FR2877173A1 - Content e.g. audio data, broadcast planning method, involves estimating previously planned bit rate`s maximum value by calculating rate value at required slot`s starting instant or starting instant of time slot of planned content broadcast - Google Patents

Abstract

The method involves receiving a content broadcast request comprising data to determine a time slot and a constant bit rate required for the broadcast in a data transmission medium. A maximum value of a previously planned total bit rate is estimated by calculating a value taken by the previously planned rate at a starting instant of the required slot or a starting instant of a time slot of a previously planned content broadcast. The request is accepted if the estimated value is less than a maximum capacity of the transmission medium. Independent claims are also included for the following: (A) an information medium comprising instructions for executing a content broadcast planning method (B) a device for planning content broadcast in a data transmission medium.

Description

The present invention relates to a broadcast scheduling method

  content in a data transmission medium. It also relates to a device implementing this method and a computer readable data medium for its execution.

  This method is generally implemented in a context of content broadcasting using a multicast broadcasting infrastructure, for example by satellite, thanks to which several broadcast servers share the resources of the same data transmission medium whose capabilities are limited.

  By "content" is meant any type of digital or analog content: for example audio, video and / or alphanumeric data.

  A multicast broadcast of a content is a simultaneous broadcast of this content towards a limited but not necessarily predetermined number of recipients. This broadcasting mode has the advantage of allowing content to be broadcast in the same data transmission medium in a single stream that can reach all recipients.

  The data transmission medium can be used to transmit several contents to be broadcast simultaneously. However, it has a maximum capacity that is generally constant and expressed in the maximum total flow rate that can be transmitted at any time.

  To share the resources of the transmission medium between several client terminals wishing to broadcast content, there is provided a scheduling server that receives requests from these terminals. Each request includes data to determine a time slot and a rate required for content delivery. A time slot is a portion of time limited by a moment marking the beginning and a moment marking the end of the slot.

  This scheduling server may implement a method consisting in performing a priori a partition of the data transmission medium in a predetermined number of transmission channels, each channel being associated with a bit rate, so that the sum of the bit rates of the channels equal to the maximum capacity of the data transmission medium. Conventionally, each channel of the transmission medium can take, in a given time slot, one of the following two states: an available state, indicating that there is no scheduled broadcast in this time slot; and - a busy state, indicating that there is at least one scheduled broadcast in at least a portion of that time slot.

  Thus, the scheduling method includes receiving a request to broadcast content and then determining whether there is an available channel in the required time slot and whose rate is greater than the required rate. If this is the case, the required broadcast is planned in the selected channel, in the time slot and at the required rate. If this is not the case, the request is rejected.

  This method has the disadvantage of not allowing to allocate the channels optimally. Indeed the rates associated with the channels are set in advance. However, the bit rate required for the broadcast of content may be less than the rate of the channel allocated to it, which results in an underutilization of the allocated channel. Nor is it realistic to require that the contents be broadcast at a predefined common rate for all the channels of the transmission medium, under the pretext of optimizing the allocation of the channels.

  An improvement of this method consists in not defining a priori channels, but in estimating the maximum value of a total flow already planned in the transmission medium in the required time slot, each time we receive a new request from broadcasting of content. Thus, it can be verified that the required rate added to this maximum value never exceeds the total capacity of the data transmission medium within the required time slot, before accepting the request and scheduling the corresponding broadcast.

  A known method for estimating this maximum value is to sample the required time slot, to calculate the total flow already planned in the transmission medium at each instant of the sampling and to retain the maximum value taken by the flows calculated at the times of the sampling. 'sampling. Thus, the finer the sampling, the more accurate the estimation of the maximum value of the total flow already planned. However, in return, the finer the sampling, the more complex the calculation is and requires significant resources.

  To simplify the calculation, it is possible to limit the number of times at which the total flow already planned is calculated, but this makes the estimation of the maximum value more uncertain.

