JP5159499B2 - Karaoke host device - Google Patents

Description

  The present invention relates to a karaoke host device that distributes karaoke data to a karaoke performance terminal via a communication network.

  In recent years, karaoke performance devices have become widespread, and with higher performance and higher communication networks, the karaoke performance devices are used as terminals, and karaoke data (performance data, video data, etc.) can be updated and distributed. It is common to do this via a network. Karaoke data has a particularly large video data capacity and is distributed from a karaoke host device to a large number of karaoke performance devices. Therefore, it is necessary to reduce the load on the karaoke host device.

  Conventionally, in a communication karaoke system, when a predetermined karaoke performance terminal is designated as a “parent terminal” from a group of karaoke performance terminals existing under an arbitrary router connected to a karaoke host device via a VPN (Virtual Private Network). A system in which the karaoke host device only distributes karaoke data to the parent terminal and the parent terminal distributes karaoke data to each child terminal that is another karaoke performance terminal has been put into practical use (Patent Document 1). Also, a system for distributing karaoke data from a parent terminal of an arbitrary group to a parent terminal of another group has been conceived (Patent Document 2), which reduces the load on the karaoke host device and reduces communication costs. It has been.

JP 2007-271976 A JP 2007-292928 A

  However, even in the systems disclosed in Patent Documents 1 and 2 described above, a predetermined distribution period is provided for the distribution of karaoke data. The distribution from the parent terminal to all the child terminals is not completed, and when the distribution time has passed, the karaoke host device is searched for a karaoke performance terminal that has not been distributed, and undistributed karaoke data is distributed directly It is the composition to do.

  Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a karaoke host apparatus that improves distribution efficiency without applying a load when distributing karaoke data.

  In order to solve the above problems, in the invention of claim 1, a terminal group composed of a parent karaoke terminal and a child karaoke terminal under a predetermined parent router, and a parent karaoke terminal and a child karaoke terminal under each child router. A karaoke host device comprising karaoke data connected to a terminal group comprising a terminal group via a communication network, comprising terminal group management means, distribution destination instruction means, and distribution means, wherein the terminal group management means comprises a router In the lower terminal management table, the parent karaoke terminal connected and the number of connected terminals of the parent karaoke terminal and the child karaoke terminal connected are managed in association with each other under the parent router and the child router. The distribution destination instruction means prioritizes the parent karaoke terminals under the child router in descending order of the number of connected terminals under the child router with reference to the terminal management table under the router. A distribution destination instruction file for distributing the acquired karaoke data in the priority order from the parent karaoke terminal under the parent router to the parent karaoke terminal under the corresponding child router, and the distribution means includes the parent router Karaoke data and the created delivery destination instruction file are delivered to the lower parent karaoke terminal.

  According to the present invention, a router-under-terminal management table in which a parent karaoke terminal and the number of connected terminals of the parent karaoke terminal and the child karaoke terminal are associated with each other under the parent router and the child router is managed. For the parent karaoke terminal, the parent karaoke terminal under the child router is prioritized in the descending order of the number of connected terminals under the child router by referring to the terminal management table under the router together with the karaoke data. By distributing the distribution destination instruction file created in order to distribute the karaoke data acquired from the parent karaoke terminal to the parent karaoke terminal under the corresponding child router in the priority order, the karaoke data is transmitted to each karaoke terminal. Distribution is preferentially performed from the parent karaoke terminal under the child router in descending order of the number of connected terminals under the child router, and within the distribution period. Raoke can reduce the karaoke terminal of the data non-distribution, in which it is possible to improve the efficiency of the karaoke data delivery without intensive karaoke host device itself.

  Hereinafter, the best embodiment of the present invention will be described with reference to the drawings. Here, the parent router and the child router, and the “parent and child” in the parent karaoke terminal and the child karaoke terminal are simply shown as the correspondence relationship of data acquisition, and are the same devices. In addition, the “terminal” in this embodiment is a karaoke terminal, and the “host device” is a karaoke host device.

  FIG. 1 shows a conceptual diagram of positioning on a communication network in a karaoke host device according to the present invention. In FIG. 1, the communication karaoke system 11 includes a host device 12 connected to a VPN 14 constructed on the Internet 13, and a karaoke terminal group of a predetermined number of distribution areas 15 (15A, 15B... 15N) connected to the VPN 14. Connected via each router.

  The distribution area 15 is composed of a group of karaoke terminals via a predetermined number of routers under the VPN 14 as described above. Among these routers, one is determined as a parent router 22 in advance, and the other router is a child router 32 (32A, 32A, 32B... 32N). A predetermined number of terminals are connected to the lower side of the parent router 22 via the LAN 21. One is set as a parent terminal 23 in advance, and the other terminals are set as child terminals 24 (24A, 24B). In addition, a predetermined number of terminals are connected under each child router 32 via a LAN 31 (31A... 31N), respectively, and one is defined as a parent terminal 33 (33A... 33N) in advance, and other terminals are defined. It is set as the child terminal 34 (34A, 34B ... 34N).

