FR2948790A1 - Method for downloading and reading content on e.g. multimedia device, involves downloading content from content server onto buffer memory, and managing downloading and reading of content on buffer memory in circular manner by reader - Google Patents

Abstract

The method involves downloading content (1) from a content server (3) onto a buffer memory (4), and simultaneously reading the content during downloading and before complete downloading of the content on a multimedia device (2). Downloading and reading of content on the buffer memory are managed in a circular manner by a reader (40). The memory is initialized, and a downloading position in the memory is estimated with respect to a final position of content by the device during downloading the content in the memory. An independent claim is also included for a multimedia device comprising a buffer memory.

Description

GENERAL TECHNICAL FIELD The present invention relates to a method of downloading and reading a content on a multimedia device comprising a buffer memory and a buffer memory reader. The invention also relates to a device for implementing the method. STATE OF THE ART 10 Downloading content that can be read at the same time as the download and before the total download of the content is increasingly used to view content (video or audio stream) through remote connections. It is widely used in the world of computers using consumer oriented operating systems, known for example under the Windows and Mac OS X brands. This type of download is also used in multimedia devices, such as multimedia platforms or decoders (known under the brand Apple TV for example) or in the mobile telephony 20 (for example under the brands Apple iPhone or Nokia). A program that uses the download is either scaled to content that is downloaded, or uses content that is scaled to download technology. Thus, multimedia platforms are known that offer videos in high definition via an Internet interface. These platforms have a high-capacity hard drive that allows them to store this video entirely. There are also known mobile phones that use the aforementioned thumbnail download in applications connecting to the GSMIGPRS network. Thumbnails are progressively viewed on screen and stored temporarily on the phone. These thumbnails are compressed in a format adapted to the low storage and memory capacity of the phone and the low remote connection it has. These download technologies, however, have disadvantages.

Thus, when the hard disk platforms or the phone do not have enough memory capacity to be able to save the content, the user will not be able to execute the download. In some cases, the space available in memory can be used, but the downloaded content can not be read in its entirety.

This situation often occurs with mobile phones because they have a small memory, and generally do not have auxiliary storage media. In addition, the content used in the aforementioned download is often sized relative to the materials used, which does not allow to offer all kinds of content of different quality or size. If oversized content is viewed during the above type of download, the wait time to play the content without making up for the download position will increase significantly. PRESENTATION OF THE INVENTION The invention proposes to overcome at least one of these disadvantages. For this purpose, the invention proposes a method of downloading and reading a content on a multimedia device comprising a buffer memory and a buffer memory reader, characterized in that it includes a step of downloading the content. on the buffer from a content server, the reading of the content can take place simultaneously to the download and before the total download of the content on the device, the downloading and reading of the content being managed in a circular manner on the buffer memory by the reader. The invention is advantageously completed by the following features, taken alone or in any of their technically possible combination: the downloading comprises the steps of: initializing the buffer memory; estimation of the download position in the buffer memory, then if the download position b (t) in the memory is less than the buffer end position bf (t), the final position corresponding to an initial position bo (t) of the memory increased by the size of the buffer memory, there is available memory space in the buffer memory and the device performs a download of the contents in the buffer memory; or if the download position b (t) is not less than the final position bf (t) of the buffer, the device performs a step of estimating the reading position p (t) with respect to the position initial bo (t), possibly increased by a fast return zone; when downloading the content into the buffer memory, the device performs a step of estimating the download position b (t) with respect to the final position of the content; then if the download position b (t) is less than the final position of the content, the device returns to the step of estimating the download position b (t) in the memory; if the download position b (t) is not less than the final position of the content, the device stops downloading. during the step of estimating the reading position p (t) with respect to the initial position bo (t) of the memory, possibly increased by a fast return zone, if the position p (t) of reading is greater than the initial position bo (t) of the memory, possibly increased by a fast return zone, the device performs a step of overwriting part of the content already downloaded and read by the device, thanks to a uploading content to the buffer or if the reading position p (t) is not greater than the initial position bo (t) of the memory, possibly increased by a fast return zone, the device performs a download pause step and performs a step back to the step of estimating the position b (t) download in the buffer. the reading comprises the steps of: initialization of the reading at the beginning of the downloaded content in the buffer memory; when an external instruction respectively read, search or fast forward is received by the device, the device performs a step of estimating the reading position p (t) in the buffer memory with respect to the position of downloading b (t) in the buffer memory, and then if the reading position p (t) is greater than the downloading position b (t), then the reading, searching or fast-forwarding of the content is paused respectively. if the reading position p (t) is not greater than the download position b (t), then respectively reading, searching or fast-forwarding of the downloaded content can begin and / or continue, - when an external fast return instruction is received by the device, the device performs a step of estimating the reading position p (t) with respect to the initial position bo (t) of the memory, and then if the reading position p (t) is less than the initial position bo ( t) of the memory, then the playback of the downloaded content is paused, if the reading position p (t) is not lower than the initial position bo (t) of the memory, then the fast return can begin and / or continue; the method comprises a later step of automatically reading the contents, after a waiting time, when the device performs an earlier step of pausing the reading of the content if the reading position p (t) is greater than the download position b (t) or following a step of initialization of the buffer memory; - the waiting time is calculated by the following formula: Tw (t) = SB ù b (t) _ SB (1 + EB) Obtt) (l + e) Sv v with: • TT (t): the time waiting at time t; • SB: the size of the buffer (4) in bytes; • Sv: the size of the content in bytes; • TV: the total time of the content, in seconds; • b (t): the download position in the memory (4) at time t; • B: the margin of error of the rate of the remote connection; • cV: the margin of error for calculating the flow rate. The invention also relates to a device for implementing the method. The invention has many advantages. The proposed invention allows the download and playback of content on a multimedia device having a buffer size smaller than the size of the content to download, which was not the case in the technologies of the prior art . It also makes it possible to calculate the optimal waiting time before reading the downloaded content, which is oversized compared with the remote connection for example, without the reading position reaching the download position and causing the playback to be paused. PRESENTATION OF THE FIGURES Other characteristics, objects and advantages of the invention will emerge from the description which follows, which is purely illustrative and nonlimiting, and which should be read with reference to the appended drawings, in which: FIG. multimedia device having a memory, in connection with a server for downloading and reading a content; FIG. 2 schematically represents the main downloading steps of a method according to the invention; FIG. 3 diagrammatically represents the main steps of reading a method according to the invention; - Figure 4 shows schematically the operation of a circularly managed memory; FIGS. 5 to 10 show schematically examples of the operation of a method according to the invention. In all the figures, similar elements bear identical reference numerals.