  The aim of the invention is to remedy this drawback by providing a method for scheduling content broadcasts, also based on an estimate of the maximum value of the total flow already planned in the transmission medium, which increases the chances of obtaining good estimate of this maximum value while not requiring too much resources.

  The subject of the invention is therefore a method for scheduling broadcasting of contents in a data transmission medium, comprising the following steps: a request is received for broadcasting a content, the broadcast being to be planned in this transmission medium the request includes data for determining a required time slot and a constant rate required for this broadcast; the maximum value of a total flow already planned in the transmission medium is estimated in the required time slot, by calculating at least one value taken by this total flow already planned at least one moment included in this time slot required; characterized in that the instant at which the already planned total bit rate is calculated is: - the instant marking the start of the required time slot, or - an instant marking the start of a time slot for broadcasting an already scheduled content in the transmission medium.

  The invention is based on the observation that, in multicast content broadcasting applications, the overall capacity of the data transmission medium is generally constant and the bit rate required in the request for broadcasting a content is also constant. . Thus, the time function representing the total flow already planned in the transmission medium over time is a piecewise constant function. The value taken by this function is likely to increase only at a moment marking the beginning of a time slot for broadcasting a content already planned in the transmission medium. Consequently, the maximum value of the total bit rate already planned in the transmission medium in the required time slot is reached: - at the instant marking the start of the required time slot, or - at a time marking the beginning of a time slot broadcasting already planned content in the transmission medium.

  Thus, by calculating the total flow already planned at at least one of these instants, it increases its chances of obtaining a good estimate of the maximum value, while limiting the number of calculations necessary to achieve it.

  Optionally, the total rate already scheduled is calculated at the instant marking the start of the required time slot and at each instant marking the start of a time slot for broadcasting an already scheduled content in the transmission medium.

  Indeed, the calculation of the total flow already planned at each of these instants is necessary and sufficient to obtain with certainty the true maximum value of the total flow already planned.

  In a particular embodiment, the planning method then comprises a step of processing the request in which it is verified that the estimated maximum value of the total already planned flow rate added to the required flow rate is less than a maximum capacity of the transmission medium.

  When this condition is verified, the request is accepted and the corresponding broadcast is scheduled in the data transmission medium. Otherwise we reject the request.

  It should be noted that the maximum capacity of the transmission medium can take a constant value, or variable in time but known.

  Preferably, the request includes data indicating the times marking the start and the end of the required time slot, and the bit rate required for this broadcast.

  Indeed, these data are the relevant data for the implementation of the planning process. They make it possible to deduce immediately, without additional calculation, the time slot and the bit rate of the required broadcast.

  The invention also relates to a computer readable data medium, comprising instructions for executing a method of planning content broadcasts as described above.

  This data carrier may be a hardware storage medium, for example a CD-ROM, a magnetic diskette or a hard disk, or a transmissible medium such as an electrical, optical or radio signal.

  The subject of the invention is also a device for scheduling broadcasting of contents in a data transmission medium, comprising: means for receiving a request for broadcasting a content, the broadcasting being to be planned in this medium of transmission, means for determining a required time slot and a constant bit rate required for this broadcast from data contained in the request; means for estimating the maximum value of a total flow already planned in the transmission medium in the required time slot, by calculating at least one value taken by this total flow already planned at least at one time included in this required time slot, characterized in that the estimation means comprise means for calculating the total flow already planned: at the instant marking the start of the required time slot, or at a time marking the beginning of a slot. time of broadcasting already planned content in the transmission medium.

  Optionally, a content broadcast planning device according to the invention comprises means for verifying that the maximum value of the total already planned flow rate added to the required flow rate is less than a maximum capacity of the transmission medium.

  The invention will be better understood with the aid of the description which follows, given solely by way of example and with reference to the appended drawings, in which: FIG. 1 schematically represents the general structure of an installation comprising a content broadcast planning device according to the invention; FIG. 2 illustrates a concrete application of content diffusions to be planned by means of a method according to the invention; and FIG. 3 represents the successive steps of a contents diffusion planning method according to the invention.

