JP3782612B2 - Information reproducing system and information reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention performs encoding such as data compression and encryption on audio (audio) and video (video) information such as music and moving images, and stores the encoded information in a memory medium using, for example, a semiconductor memory. For decoding and playing back audio and video informationInformation reproduction systemAnd information reproduction equipmentIn placeRelated.
[0002]
[Prior art]
In recent years, various digital audio and video information compression techniques have been studied and proposed. For example, audio information compression techniques include DTS (Digital Theater System), AC-3 (Audio Code number 3 to US). A digital surround system developed at Dolby Laboratories, used in movies, DVDs (Digital VideoDisc), CATV (Community Antenna Television), and next-generation TV standards (ATV) in the United States), and AAC (MPEG 2 AAC: MPEG 2 Advanced Audio Coding-MPEG 2 audio coding in MPEG (Moving Picture Experts Group) started development and standardized as ISO 13818-7 in April 1997).
[0003]
With the development of compression technology for digitized audio and video information as described above, music or video is encoded such as compression, the data size is reduced, and recording and transmission are performed. ing.
For example, compression-encoded music or moving images are recorded on a memory medium using a semiconductor memory and used for reproduction, or transmitted through a communication system and used for reproduction.
Then, when using a memory medium, it is restored to the playback device, and when using a communication system, it is restored to the receiving device (decompression of compressed data is sometimes referred to as decompression or decompression), etc. A decoder is built in to restore the encoded information for playback.
[0004]
Conventionally, as a memory medium for recording music or moving images, a conventional PC card compliant with PCMCIA (Personal Computer Memory Card International Association) standard, SmartMedia (trademark), CompactFlash (trademark), or the like A small card is used. Conventionally used memory media such as these are composed only of ROM (Read Only Memory) or RAM (Random Access Memory) consisting of semiconductor memory, etc., for example, ID code (identification code) together with information such as audio data. ) Is recorded. This ID code is used for normal data storage of a PC (Personal Computer or so-called “personal computer”) such a memory medium, so whether the stored information is normal PC data or audio data, etc. This is identification information used for identifying the.
[0005]
A conventional reproduction apparatus of this type incorporates a decoder corresponding to a specific single compression encoding method, and is configured to simply decode data read from a memory medium. A control unit including a microcomputer or the like of the playback device reads the ID code written in the memory and determines whether the data can be played back by the playback device. If it is an ID code indicating that it is reproducible data, it is reproduced using a decoder built in the reproducing apparatus, and if it is an ID code indicating that the data is not reproducible, the data is ignored.
[0006]
That is, as shown in FIG. 5, a conventional playback apparatus 100 includes a CPU (Central Processing Unit) 101, a decoder 102, a buffer 103, a DAC (Digital / Analog Converter) 104, an operation key 105, a display unit 106, and a light receiving unit 107. And a connector C101. As shown in the figure, the memory medium 200 used in the reproducing apparatus 100 includes only a ROM 201 and a connector C201.
[0007]
The decoder 102 of the playback device 100 is connected to the connector C101, and the ROM 201 of the memory medium 200 is connected to the connector C201. By connecting the memory medium 200 to the playback apparatus 100 using the connector C201 and the connector C101, the ROM 201 of the memory medium 200 is connected to the decoder 102 of the playback apparatus 100. When the memory medium 200 is connected, the CPU 101 of the playback apparatus 100 reads the ID code from the ROM 201 of the memory medium 200 via the decoder 102 and determines whether the audio data can be played back by the playback apparatus 100. To do.
[0008]
If the ID code does not indicate that the ID code is reproducible, for example, audio data, the CPU 101 ignores the ID code and causes the display unit 106 to display an error message indicating that the ID code is not reproducible as necessary. . If the ID code indicates reproducible audio data, the CPU 101 decodes and restores the compression-encoded audio data by the decoder 102, and outputs from the output terminal T11 via the buffer 103. It is output as a digital output, converted into an analog signal by the DAC 104, and output as an analog output from the output terminal T12 for reproduction. That is, an ear receiver, headphones, or a speaker device (with an amplifier built therein if necessary) is connected to the output terminal T12. When a reproduction system having a digital output processing function can be used, it is connected to the output terminal T11.
