JP3990790B2 - Communication apparatus and control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention, Communication device connectable to network and control method thereofConcerning.
[0002]
[Prior art]
In recent years, with the digitization of image information and audio information, a technique for communicating such digital information with a plurality of other external devices via a common digital interface has been developed.
[0003]
In a network configured using such a technique, digital data output from a certain device is relayed by another device, so that the digital data is transferred (that is, broadcast) to all the devices on the network. be able to. That is, a network (bus network) in which a plurality of devices are connected to one bus can be constructed.
[0004]
Digital information (image information, audio information, text data, graphic data, etc.) broadcast on such a network is transferred to all devices on the network. For example, when a recording device such as a digital video cassette recorder exists on the network, the recording device can receive and record the digital information.
[0005]
[Problems to be solved by the invention]
However, digital data has almost no deterioration in transmission and recording. Further, once recorded digital data is hardly deteriorated even if it is repeatedly reproduced. Thereby, the user who copied the original digital information can view the digital information of the same quality as the original at any time. In addition, the user can redistribute the digital information to other users by making a copy of the digital information. For this reason, recording the digital information as it is in the form of digital data may impair the profits of the copyright holder.
[0006]
As one of methods for protecting such digital data, for example, it has been proposed to include a flag indicating copy permission / prohibition in data to be transmitted. The receiving device that has received this digital data detects the presence or absence of this flag, and prohibits the recording operation according to the result. However, in such a method, when a recording device that does not process this flag is connected on the bus, the device can record the digital information regardless of whether the received data is copy-inhibited or not. There was a drawback that could be made.
[0007]
Therefore, even in a network to which such a recording device is connected, a mechanism for controlling so that digital information cannot be easily recorded from the viewpoint of copyright protection is required.
[0008]
  Therefore, the present invention providesPrevent recording of prohibited or restricted digital informationAims to be able to.
[0009]
[Means for Solving the Problems]
  In order to solve the above problems, one of the present inventions is a communication apparatus capable of transmitting digital information prohibited from copying to a device on a network, and capable of recording the digital information on the network. A first discriminating means for discriminating whether or not the recording apparatus is connected; and a control command for controlling the recording function of the recording apparatus based on the discrimination result by the first discriminating means. And a second transmission unit configured to transmit the digital information to the network after confirming that the control command has been received by the recording device.
[0010]
  In order to solve the above problems, one of the present invention is a method for controlling a communication apparatus capable of transmitting digital information prohibited from copying to a device on a network,
  Controlling a recording function of the recording device based on a first determination step for determining whether or not a recording device capable of recording the digital information is connected to the network, and a determination result obtained by the first determination step; A first transmission step of transmitting a control command to the recording device, and a second transmission step of transmitting the digital information to the network after confirming that the control command has been received by the recording device It is characterized by having.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
The communication apparatus and method of the present invention will be described in detail below with reference to the drawings.
[0017]
(First embodiment)
FIG. 1 is a diagram showing the configuration of a communication system in the first embodiment of the present invention. 1 includes a digital interface (hereinafter referred to as a 1394 interface) conforming to the IEEE1394 serial bus standard, and a bus type network (hereinafter referred to as a 1394 network) is connected to each other. It is composed.
[0018]
In FIG. 1, reference numeral 101 denotes a recording medium (magnetic tape, magnetic disk, optical disk) on which digital information prohibited from copying (including digitized image information and audio information, text data, graphics data, program data, etc.) is recorded. It is a reproducing apparatus that reproduces a magnetic disk or the like. Here, the playback apparatus 101 has a function of synchronously transferring the above digital information in real time on a network. A recording apparatus 102 records the digital information output to the network on a recording medium. The recording apparatus 102 of this embodiment is a digital video cassette recorder (hereinafter, digital VCR-A) that records the above-described digital information on a recording cassette constituted by a recording medium such as a magnetic tape or a magnetic disk. Reference numeral 103 denotes a recording apparatus having the same configuration and function as the digital VCR-A 102, that is, a digital VCR-B. Reference numeral 104 denotes a TV monitor that converts image information and audio information input via a network into image signals and audio signals of a standard television system (NTSC system, PAL system, etc.) and outputs these signals in an audiovisual manner. . The TV monitor 104 includes a recording medium such as a hard disk and has a function of recording digital information on the network in the same manner as the recording apparatus described above. A communication port 105 conforms to the IEEE1394 standard, and a communication cable 106 connects each of the communication ports 105 included in the communication devices (101 to 104). The communication cable 106 is a communication cable compliant with the IEEE1394 standard (hereinafter referred to as a 1394 cable), and serially transfers digital information output from each communication device.
[0019]
Here, each device shown in FIG. 1 stores device information related to the device itself (device name, model of device, information related to functions provided by the device, etc.) in a memory provided in each device. The device information is configured to be output in response to an inquiry command from another device.
[0020]
The 1394 network shown in FIG. 1 is automatically used when, for example, a device is deleted from the network, a new device is added to the network, or a device connected to the network is turned on / off. A bus reset (that is, a process for re-recognizing a new network after resetting the previous network configuration) is performed. By performing this bus reset, the 1394 network can automatically set the ID information of each device. Each device on the 1394 network can automatically recognize the network configuration. With this function, the 1394 network can always recognize the network configuration at that time.
[0021]
Further, the 1394 network has a function of interrupting data transferred from other devices, and each device can simultaneously grasp the operation status of the bus. Furthermore, the 1394 network has a function called Plug & Play, and can automatically recognize connected devices and recognize connection status by simply connecting without turning off the power of the entire network.
