JP2005321515A - Musical piece data distribution method and distribution server - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data distribution method for surely retransmitting a data loss by efficiently performing data distribution to a plurality of karaoke devices connected through a network. <P>SOLUTION: A distribution server 1 simultaneously transmits musical piece data to the plurality of the karaoke devices 3 one time or a plurality of numbers of times by using a multicast, thereafter, and inquires the plurality of the karaoke devices 3 respectively to transmit packets. At a time point when the number of the karaoke devices 3 and a data amount not correctly receiving the data are reduced down to a predetermined level or less, the lost data are individually retransmitted to each karaoke device 3 by using the multicast. Consequently, efficient data distribution is performed and the data lost part is surely retransmitted. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a music data distribution method and distribution server for distributing music data and the like via the Internet.

  Many of the karaoke apparatuses that are currently popular are communication karaoke apparatuses that receive distribution of karaoke music data from a server apparatus. Music data distribution from a conventional server device to a karaoke device has been individually performed one-to-one (unicast) via the Internet or a telephone line.

  The one-to-one data distribution as described above has a problem that it is inefficient because it is necessary to repeatedly distribute the same data to each of a large number of installed karaoke apparatuses.

Therefore, a method of performing highly reliable data transfer to a large number of devices at once using multicast has been considered (for example, see Non-Patent Document 1).
Shingo Kinoshita IEICE Transactions B 2002 / 11VOL J85-B No.11

  However, since the method using multicast cannot deal with a large number of terminals individually, even if data loss occurs on the terminal side, it cannot be retransmitted. In addition, although it is considered that there are many karaoke devices that are not turned on at the time of multicast delivery, karaoke devices that are not turned on when multicast delivery is performed cannot receive data delivery. There was a problem.

  An object of this invention is to provide the music data delivery method which can deliver data efficiently and reliably with respect to many karaoke apparatuses.

  The invention of claim 1 is a music data distribution method for distributing music data from a distribution server storing music data to a plurality of karaoke apparatuses connected via the Internet, wherein the distribution server uses multicast to The process of distributing music data to a plurality of karaoke devices at the same time is repeated once or a plurality of times, and thereafter, each of the plurality of karaoke devices is individually inquired about the data unreceived portion of the music data, Processing for retransmitting the unreceived portion of data using unicast is sequentially performed.

  The invention of claim 2 is characterized in that, in claim 1, the distribution server repeatedly executes data distribution by multicast until the number of karaoke apparatuses having the data unreceived portion and the data amount are reduced to a certain level. To do.

  The invention of claim 3 is a distribution server comprising storage means for storing music data, communication means for communicating with a plurality of karaoke apparatuses via the Internet, and control means for controlling communication with the karaoke apparatus. The control means repeats the process of simultaneously distributing the music data to the plurality of karaoke devices using multicast once or a plurality of times, and thereafter individually for each of the plurality of karaoke devices. A process for inquiring a data unreceived portion of music data and a process for retransmitting the data unreceived portion using unicast are executed.

  In this invention, the distribution server repeats the process of simultaneously distributing the music data to a plurality of karaoke apparatuses using multicast once or a plurality of times, and thereafter, each karaoke apparatus individually receives the unreceived portion of the music data. Processing for inquiring is performed, and processing for retransmitting the unreceived portion of data using unicast is sequentially performed.

  Further, in the present invention, data distribution by multicast is repeatedly executed until the number of karaoke apparatuses having a data unreceived portion and the data amount are reduced to a certain level.

  According to the present invention, efficient data distribution can be performed to a plurality of karaoke apparatuses using multicast, and flexible and reliable data distribution can be performed using unicast. In addition, by inquiring each karaoke device, it is possible to determine a karaoke device that is not turned on (no response), and for such a karaoke device, take other measures such as offline maintenance. Is possible.

  Moreover, according to this invention, the data delivery amount using unicast can be made below a fixed level, and efficient data delivery can be performed.

  FIG. 1 is a diagram showing a configuration of a music data distribution system for a karaoke apparatus according to an embodiment of the present invention. The distribution server 1 stores music data of tens of thousands of songs, and distributes the music data and the like to a plurality of karaoke devices 3 that are terminal devices. The distribution server 1 is connected to the Internet 2. Further, a karaoke device 3 as a terminal device is also connected to the Internet 2.

  The distribution server 1 stores a lot of data such as song data of karaoke songs and inter-song CMs to be played back by the karaoke device when the karaoke song is not played, with identifiers assigned to each song unit or song group. .

