JP5444910B2 - Synchronization system - Google Patents

Description

  With respect to high-precision cooperative operation for a plurality of terminals, synchronization between a plurality of receiving terminals is mainly achieved.

  Conventionally, when each receiving terminal plays an image, video, audio, etc. in synchronization, the synchronization server broadcasts time information to a plurality of receiving terminals by broadcast communication, and each receiving terminal has its own built-in The clock is adjusted to the time information received by broadcast transmission from the synchronization server. As a result, the time of the internal clock provided in each receiving terminal matches, so that a multi-screen synchronized playback is realized by executing a playback schedule based on the time indicated by the internal clock provided in each receiving terminal. (For example, refer to Patent Document 1). This method is nothing but a method of incorporating time information into broadcast data in a broadcast such as terrestrial digital broadcasting and adjusting the time of the broadcast receiver in each process. Further, it is considered that reproducing a moving image according to a schedule is equivalent to an operation in which each receiver performs recording according to a recording reservation.

JP 2008-252422 A

In the conventional method of synchronizing a plurality of receiving terminals by time synchronization, the error of the H / W (hardware) clock itself that controls the time of the internal clock of each receiving terminal is not considered. In addition, the accuracy of the H / W clock itself changes depending on various conditions such as an increase in load on the receiving terminal, temperature, humidity, and voltage.
Furthermore, the time of the receiving terminal determines the time of the built-in clock based on the H / W clock, but the calculation of the time of the H / W clock is performed by an H / W (hardware) interrupt, that is, an interrupt controller or the like. This is performed by sending a signal to the CPU and forcibly executing the process designated in advance by interrupting the process being executed. Therefore, since a certain processing time is required for the H / W (hardware) interrupt itself, the time correction for the H / W interrupt processing is performed by performing a correction that advances by a predetermined time from the time when the time is determined. Is done.
That is, the H / W clock time on the receiving terminal side causes an error due to individual errors, a load increase of the receiving terminal, and various conditions such as temperature, humidity, voltage, and H / W interruption, so that a particularly high load such as video display is required. During operation, there is always an error in the progress of the time even if the time is corrected by software. This means that if an error of, for example, 50 msec occurs between the time transmission interval, that is, the time information is received and the internal clock is set and the next time information is received after a predetermined time has passed, This means that a reproduction time error of 50 msec occurs between the synchronization server and the receiving terminal even if the video is reproduced at the receiving terminal at the same time.

  Accordingly, the present invention has been made to solve the above-described problems, and each of the problems that occur between the time when the other clocks and the internal clock are set and the reception of the next time information after a predetermined time has elapsed. The purpose of this is to correct the error of the internal clock between the receiving terminals and reduce the error due to the time progress between the receiving terminals.

The present invention includes a time information receiving means for receiving the current time information transmitted periodically at predetermined intervals, and an internal clock means for indicating the current time based on the hardware clock, the time of reception of the current time information, the current time From the difference between the information and the previous time information received as the current time information last time, and the difference between the current time and the past time information indicated by the internal clock means when the current time information is received, the time correction for the hardware interrupt is performed. Adjusting addition value calculation means for calculating the adjustment addition value as a time, and a time for setting the adjustment addition value to correct the time indicated by the internal clock means based on the adjustment addition value calculated by the adjustment addition value calculation means a progress setting means, and receiving terminals made of, and the time information transmitting means for transmitting the current time information based on the hardware clock to the receiving terminal, multimedia It is characterized in that a synchronization reference sends reproduction terminal comprising a reproducing means for reproducing.

Also,
Time information transmitting means for transmitting current time information periodically transmitted at a predetermined interval to a receiving terminal for time correction with respect to a hardware interrupt using the current time information is provided. Is.

According to the present invention, with respect to the current time information that is periodically transmitted at a predetermined interval as a reference, the receiving terminal side corrects the hardware interrupt in accordance with how the current time information advances , Since the synchronization reference transmission / reproducing terminal transmits the current time information based on the hardware clock to the receiving terminal and reproduces the multimedia , the time indicated by the current time information periodically transmitted at predetermined intervals close the equivalent to progress, it is Rukoto preparative synchronization on multiple devices.