[0022]
The data transfer rate that can be handled by the 1394 network is 100/200/400 Mbps. A device having a higher transfer rate supports a lower transfer rate, so that compatibility with devices corresponding to different transfer rates can be achieved.
[0023]
Furthermore, the 1394 network, as a data transfer mode, transfers data that is required to be transferred asynchronously as needed (control signal, file data, etc.), and transfers continuously at a constant data rate. There is an isochronous transfer mode in which data (video data, audio data, etc.) required to be transmitted is transferred. Asynchronous transfer mode and Isochronous transfer mode can be mixedly transferred within each communication cycle (usually 125 μS for one cycle). Each communication cycle is executed after the transfer of a cycle start packet (CSP) indicating the start of the cycle. Within each communication cycle period, the isochronous transfer mode is set to have a higher priority than the asynchronous transfer mode. In addition, the transfer band in the isochronous transfer mode is guaranteed in each communication cycle.
[0024]
FIG. 2 is a diagram showing a detailed configuration of the playback apparatus 101, the digital VCR-A 102, and the TV monitor 104.
[0025]
First, in the playback apparatus 101, reference numeral 201 denotes digital information (image information, audio information, text data, graphic data, etc.) that is prohibited from being copied in a predetermined format (for example, MPEG if image information and audio information). It is a recorded recording medium. The recording medium 201 also records information indicating whether or not copying of this digital information is prohibited (hereinafter referred to as copy prohibition information). A reproduction processing unit 202 reads digital information recorded on the recording medium 201 together with copy prohibition information. Digital information reproduced by the reproduction processing unit 202 is supplied to the data processing unit 203, and copy prohibition information is supplied to the control unit 206. A data processing unit 203 converts the reproduced digital information into data in a predetermined format suitable for communication, and 204 a digital information output from the data processing unit 203 based on a predetermined communication protocol (for example, AV protocol). 1394 interface unit 205 for packetizing the packets for isochronous transfer mode and isochronous transfer of each packet in real time; 205 is a control unit composed of a microcomputer and a memory capable of recording a predetermined program code. The operation of each processing unit is controlled. The control unit 205 detects the presence or absence of copy prohibition from the copy prohibition information read from the recording medium, and controls to stop the operation of the reproduction processing unit 203 according to the result. An operation unit 206 inputs a predetermined operation command from the user to the control unit 205.
[0026]
Next, in the digital VCR-A 102, 211 is a predetermined format suitable for recording digital information (image information, audio information, text data, graphics data, etc.) on the network input via the 1394 interface unit 204. A data processing unit 212 for converting the data into the recording data, 212 a recording processing unit for recording the digital data supplied from the data processing unit 211 on the recording medium 213, and 214 a microcomputer and a memory capable of recording a predetermined program code. The control unit controls the operation of each processing unit in the digital VCR-A102. An operation unit 215 inputs a predetermined operation command from the user to the control unit 214. The digital VCR-B 103 of this embodiment is configured in the same manner as the digital VCR-A 102.
[0027]
Further, in the TV monitor 104, reference numeral 221 denotes a predetermined format suitable for displaying or outputting digital information (image information, audio information, text data, graphics data, etc.) on the network input via the 1394 interface unit 204. A data processing unit for converting data into a format data; 222, a monitor capable of visually displaying image information, text data, graphics data, warning display, etc .; 223, a speaker capable of audibly outputting audio information, warning sound, etc. A recording processing unit 224 converts the digital information supplied from the data processing unit 221 into data having a format that can be recorded on a recording medium 225 (for example, a magnetic disk, a magneto-optical disk, etc.), and records the data. A control unit 226 includes a microcomputer and a memory capable of recording a predetermined program code, and controls the operation of each processing unit in the TV monitor 104. In particular, the control unit 226 controls to stop or wait for the recording operation of the recording processing unit 224 for a predetermined period according to the command information input from the 1394 interface unit 204. An operation unit 227 inputs a predetermined operation command from the user to the control unit 226.
[0028]
In the communication system of this embodiment, when the digital information recorded on the recording medium 201 is to be output to the TV monitor 104, the playback apparatus 101 outputs the digital information to the 1394 network using the isochronous transfer mode or the asynchronous transfer mode. There is a need to. (Hereinafter, a packet configured based on the isochronous transfer mode is referred to as an isochronous packet, and a packet configured based on the asynchronous transfer mode is referred to as an asynchronous packet.)
[0029]
Each device on the 1394 network can transfer the packet to all devices on the network by relaying the packet output from the other device (hereinafter referred to as “network” in this specification). Transferring information to all connected devices is simply described as “broadcast”). In particular, in the case of the isochronous transfer mode, an isochronous packet is broadcast on the network by a predetermined channel number. Therefore, each device on the network can receive a predetermined isochronous packet by designating its channel number, and can further display or record digital information included in the packet. However, in this case, as described above, there is a possibility that the recording apparatus connected to the network can illegally copy the digital information on the network.
[0030]
Therefore, in each embodiment of the present invention, even if digital information prohibited from copying is broadcast on the network, all the devices connected to the network record the digital information illegally or by an erroneous operation. A process capable of preventing the above will be described.
[0031]
Hereinafter, the processing operation of the communication system in the first embodiment will be described with reference to FIGS. FIG. 3 is a flowchart showing the processing operation of the playback apparatus 101 in the first embodiment.
[0032]
When digital information recorded on the recording medium 201 is to be output to the TV monitor 104, the user operates the operation unit 207 of the playback apparatus 101 to instruct playback of the recording medium 201 and designate the TV monitor 104 as a communication destination. (Step S301). When reproduction of the recording medium 201 is instructed, the reproduction processing unit 203 reads the copy prohibition information recorded on the recording medium 201 and supplies it to the control unit 206. The control unit 206 determines from the copy prohibition information whether copying of the digital information is prohibited (step S302). If copying is not prohibited, the control unit 206 executes the processing in step S305 and subsequent steps.