  Here, FIG. 2 shows a block diagram of the karaoke host apparatus according to the present invention. 2A, the host device 12 appropriately includes a control unit 41, a terminal group management unit 42, a storage unit 43, a distribution destination instruction unit 44, and a distribution unit 45. The storage unit 43 includes a terminal management table 46 under the router. And at least a storage area for karaoke data 47 is formed. Although not shown, the karaoke host device 12 is provided with a router for connecting to the Internet 13 and the VPN 14. The karaoke data 47 is described here as data relating to all karaokes such as performance data and video data, but only karaoke data having a large capacity may be targeted, thereby further improving the efficiency of data distribution and the host device. 12 can reduce the operation load.

  The said control means 41 controls the said apparatus centrally, is provided with the program for it and is performed. The terminal group management means 42 associates the connected parent terminals 23, 33A,... 33N with each of the parent router 22 and the child routers 32A,. .., 33N and child terminals 24A, 24B, 34A... 34N are associated with the number of connected terminals and are stored in the storage unit 43. Expanded and executed. The terminal group management means 42 updates the number of connected terminals in response to an increase or decrease in terminals under a predetermined router.

  That is, as shown in FIG. 2B, the lower router management table 46 is for each of the distribution areas A, B..., For example, the parent router 22 and the child router specified by the IP (Internet Protocol) address. For each router IP of 32A... 32N, the connected parent terminals 23, 33A... 33N are associated with the lower router parent terminal IP specified by the IP address, for example. The number of connected terminals (number of parent terminals 23, 33A... 33N and child terminals 24A, 24B, 34A... 34N) is associated as the number of terminals under the router.

  For example, in FIG. 2B, the router IP “A ** a” in the distribution area A is set as the parent router 22 in advance, and the routers of other routers IP are the child routers 32A... 32N. As a result, the parent terminal 23 that receives the karaoke data 47 from the host device 12 is associated as the lower router parent terminal IP “Aa01”. Which of the routers in one distribution area is set as the parent router 22 is appropriately set, but it is preferable that the number of terminals under the router (number of connected terminals) is small. This is because, when the parent terminal 23 receives the karaoke data 47 from the host device 12, after the acquired karaoke data 47 is distributed to the child terminals 24A and 24B under the parent router 22, the other child routers 32A. This is because it can be distributed sequentially to the parent terminals 33A... 33N in descending order of the number of connected terminals under 32N (described later). In this case, parent router selection means for automatically selecting a router having a small number of terminals under the router (number of connected terminals) as a “parent router” may be provided.

  Returning to FIG. 2A, the distribution destination instruction means 44 refers to the subordinate router management table 46 stored in the storage unit 43 and connects the subordinate routers 32A to 32N in the same distribution area 15. Prioritize the parent terminals 33A... 33N under the child routers 32A... 32N in descending order of the number of terminals, and the corresponding child router 32A from the parent terminal 23 under the parent router 22 that distributes the karaoke data 47. A program for creating a distribution destination instruction file for distributing the acquired karaoke data 47 in the priority order to the parent terminals 33A... 33N under 32N, and is developed and executed in a RAM (not shown). The creation of the delivery destination instruction file will be described with reference to FIG.

  The distribution means 45 is a program or electronic circuit that distributes the karaoke data 47 and the created distribution destination instruction file to the parent terminal 23 under the parent router 22 for each distribution area 15, and the program is not shown. The program is executed in the RAM.

  Next, FIG. 3 shows an explanatory diagram of a delivery destination instruction file created by the delivery destination instruction means of the karaoke host device, and FIG. 4 shows a conceptual diagram of karaoke data delivery from the karaoke host device to the parent terminal. FIG. 3 shows, as an example, a case where a distribution destination instruction file 44A for a router subordinate parent terminal (Aa01) in distribution area A is created based on the router subordinate terminal management table 46 shown in FIG.

  That is, when the router IP (A ** a) is determined as the parent router 22, the other router IPs (A ** b to A ** i) are the child routers 32A. .. In order of descending number of connected terminals (number of terminals under router) under 32N, router IPs “A ** h” (number of terminals under router 33), “A ** b” (router) of child routers 32A... The parent terminals 33A... 33N in the lower terminal number 20), “A ** i” (router lower terminal number 18)... Are prioritized, and the distribution destination parent terminal IP “Aa08” in the order of distribution order. A delivery destination instruction file 44A instructing “Aa02”, “Aa09”... Is created. The distribution destination instruction file 44A in the figure includes the number of terminals under the router, but this is for convenience of explanation and is not actually necessary.