DETAILED DESCRIPTION The main steps of a method according to the invention are shown in FIGS. 2 and 3 in combination with the diagram of FIG.

Thus, a method of downloading (FIG. 2) and reading (FIG. 3) of a content 1 on a multimedia device 2 comprising a buffer memory 4 and a reader 40 of the buffer memory 4 is provided. Reading can take place simultaneously with the download and before the total download of the content.

In the remainder of the present description, content is understood to mean any data stream, for example video and / or audio stream and / or images, for example a film, pieces of music or images, for example animated gif images, or any type of file containing data. The examples are given for information only and not limiting.

Similarly, the multimedia device 2 is for example a decoder, for example TV, cable or satellite, advantageously of the digitiscope type or any other device for downloading and reading a content 2, such as a digital photographic frame, a mobile phone, an electronic pocket assistant (Personal Digital Assistant according to the English terminology generally used), a digital music player, etc. For this purpose, the buffer 4 of the device 2 is conventionally a storage area, of a type known to those skilled in the art, whose size is limited. By way of non-limiting example, the memory 4 may be a hard disk, internal or external to a device housing 2, or a flash memory, that is to say a memory combining the advantages of the RAMs (writing, reading and erasing data blocks) and those of the read-only memories (permanence of the contents, even when the power is turned off), or a USB key, that is to say a removable medium of the device housing 2, containing a flash memory or a minidisk hard and inserted into a USB port of the device. The reader 40 is conventionally a hardware and software system enabling the execution of the multimedia content downloaded and stored on the memory 4. The reader 40 comprises all the means enabling the device 2 to implement the method according to the invention. The method comprises, as will be seen in the remainder of the present description, a step of downloading the content to the buffer memory 4 from a content server 3. The content server 3 is conventionally a server housing multimedia contents intended to be transmitted, on request and in compressed form, to multimedia devices 2 clients equipped with a reader 40 of multimedia content, to be read simultaneously with the download and 10 before the total download of the content. The server 3 can be remote from the device 2, and linked to the device by any type of connection, wired or wireless (GSM protocols, satellite, cable TV or Internet for example), or near the device (eg Wifi or Bluetooth protocols ). As will be seen in more detail below, the downloading and reading of the content 1 are managed circularly on the buffer memory 4 by the reader 40. This feature allows the downloading and reading of the content on the device 2, even though the memory 4 has a memory space smaller than the size of the content 1 to download and read. As an indication, the contents 1 to download have a size Sv of the order of 8 Giga-bytes (case of films in full HD (high definition) for example), and the memory 4 has a size SB available between 1 to 4 GB (gigabytes), or less. The circular management of the buffer memory 4 by the reader 40 is explained below, with reference to FIG. 4, which represents the download position b (t) with respect to the memory 4. To begin, and as the 1 and 4A, from an initial position bo (t) of the memory 4, the memory 4 fills up completely with data, as indicated by the position b (t) of downloading. Figure 4B shows that the memory 4 is completely full. Then begins the circular management of the memory 4. Thus, and as will be seen later, if the content data have already been read, they will be overwritten progressively by replacing the data read by new data downloaded, which indicates Figure 4C. The initial position bo (t) of the memory therefore moves in the memory 4, and the newly downloaded data is at a lower position in the memory and so on (hence the term circular management of the memory). The implementation of the device is explained below, with reference to FIGS. 5 to 10 (which represent the download position with respect to the content 1), and FIGS. 2 and 3 (representing the steps of the method). FIGS. 2 and 5A show that the download includes an initialization step EO of the memory 4. At the step E0, the memory 4, of size SB, is positioned at the beginning of the content 1. during the initialization step E0: bo (t) = b (t) in the memory 4. It should be noted that the initialization EO of the memory 4 may correspond to the use of the same newly allocated memory , or the use of a new buffer allocated to another memory space of the device 2, or to a repositioning of the reading in the content (this case is explained later). FIGS. 2 and 5A show that the method also includes an estimation step E1 of the download position b (t) in the buffer memory 4. In the case of FIG. 5A, we find ourselves in a referenced case by El 1 in Figure 2, wherein the position b (t) of download in the memory 4 is less than the final position bf (t) of the buffer. It is understood that the final position bf (t) corresponds to the initial position bo (t) increased by the size SB of the buffer memory 4. In other words, the case E11 corresponds to the case where there is still space available memory in the buffer 4.