[0033]
If it is determined as a result of the processing in step S302 that copying is prohibited, the control unit 206 determines whether there is a recording device having a function capable of recording digital information on the 1394 network. Inquiries about device information are made to all devices on the network (step S303). In step S <b> 303, the control unit 206 generates a command for inquiring device information (such as the device name, model, and information regarding the function of the device) stored in the memory of each device, and the 1394 interface unit 204. To supply. The 1394 interface unit 204 packetizes the command into an Asynchronous packet and transfers it to each device.
[0034]
FIG. 4 is a diagram showing the configuration of an Asynchronous packet used in this embodiment. Asynchronous packets are composed of a header portion 401, a header CRC 402, a data portion 403, and a data CRC 404 as shown in FIG. The header section 401 includes fields for storing a target node ID (node ID of a destination node), a source node ID (node ID of a node that sends a packet), and various control information. Asynchronous packets are transferred to the node indicated by the target node ID, but are broadcast on the network when a code indicating broadcast is written in the target node ID. In the present embodiment, an Asynchronous packet is generated in which the inquiry command 405 described above is stored in the data unit 403 and the node IDs of all devices existing on the network are stored in the target node ID. These packets are then asynchronously transferred sequentially to all devices on the network. The asynchronous transfer mode has a lower priority in one communication cycle period than the isochronous transfer mode, and the transfer can be started after a predetermined gap period elapses after the isochronous transfer mode ends.
[0035]
The control unit 206 of the playback apparatus 101 receives a response to an inquiry to each device (that is, device information of each device) from the 1394 interface unit 204 and stores the response together with the node ID of each device in the memory included in the control unit 206. And it is discriminate | determined from the apparatus information of each apparatus whether the recording apparatus which can record the above-mentioned digital information exists on a network (step S304).
[0036]
As a result of the process in step S304, when it is determined that there is no recording apparatus capable of recording the above-described digital information on the network, the control unit 206 performs a reproduction process so as to reproduce the digital information recorded on the recording medium 201. The unit 202 is controlled. The reproduced digital information is divided into a predetermined amount of packet data by the data processing unit 203 and sequentially supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band necessary for isochronous transfer and sets a channel number (number information for identifying a series of isochronous packets) of a packet to be isochronously transferred using the band. The 1394 interface unit 204 uses the channel number to sequentially packetize a predetermined amount of digital information supplied from the data processing unit 203 into an isochronous packet (step S305).
[0037]
Further, the 1394 interface unit 204 starts isochronous transfer of the isochronous packet generated in step S305 (step S306). Here, each isochronous packet is sequentially broadcast every communication cycle based on the isochronous transfer mode. The playback apparatus 101 executes the processing in step S310 and subsequent steps after executing the processing in step S306.
[0038]
Here, FIG. 5 shows the structure of an isochronous packet used in this embodiment. As shown in FIG. 5, the isochronous packet includes a header portion 501, a header CRC 502, a data portion 503, and a data CRC 504. The header portion 501 includes a channel number (a number assigned to a bandwidth capable of transferring an isochronous packet, and a series of isochronous packets output from each node are distinguished by this number) and various control information. There is a field to store. Since the isochronous packet is transferred using this channel number, it is not transferred to a specific node but is broadcast to the entire bus. Therefore, each node can receive a predetermined isochronous packet by detecting a predetermined channel number. The isochronous transfer mode has a higher priority in one communication cycle period than the asynchronous transfer mode, and guarantees transfer of a certain amount of data in each communication cycle period.
[0039]
If it is determined as a result of the processing in step S304 that there is a recording device (in this embodiment, the digital VTR-A 102, the digital VTR-B 103, and the TV monitor 104) capable of recording the above-described digital information on the network. The control unit 206 generates a control command (hereinafter referred to as a recording control command) common to each device that stops the function of the recording processing unit (212, 224) included in each recording device. The recording control command generated by the control unit 206 is supplied to the 1394 interface unit 204. The 1394 interface unit 204 reads out node IDs of a plurality of recording devices connected to the network from the memory included in the control unit 206. Then, an Asynchronous packet in which the recording control command is stored in the data part with the node ID of each recording apparatus as the destination is generated (step S307).
[0040]
The control unit 206 also controls the reproduction processing unit 202, the data processing unit 203, and the 1394 interface unit 204 so as to generate a predetermined amount of isochronous packets from the digital information recorded on the recording medium 201. The control unit 206 controls the reproduction processing unit 202 to reproduce the digital information recorded on the recording medium 201. The reproduced digital information is divided into a predetermined amount of packet data by the data processing unit 203 and sequentially supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band necessary for isochronous transfer and sets a channel number (number information for identifying a series of isochronous packets) of a packet to be isochronously transferred using the band. The 1394 interface unit 204 sequentially packetizes a predetermined amount of digital information supplied from the data processing unit 203 into an isochronous packet using the channel number (step S308).
[0041]
After the processing in step S308, the 1394 interface unit 204 transfers the above-mentioned asynchronous packet (generated in step S307) and the isochronous packet (generated in step S308) at the timing shown in FIG. 6 (step S309). .