  Then, the distribution unit 45 of the host device 12 sends the distribution destination instruction file 44A created by the distribution destination instruction unit 44 to the parent router (IP: Aa01) in the distribution area A as shown in FIG. The data is distributed together with the karaoke data 47 via IP: A ** a). In this case, the router IP included in the karaoke host device 12 for receiving the karaoke data 47 and the distribution destination instruction file 44A from the karaoke host device 12 is written in the parent router 22.

  FIG. 5 is an explanatory diagram of karaoke data distribution from the parent terminal to the parent terminal under another router. In FIG. 5, the parent terminal 23 under the parent router 22 that has received the karaoke data 47 and the distribution destination instruction file 44A from the host device 12 distributes the karaoke data 47 to the child terminals 24A and 24B under the parent router 22. The karaoke data 47 is sequentially distributed to the parent terminals 33A... 33N under the child routers 32A... 32N according to the distribution order of the distribution destination instruction file 44A. In this case, the router IP of the distribution destination child routers 32A... 32N is rewritten in the parent router 22 by the parent terminal 23 under the parent router 22 every time data distribution ends.

  As an example in FIG. 5, the parent terminal 23 under the parent router 22 distributes the acquired karaoke data 47 to the parent terminal 33A under the distribution router No. 1 child router (A ** h) 32A. Then, the data is distributed to the parent terminal 33B under the second distribution router No. 2 child router (A ** b) 32B. At this time, the parent terminal 33A under the first distribution order child router (A ** h) 32A that received the karaoke data 47 uses the acquired karaoke data 47 as the child terminal under the same child router (A ** h). Sequentially distributed to 34A etc. On the other hand, when the karaoke data 47 is received also in the parent terminal 33B under the child router (A ** b) 32B, it is sequentially distributed to the child terminal 34A under the same child router (A ** h).

  That is, the parent terminal 33A under the first-ranked child router (A ** h) 32A sequentially distributes the acquired karaoke data 47 to the child terminals 34A and the like under the same child router (A ** h). In the meantime, the karaoke data 47 is also sequentially distributed to the child terminal 34A under the same child router (A ** b) etc. also in the parent terminal 33B under the child router (A ** b) 32B with the second rank. In parallel, the karaoke data 47 is distributed to the child terminals 34A..., Especially by distributing the karaoke data 47 in the order of distribution in descending order of the number of connected terminals under the child router, compared to the case of distributing at random. The entire distribution time within the same distribution area 15 can be shortened. This is effective when the distribution period is determined as before, and can greatly prevent the occurrence of undelivered child terminals within the distribution period.

  By the way, when the distribution period is determined at the time of distribution of the karaoke data 47, the host device 12, as shown in the aforementioned Patent Document 2, all the child terminals when the distribution period has passed. 34A... Confirms whether the karaoke data 47 is directly distributed to, for example, a version or the like. If the karaoke data 47 is not distributed, the karaoke data 47 is directly distributed to the child terminal. Thus, greatly reducing the occurrence of undelivered child terminals within the distribution period reduces the load for data distribution in the host device 12, and thus does not impose a load on the host device 12. In addition, it is possible to improve the efficiency of karaoke data distribution.

  The karaoke host device of the present invention can be used in a karaoke system that is applied to distribute karaoke data to karaoke performance terminals via a communication network.

It is a conceptual diagram of positioning on the communication network in the karaoke host apparatus which concerns on this invention. It is a block block diagram of the karaoke host apparatus which concerns on this invention. It is explanatory drawing of the delivery destination instruction | indication file produced by the delivery destination instruction | indication means of a karaoke host apparatus. It is a conceptual diagram of karaoke data delivery from a karaoke host apparatus to a parent terminal. It is explanatory drawing of karaoke data delivery from a parent terminal to the parent terminal under other routers.

Explanation of symbols

11 Online Karaoke System 12 Karaoke Host Device 14 VPN
15 Distribution area 22 Parent router 23, 33 Parent terminal 24, 34 Child terminal 32 Child router 44 Distribution destination instruction means 46 Router lower terminal management table 47 Karaoke data

Claims (1)

A terminal group composed of a parent karaoke terminal and a child karaoke terminal under a predetermined parent router, and a terminal group composed of a parent karaoke terminal and a child karaoke terminal under each child router are connected via a communication network. A karaoke host device comprising karaoke data,
A terminal group management means, a delivery destination instruction means and a delivery means,
The terminal group management means is connected to the parent karaoke terminal connected to the parent karaoke terminal and the child karaoke terminal connected to the parent router and the child router in the router terminal management table. Manage the association with the number of devices,
The delivery destination instruction means prioritizes the parent karaoke terminals under the child router in descending order of the number of connected terminals under the child router with reference to the terminal management table under the router, and from the parent karaoke terminal under the parent router. Create a distribution destination instruction file to distribute the acquired karaoke data in the priority order to the parent karaoke terminal under the corresponding child router,
The delivery means delivers karaoke data and the created delivery destination instruction file to a parent karaoke terminal under the parent router,
A karaoke host device characterized by that.

Images