Network configuration diagram of synchronization system in embodiment 1 The figure which shows the structure of the synchronous reference | standard transmission terminal 200 and the receiving terminal 100 among the synchronous systems in Embodiment 1. FIG. FIG. 3 is a flowchart showing the operation of receiving terminal 100 in the first embodiment. The figure which showed how to advance the time of the synchronous reference | standard transmission terminal 200 in Embodiment 1, and the advance of the time of the receiving terminal 100 Network configuration diagram of synchronization system in embodiment 2 The figure which shows the structure of the synchronous reference | standard transmission display terminal 300 and the receiving terminal 100 among the synchronous systems in Embodiment 2. FIG. Network configuration diagram of synchronization system in embodiment 3 The figure which shows the structure of the synchronous reference | standard transmission / reception terminal 400 among the synchronous systems in Embodiment 3. FIG.

Embodiment 1 FIG.
FIG. 1 is a network configuration diagram of the synchronization system according to the first embodiment.
The synchronization system includes a synchronization reference transmission terminal 200 that transmits time information to a plurality of reception terminals 100 and a plurality of reception terminals 100 that receive time information transmitted from the synchronization reference transmission terminal 200.

  FIG. 2 is a diagram illustrating configurations of the synchronization reference transmission terminal 200 and the reception terminal 100 in the synchronization system in the first embodiment.

First, the synchronization reference transmission terminal 200 will be described.
In FIG. 2, the synchronization reference transmission terminal 200 includes an internal clock means 204 that indicates the current time based on the H / W clock in the synchronization reference transmission terminal 200, and the corrected current time and correction time with respect to the internal clock means 204. Is provided with a time adjusting means 203 for adjusting the current time of the internal clock means 204 by correcting by the above. The correction method is a conventional method using an NTP (Network Time Protocol) method for correctly adjusting the internal clock via a network, an atomic clock included in a GPS radio wave, or time information obtained from a direct radio clock. This is done by a method that performs correction.

  Further, a time extracting unit 202 that extracts current time information from the internal clock unit 204 and a time information transmitting unit 201 that transmits the current time information extracted by the time extracting unit 202 to the receiving terminal 100 are provided. The time information transmitting unit 201 transmits the current time information to the receiving terminal 100 by broadcast transmission or the like. At that time, the time information transmitting means 201 transmits the current time information at a predetermined interval. When it is desired to set the time for only one receiving terminal 100, there may be a one-to-one communication.

Next, the configuration of the receiving terminal 100 will be described.
The receiving terminal 100 includes time information receiving means 101 for receiving current time information periodically transmitted from the time information transmitting means 201 of the synchronization reference transmitting terminal 200 at predetermined intervals, and the received current time information Current time storage means 102 for storing the current time, past time storage means 103 for storing time information when the previous time correction was performed, current time extraction means 104 for extracting the current time of the receiving terminal 100, H / Based on the W clock, the internal clock means 109 indicating the current time and the time value corrected to the current time value indicated by the internal clock means 109 each time an H / W interrupt occurs is calculated. Adjustment addition value calculation means 105 for adjusting, adjustment addition value storage means 106 for storing the calculated adjustment addition value α (which may be a positive value or a negative value), The time progress setting means 107 that sets the addition value α as an adjustment addition value α that is time correction of the current time indicated by the internal clock means 109 every time an H / W interrupt occurs, When the clock to be played is not based on the current time indicated by the internal clock means 109 but is another clock such as a clock for synchronous reproduction, the reproduction scale (reproduction length and time) of the video is synchronized with the time clock. Based on the relationship with the clock for reproduction, the reproduction progress setting means 108 for setting the clock increment or the frame unit of the moving image using the adjusted addition value β calculated from the adjusted addition value α, the moving image, etc. It comprises playback means 110 for playing back multimedia.
The receiving terminal 100 has a function of using the above means to match the time advance of its own terminal with the time advance of the synchronization reference transmission terminal 200 that receives time information and is transmitted periodically. .

Next, the operation will be described.
FIG. 3 is a flowchart showing the operation of receiving terminal 100 in the first embodiment.
First, when the program is started, preparation processing for receiving time information is performed in step S100. Next, in step S101, the time information receiving unit 101 of the receiving terminal 100 receives the current time information transmitted from the time information transmitting unit 201 of the synchronization reference transmitting terminal 200.

