JP3833780B2 - Information supply method, information supply system, and information reading apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present inventionCorresponds to video information or audio information that can be played back in seriesIn the middle of the first series of data,Playable in seriesThe present invention relates to a technique for transmitting data into which a second data is inserted to a plurality of terminals.
[0002]
[Prior art]
  Written to storageCorresponds to video information or audio information that can be played back in seriesA series of first data is placed in the middle of the first data.Playable in seriesIn the technique of reading from each of a plurality of positions in the storage area and transmitting it to a plurality of terminals so that the second data is inserted, conventionally, from the storage means of the first data such as video image data Read is started at a fixed time interval, and when there is a transmission request from a terminal, the first data that is read first after the transmission request is received is transmitted to the terminal. Yes.
  Then, the transmission of the first data to the terminal is interrupted, and the second data such as the advertisement image data is transmitted to the terminal, the transmission of the first data to the terminal is stopped. The second data is transmitted until the continuation of the first data is read as another first data having a later reading start time.
[0003]
[Problems to be solved by the invention]
  According to the above prior art, for the first data not stored in the storage area, the second data is inserted in the middle of the first data until all of the first data is written to the storage area. As described above, there is a drawback that data cannot be read from each of a plurality of positions in the storage area and transmitted to a plurality of terminals.
  The present invention has been made in view of the above situation, and even for first data not stored in the storage area, the first data is not waited until all of the first data has been written to the storage area. It is an object of the present invention to be able to quickly transmit data in which the second data is inserted in the middle to a plurality of terminals.
[0004]
[Means for Solving the Problems]
  The information supply method according to claim 1 is:Corresponds to video information or audio information that can be played back in seriesIn the middle of the first series of data,Playable in seriesAn information supply method for transmitting data into which a second data is inserted to a plurality of terminals, wherein the data input to one input unit is writable and rewritable, and the second storage area A second storage area in which data can be written, and the first data is input to the one input section.To be stored as readable storage data as data for transmission to the terminalWhile writing to the first storage area, it is written to the first storage areaThe stored dataTheStored dataFrom each of the multiple locations in the storage area where theAs the data for transmissionRead and send to multiple terminals,Stored dataThe reading operation from each of the plurality of positions is read from each of the plurality of positions.Data for transmissionThe second data is inserted in the middle of the first data by interrupting at the designated position every time, reading the second data written in the second storage area and transmitting it to the terminal Since the data is transmitted to a plurality of terminals, the first data that is not stored in the first storage area can be stored in the first storage area without waiting until all of the first data is written to the first storage area. While writing the first data in the storage area, the first data written in the first storage area is transferred from each of the plurality of positions in the storage area in which one of the first data is written. In the case where another first data is already written in the first storage area, a plurality of different reading positions can be rewritten while rewriting the other first data already written. 1 data can be read from the storage area in which one is written in the first data.
  Therefore, even if the first data is not stored in the first storage area, the first data written in the first storage area is changed to the first data while the first data is added to the first storage area. Reading from each of a plurality of positions in a storage area in which one of the data of 1 is written, and quickly transmitting data in which the second data is inserted in the middle of the first data to a plurality of terminals In addition, since it is not necessary to write all the first data in the first storage area in advance, the management of the first data stored in the first storage area can be effectively performed without complicating the management. Can be used.
ContractClaim2The information supply system described isCorresponds to video information or audio information that can be played back in seriesIn the middle of the first series of data,Playable in seriesAn information supply system configured to be able to transmit data into which a second data is inserted to a plurality of terminals, and a first storage area in which data inputted to one input unit can be written and rewrittenWhenSecond storage area in which the second data can be writtenAnd adding the first data input to the one input unit to the first storage area so as to be stored as readable storage data as data for transmission to the terminal. However, the storage data written in the first storage area is read as the transmission data from each of a plurality of positions in the storage area in which the storage data is written, and the storage data The read operation from each of the plurality of positions is interrupted at the position designated for each transmission data read from each of the plurality of positions, and the second storage area is written when the read operation is interrupted A read control unit capable of controlling the read operation of the storage means so that the second data is read;Since the data in which the second data is inserted in the middle of the first data can be transmitted to a plurality of terminals, even the first data not stored in the first storage area The first data written in the first storage area is added to the first storage area while the first data is added to the first storage area without waiting until all the data of 1 is written in the first storage area. One of the first data can be read from each of a plurality of positions in the storage area and another first data has already been written to the first storage area. A plurality of first data at different reading positions can be read from the storage area in which one of the first data is written while rewriting the other first data.
  Therefore, even if the first data is not stored in the first storage area, the first data written in the first storage area is changed to the first data while the first data is added to the first storage area. Reading from each of a plurality of positions in a storage area in which one of the data of 1 is written, and quickly transmitting data in which the second data is inserted in the middle of the first data to a plurality of terminals In addition, since it is not necessary to write all the first data in the first storage area in advance, the management of the first data stored in the first storage area can be effectively performed without complicating the management. Can be used.
ContractClaim3The information reading device described isCorresponds to video information or audio information that can be played back in seriesIn the middle of the first series of data,Playable in seriesAn information reading apparatus configured to be able to read data into which second data has been inserted, wherein the first storage area is writable and rewritable with data input to one input unitWhenSecond storage area in which the second data can be writtenAnd adding the first data input to the one input unit to the first storage area so as to be stored as readable storage data as data for transmission to the terminal. However, the storage data written in the first storage area is read as the transmission data from each of a plurality of positions in the storage area in which the storage data is written, and the storage data The read operation from each of the plurality of positions is interrupted at the position designated for each transmission data read from each of the plurality of positions, and the second storage area is written when the read operation is interrupted A read control unit capable of controlling the read operation of the storage means so that the second data is read;Since the second data is inserted in the middle of the first data so that the data can be read out, even the first data not stored in the first storage area can be stored in the first data. The first data written in the first storage area is changed to the first data while the first data is added to the first storage area without waiting until all of the data is written in the first storage area. Can be read from each of a plurality of positions in the storage area in which one of the data is written, and another first data is already written in the first storage area. While rewriting the first data, a plurality of first data having different reading positions can be read from the storage area in which one of the first data is written.
  Therefore, even if the first data is not stored in the first storage area, the first data written in the first storage area is changed to the first data while the first data is added to the first storage area. It is possible to read from each of a plurality of positions in the storage area in which one of the data of 1 is written, to read the data in which the second data is inserted in the middle of the first data, Since it is not necessary to write all the data in the first storage area in advance, it is possible to effectively use the storage means without complicating the management of the first data stored in the first storage area..