The device 2 then performs a download, referenced by E3, of the content in the buffer memory 4. When the content is downloaded to the buffer memory 4, the device 2 performs an estimation step E4 of the download position b (t ) with respect to the final position Sä of the contents. It can be seen in FIG. 5A that the download position b (t) is less than the final position S, of the content (the content has not been downloaded entirely), which corresponds to the case referenced by E41 in FIG.

In the case E41, the device 2 returns to the estimation step E1 of the download position b (t) in the memory 4. The download E3 continues until FIG. 5B. In FIG. 5B, it can be seen that, during the step E1 of estimating the download position b (t) in the buffer, the download position b (t) is not less than the final position bf ( t) of the buffer memory 4. This is the case referenced by E10 in FIG. 2. The device then performs an estimation step E2 of the reading position p (t) with respect to the initial position bo (t ) of the memory 4, here increased by a zone Srwd, called fast return zone. The Srwd zone is optional, as will be seen later. The Srwd zone corresponds to an intangible reserve of data, for a possible fast return by the user if he has been disturbed during the reading of the content, as explained in the following. The Srwd zone can be of variable size, even suppressed according to the wishes of the user.

In the case of Figure 5B, the reading of the content 1 has not started. Consequently, the reading position p (t) is not greater than the initial position bo (t) of the memory 4, increased by a fast return zone Srwd. This is the case referenced by E20 in FIG.

In the case E20, the device 2 carries out a pause step E6 of the download, and performs a step of returning to the estimation step E1 of the download position b (t) in the buffer memory, pending an evolution of the situation.

If the user then decides to give an external reading instruction to the device 2 (typically by pressing a read key on the device 2, or on a remote control actuating the device for example), it is then in the case of the Figure 5C, and Figures 2 and 3.

Regarding the reading (FIG. 3), the device 2 performs an estimation step S1 of the reading position p (t) in the buffer memory 4 with respect to the download position b (t) in the buffer memory 4. On In Fig. 5C, if the reading position p (t) is not greater than the download position b (t), then the reading can begin and continue until Fig. 5D. Regarding the download (Figure 2), it is still in Figure 5C, in the case of Figure 5B described above, that is to say that the download is paused. In FIG. 5D, concerning the downloading, one no longer finds in the case E20 of FIGS. 5B and 5C, but in a case referenced by E21 in FIG. 2, in which the reading position p (t) is greater than the initial position bo (t) of the memory 4, increased by the SnNd area of fast return. The device 2 then performs a step of overwriting a part of the content already downloaded and read by the device 2, by downloading E3 content in the buffer memory 4. This download crash E3 schematically corresponds to a displacement of the buffer 4 with respect to the content 1, as shown in FIG. 5E. As before, during the download E3, the device performs a step E4 of estimating the download position b (t) with respect to the final position Sä of the content. It can be seen in FIGS. 5D and 5E that the download position b (t) is smaller than the final position Sä of the content, which corresponds to the case referenced by E41. In the case E41, the device 2 returns to the estimation step 30 El of the download position b (t) in the memory 4. With regard to the reading (FIG. 3), it is still not in the case S11 in Figures 5D and 5E (so we are in a case of further reading).