[0042]
In FIG. 6, prior to the broadcast transfer of the isochronous packet generated in step S308, the 1394 interface unit 204 transmits the plurality of asynchronous packets (601 to 603) generated in step S307 to the recording devices (102 to 102). 104). In this embodiment, the packet 601 is an Asynchronous packet destined for the digital VTR-A 102, the Asynchronous packet 602 is destined for the digital VTR-B 103, and the Asynchronous packet 603 is destined for the TV monitor 103. The recording devices (102 to 104) that have received these Asynchronous packets (601 to 603) return an acknowledgment to the playback device 101, and control to stop or wait only for the recording function of the own device. Thereby, each recording device (102 to 104) cannot record a packet received after the recording control command.
[0043]
After confirming that all of these Asynchronous packets are correctly received by the recording devices (102 to 104), the 1394 interface unit 204 isochronously transfers the series of Isochronous packets generated in Step S308. In this embodiment, each packet (604 to 607) is an isochronous packet having a channel number “0”, and is broadcast on the network every communication cycle.
[0044]
The TV monitor 104 receives a series of packets that the playback apparatus 101 performs isochronous transfer using the channel number “0”, and outputs digital information included in these packets using the display unit 222 or the speaker 223. That is, in the communication system according to the present embodiment, when digital information prohibited from copying is broadcast on the network, only recording of the digital information can be disabled in each device, and other processing operations are performed. be able to. As a result, it is possible to prevent unauthorized copying of the broadcast digital information or recording due to an erroneous operation.
[0045]
The playback apparatus 101 has a network connection configuration by bus reset (that is, insertion / extraction of devices on the network, connection of new devices, power ON / OFF of each device, etc.) during the period of isochronous transfer of the above-described digital information. It is detected whether or not (change) has occurred (step S310). When a bus reset is detected, the network of the present embodiment executes initialization of the network configuration and recognition of a new connection configuration. At this time, the playback apparatus 101 temporarily interrupts the playback process of the recording medium 201 and the transfer process of the played back digital information.
[0046]
After the processing for recognizing the new network configuration is completed, the playback device 101 again executes the processing from step S303 onward, and restarts the playback processing and transfer processing that were interrupted by the bus reset. As a result, even when a new recording device is connected to the network during the period when digital information prohibited from copying is output to the network, it is possible to prevent unauthorized recording by the recording device or recording due to an erroneous operation. . Note that the above-described bus reset can be detected according to a change in the bias voltage output from each device constituting the network to the network. Further, the bus reset processing and the network configuration automatic recognition processing of this embodiment are executed by a procedure based on the IEEE1394 standard.
[0047]
The control unit 206 performs isochronous transfer of the digital information until the reproduction of the digital information is completed (step S311). When the reproduction of the digital information is finished, the control unit 206 generates a release command for canceling the above-described recording control command control process. The release command generated by the control unit 206 is asynchronously transferred to each recording device via the 1394 interface 204. The playback device 101 transfers the above-described release command until all the asynchronous packets are normally received by all recording devices (step S312). The playback apparatus 101 ends communication with the TV 104 after confirming that the above-described release command has been normally received by all the recording devices. By controlling in this way, the communication system according to the present embodiment can stop or wait for the recording operation of all devices on the network during a period in which digital information prohibited from being copied is broadcast. As a result, it is possible to prevent unauthorized copying of the broadcast digital information or recording due to an erroneous operation.
[0048]
In this embodiment, the period during which isochronous transfer of digital information prohibited from copying is controlled to stop or wait for the recording operation of all devices capable of recording the digital information. However, the present invention is not limited to this. . For example, only when a series of isochronous packets broadcast on a specific channel number is received, the recording function of the device can be controlled to stop or wait. Thereby, each device on the bus network can process to record or display digital information included in an isochronous packet other than a specific channel number. Also, for an isochronous packet with a specific channel number, digital information contained in the packet cannot be recorded, but can be processed so as to be output visually or audibly. Furthermore, it is possible to prevent unauthorized copying or erroneous operation recording by each device.
[0049]
In this embodiment, the period during which isochronous transfer of digital information prohibited from copying is controlled to stop or wait for the recording operation of all devices capable of recording the digital information. However, the present invention is not limited to this. . For example, it is possible to perform control so that recording is permitted only to a predetermined recording device by controlling so that the recording control command is not asynchronously transferred only to the recording device permitted by the playback device 101.
[0050]
As described above, when broadcasting copy-prohibited digital information on a bus-type network, the playback apparatus 101 transmits all the digital information before transferring the digital information. The recording function is controlled to stop or wait. As a result, the playback apparatus 101 of the present invention can prevent illegal copying or erroneous recording by all devices on the network, and can protect the copyright of the digital information.
[0051]
(Second embodiment)
In the first embodiment, when digital information prohibited from copying is broadcast on the network, the playback apparatus 101 sends a recording control command to each recording apparatus (102 to 104) on the network prior to isochronous transfer of the digital information. Asynchronous transfer configuration was explained to each of the above. In the second embodiment, a configuration for broadcasting a recording control command to all the recording devices (102 to 104) on the network prior to isochronous transfer of digital information will be described.
[0052]
FIG. 7 is a flowchart showing the processing operation of the playback apparatus 101 in the second embodiment of the present invention.
[0053]
When digital information recorded on the recording medium 201 is to be output to the TV monitor 104, the user operates the operation unit 207 of the playback apparatus 101 to instruct playback of the recording medium 201 and designate the TV monitor 104 as a communication destination. (Step S701). When reproduction of the recording medium 201 is instructed, the reproduction processing unit 203 reads the copy prohibition information recorded on the recording medium 201 and supplies it to the control unit 206. The control unit 206 determines from the copy prohibition information whether copying of the digital information is prohibited (step S702). If copying is not prohibited, the control unit 206 executes the processing from step S705 onward.