Next, when the time receiving unit 101 of the receiving terminal 100 receives the current time information transmitted from the synchronization reference transmitting terminal 200 in step S102, the current time extracting unit 104 receives the current time information from the internal clock unit 109 of the receiving terminal 100 itself. The current time LT is taken out.
Next, in step S103, the current time information itself transmitted from the synchronization reference transmitting terminal 200 is stored in the current time storage means 102, and this is set as the current time ST. At this time, if necessary, for example, if the time difference between the current time LT and the current time ST exceeds a predetermined value, the received current time information is set as the current time LT of the internal clock means 109 of the receiving terminal 100. To do. However, if the received current time ST is the same as the current time LT, it is not necessary to reset the time LT. Here, since the time elapses according to the processing, the time is set immediately.

  Next, in step S104, the past time storage means 13, which is the time corrected last time, is referred to, and if the past time OT stored in the past time storage means 103 is not entered, it is the first time after startup, so step S105. Proceed to If the past time OT is stored in the past time storage unit 13 in step S104, the process proceeds to step S106.

  Next, in step S105, the received current time ST is stored as it is in the past time storage means 13 as the past time OT, and the process returns to the next time information reception waiting in step S101.

  If the past time OT is stored in the past time storage unit 103 in step S104, the adjustment addition value calculation unit 105 in step S106 determines the current time ST stored in the current time storage unit 102 and the internal clock. Comparison with the time LT taken out from the means 109 is performed. If the current time ST and the current time LT are the same, the process proceeds to step S107. If the time ST and the time LT are not the same, the process proceeds to step S108.

  Next, in step S107, the adjustment addition value calculation means 15 checks whether or not the difference between the current time ST received this time and the past time OT at the previous correction exceeds a predetermined time. Without doing anything, the process returns to the next time information reception waiting in step S101. If the predetermined time has been exceeded, the time ST received this time is stored as it is in the past time storage means 13 as time OT, and the process returns to the next time information reception waiting in step S101. This is because, when an error finally occurs during long-time operation, for example, the calculation result of the interrupt addition adjustment value in units of clocks approaches zero as much as possible for one hour. If this is continued, the time error will only increase no matter how many hours pass, so it has the meaning of dividing the upper limit at a predetermined time and resetting it once.

  Next, when the time ST and the time LT are not the same in step S108, the adjustment addition value calculation means 105 obtains the adjustment addition value α for correcting the time advance and stores it in the adjustment addition value storage means 106. As an example of a method for calculating the adjusted addition value, the following method can be considered.

Past time OT in the case of the previous reception and time correction, current time ST received this time and stored in the current time storage means 102, current time LT acquired from the internal clock means 109 of the receiving terminal 100 when receiving this time Is used to obtain an adjustment addition value α for correcting the time advancement.
When an error indicating how much the receiving terminal 100 has gone wrong between the previous time OT and the time ST received this time from the previous time OT when the time is corrected, DiffT = time ST−time LT Can do.
Also, assuming that the number of H / W interrupt occurrences for calculating the time of the H / W clock between the past time OT and the time ST received this time is NHT, the number of H / W interrupt occurrences NHT is shown as follows. It is.
H / W interrupt occurrence count NHT = (current time ST−past time OT) / clock interrupt interval time Therefore, the adjusted addition value α to be added at each receiving terminal 100 is obtained as follows.
Adjusted addition value α = DiffT / H / W interrupt count NHT

  Next, in step S109, it is confirmed whether the adjustment addition value α calculated by the adjustment addition value calculation unit 105 in step S108 is zero. If the adjusted addition value α is 0, the process proceeds to step S107 to determine whether the current time ST and the current time OT have exceeded a predetermined time. If the adjusted addition value α is not 0, the process proceeds to step S110.

In step S110, the time progress setting means 107 adds the adjustment addition value α to the time calculated based on the original H / W clock in the internal clock means 109 as a correction for each H / W interrupt, and The time is set in the internal clock means 109.
Note that a default value or the like may be originally set in the receiving terminal 100 as a correction for each H / W interrupt in the receiving terminal 100, but this adjusted addition value α is a time of the synchronization reference transmitting terminal 200. This is a correction value for adjusting the progress, and is technically different.

  Next, in step S111, it is confirmed whether or not a moving image is currently being reproduced, and the reproduction of multimedia such as a moving image is not based on the clock for time based on the output from the internal clock means 109, but is different from the audio clock or the like. If it is based on the clock, if the moving image is being reproduced, in step S113, the reproduction progress setting means 108 determines, based on the relationship between the clock for time and the clock for synchronous reproduction, with respect to the clock for synchronous reproduction. Adjustment is performed by a method that can be adjusted such as a clock unit or a moving image frame unit using the adjustment addition value β calculated from the adjustment addition value α. Note that step S111 is not necessary when the moving image is reproduced using the time clock of the internal clock means 109.