  The installation represented in FIG. 1 comprises a group 10 of client terminals, each client terminal being adapted for sending content broadcast requests in a data transmission medium 12, according to a bandwidth which is allocated.

  This transmission medium 12 is for example a conduit associated with a maximum data transmission capacity, this path being for example materialized by a satellite bandwidth manager allocated for the group 10 of client terminals. It manages the requests issued by the group 10 of client terminals that are attached to it.

  More specifically, the transmission medium 12 comprises an access server 14 adapted to receive the requests from the client terminals of the group 10. This access server constitutes the interface between these client terminals and a broadcast scheduling server 16 content in the transmission medium 12.

  The scheduling server 16 is adapted for implementing a content broadcast planning method according to the invention.

  Content broadcasts scheduled by the server 16 are then distributed by a stream distribution server 18 between a plurality of servers 20 for broadcasting these streams. The sum of the capacity of the streaming servers is equal to the maximum capacity of the transmission medium 12, that is to say that it corresponds to its allocated satellite bandwidth.

  The transmission medium 12 can also be managed by an operator, using at least one server 22, possibly remote.

  In order to fulfill its function of scheduling content broadcasts in the transmission medium 12, the scheduling server 16 comprises means 24 for receiving a request to broadcast a content transmitted by one of the client terminals of the group 10. It further comprises means 26 for determining a time slot and a rate required for this broadcast from data contained in the request, and means 28 for estimating the maximum value of a total flow already planned. in the transmission medium in the required time slot. He makes this estimate by the access of the estimating means 28 to a database 30 which stores in memory the time slots and the required bit rates of the already planned broadcasts in the transmission medium 12.

  Finally, the scheduling server includes means 32 for verifying that the estimated maximum value of the already planned total flow rate added to the required flow rate is always less than the maximum capacity of the transmission medium 12 in the required time slot.

  In a preferred embodiment of the invention, a request includes data indicating the times marking the beginning and the end of the broadcast to be scheduled, and the bit rate required for this broadcast. The pair consisting of the moment marking the beginning of the broadcast and the instant marking the end of the broadcast defines the required time slot.

  FIG. 2 shows a concrete example of a set of content diffusions in the transmission medium 12, some of which are already planned and one of which is to be planned.

  A first broadcast request R1 already scheduled is defined by a rate d1, a start time hd1, an end time hf1, as well as a content to be broadcast.

  Similarly, already planned requests R2, R3, R4 and R5 are respectively defined by rates d2, d3, d4, d5, start times hd2, hd3, hd4, hd5 and end times hf2, hf3, hf4, hf5, as well as content to be broadcast.

  Finally, a broadcast request R to be scheduled is defined by a bit rate, a start time hd, an end time hf, as well as a content to be broadcast.

  The first time diagram of FIG. 2 locates the different planned diffusions and to plan with respect to each other in time (in the abscissa) and in the limit of the maximum capacity of the transmission medium 12 (in the ordinate). In this example: hdl <hd <hd4 <hd3 <hd2 <hf1 <hf4 <hf <hf3 <hd5 <hf2 <hf5.

  As can be seen in the second timing diagram of FIG. 2, at each instant it is possible to calculate the value of the sum of the already planned flows in the transmission medium 12 and the value of the required bit rate d.

  In order for the required broadcast to be transmitted in the data transmission medium 12 in the required time slot, it is necessary that in this time slot the sum of the already planned broadcasting rates added to the required bit rate is always less than the maximum capacity of the medium. transmission 12.

  Since the rates of the already planned diffusions are constant between the beginning and the end of their respective time slots, the function which gives the value of the sum of the flow rates of the contents already planned over time is a piecewise constant function which necessarily reaches its maximum in the required time slot [hd, hf] at one of the following times: - the moment marking the start of the required time slot, or - an instant marking the beginning of a time slot for the broadcasting of content already planned in the transmission medium 12.