[0054]
If it is determined that copying is prohibited as a result of the processing in step S702, the control unit 206 determines whether there is a recording device having a function capable of recording digital information on the 1394 network. The device information is inquired to all devices on the network (step S703). In step S <b> 703, the control unit 206 generates a command for inquiring device information (such as the device name, model, and function information of the device) stored in the memory included in each device, and the 1394 interface unit 204. To supply. The 1394 interface unit 204 packetizes the command into an Asynchronous packet as described with reference to FIG. 4 and transfers the packet to each device.
[0055]
The control unit 206 of the playback apparatus 101 receives a response to an inquiry to each device (that is, device information of each device) from the 1394 interface unit 204 and stores the response together with the node ID of each device in the memory included in the control unit 206. And it is discriminate | determined from the apparatus information of each apparatus whether the recording apparatus which can record the above-mentioned digital information exists on a network (step S704).
[0056]
As a result of the process in step S704, when it is determined that there is no recording apparatus capable of recording the above-described digital information on the network, the control unit 206 performs a reproduction process so as to reproduce the digital information recorded on the recording medium 201. The unit 202 is controlled. The reproduced digital information is divided into a predetermined amount of packet data by the data processing unit 203 and sequentially supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band necessary for isochronous transfer and sets a channel number (number information for identifying a series of isochronous packets) of a packet to be isochronously transferred using the band. The 1394 interface unit 204 uses the channel number to packetize a predetermined amount of digital information supplied from the data processing unit 203 into an isochronous packet as described with reference to FIG. 5 (step S705).
[0057]
Further, the 1394 interface unit 204 starts isochronous transfer of the isochronous packet generated in step S705 (step S706). Here, each isochronous packet is sequentially broadcast every communication cycle based on the isochronous transfer mode. After executing the processing of step S706, the playback device 101 executes the processing of step S710 and subsequent steps.
[0058]
If it is determined as a result of the processing in step S704 that there is a recording device (in this embodiment, the digital VTR-A 102, the digital VTR-B 103, and the TV monitor 104) capable of recording the above-described digital information on the network. The control unit 206 generates a control command (hereinafter referred to as a recording control command) common to each device that stops the function of the recording processing unit (212, 224) included in each recording device. The recording control command generated by the control unit 206 is supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band and sets a channel number necessary for isochronous transfer of the recording control command. Using the channel number, the 1394 interface unit 204 generates an isochronous packet in which the recording control command is stored in the data unit (step S707).
[0059]
The control unit 206 also controls the reproduction processing unit 202, the data processing unit 203, and the 1394 interface unit 204 so as to generate a predetermined amount of isochronous packets from the digital information recorded on the recording medium 201. The control unit 206 controls the reproduction processing unit 202 to reproduce the digital information recorded on the recording medium 201. The reproduced digital information is divided into a predetermined amount of packet data by the data processing unit 203 and sequentially supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band necessary for isochronous transfer and sets a channel number (number information for identifying a series of isochronous packets) of a packet to be isochronously transferred using the band. The 1394 interface unit 204 sequentially packets a predetermined amount of digital information supplied from the data processing unit 203 into an isochronous packet using the channel number (step S708).
[0060]
After the processing in step S708, the 1394 interface unit 204 transfers the above-mentioned isochronous packet (generated in step S707) and the isochronous packet (generated in step S708) at the timing shown in FIG. 8 (step S709). .
[0061]
In FIG. 8, the 1394 interface unit 204, prior to the broadcast transfer of the series of isochronous packets (including digital information prohibited from copying) generated in step S708, the isochronous packet 801 (indicated in step S707). (Including a recording control command) is broadcast to all devices (102 to 104) on the network. In this embodiment, the packet 801 is an isochronous packet with a channel number “0”. After receiving this isochronous packet 801, all devices on the network control to stop or wait only for the recording function of the own device. This prevents each device from recording packets received after the recording control command.
[0062]
After broadcasting the isochronous packet 801 over the network, the 1394 interface unit 204 performs isochronous transfer of the series of isochronous packets generated in step S708. In this embodiment, each packet (802 to 805) is an isochronous packet having a channel number “1”, and they are broadcast on the network every communication cycle.
[0063]
The TV monitor 104 receives a series of packets that the playback apparatus 101 performs isochronous transfer using the channel number “1”, and outputs digital information included in these packets using the display unit 222 and the speaker 223. That is, in the communication system according to the present embodiment, when digital information prohibited from copying is broadcast on the network, only recording of the digital information can be disabled in each device, and other processing operations are performed. be able to. As a result, it is possible to prevent unauthorized copying of the broadcast digital information or recording due to an erroneous operation.
[0064]
The playback apparatus 101 has a network connection configuration by bus reset (that is, insertion / extraction of devices on the network, connection of new devices, power ON / OFF of each device, etc.) during the period of isochronous transfer of the above-described digital information. It is detected whether or not (change) has occurred (step S710). When a bus reset is detected, the network of the present embodiment executes initialization of the network configuration and recognition of a new connection configuration. At this time, the playback apparatus 101 temporarily interrupts the playback process of the recording medium 201 and the transfer process of the played back digital information.
[0065]
After the processing for recognizing the new network configuration is completed, the playback device 101 executes the processing in step S703 and subsequent steps again, and restarts the playback processing and transfer processing interrupted by the bus reset. As a result, even when a new recording device is connected to the network during the period when digital information prohibited from copying is output to the network, it is possible to prevent unauthorized recording by the recording device or recording due to an erroneous operation. . Note that the above-described bus reset can be detected according to a change in the bias voltage output from each device constituting the network to the network. Further, the bus reset processing and the network configuration automatic recognition processing of this embodiment are executed by a procedure based on the IEEE1394 standard.