  Next, the current time ST received in step S112 is stored as it is in the past time storage means 13 as the past time OT, and the process returns to the next time information reception wait in step S101.

  Accordingly, the adjustment addition value α calculated by the adjustment addition value calculation unit 105 is added to the time calculated based on the H / W clock in the internal clock unit 109 as a correction for each H / W interrupt. Thus, the receiving terminal 100 adds a constant addition value according to how the time is advanced in the synchronization reference transmission terminal 200 to the time as a correction for each H / W interrupt, and the time advances to the synchronization reference transmission terminal 200. Can be synchronized.

  Therefore, the time advancement at the receiving terminal 100 can be made close to the time advance indicated by the internal clock means 204 of the synchronization reference transmission terminal 200.

FIG. 4 shows the effect of time advancement adjustment by the above time adjustment.
FIG. 4 is a diagram illustrating how the time of the synchronization reference transmitting terminal 200 and how the time of the receiving terminal 100 advances in the first embodiment. FIG. 4 shows the behavior of the synchronization reference transmitting terminal 200 and the receiving terminal 100 when a load (depending on reproduction, temperature conditions, voltage conditions, etc.) that generates a time error of 50 msec per given transmission interval is given.

In the first reception, since the receiving terminal 100 only operates to set the time, the receiving terminal 100 lags behind the synchronization reference transmitting terminal 200 due to a load that generates a time error of 50 msec per predetermined transmission interval. .
In the second reception, first, in step S103, the time information itself transmitted from the synchronization reference transmission terminal 200 is stored in the current time storage unit 102 as the current time ST.

Further, the current time LT acquired from the internal clock means 109 of the receiving terminal 100 itself is corrected using the current time ST.
The adjustment addition value calculation means 105 recognizes how much error has occurred, calculates the adjustment addition value α, and the time progress setting means 107 is calculated based on the original H / W clock in the internal clock means 109. As a correction for each H / W interrupt, an adjustment addition value α is added to set the time in the internal clock means 109 of the receiving terminal 100.
Therefore, after the second reception, the same time progress as that of the synchronization reference transmission terminal 200 is maintained.

  As a result, the time advance in the internal clock means 109 approaches the internal clock means 204 of the synchronization reference transmission terminal 200. Therefore, even if content reproduction is started according to the schedule, all the reception terminals 100 are synchronized with the synchronization reference transmission terminal 200. Since it operates at the time shown, it is possible to synchronize multiple screens with high accuracy. In addition, although the load may vary, a new adjustment addition value is added at a predetermined time relative to the current time progress after the adjustment addition value has been applied (a negative direction when the load decreases and a positive direction when the load increases). Thus, it is possible to synchronize the time progress gradually with the reference terminal.

  Therefore, time information receiving means 101 for receiving time information periodically transmitted from the time information transmitting means 201 of the synchronization reference transmitting terminal 200, a current time storage for storing the received current time information as the current time Means 102; past time storage means 103 for storing time information when the previous time correction was performed; current time extraction means 104 for extracting the current time of the receiving terminal 100; and current time based on the H / W clock. An internal clock means 109, and an adjustment addition value calculating means 105 for calculating how much time value should be corrected to the current time value indicated by the internal clock means 109 each time an H / W interrupt occurs. The adjustment addition value storage means 106 for storing the calculated adjustment addition value α (which may be a positive value or a negative value); Each time it occurs, the receiving terminal 100 includes the time progress setting means 107 that sets the adjustment addition value α that is time correction with respect to the current time indicated by the internal clock means 109. Therefore, the receiving terminal 100 performs correction for each H / W interrupt. As a result, the time advances by adding a constant addition value corresponding to the time advancement method in the synchronization reference transmission terminal 200 to the time, and synchronization with the synchronization reference transmission terminal 200 can be established.

  The above is intentionally added because it may appear to be described on the assumption that one display terminal displays one screen, but by using a commercially available video card capable of multi-screen output Further, it is possible to perform multi-sided synchronous display.

  In addition, although an example of multi-screen synchronized playback using a plurality of display terminals has been shown, the present invention can be applied not only to playback of content such as moving images but also to control systems and time-synchronized operation systems with time synchronization.

Embodiment 2. FIG.
In the present embodiment, processing variations will be described based on the processing flow of the first embodiment.