  Thus, in the example shown in the first diagram of FIG. 2, this function reaches its maximum in the time slot required at one of the following times: the time hd marking the start of the requested time slot of the request R; the moment hd4 marking the start of the time slot for broadcasting the content of the request R4; the time hd3 marking the start of the time slot for broadcasting the content of the request R3; the moment hd2 marking the start of the time slot for broadcasting the content of the request R2.

  The requests R1 and R5 concern content broadcasts, the start of which is provided at times before or after the required time slot of the request R. The request R1 has an earlier start of broadcast time at the beginning of the required time slot. Its possible contribution to the total rate already planned in the required slot is taken into account in the calculation at time hd marking the beginning of the time slot required for the request R. The request R5 has a start time of diffusion after the end the time slot required. It therefore makes no contribution to the total throughput already planned in the required slot.

  In fact, it is noted that the maximum reached by the time function giving the planned rate in the transmission medium 12 is in the case of our example reached at time hd2.

  In conclusion, we note that it is necessary and sufficient to calculate the value of the function giving the sum of the flows already planned at the instants hd, hd4, hd3 and hd2, to know the exact value of the maximum reached in the time slot [hd , hf]. By limiting the calculation to these precise moments, we limit the resources requested without taking the risk of leading to a bad estimate.

  Thus, generally speaking, in order to decide whether or not to satisfy the request R, it is necessary and sufficient to check that the following Boolean functions are true: bit rate (hd) + d 5 d max and 11 (bit rate (hd) ) + dd max), MIE M d, hf) with: - dmax, the maximum capacity of the transmission medium 12; E (hd, hf), the set of instants marking the beginning of an already planned diffusion between hd and hf; - flow (t) = di.D (t, hdi, hfi); if tE [hd, hf] 0 otherwise - the index i scanning a set of n scheduled broadcasts.

  A planning method implemented by the scheduling server 16 to achieve this result will now be described with reference to FIG.

  In a first step 100, the request R is received for broadcasting a content to be scheduled in the time slot [hd, hf] at the required rate d.

  Then, during a step 101, the bandwidth occupied in the transmission medium 12 is calculated at the time hd of the beginning of the required broadcast. For this, the value of the total flow rate already planned at this instant in the transmission medium 12 is calculated. This total flow, already planned, is equal to the sum of the flow rates of the already planned and ongoing transmissions in the transmission medium 12 to the transmission medium 12. moment hd. It is added the required flow d.

  During the next test step 102, it is tested whether the result calculated in the previous step is less than the maximum capacity of the transmission medium 12: Flow (hd) + d d max? If this is the case, we proceed to a step 104 during which we extract all the values of the start times of already planned broadcasts in the transmission medium 12: hdl, hd2, hd3, hd4 and hd5. We define a constant n, equal to the number of diffusions already planned in the transmission medium 12 (n = 5) and we initialize a variable i to the value 1.

  - D (t, hd, hf) = Then, the instant hdi is selected during a step 106. During the following test step 108, it is checked whether hdi belongs to the time interval [hd, hf ].

  If this is the case, we proceed to a step 110 during which the bandwidth occupied in the transmission medium 12 is calculated at the instant hdi. For this, the value of the total flow rate already planned at this instant is calculated which is the sum of the already planned and current transmission rates at the instant hdi in the transmission medium 12 and the required bit rate d is added to it.

  During the next test step 112, it is tested whether the result calculated in the previous step is less than the maximum capacity of the transmission medium 12: Flow (hdi) + d d max? If this is the case, we go to a step 114 in which the index i is incremented by one unit. We also go directly to step 114 without going through steps 110 and 112 if, during the test step 108, we find that hdi does not belong to the time interval [hd, hf].