[0005
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
  FIG. 1 shows video data VA (hereinafter referred to as program video data) including audio such as video video as an example of first data from a terminal device E as a plurality of terminals by a so-called on-demand service method. The video data VB (hereinafter referred to as advertisement) including audio such as advertising video as an example of the second data is interrupted and transmission of the program video data VA to the terminal device E is interrupted. FIG. 2 shows a block diagram of an information supply method and an information supply system for controlling transmission of video data to the terminal device E, and sending various program video data VA and various advertisement video data VB as transmission video data VC Information transmission apparatus A, and program video data VA and advertisement video data VB transmitted from the information transmission apparatus A as a series of transmission video data VE, in response to a transmission request, a plurality of terminal devices Center device C with an information supply device B to send to E are provided so as to be communicated to a number of terminal apparatus E bidirectionally via the digital switching network F as B-ISDN.
[0006]
  Each of the terminal devices E is provided with information reproducing means for reproducing the transmission video data VE transmitted from the information supply device B on the display, and the requested title of the program video data VA and the advertisement video data VB as a transmission request. Transmission request data DA for specifying the transmission amount and reception end data DB indicating that reception of the transmission video data VE has been completed are provided so as to be transmitted to the center apparatus C as necessary together with identification data of the terminal apparatus E. It has been.
  The transmission amount of the advertisement video data VB is selected and specified from five request levels 0 to 4 from a request level 0 that does not require transmission of the advertisement video data VB to a request level 4 that has the largest transmission amount. It is configured.
[0007]
  In the information supply apparatus B, a series of read video data VDn (n = 1 to n) having different read positions for the program video data VA and the advertisement video data VB according to the transmission request data DA from the plurality of terminal devices E. 63, the same applies hereinafter), a plurality of information reading devices B3, a communication control device B4 for controlling the read video data VDn read by each of the information reading devices B3 to be transmitted to a predetermined terminal device E, and each information A supply control unit B1 for controlling the operation of the reading device B3 and the communication control device B4 is provided, and the supply control unit B1 is for supplying the operation data for each terminal device E and the operation data for each information reading device B3. A data storage unit B2 is provided.
[0008]
  The supply control unit B1 includes each information reading device so that the transmission video data VE corresponding to the transmission request data DA is transmitted to the terminal device E based on the operation data stored in the supply data storage unit B2. Outputs read control data DF, DGn, DJn for controlling the operation of B3, converts read video data VDn read by each of the information reading devices B3 into serial digital video signals, and requests transmission as transmission video data VE The communication control data DL1 and DL2 for controlling the operation of the communication control device B4 are output so as to be transmitted to a plurality of terminal devices E according to the data DA.
[0009]
  Each of the information reading devices B3 includes a read control unit 1 provided with a read control data storage unit 1a for storing read control data DF, DGn, DJn input from the supply control unit B1, and an information sending device A Rewritable information storage memory (semiconductor memory) 2 as storage means for storing each of the program video data VA and the advertising video data VB as the transmission video data VC sent from, and the read control unit 1 Based on the memory control data, the program video data VA and the advertisement video data VB stored in the information storage memory 2 are read in accordance with transmission request data DA from a plurality of terminal devices E, and a plurality of series. A memory control circuit 4 composed of a wired logic circuit that controls the read video data VDn to be read out in a time-sharing manner is provided. Are configured as reading means for reading out program video data VA and advertisement video data VB.
[0010]
  When the transmission request data DA for the program video data VA not written in the information storage memory 2 of any information reading device B3 is input from the terminal device E, the supply control unit B1 reads the writing operation. While writing the program video data VA corresponding to the transmission request data DA in the information storage memory 2 of the waiting information reading device B3 that is not performing the operation, the program video data VA and the already written advertising video data VB are written. Are read from the information storage memory 2 in a time-sharing manner as a plurality of series of read video data VDn having different reading positions according to the transmission request data DA, and the read video data VDn is sent as a transmission video data VE to a plurality of terminals. It is configured to control the operation of each information reading device B3 and communication control device B4 so as to be transmitted according to transmission request data DA from the device E.
[0011]
  When the program controller 1 writes the program video data VA and the advertising video data VB into the information storage memory 2, the readout control unit 1 reads out the transmission request data DE for requesting transmission of the program video data VA and the advertising video data VB. A memory control circuit so that the program video data VA and the advertisement video data VB transmitted from the information transmission device A to the information transmission device A together with the identification data of the device B3 are transmitted to the information storage memory 2 as the transmission video data VC. 4, the memory control circuit 4 writes the program video data VA into the information storage memory 2 while writing the program video data VA into the information storage memory 2 while writing the program video data VA into the information storage memory 2. The video data VA and the advertisement video data VB previously written in the information storage memory 2 are read out according to transmission request data DA from a plurality of terminal devices E. It is configured to operate so as to read in a time-division manner as a series of read video data VDn having different positions.
[0012]
  The information sending device A includes a large number of program information output devices A6 and A7 that output various program video data VA in series and a large number of advertisement information output devices A8 that output various advertising video data VB in series. Information source A3, and line control for connecting digital communication lines so that program video data VA and advertisement video data VB output from information source A3 are transmitted to a predetermined information reading device B3 corresponding to transmission request data DE Control of the operation of each information output device A6, A7, A8 and line control device A4 based on the transmission request data DE and the write end data DK transmitted from the device A4 and the read control unit 1 of each information read device B3 The transmission control unit A1 is provided, and the transmission control unit A1 is provided with a transmission data storage unit A2 for storing the operation data for each information reading device B3 and the operation data for each information output device A6, A7, A8. It has been.
[0013]
  As the program information output devices A6, A7, various program video data VA recorded on an optical disc is read and output as a serial digital video signal, and a reproduced program information output device A7 such as an optical disc device, a broadcast station, etc. A real-time program information output device A6 is provided that outputs the program video data VA generated in real time such as sports live video, concert live video, news video, etc. transmitted in real time from the program production station A5 as a serial digital video signal The advertisement information output device A8 is configured to read out various advertisement video data VB recorded on an optical disc or the like and output it as a serial digital video signal.