[0066]
The control unit 206 performs isochronous transfer of the digital information until the reproduction of the digital information is completed (step S711). When the reproduction of the digital information is finished, the control unit 206 generates a release command for canceling the above-described recording control command control process. The release command generated by the control unit 206 is isochronous transferred to each recording device via the 1394 interface 204 (step S712). The playback apparatus 101 ends communication with the TV 104 after confirming that the above-described release command has been normally received by all the recording devices. By controlling in this way, the communication system according to the present embodiment can stop or wait for the recording operation of all devices on the network during a period in which digital information prohibited from being copied is broadcast. As a result, it is possible to prevent unauthorized copying of the broadcast digital information or recording due to an erroneous operation.
[0067]
In this embodiment, the period during which isochronous transfer of digital information prohibited from copying is controlled to stop or wait for the recording operation of all devices capable of recording the digital information. However, the present invention is not limited to this. . For example, only when a series of isochronous packets broadcast on a specific channel number is received, the recording function of the device can be controlled to stop or wait. Thereby, each device on the bus network can process to record or display digital information included in an isochronous packet other than a specific channel number. Also, for an isochronous packet with a specific channel number, digital information contained in the packet cannot be recorded, but can be processed so as to be output visually or audibly. Furthermore, it is possible to prevent unauthorized copying or erroneous operation recording by each device.
[0068]
In this embodiment, the period during which isochronous transfer of digital information prohibited from copying is controlled to stop or wait for the recording operation of all devices capable of recording the digital information. However, the present invention is not limited to this. . For example, control is performed so that recording is permitted only to a predetermined recording device by controlling the release command for canceling the recording control command to be asynchronously transferred only to the recording device permitted by the playback device 101. You can also.
[0069]
As described above, when broadcasting copy-prohibited digital information on a bus-type network, the playback apparatus 101 transmits all the digital information before transferring the digital information. The recording function is controlled to stop or wait. As a result, the playback apparatus 101 of the present invention can prevent illegal copying or erroneous recording by all devices on the network, and can protect the copyright of the digital information.
[0070]
(Third embodiment)
In the first embodiment, when digital information prohibited from copying is broadcast on the network, the playback apparatus 101 sends a recording control command to each recording apparatus (102 to 104) on the network prior to isochronous transfer of the digital information. Asynchronous transfer configuration was explained to each of the above. In the second embodiment, the configuration in which the recording control command is broadcast to all the recording devices (102 to 104) on the network prior to the isochronous transfer of digital information has been described.
[0071]
In the third embodiment, a description will be given of a configuration in which recording control commands are stored in all packets generated from digital information that is prohibited from being copied and broadcasted on the network.
[0072]
FIG. 9 is a flowchart showing the processing operation of the playback apparatus 101 in the third embodiment of the present invention.
[0073]
When digital information recorded on the recording medium 201 is to be output to the TV monitor 104, the user operates the operation unit 207 of the playback apparatus 101 to instruct playback of the recording medium 201 and designate the TV monitor 104 as a communication destination. (Step S901). When reproduction of the recording medium 201 is instructed, the reproduction processing unit 203 reads the copy prohibition information recorded on the recording medium 201 and supplies it to the control unit 206. The control unit 206 determines from the copy prohibition information whether copying of the digital information is prohibited (step S902). If copying is not prohibited, the control unit 206 executes the processing from step S905 onward.
[0074]
If it is determined that copying is prohibited as a result of the processing in step S902, the control unit 206 determines whether there is a recording device having a function capable of recording digital information on the 1394 network. Inquiries about device information are made to all devices on the network (step S903). In step S <b> 903, the control unit 206 generates a command for inquiring device information (such as the device name, model, and information regarding the function of the device) stored in the memory of each device, and the 1394 interface unit 204. To supply. The 1394 interface unit 204 packetizes the command into an Asynchronous packet as described with reference to FIG. 4 and transfers the packet to each device.
[0075]
The control unit 206 of the playback apparatus 101 receives a response to an inquiry to each device (that is, device information of each device) from the 1394 interface unit 204 and stores the response together with the node ID of each device in the memory included in the control unit 206. And it is discriminate | determined from the apparatus information of each apparatus whether the recording apparatus which can record the above-mentioned digital information exists on a network (step S904).
[0076]
As a result of the processing in step S904, when it is determined that there is no recording device capable of recording the above-described digital information on the network, the control unit 206 performs a reproduction process so as to reproduce the digital information recorded on the recording medium 201. The unit 202 is controlled. The reproduced digital information is divided into a predetermined amount of packet data by the data processing unit 203 and sequentially supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band necessary for isochronous transfer and sets a channel number (number information for identifying a series of isochronous packets) of a packet to be isochronously transferred using the band. The 1394 interface unit 204 uses the channel number to packetize a predetermined amount of digital information supplied from the data processing unit 203 into an isochronous packet as described with reference to FIG. 5 (step S905).
[0077]
Further, the 1394 interface unit 204 starts isochronous transfer of the isochronous packet generated in step S905 (step S906). Here, each isochronous packet is sequentially broadcast every communication cycle based on the isochronous transfer mode. After executing the processing in step S906, the playback device 101 executes processing in step S910 and subsequent steps.
[0078]
If it is determined as a result of the processing in step S904 that there is a recording device (in this embodiment, the digital VTR-A 102, the digital VTR-B 103, and the TV monitor 104) capable of recording the above-described digital information on the network, The control unit 206 generates a control command (hereinafter referred to as a recording control command) common to each device that stops the function of the recording processing unit (212, 224) included in each recording device (step S907). The recording control command generated by the control unit 206 is supplied to the 1394 interface unit 204.