  The music data is distributed regularly during a predetermined time period, and also when there is a request from the karaoke apparatus 3 side. Periodic distribution is performed by a combination of multicast and unicast.

  Multicast is a method in which data transmitted by the distribution server 1 is replicated by a relay router installed on the network, and the replicated data is distributed to a plurality of karaoke apparatuses 3. Multicast is unilaterally performed using the FEC (Facilities Error Correction) method. FEC is a method in which the transmission side transmits data with an error correction code added and the reception side corrects the error. This method can simultaneously distribute data to a large number of karaoke apparatuses instead of performing retransmission control.

  On the other hand, unicast is a method of performing one-to-one communication with a specific karaoke apparatus 3. Unicast performs error retransmission control in communication control using TCP / IP protocol.

  FIG. 2A is a block diagram of the distribution server 1. It has the control part 4 which controls operation | movement of the whole delivery server, the memory | storage part 5 which memorize | stores the delivery data set which consists of music data, CM between music, etc., and the communication part 6 which communicates with the karaoke apparatus 3 via the internet. The communication unit 6 takes out the distribution data set from the storage unit 5 and performs transmission to the plurality of karaoke apparatuses 3 according to the control of the control unit 4. After transmitting the distribution data set to all karaoke devices using multicast, the control unit 4 performs control to retransmit the missing data that could not be received by multicast communication to each karaoke device using unicast.

  FIG. 2B is a block diagram of the karaoke apparatus 3. The control part 7 which controls operation | movement of the whole karaoke apparatus, the performance part 8 which plays a karaoke music based on music data, the communication part 9 which communicates with the delivery server 1 via the internet, and the data delivered from the delivery server 1 It has the memory | storage part 10 to memorize | store. The communication unit 9 performs a batch data reception process by multicast and an individual data reception process by unicast according to the control unit 7. Also, a data retransmission request is made to the distribution server 1.

The music data distribution operation from the distribution server 1 to the karaoke apparatus 3 will be described with reference to FIGS.
FIG. 3 is a flowchart showing the operation of the distribution server 1. The communication unit 6 of the distribution server 1 takes out the distribution data set from the storage unit 5. An error correction code is added to this distribution data set, and is transmitted as a packet sequence to a plurality of karaoke apparatuses 3 once or a plurality of times using multicast (s1). A data list indicating the contents of the distribution data set may be distributed by multicast at the same time. The number of times of transmission may be determined according to the length of the added error correction code, communication conditions, and the like. Thereafter, each karaoke apparatus is inquired as to whether or not the transmitted distribution data set is received without loss (s2). This inquiry is performed by individually transmitting inquiry packets to each of the plurality of karaoke apparatuses 3 using unicast. On the other hand, since there is a reply of missing data from the karaoke device 3, only the missing data is transmitted to the karaoke device 3 using unicast (s3). The inquiry and the transmission of the missing data are repeated until the missing data can be transmitted to all the karaoke apparatuses 3 (s4). Distribution ends when missing data can be transmitted to all karaoke apparatuses 3.

  As described above, the distribution server 1 executes the data transmission using multicast once or a plurality of times, and then sequentially performs the missing data inquiry and the missing data transmission using unicast to each karaoke apparatus 3. Here, in multicast, a long error correction code is added and FEC is performed, and in unicast, error retransmission control is performed in communication control using the TCP / IP protocol.

  If the number of karaoke apparatuses 3 that have not correctly received data and the amount of data are less than a certain value by executing data transmission using multicast once, transmission using multicast is performed only once. It may be.

  FIG. 4 is a flowchart showing another operation of the distribution server 1. In the operation of FIG. 3, the number of multicast distributions is determined in advance, but in this operation, it is determined whether to repeat multicast distribution or switch to unicast distribution by looking at the reception state of each karaoke device. The communication unit 6 of the distribution server 1 extracts the music data from the storage unit 5 and transmits it to the plurality of karaoke apparatuses 3 using multicast as a packet sequence to which an error correction code is added (s5). Thereafter, each karaoke apparatus is inquired using unicast whether the transmitted distribution data set is received without any loss (s6). If the number of karaoke devices 3 that have not received data correctly and the amount of data are more than a certain value, retransmission is executed using multicast (s7). On the other hand, data transmission is executed individually using unicast (s8). When the missing data can be transmitted to all the karaoke apparatuses 3, the operation is terminated (s9).