  The advertisement information output device A8 is configured to write the advertisement video data VB transmitted from the advertisement production station to an optical disc or the like, read the written advertisement video data VB, and output it as a serial digital video signal. May be.
[0014]
  In the program video data VA output from the information output devices A6 and A7, a plurality of read stop positions for stopping the read operation from the information storage memory 2 are set corresponding to the locations where the video scene changes, As shown in FIG. 2 (a), read stop position data SE read corresponding to the read stop position in accordance with the read operation from the information storage memory 2 is preliminarily incorporated, and is placed in the head of the program video data VA. Includes program start data SA and program end data SB at the end.
  Further, in the advertisement video data VB output from the advertisement information output device A8, a plurality of transmission stop positions for stopping transmission to the terminal E are set in correspondence with locations where the advertisement contents change. As shown in (b), transmission stop position data SF read corresponding to the transmission stop position in accordance with the read operation from the information storage memory 2 is incorporated in advance, and the advertisement ends at the end of the advertisement video data VB. Data S0 is incorporated in advance.
[0015]
  Then, the read stop position data SE is set at every other read stop position of the program video data VA so that the transmission amount of the advertisement video data VB according to the request levels 0 to 4 specified by the terminal E can be transmitted. Two types of read position data S1 and S2 to be read and two types of read position data S3 and S4 to be read at all the read stop positions of the program video data VA are incorporated. Read position data S2 and S4 read at every other transmission stop position of data VB and read position data S1 and S3 read at all transmission stop positions of advertisement video data VB are incorporated.
[0016]
  FIG. 3 is a detailed block diagram of the read control unit 1, the memory control circuit 4, and the information storage memory 2 provided in the information read device B3. The memory control circuit 4 includes the address data AMA, The address control memory (semiconductor memory) 3 in which the AMB is rewritable, the counter 6 that outputs the control address data AC of the address control memory 3, and the read address data AMAR read from the address control memory 3 are the program video data. A switch circuit 15 for switching between a read address for VA and a read address for advertisement video data VB, and a serial / parallel conversion circuit 5 that converts the output video data VC into a parallel digital video signal and outputs the parallel video signal are provided as main parts. The read control unit 1 is provided with a microprocessor for controlling the operation of the memory control circuit 4 and the like. The transmission video data VC output from the parallel conversion circuit 5 is configured to be written in the information storage memory 2.
  The information storage memory 2 stores program video data storage area ARA from address MA0 to MAE where program video data VA is stored in series, and address MB0 to MBE where advertisement video data VB is stored in series. An advertisement video data storage area ARB is provided, and predetermined advertisement video data VB transmitted from the information transmission apparatus A is stored in advance from the MB0 address of the advertisement video data storage area ARB, and the program video data VA is stored. The program video data VA and the advertising video data VB are read from the program video data storage area ARA and the advertising video data storage area ARB while sequentially writing from the MA0 address of the program video data storage area ARA as required, and the request level 0 The advertisement video data VB of the transmission amount corresponding to ~ 4 is configured to be able to read a plurality of series of read video data VDn inserted in the middle of the program video data VA by time division. To have.
[0017]
  Next, the operation of the information reading device B3 will be described with reference to the time chart shown in FIG.
  For example, the counter 6 includes a 6-bit shift register that counts up from “0” to the maximum value “63” and then returns to “0” and counts up again. The control address data AC circulating endlessly from “0” to “63” is output.
[0018]
  The first comparator 7 compares the command address data ACM output from the read control unit 1 with the control address data AC output from the counter 6 and outputs “0” when they match.
  Then, when “0” is output from the first comparator 7, the first multiplexer 8 receives the first command data DMA input to the A terminal from the read control unit 1 as the first data input of the address control memory 3. When “0” is not output from the first comparator 7 when input to the terminal DINA, the first address data AMA input to the B terminal is input to the first data input terminal DINA.
  Further, when “0” is output from the first comparator 7, the second multiplexer 9 receives the second command data DMB input to the A terminal from the read control unit 1 as the second data input of the address control memory 3. When “0” is not output from the first comparator 7 when input to the terminal DINB, the second address data AMB input to the B terminal is input to the second data input terminal DINB.
[0019]
  The address control memory 3 includes an advertisement amount data memory 3A in which advertisement amount data CM (CM0, CM1, CM2, CM3, CM4) corresponding to the request levels 0 to 4 is written at addresses 0 to 63, respectively. , An increase data memory 3B in which the increase data INC is written, a first address data memory 3C in which the first address data AMA is written, and a second address data memory 3D in which the second address data AMB is written. First address data AMA (AMA0) for writing to the information storage memory 2 is written in the first address data memory 3C and stored in the first address data memory 3C at address n (n = 1 to 63, the same applies hereinafter). First address data AMA (AMAn: n = 1 to 63, the same applies hereinafter) for reading from the information storage memory 2 is written, and the second address data memory 3D at address n is read from the information storage memory 2 Second address data AMB for switching data to the program video data VA and the advertisement video data VB which: is provided to (AMBn n = 1~63, hereinafter the same) is written.
  As the advertisement amount data CM, the advertisement amount data CM0 different from any of the advertisement end data S0 and the read position data S1 to S4 is written when the request level is 0, and the same advertisement as the read position data S1 when the request level is 1. Write the amount data CM1, write the same advertisement amount data CM2 as the read position data S2 at the request level 2, write the same advertisement amount data CM3 as the read position data S3 at the request level 3, and at the request level 4. The same advertisement amount data CM4 as the read position data S4 is written.
[0020]
  The write enable signal WEC bar obtained by dividing the clock CK output from the oscillator 10 by the counter 6 is input to the write enable input terminal WE bar of the address control memory 3, and sequentially counts up at the rising edge of the write enable signal WEC bar. The output of the counter 6 is input to the address input terminal ADD of the address control memory 3 as control address data AC, and the period during which the counter 6 outputs one control address data AC to the address control memory 3 is a time slot. As described above, reading and writing of the first address data AMA and the second address data AMB to the address control memory 3 are repeated for each time slot.
[0021]
  Hereinafter, the period during which the counter 6 outputs the control address data AC at address 0, that is, “0”, and the reading and writing of the first address data AMA0 for writing is referred to as writing time slot 0. The counter 6 outputs the control address data AC at address n, that is, “n” (n = 1 to 63, the same applies hereinafter), and reads and writes the first address data AMAn and second address data AMBn for reading. The period during which the period is performed is referred to as a read time slot n (n = 1 to 63, the same applies hereinafter).