In FIG. 5F, the user gives an external instruction to pause the reading before the total filling of the memory (case El 1). Figure 5G shows that we arrive at the case E10 of Figure 2 (filling of the memory 4).

The device 2 then performs the step E2, and one finds itself in the case E21, that is to say that the position p (t) of reading is greater than the initial position bo (t) of the memory 4, increased area Srwd fast return. The device performs a step of overwriting part of the content already downloaded and read by the device, through a download E3 of the contents in the buffer memory 4, until Figure 5H. In FIG. 5H, in the case E20, the reading position p (t) is not greater than the initial position bo (t) increased by the fast return area SnNd, and the device performs an E6 break step of the download.

When the memory 4 will have room available, either because the reading position has evolved in the memory (external instruction of reading by the user), or because of a repositioning of the memory 4 in the content (External repositioning instruction in the content equivalent to E0, see for example Figures 10), the E3 download will resume until the content 1 is fully downloaded. We will then be in the case referenced by E40, in which the position b (t) of downloading is not less than the final position Sä of the content 1. The device stops downloading during a step E5. As shown in FIGS. 6, if the reading speed is faster than the download speed (FIG 6A), there comes a time when the data of the content is not yet available (case referenced S11 in FIG. 6B), playback pauses waiting for the missing data. The download continues during this time (Figure 6C).

In the case S11 of FIG. 3, the method may comprise a later step of automatic playback of the content, after a waiting time Tw, when the device has performed an earlier step of pausing the reading of the content ( case of Figure 6C for example) or when the download begins after the initialization of the process. Manual reading by an external instruction given to the device by the user can also be provided. The reading can thus be resumed before the time Tw. The waiting time is advantageously calculated by the following formula: Tif (t) ù SB ùb (t) _ SB (1 + EB) Obtt) (l + e) Sv v 10 with: • Tw (t): the time waiting at time t; • SB: the size of the buffer (4) in bytes; • Sv: the size of the content in bytes; • TV: the total time of the content, in seconds; B (t): the download position in the memory (4) at time t; • B: the error margin of the remote connection rate, for example 0.10; • cv: the margin of error for calculating the flow rate, for example 0.10. Thanks to the calculation of Tw, we have an optimal continuous reading time, without untimely interruption. The time Tw obtained at the instant t makes it possible to know the duration to wait. It is wise to do the calculation over a range of at least 10 seconds in order to have a mean time. Playback may pause if the remote connection is insufficient. Indeed, different parts of the content can be stored in memory, and this can be filled more than once. If the remote connection is insufficient, there will be as many pauses as download cycles in the memory. If the remote connection is interrupted or if the bit rate decreases sharply during the reading of the content, the estimation of the wait which has been calculated previously becomes erroneous and the reading of the content will be paused at the end of reading of the memory used. Fig. 7 shows that when from a reading situation (Fig. 7A) an external fast-forward instruction is received by the device 2 (Fig. 7B), the device 2 performs an estimation step S1 of the reading position p (t) in the buffer memory with respect to the download position b (t) in the buffer memory 4. In FIG. 7C, the reading position p (t) is greater (S11 case of the Figure 3) at the download position b (t), and fast forwarding of the content is paused. The download continues during this time (Figure 7D), before the reading is restarted automatically, after a waiting time Tw, or manually by the user. Fig. 8 shows that when from a reading situation (Fig. 8A) an external fast return instruction is received by the device 2 (Fig. 8B), the device 2 performs an estimation step S2 the reading position p (t) with respect to the initial position bo (t) of the memory 4. FIG. 8B shows that if the reading position p (t) is not lower than the initial position bo (t) ) of the memory (4), then the fast return can begin and / or continue.

On the other hand, if the case S21 occurs, that is to say that the reading position p (t) is lower than the initial position bo (t) of the memory (4), then the reading of the downloaded content is paused. FIG. 9 shows that, during an external search instruction (FIG. 9A), if the reading position p (t) is not greater than the download position b (t) (FIG.

9B), then the search can begin and / or continue. FIG. 10 shows that, during an external search instruction (FIG. 10A), if the reading position p (t) is greater than the download position b (t) (FIG.