[0009]
The operation key 105 gives a required operation input by the user regarding the reproduction operation to the CPU 101. The display unit 106 displays a screen so that the user can recognize an operation input or a reproduction operation state in the CPU 101 according to the reproduction operation, operation information by the operation key 105, and the like. The light receiving unit 107 receives infrared light for remote control and controls the CPU 101 according to the remote control operation information.
[0010]
Note that an example of a playback apparatus provided with only a single decoder corresponding to a specific encoding method is disclosed in Japanese Patent Laid-Open No. 10-210409 in substantially the same manner as that shown in FIG.
[0011]
[Problems to be solved by the invention]
In the conventional memory reproducing apparatus described above, since only the ID code indicating the type of data and information such as audio or video information is stored in the memory medium, it is possible to reproduce the memory medium with a different encoding method such as compression. Can not. That is, the encoding method of the memory medium that can be used in the memory reproducing device is limited. In other words, the memory reproduction device that can be reproduced is limited by the encoding method of the memory medium, and a variety of encoding methods cannot be used in both the memory medium and the memory reproduction device. For this reason, if an attempt is made to support a variety of encoding methods, the memory reproducing apparatus becomes complicated and the manufacturing cost increases.
[0012]
In addition, in this case, it is expected that audio or video information is stored in a memory medium for sale and sold as a software product. However, the storage information in the memory medium is simple data and an ID code, and is reproduced. Therefore, it is not easy to prevent unauthorized copying.
[0013]
  The present invention has been made in view of the circumstances described above, and can flexibly cope with various encoding methods such as compression with a simple configuration and can easily prevent unauthorized use.Information reproduction systemAnd information reproduction equipmentPlaceThe purpose is to provide.
[0014]
[Means for Solving the Problems]
  In order to achieve the above object, an information reproduction system according to the first aspect of the present invention provides:
  Removable memory medium and the memory mediumCommunicate with theInformation data recorded on memory mediaDecodeWith a playback device to play,Consisting of:
  The memory medium is
First identification information,Information data encoded by a predetermined encoding method,as well as,Define the decoding function corresponding to the encoding methodprogram,StoreStorage means;
Communication means for transmitting the first identification information, the information data, and the program stored in the storage means and communicating with the playback apparatus in response to a command from the playback apparatus;
With
  The playback device
  The program via the communication means;Volatile storage means for storing;
  Program stored in the volatile storage meansAccording to the encoding method corresponding to the programDecode information dataRegenerationSignal processing means for
  A command is sent to the memory medium and supplied from the memory medium via the communication meansThe program is stored in the volatile storage means, and the signal processing meansExecutionAs well asSupplied from the memory medium via the communication meansSupplying information data to the signal processing means;DecodePlayback control means for playback and,
  Input means for inputting predetermined identification information;
  A non-volatile rewritable storage means;
  Holding means for previously holding second identification information associated with each information reproducing device;
With,
  The reproduction control means includes
  When the memory medium is mounted for the first time, the identification information input from the input means is compared with the first identification information supplied from the memory medium to determine whether they match, The first identification information is written to the rewritable storage means, and the second identification information held by the holding means is written to the memory medium via the communication means, and then the encoded information data is written to the memory medium. The signal information is supplied to the signal processing means via the communication means to enable decoding and reproduction, and the password information input in advance by the input means and stored in the rewritable storage means is supplied to the signal processing means via the communication means. Write to memory media,
  When the memory medium is mounted after the second time, the first identification information supplied from the memory medium via the communication means and the first identification information written in the rewritable storage means, the holding means And the second identification information written in the memory medium via the communication means, the password information stored in the rewritable storage means, and the communication means in the memory medium. Each of the password information written via each of them, and only when they all match, the processing means decodes and reproduces the encoded information data.
It is characterized by that.
[0015]
  Further, the reproduction control means determines whether or not the first identification information supplied from the memory medium via the communication means is written in the rewritable storage means, so that the memory medium is the first time. You may make it discriminate | determine whether it was mounted | worn or it mounted | worn after the 2nd time.
[0016]
  Further, the storage means is formed so that a predetermined number of second identification information corresponding to the playback device can be written,
The reproduction control unit determines whether or not the second identification information corresponding to the reproduction device can be written in the storage unit. If the reproduction control unit determines that the second identification information cannot be written, the reproduction device of the encoded information data The decoding reproduction may be rejected.