[0022]
  Based on the control address data AC input at the beginning of the write time slot 0 or the read time slot n, the advertisement amount data CM, the increase data INC, the first address data AMA, and the second address data AMB are address controlled. First address data AMA (hereinafter referred to as read first address data AMAR) read from the memory 3 and read from the first address data memory 3C and increased data INC are input to the adder 11, and the addition result is obtained. Latched by the latch circuit 12 and input to the address input terminal ADD as address data AM (AM0) for writing or address data AM for reading (AMn: n = 1 to 63, the same applies hereinafter) of the information storage memory 2 The second address data AMB () input to the B terminal of the third multiplexer 13 and the read control unit 1 and read from the second address data memory 3D. Hereinafter, the read second address data AMBR) is input to the B input terminal DINB of the switch circuit 15, and the advertisement amount data CM is input to the third comparator 16 described later.
[0023]
  When the control signal CS1 input from the second comparator 14, which will be described later, is "0", the third multiplexer 13 stores (MB0) in the advertisement video data storage area ARB input to the A terminal from the read control unit 1. -1) The update address data MBK indicating the address is input to the A input terminal DINA of the switch circuit 15, and when the control signal CS1 is not "0", the address data AM (AM0, AMn) input to the B terminal is used. The signal is input to the A input terminal DINA of the switch circuit 15.
  When the control signal CS2 input from the third comparator 16 is "0", the switch circuit 15 uses the read second address data AMBR input to the B input terminal DINB as the first address data AMA as the A output terminal. The address data AM (AM0, AMn) inputted to the B terminal of the first multiplexer 8 from DOA is inputted to the B terminal of the second multiplexer 9 from the B output terminal DOB as the second address data AMB. When the control signal CS2 is not "0", the address data AM (AM0, AMn) or the update address data MBK input to the A input terminal DINA is used as the first address data AMA from the A output terminal DOA to the first multiplexer. 8 and the second multiplexer 9 from the B output terminal DOB as the second address data AMB as the read second address data AMBR input to the B input terminal DINB. It is configured to input the B terminal.
  Then, when “0” is not output from the first comparator 7, the first address data AMA input to the B terminal of the first multiplexer 8 is input to the first data input terminal DINA of the address control memory 3. At the same time, the second address data AMB input to the B terminal of the second multiplexer 9 is input to the second data input terminal DINB of the address control memory 3, and the write period in the second half of the write time slot 0 or the read time slot n Are written in the first address data memory 3C and the second address data memory 3D at the same address as at the time of reading.
[0024]
  Therefore, when the increase data INC is set to “1”, an address obtained by adding “1” of the increase data INC to the read first address data AMAR read at the beginning of the write time slot 0 or the read time slot n. Since the data AM (AM0, AMn) is output from the latch circuit 12, when both the control signal CS1 and the control signal CS2 are not “0”, the control address data AC makes a round from “0” to “63”. The address data AM (AM0, AMn) of the information storage memory 2 corresponding to the write time slot 0 or the read time slot n increases by “1”, but the second address data AMB does not change and the increased data INC When “0” is set, the address data AM (AM0, AMn) having the same value as the read first address data AMAR read at the beginning of the write time slot 0 or the read time slot n is latch circuit 12, the address data AM (AM0, AMn) and the second address data AMB do not change.
[0025]
  The second comparator 14 is configured to output “0” as the control signal CS1 when the advertisement end data S0 incorporated in the advertisement video data VB is read in each read time slot n.
  Accordingly, when the reading of the series of advertisement video data VB is completed in the read time slot n from which the advertisement video data VB is being read, the update address data MBK indicating the address (MB0-1) of the advertisement video data storage area ARB is stored in the switch circuit. 15 is input to the A input terminal DINA and written to the first address data memory 3C as the first address data AMA. Therefore, the read address data AMn of the advertisement video data VB returns to the address MB0 and the advertisement video data VB is read. Is repeated.
[0026]
  The third comparator 16 has the same read stop position data SE (S1, S1, S) as the advertisement amount data CM (CM0, CM1, CM2, CM3, CM4) read from the advertisement amount data memory 3A in each read time slot n. When S2, S3, S4) or transmission stop position data SF (S1, S2, S3, S4) is read from program video data VA or advertisement video data VB, “0” is output as control signal CS2. ing.
  Accordingly, in the writing time slot 0 in which the program video data VA is written, neither the read stop position data SE nor the transmission stop position data SF is read, so that the program video data VA is sequentially written from the address MA0 and the program video data VA is read. In the read time slot n, the program video data VA and the advertisement video data VB are alternately read according to the advertisement amount data CM.
[0027]
  When the advertisement amount data CM0 is written in the advertisement amount data memory 3A in the reading time slot n from which the program image data VA is read, the same read stop position as the advertisement amount data CM0 is stored in the program image data VA. Since the data SE is not incorporated and the control signal CS2 of “0” is not input to the switch circuit 15 at any reading stop position of the program video data VA, the second read address data for reading the advertising video data VB Writing to the first address data memory 3C of AMBR is not performed, and reading of the program video data VA is not interrupted.
[0028]
  When the advertisement amount data CM1 is written in the advertisement amount data memory 3A, the third comparator 16 is in every other reading stop position of the program image data VA and all transmission stop positions of the advertisement image data VB. When the control signal CS2 of “0” is output and the advertisement amount data CM2 is written, “every other reading stop position of the program video data VA and every other transmission stop position of the advertisement video data VB“ When the control signal CS2 of “0” is output and the advertisement amount data CM3 is written, the control signal of “0” is output at all reading stop positions of the program video data VA and all transmission stop positions of the advertising video data VB. When CS2 is output and advertising volume data CM4 is written, control signal CS2 of “0” is output at all reading stop positions of program video data VA and every other transmission stop position of advertising video data VB To do.
  In the read time slot n from which the program video data VA is read, the address data for reading the advertisement video data VB is written as the second address data AMB in the second address data memory 3D. When the read stop position data SE (S1, S2, S3, S4) incorporated in is read and the control signal CS2 of "0" is input to the switch circuit 15, the read address data read from the second address data memory 3D is read. The 2-address data AMBR is written in the first address data memory 3C as the first address data AMA for reading the advertising video data VB, and the address data AMn for reading the program video data VA is second as the second address data AMB. It is written in the address data memory 3D.