  In the first embodiment, the synchronization reference transmission terminal 200 and the reception terminal 100 are divided. However, if the synchronization reference transmission terminal 200 itself has the same reproduction means as the reception terminal 100, the function of the synchronization reference transmission terminal 200 alone. Since the display function is additionally provided, the necessity of providing the synchronization reference transmission terminal 200 alone in the system can be omitted.

  FIG. 5 is a network configuration diagram of the synchronization system according to the second embodiment. In FIG. 5, the synchronization reference transmission display terminal 300 and the receiving terminal 100 are connected to the network in parallel.

FIG. 6 is a diagram illustrating configurations of the synchronization reference transmission / reproduction terminal 300 and the reception terminal 100 in the synchronization system according to the second embodiment. In FIG. 6, since the receiving terminal 100 side is the same as the receiving terminal 100 in Embodiment 1, the figure is partially omitted.
As shown in FIG. 6, the synchronization reference transmission / reproduction terminal 300 is equipped with a time transmission means 301 equivalent to the synchronization reference transmission terminal 200, a current time extraction means 302, a time adjustment means 303 according to the prior art, and an internal clock means 304. The current time information is transmitted from the synchronization reference transmission display terminal 300. The difference from the first embodiment is that the synchronization reference transmission / reproduction terminal 300 itself is provided with reproduction means 305 for video, music, etc., similar to the reception terminal 100. That is, as shown in FIG. 5, the synchronization reference transmission / reproduction terminal 300 is a reference terminal that reproduces video, music, and the like and transmits time information to the reception terminal 100 in the same manner as the reception terminal 100.

  According to the second embodiment, it is possible to realize a multi-screen synchronized playback system by using the synchronization reference transmission / reproduction terminal 300 and the plurality of reception terminals 100 without using the synchronization reference transmission terminal 200.

Embodiment 3 FIG.
In the first and second embodiments, all the terminals are connected to one network. However, a case where a plurality of networks are required will be described.
For example, an arbitrary receiving terminal connected to the network A can be connected to the network B and a means equivalent to the reference terminal for sending time information to the network B can be added without preparing a plurality of reference terminals. A display terminal group connected to another network can also adjust the time.

FIG. 7 is a network configuration diagram of the synchronization system according to the third embodiment.
The synchronization reference transmission / reception terminal 400 in FIG. 7 has the function of the reception terminal 100 and the function of the synchronization reference transmission terminal 200 at the same time.

The synchronization reference transmission / reception terminal 200 and the synchronization reference transmission / reception terminal 400 communicate with each other in the network A, and the synchronization reference transmission / reception terminal 400 receives the current time information from the synchronization reference transmission terminal 200.
The synchronization reference transmission / reception terminal 400 and the reception terminal 100 are constructed so as to enable communication in the network B, and the current time information is transmitted from the synchronization reference transmission / reception terminal 400 to the reception terminal 100.
Then, in the network A, a synchronization system by the synchronization reference transmission terminal 200, the reception terminal 100 and the synchronization reference transmission / reception terminal 400 according to the present invention can be constructed. In the network B, a synchronization system by the synchronization reference transmission / reception terminal 400 and the reception terminal 100 is constructed. The

The configuration of the synchronization reference transmitting / receiving terminal 400 will be described.
FIG. 8 is a diagram showing a configuration of the synchronization reference transmission / reception terminal 400 in the synchronization system in the third embodiment.
The synchronization reference transmission / reception terminal 400 includes time information reception means 401 for receiving time information periodically transmitted from the time information transmission means 201 of the synchronization reference transmission terminal 200 at predetermined intervals, and the received current time information as current Current time storage means 402 for storing as time, past time storage means 403 for storing time information at the time of previous time correction, current time extraction means 404 for extracting current time, H / W clock Based on the internal clock means 409 indicating the current time, and adjustment addition for calculating how much time value should be corrected to the current time value indicated by the internal clock means 409 every time an H / W interrupt occurs Value calculation means 405, adjustment addition value storage means 406 for storing the calculated adjustment addition value α (which may be a positive value or a negative value), and adjustment addition value α Each time an H / W interrupt occurs, a time progress setting means 407 that is set as an adjustment addition value α, which is a time correction of the current time indicated by the internal clock means 409, and a clock that serves as a reference for reproduction of a multimedia such as a moving picture is internally provided. When the clock means 409 is not based on the current time indicated by the clock means 409 but is a different clock such as a clock for synchronous reproduction, the reproduction scale (reproduction length and time) of the moving image is set to the clock for time and the clock for synchronous reproduction. Based on the relationship, the playback advance setting means 408 for setting the clock increment or the frame unit of the moving image using the adjusted addition value β calculated from the adjusted addition value α, and reproducing the multimedia such as the moving image The reproducing means 410 is configured.