10B), then the content search is paused. It is then an EO initialization step. In all the preceding developments, it is understood that if the content is smaller than the memory 4, the reader 40 does not have to manage

Claims (7)

REVENDICATIONS1. Method for downloading and reading a content (1) on a multimedia device (2) comprising a buffer memory (4) and a reader (40) of the buffer memory (4), characterized in that it includes a step downloading the content to the buffer memory (4) from a server (3) of contents, the reading of the content can take place simultaneously to the download and before the total download of the content on the device, the download and reading of the content (1) being circularly managed on the buffer (4) by the reader (40). 2. Method according to claim 1, wherein the downloading comprises the steps of: - initialization (E0) of the memory (4) buffer; estimation (El) of the download position (b (t)) in the buffer memory, then if the download position (b (t)) in the memory (4) is lower (El 1) than the final position ( bf (t)) of the buffer, the final position corresponding to an initial position (bo (t)) of the memory (4) plus the size (SB) of the buffer memory (4), there remains memory space available in the buffer (4) and the device (2) performs a download (E3) of the content in the buffer memory (4); or if the download position (b (t)) is not lower (El0) than the final position (bf (t)) of the buffer memory (4), the device performs an estimation step (E2) of the reading position (p (t)) relative to the initial position (bo (t)), optionally increased by a zone (SnNd) of fast return; when downloading (E3) the content in the buffer memory (4), the device performs an estimation step (E4) of the download position (b (t)) with respect to the final position (Sv) of the content ; then if the download position (b (t)) is lower (E41) than the final position (Sv) of the content, the device returns to the estimation stage (El) of the position (b (t)) downloading in the memory (4); if the download position (b (t)) is not lower (E40) than the final position (Sv) of the content, the device stops (E5) the download. 5 3. Method according to claim 2, wherein, during the step of estimating (E2) the reading position (p (t)) with respect to the initial position (bo (t)) of the memory (4). ), possibly increased by a zone (SnNd) of fast return, 10 if the position (p (t)) of reading is greater (E21) than the initial position (bo (t)) of the memory (4), possibly augmented with a fast return zone (SnNd), the device performs a step of overwriting part of the content already downloaded and read by the device, by downloading (E3) the content in the buffer memory (4) ; or if the position (p (t)) of reading is not greater (E20) than the initial position (bo (t)) of the memory (4), possibly increased by a zone (SnNd) of fast return , the device performs a pause step (E6) of the download and performs a step of returning to the estimation step (El) of the position (b (t)) of download in the buffer. 20 4. Method according to one of claims 1 to 3, wherein the reading comprises the steps of: - initialization (SO) of the reading at the beginning of the downloaded content in the memory (4) buffer; When an external instruction respectively for reading, searching or fast-forwarding is received by the device (2), the device performs a step of estimation (Si) of the reading position (p (t)) in the buffer with respect to the download position (b (t)) in the buffer (4), then 30 if the read position (p (t)) is greater (S11) than the download position (b (t)) t)), then respectively the playback, search or fast forwarding of the content is paused, if the reading position (p (t)) is not greater than the download position (b (t)) , then respectively reading, searching or fast forwarding of the downloaded content can begin and / or continue, - when an external fast return instruction is received by the device (2), the device performs an estimation step ( S2) of the reading position (p (t)) relative to the initial position (bo (t)) of the memory (4), and then if the position of the (p (t)) is lower (S21) than the initial position (bo (t)) of the memory (4), then the playback of the downloaded content is paused, if the reading position (p (t) ) is not less (S21) than the initial position (bo (t)) of the memory (4), then the fast return can begin and / or continue. 5. The method of claim 4, including a later step of automatic playback of the content, after a waiting time, when the device performs an earlier step of pausing the playback of the content if the reading position (p (t)) is greater (S11) than the download position (b (t)) or following an initialization step (E0) of the buffer memory. The method according to claim 5, wherein the waiting time is calculated by the following formula: Tif (t) ù SB ùb (t) SB SB (1 + EB) ttttt) (1 + e) Sv v with: ^ TT (t): the waiting time at time t; ^ SB: the size of the buffer (4) in bytes; ^ Sv: the size of the content in bytes; ^ Tv: the total time of the content, in seconds; • b (t): the download position in memory (4) at time t • B: the error margin of the remote connection's bit rate; • cV: the margin of error for calculating the flow rate. 7. Device (2) multimedia having a buffer memory (4), characterized in that it comprises a reader (40) of the buffer memory (4) for the management of a circular way of downloading and reading a content (1), in order to implement a method according to one of claims 1 to 6.10