  In the read time slot n from which the advertisement video data VB is read, the address data for reading the program video data VA is written as the second address data AMB in the second address data memory 3D, and the advertisement video data VB. When the transmission stop position data SF (S1, S2, S3, S4) written in is read and a control signal CS2 of "0" is input to the switch circuit 15, the read address read from the second address data memory 3D is read. The 2-address data AMBR is written in the first address data memory 3C as the first address data AMA for reading the program video data VA, and the address data AMn for reading the advertising video data VB is the second address data AMB as the second address data AMB. It is written in the address data memory 3D.
[0029]
  Therefore, when the advertisement amount data CM1 and CM2 are written in the advertisement amount data memory 3A, the reading is stopped at every other reading stop position of the program image data VA, and the reading of the advertisement image data VB is started. In the case of the advertisement amount data CM1, the reading of the advertisement video data VB is stopped at all transmission stop positions and the reading of the program video data VA is restarted. In the case of the advertisement amount data CM2, the advertisement video data VB The reading is stopped at every other transmission stop position, and the reading of the program video data VA is resumed.
  In addition, when the advertisement amount data CM3 and CM4 are written in the advertisement amount data memory 3A, reading is stopped at all reading stop positions of the program image data VA, and reading of the advertisement image data VB is started. In the case of the amount data CM3, the reading of the advertising video data VB is stopped at all transmission stop positions and the reading of the program video data VA is restarted. In the case of the advertising amount data CM4, every other advertising video data VB is placed. At the transmission stop position, the reading is stopped and the reading of the program video data VA is resumed.
[0030]
  The serial / parallel conversion circuit 5 includes a shift register 5A for sequentially capturing the transmission video data VC transmitted from the information transmission apparatus A in synchronization with the write clock signal CKW input from the read control unit 1, and a parallel from the shift register 5A. And a write latch circuit 5B for latching the transmission video data VC input to the data input terminal DIN of the information storage memory 2 by latching it at the falling edge of the write load signal WL output from the fourth comparator 17. .
[0031]
  The fourth comparator 17 compares the comparison data “0” output from the read control unit 1 with the control address data AC output from the counter 6, and “0” is output as the control address data AC. During this time, that is, during the write time slot 0, the write load signal WL of “0” is output.
  When the write enable signal WEC bar of “0” is output to the address control memory 3 in the period in which the write load signal WL of “0” is output from the fourth comparator 17, the gate circuit 18 The write enable signal WEM bar of “0” is output to the information storage memory 2 and the transmitted video data VC input to the data input terminal DIN is written in the information storage memory 2 in the second half of the write time slot 0. Written at the location specified by the address data AM0 for loading.
[0032]
  Accordingly, program video data VA or advertisement video data VB having a different reading position is read in each read time slot n while writing the program video data VA as the transmission video data VC in the write time slot 0 to the program video data storage area ARA. In this case, the command address data of “0” is output while outputting the first command data DMA in which the contents of the increased data memory 3B is “1” and the contents of the first address data memory 3C is “MA0 −1”. By outputting ACM, while the control address data AC makes a round from “0” to “63”, “1” is added to the increase data memory 3B at address 0, and “MA0− is stored in the first address data memory 3C. 1 ”is written, and then command address data ACM other than“ 0 ”is output. Then, program video data VA is written in the period of write time slot 0. Sequentially written from address MA0 set video data storage area ARA.
[0033]
  The advertisement video data VB is written in advance in the advertisement video data storage area ARB in advance before the program video data VA is written, and control address data AC of “0” is output in all time slots. As described above, the reset signal RS bar for the counter 6 is held at "0" to maintain the counter 6 in the reset state, the contents of the increased data memory 3B are set to "1", and the contents of the first address data memory 3C are set. By outputting the command address data ACM of “0” while outputting the first command data DMA with “MB0 −1” as “MB0 −1”, “1” is added to the increased data memory 3B at address 0, and the first address When “MB0 −1” is written to the data memory 3C, and the command address data ACM other than “0” is output while the reset signal RS bar is held at “0”. Advertisement video data VB are written in order from MB0 address of the advertisement video data storage area ARB in each time slot.
[0034]
  When the program video data VA written in the information storage memory 2 is to be read sequentially from the address MA0 in the period of the read time slot n, the contents of the advertisement amount data memory 3A correspond to the advertisement amounts corresponding to the request levels 0 to 4. First command data DMA having data CM (CM0, CM1, CM2, CM3, CM4), the contents of the increased data memory 3B being "1", and the contents of the first address data memory 3C being "MA0-1"; By outputting the command address data ACM of “n” while outputting the second command data DMB with the content of the second address data memory 3D being “MB0 −1”, the control address data AC is changed from “0”. During one round of “63”, the advertisement amount data CM is stored in the advertisement amount data memory 3A at address n, “1” is stored in the increased data memory 3B, “MA0 −1” is stored in the second address data memory 3C, and the second address is stored. Address data memo When “MB0 −1” is respectively written in the data 3D and then command address data ACM other than “n” is output, the program video data VA is read as the read video data VDn in the period of the read time slot n. When the program video data VA is read out in response to the advertisement data CM, the advertisement video data VB is read out as the read video data VDn from the MB0 address of the information storage memory 2 in order. Then, when the reading of the advertisement video data VB is stopped corresponding to the advertisement amount data CM, the reading of the program video data VA as the read video data VDn is resumed.
[0035]
  Therefore, the program video data VA read stop position and the advertisement video data VB transmission stop position are selected according to the transmission request data DA that specifies the transmission amount of the advertisement video data VB from the terminal device E. The address control memory 3 and the switch circuit 15 are configured as address designating means for designating a read address AMn from the information storage memory 2 by the information reading device B3, and the memory control circuit 4 has a plurality of information reading devices B3 for reading. When the read stop position data SE corresponding to the selected read stop position among the stop positions is read, the read address AMn of the advertisement video data VB is designated to stop the reading of the program video data VA and the advertisement video data VB When the information reading device B3 reads the transmission stop position data SF corresponding to the selected transmission stop position among the plurality of transmission stop positions, Designated as a reading control means for controlling the operation of the information reading device B3 so as to stop the reading of the advertising video data VB and restart the reading of the program video data VA by designating the reading address AMn of the group video data VA Has been.