  In the flowchart of FIG. 4, the distribution server 1 repeatedly executes data transmission using multicast until the number of karaoke devices 3 that have not correctly received data and the amount of data become below a certain level, On the other hand, individual data transmission using unicast is sequentially performed.

  Further, the distribution server 1 may determine the number of terminals that transmit in unicast in advance, and switch to unicast when the number of karaoke apparatuses 3 that have not correctly received data becomes equal to or less than that number. . Alternatively, the amount of data to be retransmitted may be determined in advance, and switching to unicast may be performed when the amount of data that has not been correctly received becomes equal to or less than that amount.

  FIG. 5 is a flowchart showing the operation of the karaoke apparatus 3. This processing operation is performed simultaneously by a plurality of karaoke apparatuses. The operation of FIG. 9A shows a reception process when all data units are transmitted from the distribution server 1 using multicast. Here, the data unit means a song to which an error correction code is added or a packet string for each song group. First, a data unit transmitted by multicast from the distribution server 1 is received (s10), and a packet loss due to a transmission error is repaired using an error correction code (s11). Here, the data that could not be restored is discarded and becomes missing data (s12). In the second and subsequent multicast distributions, if the data unit has already been received in the previous distribution and stored as a reception data set in the storage unit 10, the received data is discarded (s13). Data having no error and data that can be repaired are stored as a received data set in the storage unit 10 (s14), and the process ends.

  The operation of FIG. 5B shows a response when inquiry data is transmitted from the distribution server 1. The inquiry data transmitted from the distribution server 1 is received (s15). At this time, a data list of the distribution data set may be received. Thereafter, the contents of the data set in the storage unit 10 are scanned according to the inquiry data (s16). Information on the missing data obtained by comparing the contents of the received data set with the data list is returned to the distribution server 1 (s17), and the operation is terminated.

  FIG. 5C shows a reception process when data is individually transmitted from the distribution server 1 using unicast. First, the distribution server 1 is requested to retransmit the missing data (s18). Thereafter, the missing data unit transmitted from the distribution server 1 is received (s19), and the packet loss due to the transmission error is repaired using the error correction code (s20). If the defect cannot be repaired here, the distribution server 1 is requested to retransmit the data (s21). This retransmission control is performed in the TCP / IP protocol. Data having no error and data that can be repaired are stored in the reception data set 10 (s22). Until all the missing data can be received, a retransmission request for missing data, data reception, error correction, and data storage are repeatedly executed (s23). The operation ends when all missing data is received.

  As described above, the karaoke apparatus 3 receives, corrects, and stores music data that is periodically distributed from the distribution server 1, and returns information on missing data in response to an inquiry from the distribution server 1, All data distributed by receiving missing data individually can be stored in the storage unit 10.

  The unit of the retransmission request may be a song unit or a smaller data unit.

The figure which shows the structure of the music data system of the karaoke apparatus which is embodiment of this invention Block diagram of distribution server and karaoke device Flow chart showing operation of distribution server Flow chart showing another operation of the distribution server Flow chart showing the operation of the karaoke device

Explanation of symbols

1-Distribution server 2-Internet 3-Karaoke device 4-Distribution server control unit 5-Distribution server storage unit 6-Distribution server communication unit 7-Karaoke device control unit 8-Karaoke device performance unit 9-Karaoke device Communication unit 10-storage unit of karaoke device

Claims (3)

A music data distribution method for distributing music data from a distribution server storing music data to a plurality of karaoke apparatuses connected via the Internet,
The process of simultaneously distributing music data to the plurality of karaoke devices using multicast from the distribution server is performed once or a plurality of times,
After this, for each of the plurality of karaoke devices,
Processing for individually inquiring about the data unreceived portion of the music data;
Processing to retransmit this data unreceived part using unicast,
The music data distribution method characterized by performing sequentially.   2. The music data distribution method according to claim 1, wherein the distribution server repeatedly performs data distribution by multicast until the number of karaoke apparatuses having the data unreceived portion and the data amount are reduced to a certain level. A distribution server comprising storage means for storing music data, communication means for communicating with a plurality of karaoke apparatuses via the Internet, and control means for controlling communication with the karaoke apparatus,
The control means performs a process of simultaneously distributing music data to the plurality of karaoke devices using multicast once or a plurality of times,
After this, for each of the plurality of karaoke devices,
Processing for individually inquiring about the data unreceived portion of the music data;
Processing to retransmit this data unreceived part using unicast,
A distribution server characterized by executing

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