[0017]
  An information reproducing apparatus according to the second aspect of the present invention provides:
  Storage means for storing first identification information, information data encoded by a predetermined encoding method, and a program defining a decoding function corresponding to the encoder method;
In response to a command from an external device, communication means for transmitting the first identification information, the information data, and the program stored in the storage means to communicate with the external device;
WithRemovable memory media andIn an information reproducing apparatus for communication,
  The program via the communication means;Volatile storage means for storing;
  According to the program stored in the volatile storage means, encoded by the encoding method corresponding to the programSignal processing means for decoding information data;
  A command is sent to the memory medium and supplied from the memory medium via the communication meansThe program is stored in the volatile storage means, and the signal processing meansExecutionAnd from the memory mediumSupplied via the communication meansSupplying information data to the signal processing means;DecodePlayback control means for playback;
  Input means for inputting predetermined identification information;
A non-volatile rewritable storage means;
  Holding means for previously holding second identification information associated with each information reproducing device;
With
  The reproduction control means includes
  When the memory medium is mounted for the first time, the identification information input from the input means is compared with the first identification information supplied from the memory medium to determine whether they match, The first identification information is written to the rewritable storage means, and the second identification information held by the holding means is written to the memory medium via the communication means, and then the encoded information data is written to the memory medium. The signal information is supplied to the signal processing means via the communication means to enable decoding and reproduction, and the password information input in advance by the input means and stored in the rewritable storage means is supplied to the signal processing means via the communication means. Write to memory media,
  When the memory medium is mounted after the second time, the first identification information supplied from the memory medium via the communication means and the first identification information written in the rewritable storage means, the holding means And the second identification information written in the memory medium via the communication means, the password information stored in the rewritable storage means, and the communication means in the memory medium. Each of the password information written via each of them, and only when they all match, the processing means decodes and reproduces the encoded information data.
It is characterized by that.
[0018]
  Further, the reproduction control means determines whether or not the first identification information supplied from the memory medium via the communication means is written in the rewritable storage means, so that the memory medium is the first time. You may make it discriminate | determine whether it was mounted | worn or it mounted | worn after the 2nd time.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0027]
With reference to FIG. 1, an information reproduction system to which an information reproduction apparatus according to an embodiment of the present invention is applied will be described. FIG. 1 schematically shows the configuration of the information reproduction system.
[0028]
As shown in the figure, this information reproducing system includes a reproducing apparatus 1 and a memory medium 2 that can be attached to and detached from the reproducing apparatus 1.
[0029]
The playback device 1 includes a CPU (Central Processing Unit) 11, a DSP (Digital Signal Processor) 12, a RAM (Random Access Memory) 13, a buffer 14, a DAC (Digital / Analog Converter) 15, a flash RAM 16, An operation key 17, a display unit 18, a light receiving unit 19, and connectors C11 and C12 are provided.
[0030]
The CPU 11 is composed of a microprocessor or the like, and is used to exchange ID codes, passwords, and control information with the memory medium 2 via the connector C11 and to control the operations of the respective units in the playback apparatus 1. .
[0031]
The DSP 12 is an LSI (Large Scale Integrated Circuit) that performs various signal processing by loading program data as software from the memory medium 2 via the connector C12. In this case, the DSP 12 functions as a decoder for information data read from the memory medium 2 by providing program data for operating as a decoder function. That is, the DSP 12 can function as a decoder corresponding to various encoding schemes by loading program data corresponding to various encoding schemes.
[0032]
The RAM 13 is a volatile rewritable memory, and the program data read from the memory medium 2 is written and loaded into the DSP 12 under the control of the CPU 11.
[0033]
The buffer 14 stabilizes the digital information decoded by the DSP 12 and outputs it to the output terminal T1.
[0034]
The DAC 15 is for converting the digital information decoded by the DSP 12 into an analog signal and outputting the analog signal to the output terminal T2.
[0035]
The output terminal T1 is a terminal for connecting a reproduction system having a digital output processing function. The output terminal T2 is a terminal for connecting an ear receiver, headphones, or a speaker device incorporating an amplifier as necessary.
[0036]
The flash RAM 16 is a nonvolatile rewritable memory, and stores the first ID code and password on the memory medium 2 side, which is first identification information.