  The information storage memory 2 can write the program video data VA at the position specified by the write address data AM0, and the program video data VA and the advertisement video from the position specified by the read address data AMn. The data reading device B3 is provided so as to be able to read the data VB as a series of read video data VDn, and the information reading device B3 designates the write address data AM0 and the plurality of read address data AMn in a time-sharing manner. The program video data VA and the advertising video data VB stored in the information storage memory 2 are written to the plurality of terminals while the program video data VA corresponding to the transmission request DA from E is written to the information storage memory 2 as necessary. In accordance with a transmission request DA from the device E, a plurality of series of read video data VDn having different read positions for each read time slot n is provided so as to be read in a time division manner.
[0036]
  The control operation by the supply control unit B1 will be described with reference to the flowcharts of FIGS.
  The supply data storage unit B2 includes, as operation data for each terminal device E, unprocessed transmission request data DA for which “information supply start processing” has not ended and unprocessed for which “information supply end processing” has not ended. The reception end data DB is stored, and the reading of the program video data VA and the advertisement video data VB currently written in the information storage memory 2 and the read video data VDn are read as operation data for each information reading device B3. The time slot n and the terminal device E receiving the read video data VDn are stored.
[0037]
  Then, as shown in the flowchart of FIG. 6, when the first transmission request data FDA is input from the terminal device E after the activation power is input, the control operation is started (# 1), and the supply data storage unit B2 stores the control operation. The stored unprocessed transmission request data DA and unprocessed reception end data DB are read out as processing target data (# 2).
  Next, the presence / absence of unprocessed transmission request data DA in the processing target data is determined (# 3), and if there is, the transmission request is sent for each transmission request data DA having the same information title requesting transmission. Execute the “information supply start process” that broadcasts the requested program video data VA to the terminal device E that has input the data DA (# 4). If there is none, the unprocessed transmission request in the processing target data If there is no data DA, determine whether there is an unprocessed reception end data DB in the processing target data (# 5). If there is, execute “Information supply end processing” for each reception end data DB. However, if there is no data or if there is no unprocessed reception end data DB in the processing target data, steps # 2 to ## are performed on the processing target data newly stored in the supply data storage unit B2. Repeat the control operation in step 6.
[0038]
  In the “information supply start process”, as shown in the flowchart of FIG. 7, the presence / absence of the information reading device B3 in which the program video data VA of the requested title is written is determined (# 21), and the program video When there is an information reading device B3 in which the data VA is written, it is determined whether or not there is an information reading device B3 in which an unused time slot remains in the reading time slot n of the information reading device B3 ( # 22) If there is an information reading device B3 with an empty time slot remaining, one of the empty time slots is read as the read time slot n of the requested program video data VA in the read time slot n. The line connection data DL1 for broadcast transmission of the read video data VDn to the terminal device E that has input the transmission request data DA is input to the communication control device B4 as communication control data (# 23). Read start data DGn (n = 1 to 63, the same applies hereinafter) indicating the read time slot n and the request level of the amount of advertisement video data VB to be transmitted to the memory control unit 1 of the information reading device B3. Enter (# 24).
  If there is no information reading device B3 in which the program video data VA of the title requested in step # 21 is written and there is no information reading device B3 in which an empty time slot remains in step # 22, the transmission The request data DA is re-stored in the supply data storage unit B2 as unprocessed transmission request data DA (# 25), and the presence / absence of a waiting information reading device B3 that is not currently executing a write operation or a read operation is determined. If there is a waiting information reading device B3, the title of the program video data VA and the writing start data DF instructing writing thereof are read to one of the waiting information reading devices B3. Input as control data (# 27).
[0039]
  In the “information supply end process”, as shown in the flowchart of FIG. 8, the line disconnection data DL2 for disconnecting the communication line between the terminal apparatus E that has received the reception end data DB and the corresponding information reading apparatus B3 is stored. As input to the communication control device B4 as communication control data (# 31), the presence / absence of another terminal device E receiving the transmission video data VE whose reception has ended is determined (# 32), and the other terminal If there is no device E, the information reading device corresponding to the read control data is read end data DJn (n = 1 to 63, the same applies hereinafter) instructing the end of reading in the read time slot n corresponding to the transmission video data VE. Input to the memory control unit 1 of B3 (# 33).
[0040]
  Next, the control operation by the read control unit 1 will be described with reference to the flowcharts of FIGS.
  In the read control data storage unit 1a, the unprocessed write start data DF in which the “write start process” has not been completed and the “read start process” of the read control data input from the supply control unit B1 are completed. Unprocessed read start data DGn and unprocessed read end data DJn for which the “read end process” has not been completed are stored.
[0041]
  Then, as shown in the flowchart of FIG. 9, when the first write start data FDF is input from the supply control unit B1, the execution of the write / read control is started (# 101), and the read control data storage unit 1a is started. The stored unprocessed write start data DF, unprocessed read start data DGn, and unprocessed read end data DJn are read as processing target data (# 102), and unprocessed writing in the processing target data is performed. The presence / absence of the start data DF is determined (# 103). If there is, the “write start process” is executed (# 104).
  Next, the presence / absence of unprocessed read start data DGn in the processing target data is determined (# 105). If there is, the “read start processing” is executed (# 106). If there is no unprocessed read start data DGn, the presence or absence of unprocessed read end data DJn in the data to be processed is determined (# 107), and if there is, the `` read end process '' is executed. (# 108), if there is none, or if there is no unprocessed read end data DJn in the processing target data, it is determined whether or not the program end data SB read at the end of the read video data VDn is detected (# 109) If the program end data SB is detected, after executing the “write end processing” (# 110), the processing target data newly stored in the read control data storage unit 1a is processed in steps # 102 to ##. 110 control operations are repeated.
[0042]
  In the “write start process”, as shown in the flowchart of FIG. 10, “1” is written in the increased data memory 3B at address 0, and “MA0 −1” is written in the first address data memory 3C (# 121). ), The title of the program video data VA to be written and the transmission request data DE requesting the transmission thereof are input to the transmission control unit A1 (# 122), and are given to the head of the program video data VA as the transmission video data VC When the program start data SA is detected (# 123), the command address data ACM is set to a value other than “0” to “63”, for example, “100” (# 124), and output from the serial / parallel conversion circuit 5 The program video data VA to be written to the program video data storage area ARA of the information storage memory 2 is started.