The description will be made on the transmission side. Basically, the internal configuration of the synchronization reference transmission terminal 200 is the same.
The internal clock means 409 that indicates the time based on the same H / W clock as that on the receiving side is provided with a time adjustment means 413 that adjusts the time of the internal clock means 409 by correcting the corrected time or the correction time. .
Further, a time extracting unit 412 for extracting the current time from the internal clock unit 409 and a time transmitting unit 411 for transmitting the time information extracted by the time extracting unit 412 to the receiving terminal 100 are provided. The time transmission means 411 sends the current time information to the receiving terminal 100 by broadcast transmission or the like. At that time, the time transmission means 411 transmits the current time information at a predetermined interval.

  Here, the time progress of the internal clock means 204 of the synchronization reference transmission terminal 200 connected to the network A and the time reference progress of the synchronization reference transmission / reception terminal 400 are adjusted by the adjustment addition value α calculated by the adjustment addition value calculation means 405. Since the correction is made, the time progress of the internal clock means 409 is synchronized. Further, the synchronization reference transmitting / receiving terminal 400 sends the current time information based on the time progress corrected by the adjustment addition value calculating means 405 to the network B by the time transmitting means 411 according to the time progress, and sends the time to the connected receiving terminal 100. After transmitting the information, the receiving terminal 100 uses the adjusted addition value calculation means 105 to adjust the time progress. Therefore, the time progress of all the terminals connected to the network A and the time progress of all the terminals connected to the network B can be approached as much as possible.

  In this embodiment, the synchronization reference transmission / reception terminal 400 and the time adjustment means 413 are provided, but the time of the internal clock means 409 is corrected using the current time information transmitted by the synchronization reference transmission terminal 200. For example, the time adjustment unit 413 may not be provided.

100 receiving terminal 101 time information receiving means 102 current time storage means 103 past time storage means 104 current time extraction means 105 adjustment addition value calculation means 106 adjustment addition value storage means 107 time progress setting means 108 reproduction progress setting means 109 internal clock means 110 Playback means 200 Synchronization reference transmission terminal 201 Time information transmission means 202 Time extraction means 203 Time adjustment means 204 Internal clock means 300 Synchronization reference transmission display terminal 301 Time information transmission means 202 Time extraction means 303 Time adjustment means 304 Internal clock means 305 Playback means 400 Synchronization reference transmitting / receiving terminal 401 Time information receiving means 402 Current time storage means 403 Past time storage means 404 Current time extraction means 405 Adjustment addition value calculation means 406 Adjustment addition value storage means 407 Time progress setting means 40 Play progress setting means 409 internal clock means 410 reproduction means 411 time transmitting unit 412 time extraction unit 413 time matching means

Claims (3)

Time information receiving means for receiving current time information periodically transmitted at a predetermined interval;
Internal clock means for indicating the current time based on the hardware clock;
When receiving the current time information , the difference between the current time information and the past time information previously received as the current time information, the current time indicated by the internal clock means at the time of receiving the current time information, and the current time information From the difference, adjustment addition value calculation means for calculating an adjustment addition value as a time correction for hardware interrupt,
Time progress setting means for setting the adjustment addition value to correct the time indicated by the internal clock means based on the adjustment addition value calculated by the adjustment addition value calculation means ;
A receiving terminal consisting of
Time information transmitting means for transmitting current time information based on a hardware clock to the receiving terminal;
Playback means for playing multimedia; and
A synchronization system comprising: a synchronization reference transmission / reproduction terminal . The receiving terminal is
Current time storage means for storing the received current time information as the current time;
Past time storage means for storing the time information when the previous time correction was performed;
Adjustment addition value storage means for storing the calculated adjustment addition value;
The synchronization system according to claim 1, further comprising reproduction means for reproducing multimedia. The receiving terminal is
When clock for synchronous reproduction in which the reproduction means are based are the not the same as that indicating the current time, playback progress setting means for adjusting with an adjustment value suitable for the clock for synchronous reproduction from the adjustment added value a synchronization system according to claim 2, characterized in that it comprises a <br/>.

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