[0079]
The control unit 206 also controls the reproduction processing unit 202 to reproduce the digital information recorded on the recording medium 201. The reproduced digital information is divided into a predetermined amount of packet data by the data processing unit 203 and sequentially supplied to the 1394 interface unit 204. The 1394 interface unit 204 secures a band necessary for isochronous transfer and sets a channel number (number information for identifying a series of isochronous packets) of a packet to be isochronously transferred using the band. Using the channel number, the 1394 interface unit 204 sequentially packets a predetermined amount of digital information supplied from the data processing unit 203 and the recording control command generated by the control unit 206 into an isochronous packet (step S908). .
[0080]
FIG. 10 shows the configuration of the isochronous packet generated in step S908. In FIG. 10, 1001 is a header part, 1002 is a CRC for the header part, and 1003 is a part of the data part. In this field, the node ID and recording control command on the source side (playback apparatus 101) are stored. Reference numeral 1004 denotes a part of the data portion, a field for storing a predetermined amount of digital information, and reference numeral 1005 denotes a CRC for the data portion.
[0081]
The isochronous packet generated in step S908 is transferred at the timing shown in FIG. 11 via the 1394 interface unit 204 (step S909).
[0082]
In FIG. 11, the 1394 interface unit 204 transmits a series of isochronous packets (each packet includes digital information prohibited from copying and a recording control command) generated in step S908 to all devices (102 to 102). 104). In this embodiment, the packets 1101 to 1105 are isochronous packets with the channel number “0”. All devices on the network detect the recording control command included in each of the isochronous packets 1101 to 1105, and stop or wait only for the recording function of the own device during the period in which the packet including the command is received. To control. As a result, each device cannot record an isochronous packet including a recording control command.
[0083]
The TV monitor 104 receives a series of packets (1101 to 1105) that the playback apparatus 101 performs isochronous transfer using the channel number “0”, and uses the display unit 222 and the speaker 223 to display digital information contained in these packets. Output. That is, in the communication system according to the present embodiment, when digital information prohibited from copying is broadcast on the network, only recording of the digital information can be disabled in each device, and other processing operations are performed. be able to. As a result, it is possible to prevent unauthorized copying of the broadcast digital information or recording due to an erroneous operation.
[0084]
The playback apparatus 101 has a network connection configuration by bus reset (that is, insertion / extraction of devices on the network, connection of new devices, power ON / OFF of each device, etc.) during the period of isochronous transfer of the above-described digital information. It is detected whether or not (change) has occurred (step S910). When a bus reset is detected, the network of the present embodiment executes initialization of the network configuration and recognition of a new connection configuration. At this time, the playback apparatus 101 temporarily interrupts the playback process of the recording medium 201 and the transfer process of the played back digital information.
[0085]
After the process of recognizing the new network configuration is completed, the playback apparatus 101 executes the processes after step S903 again, and restarts the playback process and the transfer process interrupted by the bus reset. As a result, even when a new recording device is connected to the network during the period when digital information prohibited from copying is output to the network, it is possible to prevent unauthorized recording by the recording device or recording due to an erroneous operation. . Note that the above-described bus reset can be detected according to a change in the bias voltage output from each device constituting the network to the network. Further, the bus reset processing and the network configuration automatic recognition processing of this embodiment are executed by a procedure based on the IEEE1394 standard.
[0086]
The control unit 206 performs isochronous transfer of the digital information until the reproduction of the digital information is completed (step S911). By controlling in this way, the communication system according to the present embodiment can stop or wait for the recording operation of all devices on the network during a period in which digital information prohibited from being copied is broadcast. As a result, it is possible to prevent unauthorized copying of the broadcast digital information or recording due to an erroneous operation.
[0087]
In the third embodiment, when digital information prohibited from being copied is broadcast on the network, the recording control command is stored in all packets generated from the digital information, and the configuration is broadcast. However, it is not limited to this. For example, as shown in FIG. 12 and FIG. 13, the recording control command is packetized into different packets without being packetized together with digital information, and the packets are time-division multiplexed and transmitted within one communication cycle period. Also good.
[0088]
Here, FIG. 12 is a diagram showing a state in which a recording control command is packetized into an Asynchronous packet and transferred together with digital information that is isochronously transferred. In this embodiment, the packet 1201 is an Asynchronous packet destined for the digital VTR-A 102, 1202 is an Asynchronous packet destined for the digital VTR-B 103, and 1203 is an Asynchronous packet destined for the TV monitor 103. FIG. 13 is a diagram showing how the recording control command is packetized into an isochronous packet (channel number “0”) and transferred together with digital information (channel number “1”) that is isochronously transferred. In this embodiment, the packet 1301 is an isochronous packet storing a recording control command.
[0089]
In this embodiment, the period for receiving the isochronous packet including digital information prohibited from copying is controlled to stop or wait for the recording operation of all devices on the network. However, the present invention is not limited to this. For example, only a recording device permitted by the playback device 101 is controlled so that a release command for canceling the recording control command is asynchronously transferred in advance, so that recording is permitted only to a predetermined recording device. It can also be controlled.
[0090]
As described above, when digital information prohibited from being copied is broadcast on the bus type network, recording control commands are stored in all packets generated from the digital information and broadcasted. Then, all devices that have received this packet are controlled to stop or wait for the recording function during the period of receiving the packet. As a result, the playback apparatus 101 of the present invention can prevent illegal copying or erroneous recording by all devices on the network, and can protect the copyright of the digital information.
