeout parameter.

To do this, according to an eleventh step 211 of the method according to the invention, the system 100 according to the invention determines whether the value of the second timeout parameter is negative and, when it establishes that this is the case, situation which applied to nodes B, C and D at t=300ms, t=600ms and t=900ms, the system 100 according to the invention, according to a twelfth step 212 of the method according to the invention, manages the broadcasting of the voice message so that it starts after a duration equal to the value opposite that of the second timeout parameter. Thus, in the example illustrated in Figure 4, node B starts broadcasting the voice message 1200ms after transmission of the first radio frame, node C starts broadcasting the voice message 900ms after transmission of the first radio frame and node D begins broadcasting the voice message 600 ms after transmission of the first radio frame. Thus, the broadcast of the voice message by the nodes A, B, C and D is synchronized and begins regardless of one of these nodes at t=1500ms. Then, according to a thirteenth step 213 of the method according to the invention, the system 100 according to the invention determines data characterizing a third timeout parameter as a function of a time elapsed since the start of the broadcast of the voice message and, according to a In the fourteenth step 214, the system 100 according to the invention manages a transmission of data characterizing a third timeout parameter and data characterizing a voice message. Indeed, at t=2300ms, node B, for example, transmits a radio frame which contains the voice message and a third timeout parameter, the value of which is 800ms, which corresponds to the time elapsed since the broadcast of the voice message started at t=1500ms.

On the other hand, when it has established during the eleventh step 211 that the value of the second timeout parameter is positive, a situation which applies to the node E and occurs at t=2300ms (we consider for the example node E has not received the first radio frame transmitted by node A at t=0), the system 100 according to the invention, according to a fifteenth step 215 of the method according to the invention, truncates a portion of the voice message as a function of the data characterizing a first timeout parameter, preferably so that the duration of the truncated portion of the voice message is equal to the sum of the value of the first timeout parameter and the propagation time of a radio frame in the network, and, according to a sixteenth step 216 of the method according to the invention, the system 100 according to the invention manages the broadcasting of the remaining portion of the voice message so that it begins immediately. Thus, in the example illustrated in Figure 4, the node E truncates at t=2300ms the first eight hundred milliseconds of the voice message, i.e. which corresponds to the sum of the value of the first timeout parameter included in the second frame transmitted by node A, which is positive (i.e. 500ms), and the propagation time of a radio frame in the network (i.e. 300ms), and, it manages the broadcast the start of the broadcast of the remaining portion of the message at t=2300ms. Thus, the broadcasting of the remaining portion of the message by means of the loudspeaker connected to node E is synchronized with that of nodes A, B, C and D.

Consequently, under the terms of the method and the system according to the invention described above, a solution is provided for, in a wireless communication network for the broadcasting of voice messages within spaces, making it possible to synchronize the broadcasting of voice messages between the communicating nodes of the network so that the voice messages are perceptible for people and this whatever the places of the space where they are, in particular the places of the spaces where acoustic signals are broadcast by speakers connected to different nodes.

Claims (10)

Method for managing, by a computer system (100) hosted by a first communicating node (A-E) of a wireless communication network for the broadcasting of voice messages within spaces, the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to the first communicating node,characterized in thatthe method includes the steps of:

• determining whether data characterizing a voice message and data characterizing a first timing parameter have previously been received from a second communicating node; and where it is established that such is not the case,
• determining data characterizing a first timeout parameter as a function of the number of communicating nodes of the communication network;
• determining data characterizing a voice message;
• manage a transmission of data characterizing a first timing parameter and data characterizing a voice message by interacting with a communication apparatus by radio frequency signals (200) of the first communicating node; And
• managing the broadcasting of the voice message by means of the loudspeaker according to the data characterizing a first time delay parameter; or, when it is established that data characterizing a voice message and data characterizing a first timeout parameter have previously been received from a second communicating node,
• determining data characterizing a second timing parameter from the data characterizing a first timing parameter;
• managing a transmission of data characterizing a second timing parameter and data characterizing a voice message by interacting with the communication equipment by radiofrequency signals; And

• managing the broadcasting of at least a portion of the voice message by means of the loudspeaker according to the data characterizing a second delay parameter.

Method according to claim 1,characterized in that thatthe step consisting in managing the broadcasting of the voice message by means of the loudspeaker according to the data characterizing a first time delay parameter and the step consisting in managing the broadcasting of at least a portion of the voice message by means of the loudspeaker speaker as a function of data characterizing a second timing parameter include the steps of:

• determining data characterizing a third timeout parameter as a function of a time elapsed since the start of the broadcast of the voice message; And
• managing a transmission of data characterizing a third timing parameter and data characterizing a voice message by interacting with the radio frequency signal communication apparatus (200).

Method according to one of the preceding claims, characterized in that the step consisting in managing the broadcasting of the voice message by means of the loudspeaker as a function of the data characterizing a first delay parameter comprises a step consisting in managing the broadcasting of the message so that it begins after a duration equal to the opposite value of the first timeout parameter. Method according to one of the preceding claims,characterized in thatthe step consisting in managing the broadcasting of at least a portion of the voice message by means of the loudspeaker according to the data characterizing a second timeout parameter comprises the steps of:

• determining if the value of the second timeout parameter is negative; and, where it is established that this is the case,
• manage the broadcast of the voice message so that it starts after a duration equal to the value opposite to that of the second timeout parameter; or, when the value of the second timeout parameter is determined to be positive,
• truncate a portion of the voice message based on data characterizing a first timeout parameter; And
• manage the broadcast of the remaining portion of the voice message so that it begins immediately.

Method according to Claim 4, characterized in that the duration of the truncated portion of the voice message is equal to the sum of the value of the first delay parameter and of a pre-established propagation duration. System (100) for managing the broadcasting of at least a portion of a voice message by means of a loudspeaker connected to a first communicating node (AE) of a wireless communication network for the broadcasting of voice messages within spaces, characterized in that the system comprises at least one information processing unit (101), comprising at least one processor, and a data storage medium (102) configured to implement a method according to one of the preceding claims. A computer program comprising program code instructions for carrying out the steps of a method according to any of claims 1-5 when said program is executed on a computer. Support usable in a computer, characterized in that a program according to Claim 7 is recorded thereon. Communicating node of a wireless communication network for broadcasting voice messages within spaces, characterized in that it comprises a system according to claim 6. Wireless communication network for broadcasting voice messages within spaces, characterized in that it comprises a communicating node according to claim 9.