[0043]
  In the “reading start process”, as shown in the flowchart of FIG. 11, the transmission amount of the advertising video data VB is stored in the advertising amount data memory 3A at address n corresponding to the reading time slot n indicated by the reading start data DGn. The advertisement amount data CM0 to CM4 corresponding to the request levels 0 to 4 are set to “1” in the increase data memory 3B, “MA0 −1” in the first address data memory 3C, and “MB0 − in the second address data memory 3D. 1 "is written (# 131), and the command address data ACM is set to a value other than" 0 "to" 63 ", for example," 100 "(# 132), reading of the program video data VA is started. The read video data VDn read during the read time slot n is transmitted to the predetermined terminal device E as transmission video data VE.
[0044]
  In the “reading end process”, as shown in the flowchart of FIG. 12, while outputting the first command data DMA with the increased data memory 3B set to “0”, the read time slot n indicated by the read end data DJn is output. After the command address data ACM of the corresponding “n” is output, the contents of the increased data memory 3B at address n are set to “0” while the control address data AC makes a round from “0” to “63”. (# 141), the command address data ACM is set to a value other than “0” to “63”, for example, “100” (# 142).
[0045]
  In the “write end process”, as shown in the flowchart of FIG. 13, the first command data in which the content of the incremented data memory 3 B at address 0 corresponding to the write time slot 0 of the address control memory 3 is set to “0”. By outputting the command address data ACM of “0” while outputting the DMA, while the control address data AC makes a round from “0” to “63”, the contents of the increased data memory 3B at the address 0 are changed to “0”. (# 151), the command address data ACM is set to a value other than “0” to “63”, for example, “100” (# 152), and the write end data DK is input to the transmission control unit A1 (##). 153).
[0046]
  Then, as conceptually shown in FIG. 5, the total data amount of the program video data VA of one title is expressed as time TA required to transmit the entire program video data VA, and MA0 of the information storage memory 2 is displayed. When the writing capacity of the program video data storage area ARA from the address to the MAE address is expressed as the time TAR required to transmit the video data written in the entire program video data storage area ARA, FIG. As shown in FIG. 4, in response to a transmission request DA from the terminal device E, writing of program video data VA having a data amount TA smaller than the write capacity TAR to the program video data storage area ARA is started at the write start time TS. Then, reading of the read video data VD1 from the written program video data VF is started, and transmission from another terminal device E is performed while writing the program video data VA as shown in FIG. 5 (b). Request DA Accordingly, reading of the read video data VDm (m = 2 to 63) from the written program video data VF can be started at the current time TR when the time TB has elapsed from the writing start time TS. As shown in (c), when the time TB from the writing start time TS to the current time TR reaches the time TA, the writing of all the program video data VA to the program video data storage area ARA is completed.
  Therefore, after the writing of the program video data VA is started, a plurality of series of read video data VDn having different reading positions corresponding to the read time slots n read according to the transmission request data DA from the plurality of terminal devices E are supported. Each of the read video data VDn is transmitted to the terminal device E of the program video data VA according to the request levels 0 to 4 of the advertising video data VB from the terminal device E. Control is performed such that the transmission is interrupted and the advertising video data VB is transmitted to the terminal device E.
[0047]
  The control operation of the sending control unit A1 will be described with reference to the flowcharts of FIGS.
  The sending data storage unit A2 includes, as operation data for each information reading device B3, unprocessed sending request data DE for which “sending start processing” has not ended and unprocessed for which “sending end processing” has not ended. Is stored, and the title of the program video data VA that can be output from the program information output devices A6, A7 and the output from the advertisement information output device A8 as operation data for each of the information output devices A6, A7, A8 The titles of possible advertisement video data VB are stored.
[0048]
  Then, as shown in the flowchart of FIG. 14, when the first transmission request data FDE is transmitted from the information reading device B3 after the activation power is input, the control operation is started (# 201), and the transmission data storage unit A2 Unprocessed transmission request data DE and unprocessed write end data DK are read out as processing target data (# 202).
  Next, it is determined whether there is unprocessed transmission request data DE in the processing target data (# 203), and if there is, execute "transmission start processing" for each transmission request data DE (# 204), If there is no data or if there is no unprocessed send request data DE in the processing target data, determine whether there is unprocessed write end data DK in the processing target data (# 205). Execute "send end process" for each write end data DK (# 206). If there is no data or if there is no unprocessed write end data DK in the processing target data, a new send data memory is stored. The control operation of steps # 202 to # 206 is repeated for the processing target data stored in the part A2.
[0049]
  In the “transmission start process”, as shown in the flowchart of FIG. 15, the program information output devices A6 and A7 for outputting the program video data VA of the title requested by the transmission request data DE or the advertising video data VB is output. Line connection data DM1 for connecting the digital communication line between the advertisement information output device A8 and the information reading device B3 that transmitted the transmission request data DE is input to the line control device A4 (# 211), and the video data VA or An output start instruction signal SC for instructing output start of the advertisement video data VB is input to the information output devices A6, A7, A8 (# 212), and the program video data VA or the advertisement video data VB is read to the information reading device B3. Start sending.
[0050]
  In the “transmission end process”, as shown in the flowchart of FIG. 16, digital communication between the information reading device B3 that has received the writing end data DK and the corresponding program information output device A6, A7 or advertisement information output device A8. Line disconnection data DM2 for disconnecting the line is input to the line control device A4 (# 221), and an output end instruction signal SD for instructing the end of output of the program video data VA or the advertisement video data VB is sent to the information output device A6, Input to A7 and A8 (# 222), and the transmission of the program video data VA or the advertising video data VB to the information reading device B3 is terminated.
  Accordingly, when the supply control unit B1, the read control unit 1, and the memory control circuit 4 read the read stop position data SE corresponding to the read stop position selected from the plurality of read stop positions, the information reading device B3 reads the program video. The reading of the data VA and the transmission to the terminal device E are stopped, the reading of the advertising video data VB and the transmission to the terminal device E are started, and the information reading device B3 selects from the plurality of transmission stop positions. When the transmission stop position data SF corresponding to the transmission stop position is read, the reading of the advertisement video data VB and the transmission to the terminal device E are stopped, and the reading of the program video data VA and the transmission to the terminal device E are resumed. It is comprised by the control means which controls to do.
[0051]
[Second Embodiment]
  FIG. 17 shows a main part of a block diagram of another embodiment of the information supply system. The read video data VDn read by each of the information read-out devices B3 is sent to the information supply device B of the center device C shown in the first embodiment. A multiplexing device J for multiplexing is provided, and the multiplexed video data VG is transmitted to each of the terminal devices E via the cable communication network K for cable television, and each of the terminal devices E has its information supply device The video data corresponding to the transmission request data DA can be received based on the reception channel data DN transmitted in advance from B.