[0091]
The present invention can be implemented in various forms without departing from the spirit or main features thereof.
[0092]
For example, according to the present invention, a storage medium in which a program code of software for realizing the functions of the above-described embodiments is recorded in the system or apparatus for a control unit (including a microcomputer) included in the system or apparatus of this embodiment. It can also be configured to supply. Then, the control unit included in the system or apparatus of the present embodiment reads out the program code stored in the recording medium, and implements various processing circuits included in the system or apparatus so as to realize the functions of the above-described embodiment. It is also possible to achieve an embodiment of the present invention by operating.
[0093]
For example, program codes for realizing the processing and functions shown in FIG. 3 of the first embodiment, FIG. 7 of the second embodiment, and FIG. 9 of the third embodiment are shown in FIG. The data is stored in a memory included in each of H.226. Each of the control units 206, 214, and 226 reads out the program code from the memory, and the playback device 101, the digital VTR-A 102, the digital VTR-B 103, and the TV monitor 104 are provided so as to realize the functions of the embodiments. The operation of each processing circuit may be controlled.
[0094]
In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiments, and the recording medium storing the program code is a part of the configuration requirement of the present invention.
[0095]
As a recording medium for supplying the program code, for example, a floppy disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used.
[0096]
Further, based on the instruction of the program code read out from the recording medium by the control unit, an OS (operating system) or other application software running on the control unit can be used for the system or apparatus of this embodiment. Needless to say, the present invention includes the case where the functions of the above-described embodiments are realized by controlling the operations of the various processing circuits provided.
[0097]
Further, after the program code read from the storage medium is written in the memory provided in the function expansion board or function expansion unit connected to the control unit, the function expansion board is based on the instruction of the program code. In addition, the present invention also includes the case where the functions of the above-described embodiments are realized by controlling the operations of various processing circuits included in the system or apparatus of this embodiment by the CPU or the like included in the function expansion unit. Needless to say.
[0098]
Accordingly, the above-described embodiments are merely examples in all respects, and should not be interpreted in a limited manner.
[0099]
【The invention's effect】
  According to the present invention, it is possible to transmit digital information to the network after confirming that the recording apparatus has received the control command, and to reduce the risk of illegally copying the digital information.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a communication system in a first embodiment of the present invention.
FIG. 2 is a diagram showing a detailed configuration of a playback apparatus 101, a digital VCR-A 102, and a TV monitor 104 in the first embodiment.
FIG. 3 is a flowchart showing the processing operation of the playback apparatus 101 in the first embodiment.
FIG. 4 is a diagram showing a configuration of an Asynchronous packet used in the present embodiment.
FIG. 5 is a diagram showing a configuration example of an isochronous packet used in the present embodiment.
FIG. 6 is a diagram showing a state of a transfer packet output from the playback apparatus 101 of the first embodiment.
FIG. 7 is a flowchart showing the processing operation of the playback apparatus 101 in the second embodiment of the present invention.
FIG. 8 is a diagram showing a state of a transfer packet output from the playback apparatus 101 according to the third embodiment.
FIG. 9 is a flowchart showing the processing operation of the playback apparatus 101 in the third embodiment of the present invention.
FIG. 10 is a diagram showing a configuration of an isochronous packet generated by the playback device 101 according to the third embodiment.
FIG. 11 is a diagram showing a state of a transfer packet output from the playback apparatus 101 according to the third embodiment.
FIG. 12 is a diagram showing a state of a transfer packet output from the playback apparatus 101 according to the third embodiment.
FIG. 13 is a diagram showing a state of a transfer packet output from the playback apparatus 101 according to the third embodiment.

Claims (10)

A communication device capable of transmitting digital information whose copy is prohibited to a device on the network,
First determination means for determining whether or not a recording apparatus capable of recording the digital information is connected to the network;
First transmission means for transmitting a control command for controlling a recording function of the recording apparatus to the recording apparatus based on a determination result by the first determination means;
And a second transmission unit configured to transmit the digital information to the network after confirming that the control command has been received by the recording device. The communication apparatus according to claim 1, wherein the control command is a command for stopping a recording function of the recording apparatus. A second determination unit that determines whether copying of digital information to be output is prohibited;
3. The method according to claim 1, wherein the first determination unit determines whether the storage device is connected when the second determination unit determines that copying is prohibited. The communication apparatus as described in. When it is determined that copying is not prohibited by the second determination unit, the second transmission unit transmits digital information without transmitting a control command by the first transmission unit. The communication device according to claim 3. 5. The communication apparatus according to claim 1, wherein after the transmission by the second transmission unit is completed, the first transmission unit transmits a release command for canceling the control by the control command. 6. The communication device according to claim 1, wherein the first transmission unit transmits the control command by asynchronous transfer. The communication apparatus according to claim 1, wherein the second transmission unit transmits the digital information by isochronous transfer. Detecting means for detecting a change in the connection configuration of the network;
8. The communication apparatus according to claim 1, wherein when the detection unit detects a change in the connection configuration of the network, the first determination unit performs determination again. The communication apparatus according to claim 1, wherein the first transmission unit does not transmit the control command to a recording apparatus that permits recording of the digital information. A method for controlling a communication device capable of transmitting digital information prohibited from copying to a device on a network,
A first determination step of determining whether or not a recording device capable of recording the digital information is connected to the network;
A first transmission step of transmitting, to the recording device, a control command for controlling the recording function of the recording device based on the determination result of the first determining step;
And a second transmission step of transmitting the digital information to the network after confirming that the control command has been received by the recording device.

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