  Then, during a test step 116, if i <_ n, the method is repeated in step 106. Otherwise, a step 118 of the end of the process is passed.

  We also go directly to step 118 without going through steps 104, 106, 108, 110, 112, 114 and 116 if, during the test step 102, we see that the result calculated in step 101 is greater than the maximum capacity of the transmission medium 12. In this case, it can be considered that this result is taken as an estimate of the maximum value of the total flow already planned in the transmission medium 12 in the required time slot. It is not necessary to determine the exact maximum value of the total flow rate since it will in any case be greater than this result, and therefore a fortiori higher than the maximum capacity of the transmission medium 12.

  Finally, step 118 is also passed directly without going through steps 114 and 116 if, during the test step 112, it is found that the result calculated in step 110 is greater than the maximum capacity of the medium. In this case also, it can be considered that this result is taken as an estimate of the maximum value of the total flow already planned in the transmission medium 12 in the required time slot.

  At the end of the process step 118, a decision is made on the broadcast request R. If this step 118 is directly passed at the end of the test step 102 or 112, the request is denied and we do not plan the distribution of the required content. On the other hand, if one has passed to step 118 at the end of the test step 116, this means that the maximum value of the total flow already planned, which is equal to one of the values calculated during the steps 101 or 110, added to the value of the required rate, is always less than the capacity of the transmission medium 12 in the required time slot. In this case, the request is accepted and the required broadcast is scheduled in the required time slot.

  It is clear that a content broadcasting planning method according to the invention makes it possible to take a decision to reject or accept a request for broadcasting a content on the basis of a suitable estimate of the maximum value. a total flow already planned in the transmission medium, while seeking the least possible computing capacity of the planning server. The relevance of the decision is not affected by the simplicity of the calculation.

Claims (7)

  1. A method for scheduling broadcasting of contents in a medium (12) for transmitting data, comprising the following steps: - receiving (100) a broadcast request of a content, the broadcast being to be planned in this transmission medium the request includes data for determining a required time slot and a constant rate required for this broadcast; the maximum value of a total flow already planned in the transmission medium is estimated in the required time slot, by the calculation (101, 110) of at least one value taken by this total flow already planned at least one instant included in this required time slot, characterized in that the instant at which the total rate already planned is calculated is: - the instant marking the start of the required time slot, or - an instant marking the beginning of a time slot of diffusion already planned content in the transmission medium.   The content broadcast scheduling method according to claim 1, wherein the total rate already scheduled at the instant marking the start of the required time slot and at each instant marking the start of a slot is calculated (101, 110). time of broadcasting already planned content in the transmission medium.   A content broadcast planning method according to claim 1 or 2, wherein it is further verified (102, 112) that the estimated maximum value of the already planned total flow rate added to the required flow rate is less than a maximum capacity of the transmission medium. .   A content broadcast scheduling method according to any one of claims 1 to 3, wherein the request includes data indicating the times marking the start and the end of the required time slot, and the rate required for this broadcast.   5. A computer-readable data medium having instructions for executing a content broadcast planning method according to one of the   any of claims 1 to 4.   6. Device (16) for planning content broadcasts in a medium (12) for transmitting data, comprising: means (24) for receiving a request for broadcasting a content, the broadcast being to be planned in a this transmission medium, means (26) for determining a required time slot and a constant bit rate required for this broadcast from data contained in the request; means (28) for estimating the maximum value of a total flow already planned in the transmission medium in the required time slot, by calculating at least one value taken by this total flow already planned at least an instant included in this required time slot, characterized in that the estimation means comprise means for calculating the total flow already planned: at the instant marking the start of the required time slot, or at a moment marking the beginning a time slot for broadcasting already planned content in the transmission medium.   The content broadcast scheduling device (16) according to claim 6, including means (32) for verifying that the estimated maximum value of the already planned total flow rate added to the required flow rate is less than a maximum capacity of the transmission medium.