  Other configurations are the same as those of the first embodiment.
[0052]
[Other Embodiments]
1. The first data handled in the information supply method and information supply system according to the present invention includes data such as audio data, character data, information processing software or game software in addition to video image data such as movies. , Uses and purposes are not limited.
2. The second data handled in the information supply method and information supply system according to the present invention includes video data for advertising, video data for public information and free provision, data such as audio data, character data, and software. There are no restrictions on the type, application, and purpose.
3. The first data and the second data read from the storage unit may be transmitted to a plurality of terminals in response to a transmission request by wireless communication or a combination of wireless communication and wired communication.
4). The first data and the second data read from the storage means may be configured to be transmitted to a plurality of terminals in response to a transmission request by a packet switching method.
5). The first data and the second data read from the storage means may be configured to be transmitted to a plurality of terminals in response to a transmission request using an analog telephone line network.
6). If there is a transmission request from a plurality of terminals for the first data being written while writing the first data to the storage means regardless of whether or not there is a transmission request, the first data is transmitted temporally according to the transmission request. The storage unit may be read as a plurality of different data and transmitted to a terminal corresponding to the transmission request.
7). While writing the first data corresponding to the transmission request to the storage means, reading a plurality of first data at different reading positions from the storage means regardless of whether there is a subsequent transmission request, It may be configured to transmit the first data read first after the transmission request is made to the corresponding terminal.
8). A storage means for storing the first data and a storage means for storing the second data are provided separately, and a reading means for reading the first data in response to a transmission request from the terminal and a reading means for reading the second data And may be provided separately.
9. First reading means for reading first data in response to a transmission request from the terminal and second reading means for reading second data at predetermined time intervals are provided separately, and the first reading means When the reading stop position data is read, reading of the first data and transmission to the terminal are stopped, and transmission of the second data read first is stopped after stopping transmission of the first data. May be configured to start.
10. While writing the first data on the rewritable magneto-optical disk as the storage means, a plurality of read heads may be driven to read a plurality of data at different reading positions from the magneto-optical disk. .
11. A personal computer may be provided as a terminal.
12 A plurality of pieces of information having different titles may be read from the common storage unit while a plurality of pieces of information having different titles are sequentially stored in the common storage unit.
[Brief description of the drawings]
FIG. 1 is a block diagram of an information supply method and an information supply system.
FIG. 2 is a schematic diagram showing the structure of program video data and advertisement video data.
FIG. 3 is a block diagram of an information reading device.
FIG. 4 Time chart
FIG. 5 is an explanatory diagram schematically illustrating an information supply method.
FIG. 6 is a flowchart showing the control operation of the supply control unit.
FIG. 7 is a flowchart of information supply start processing;
FIG. 8 is a flowchart of information supply end processing;
FIG. 9 is a flowchart showing a control operation of the read control unit.
FIG. 10 is a flowchart of write start processing.
FIG. 11 is a flowchart of reading start processing;
FIG. 12 is a flowchart of reading end processing;
FIG. 13 is a flowchart of write end processing.
FIG. 14 is a flowchart showing a control operation of the transmission control unit.
FIG. 15 is a flowchart of transmission start processing;
FIG. 16 is a flowchart of transmission end processing;
FIG. 17 is a block diagram of an information supply method and an information supply system showing a second embodiment.
[Explanation of symbols]
1 Control means (reading control unit)
2 storage means
3 Address designation means (address control memory)
4 Control means (memory control circuit)
Address designation means (switch circuit)
ARA storage area
ARB storage area
AMn read address
B1 Control means (supply control unit)
B3 Reading means
DA send request
E terminal
SF transmission stop position data
SE Read stop position data
VA first data
VB second data

Claims (3)

Information supply for transmitting data in which second reproducible data is inserted in the middle of a series of first data corresponding to one of reproducible video information or audio information to a plurality of terminals A method,
Using a first storage area in which data input to one input unit can be written and rewritten, and a second storage area in which the second data can be written,
The first data is input to the one input unit and added to the first storage area so as to be stored as readable storage data as data for transmission to the terminal. It said storage data written and, from each of the plurality of positions in the storage area in which the stored data is written is read out as the transmission data, and transmitted to a plurality of terminals,
The reading operation of the storage data from each of the plurality of positions is interrupted at the position designated for each transmission data read from each of the plurality of positions, and the second data is written to the second storage area. By reading the data and sending it to the device,
An information supply method for transmitting data in which the second data is inserted in the middle of the first data to a plurality of terminals. A configuration in which second data that can be reproduced in series is inserted in the middle of a series of first data corresponding to one of video information or audio information that can be reproduced in series, and can be transmitted to a plurality of terminals. An information supply system,
Storage means comprising a first storage area in which data input to one input unit can be written and rewritten, and a second storage area in which the second data can be written ;
While adding the first data input to the one input unit to the first storage area so as to be stored as readable storage data as data for transmission to the terminal, The stored data being written is read as the data for transmission from each of a plurality of positions in the storage area in which the stored data is written, and a read operation from each of the plurality of positions of the stored data Is interrupted at the position designated for each transmission data read from each of the plurality of positions, and the second data written in the second storage area is read when the reading operation is interrupted. And a read control unit capable of controlling the read operation of the storage means,
An information supply system configured to transmit data in which the second data is inserted in the middle of the first data to a plurality of terminals. Information configured such that data in which second data that can be reproduced in series is inserted in the middle of a series of first data corresponding to one of video information or audio information that can be reproduced in series can be read. A reading device,
Storage means comprising a first storage area in which data input to one input unit can be written and rewritten, and a second storage area in which the second data can be written ;
While adding the first data input to the one input unit to the first storage area so as to be stored as readable storage data as data for transmission to the terminal, The stored data being written is read as the data for transmission from each of a plurality of positions in the storage area in which the stored data is written, and a read operation from each of the plurality of positions of the stored data Is interrupted at the position designated for each transmission data read from each of the plurality of positions, and the second data written in the second storage area is read when the reading operation is interrupted. And a read control unit capable of controlling the read operation of the storage means,
An information reading device configured to be able to read data in which the second data is inserted in the middle of the first data.

Images