Here, the first ID code is recorded in the ROM in the CPU 21 of the memory medium 2 and distributed as a memo (printed material) attached to the memory medium 2. Then, when the user operates the operation key 17 and inputs the first ID code described in the memo (printed material) to the playback device 1, the CPU 11 and the CPU 21 enter the ID code input via the operation key 17 and After collation with those recorded in the memory medium 2, if they match, the data is written in the flash RAM 16.
[0037]
The password is written in the flash RAM 16 in advance by a user's registration operation via the operation key 17, and is transferred to the flash RAM 22 of the memory medium 2 when the memory medium 2 is connected. The password can be changed by operating the operation key 17.
[0038]
The operation key 17 is composed of a keypad and the like, and is a key input unit for a user to input a command relating to a reproduction operation and an ID code to the reproduction apparatus 1.
[0039]
The display unit 18 is composed of an LCD (Liquid Crystal Display) or the like, and is used to display a screen so as to allow the user to recognize a reproduction operation, an operation input in the CPU 11 corresponding to operation information by the operation keys 17, or the like. It is.
[0040]
The light receiving unit 19 receives a remote control infrared light signal or the like, and controls the CPU 11 according to the remote control operation information.
[0041]
The memory medium 2 that can be attached to and detached from the playback apparatus 1 includes a CPU 21, a flash RAM 22, a ROM (Read Only Memory) 23, and connectors C21 and C22.
[0042]
The CPU 21 is configured by using a microprocessor or the like, and controls operations in the memory medium 2 and controls data transfer and control information communication with the CPU 11 of the playback apparatus 1 via the connector C21.
[0043]
The flash RAM 22 is a nonvolatile rewritable memory, and stores a second ID code and a password on the playback device 1 side, which are second identification information. Here, the second ID code is recorded in the ROM in the CPU 11 of the reproducing apparatus 1 and is written in the flash RAM 22 under the control of the CPUs 11 and 21.
The password is written in advance in the flash RAM 16 of the playback device 1 by a registration operation by the user, and is transferred from the flash RAM 16 to the flash RAM 22 when the memory medium 2 is connected to the playback device 1.
[0044]
The ROM 23 is a non-rewritable nonvolatile memory, in which information data such as audio and video information is compressed and written by a predetermined encoding method, and for providing a decoding function corresponding to the encoding method to the DSP 12. Stores program data. Then, the ROM 23 sends information data and program data to the DSP 12 via the connector C22.
[0045]
When the memory medium 2 is connected to the playback device 1, the connector C21 is connected to the connector C11, and the connector C22 is connected to the connector C12. As a result, the CPU 11 and the CPU 21 are connected, and the DSP 12 and the ROM 23 are connected.
[0046]
Next, the operation of the information reproduction system described above will be described.
This information reproduction system is used for reproduction of information data such as music and video, and the memory medium 2 records program data for decoding information data in addition to information data such as music and video, according to the encoding method. It is a system that enables flexible reading and can easily prevent unauthorized use.
[0047]
Here, the memory medium 2 is a package that can be attached to and detached from the playback apparatus 1, and information data compressed with music or video and program data for the DSP 12 to decode the information data are recorded in the ROM 23.
[0048]
Therefore, in order to read the information data recorded in the ROM 23 and reproduce music or video, the user first connects the memory medium 2 to the reproduction apparatus 1.
At this time, the connector C21 is connected to the connector C11, and the connector C22 is connected to the connector C12. Thereby, CPU11 and CPU21 are connected and communication is started.
[0049]
When the CPU 11 starts communication with the CPU 21, the CPU 11 starts a device side verification process shown in the flowchart of FIG. 2.
[0050]
When the apparatus-side verification process is started, the CPU 11 acquires the first ID code recorded in the ROM inside the CPU 21 through communication with the CPU 21 (step S1).
[0051]
The CPU 11 reads the flash RAM 16 and determines whether or not the first ID code acquired from the CPU 21 is written (step S2). Here, as will be described later, when the memory medium 2 has already been connected to the playback device 1, the first ID code is written in the flash RAM 16. That is, the CPU 11 reads the flash RAM 16 and determines whether or not the memory medium 2 has been connected to the playback device 1 in the past.
[0052]
If the CPU 11 determines that the first ID code is not written in the flash RAM 16 (NO in step S2), it is assumed that the memory medium 2 is connected to the playback device 1 for the first time (step S3), and the display unit 18 is displayed to prompt the user to input the first ID code (step S4).
[0053]
Here, the first ID code is described in a memo, a printed matter, or the like attached when the user obtains the memory medium 2. Then, when connecting the memory medium 2 to the playback device 1 for the first time, the user inputs the first ID code from the operation key 17 (step S5).
[0054]
The CPU 11 compares the ID code received from the operation key 17 with the first ID code acquired from the CPU 21 in step S1, and determines whether or not the correct ID code has been input (step S6).
[0055]
If the CPU 11 determines that the correct ID code is not input (NO in step S6), the CPU 11 displays a warning such as “ID code is different” on the display unit 18 (step S7), and returns the process to step S4. The user is prompted again for the ID code.
[0056]
On the other hand, when CPU 11 determines that a correct ID code has been input (YES in step S6), CPU 11 writes the first ID code in flash RAM 16 (step S8).
As a result, the flash RAM 16 records that the memory medium 2 is connected to the playback device 1. Accordingly, when the memory medium 2 is connected to the playback device 1 for the second time and thereafter, the CPU 11 can compare and collate the ID code acquired from the CPU 21 with the ID code written in the flash RAM 16.
[0057]
Thereafter, since the memory medium 2 is connected to the playback device 1 for the first time, the CPU 11 transfers the password recorded in the flash RAM 16 to the CPU 21 and writes it in the flash RAM 22 (step S9).
Here, the password can be registered in advance in the playback apparatus 1 by the user via the operation key 17. The registered password is written in the flash RAM 16 and cannot be used for the second and subsequent connections unless the passwords stored in the flash RAM 16 of the playback apparatus 1 and the flash RAM 22 of the memory medium 2 match. This password can be rewritten later.
In this way, when the setting when the memory medium 2 is connected to the playback device 1 for the first time is completed, the CPU 11 ends the device-side verification process assuming that the playback device 1 can play back the information data (step S13). ).
[0058]
On the other hand, if the CPU 11 determines that the first ID code is written in the flash RAM 16 in the above step S2 (YES in step S2), it is assumed that the second and subsequent connections are made (step S10), and the password is verified Is performed (step S11). At this time, the CPU 11 instructs the CPU 21 to read out the password, acquires the password written in the flash RAM 22, and collates it with the password recorded in the flash RAM 16.
[0059]
The CPU 11 determines whether or not the password of the flash RAM 22 and the password of the flash RAM 16 match (step S12). If they match (YES in step S12), the playback device 1 can play back the information data. If so, the apparatus side collation process is terminated (step S13).
[0060]
On the other hand, if the CPU 11 determines that the password of the flash RAM 22 and the password of the flash RAM 16 do not match (NO in step S12), the reproduction apparatus 1 cannot reproduce the information data (step S14). A warning such as “cannot be performed” is displayed on the display unit 18 to warn the user, and the apparatus side collation processing is terminated (step S15).
Thereby, unauthorized reading of information data recorded in the memory medium 2 can be easily prevented.
[0061]
For example, the user writes a password different from the password normally used in the memory medium 2 that is not used by others, and changes the password written in the flash RAM 16 to one that is normally used. Only when information is reproduced from the memory medium 2, the password of the flash RAM 16 can be rewritten so that the information in the memory medium 2 can be reproduced, and unauthorized use of the memory medium 2 can be prevented.
[0062]
When the CPU 21 starts communication with the CPU 11, the CPU 21 starts the memory-side verification process shown in the flowchart of FIG. 3 in parallel with the CPU 11 executing the device-side verification process.
[0063]
When the memory-side collation process is started, the CPU 21 acquires the second ID code recorded in the ROM inside the CPU 11 through communication with the CPU 11 (step S20).
[0064]
Thereafter, the CPU 21 reads the flash RAM 22 and determines whether or not the second ID code acquired from the CPU 11 is written (step S21).
[0065]
Here, the flash RAM 22 has a predetermined number of write areas for writing the second ID code, and can support several playback devices 1 owned by the same user. For example, if the flash RAM 22 has five write areas, the number of playback devices 1 that can play back information data such as audio and video from the memory medium 2 is limited to five.
If the CPU 21 determines that the second ID code is not written (NO in step S21), it is assumed that the memory medium 2 is connected to the playback device 1 for the first time (step S22), and the second ID code is stored in the flash RAM 22. Whether or not can be written is determined (step S23).
[0066]
If the CPU 21 determines that the second ID code cannot be written (NO in step S23), the CPU 21 displays a warning such as “This device cannot be played” on the display unit 18 to warn the user. The memory side verification process is terminated (step S24).
[0067]
On the other hand, when CPU 21 determines that the second ID code can be written (YES in step S23), CPU 21 writes the second ID code in flash RAM 22 and ends the memory side verification process (step S25).
Accordingly, the memory medium 2 can prevent unauthorized use by limiting the number of playback devices 1 that can play back information such as audio and video.
[0068]
On the other hand, if the CPU 21 determines in step S21 that the second ID code is written in the flash RAM 22 (YES in step S21), the memory-side verification process is terminated assuming that the connection is made for the second time or later. (Step S26).
[0069]
In this way, when the verification processing in the playback device 1 and the memory medium 2 is completed and the sound and video recorded in the memory medium 2 can be played back, the CPU 11 displays a message such as “OK” on the display unit 18. To notify the user that it can be used.
[0070]
Thereafter, when the user instructs reproduction of information such as audio and video recorded in the memory medium 2 by pressing a reproduction key (not shown) of the operation key 17 or the like, the information reproduction system is configured as shown in FIG. The data reading process shown in the flowchart of FIG.
[0071]
When the data reading process is started, the CPU 11 transmits a read request signal requesting the CPU 21 to read the information data (step S30).
[0072]
Upon receiving the read request signal, the CPU 21 accesses the ROM 23 and transfers program data for decoding music information data or video information data subjected to encoding such as compression to the RAM 13 via the DSP 12 (step S31). ).
Accordingly, the DSP 12 can sequentially read the program data stored in the RAM 13 and execute a decoding process corresponding to the program data to decode the music information data or the video information data recorded in the memory medium 2.
[0073]
Thereafter, the CPU 21 transfers information data such as music information data and video information data from the ROM 23 to the DSP 12 (step S32).
[0074]
The DSP 12 executes a process of decoding the music information data or video information data received from the ROM 23, supplies the obtained data to the buffer 14 and the DAC 15, and outputs an audio signal or video signal from the output terminals T1 and T2. Thus, the reproduction of information is started (step S33).
[0075]
In this way, program data as decoding software and encoded audio or video data are written as a set in the ROM 23 of the memory medium 2. For this reason, the recorded contents of the ROM 23 cannot be directly copied to another device, and even if only encoded audio or video information data can be copied, this information cannot be decoded. That is, the program data for decoding transferred from the ROM 23 to the RAM 13 cannot be taken out of the reproducing apparatus 1. This is because the program data is controlled by the CPUs 11 and 21 and can only be transferred to the RAM 13.
[0076]
As described above, data encoded in the ROM 23 of the memory medium 2 and data for decoding by the DSP 12 are recorded, so that the encoding format conforms to various encoding methods. Can also be played back by the playback device 1.
In addition, since the information reproduction system described above needs to collate the first ID code, the second ID code, and the password, unauthorized use such as lending to others can be effectively limited.
Furthermore, since the CPU 11 and the CPU 21 are interposed in both the playback device 1 and the memory medium 2, the contents of the flash RAMs 16 and 22 in which the first ID code, the second ID code, the password, and the like are written are difficult to rewrite. In addition, for this reason, the signal decoded by the reproducing apparatus 1 can be copied, but a copy of the memory medium 2 cannot be made.
[0077]
The present invention is not limited to the above embodiment, and various modifications and applications are possible. For example, in the above embodiment, the ROM 23 of the memory medium 2 has been described as recording music information data or video information data. However, the present invention is not limited to this, and game software or personal software executed by a home video game machine is used. Arbitrary data such as information data can be recorded.
[0078]
In the above embodiment, the connector C11 and the connector C21 are connected, and the connector C12 and the connector C22 are connected to exchange information data. However, the present invention is not limited to this. By transmitting and receiving, information data and the like may be exchanged in a non-contact manner.
In this case, the connectors C 11, C 12, C 21, C 22 are replaced with elements each having a light emitting element and a light receiving element and capable of transmitting and receiving an electromagnetic wave signal, and the reproducing apparatus 1 makes an electromagnetic wave with the memory medium 2. What is necessary is just to hold | maintain the memory medium 2 so that communication by a signal is enabled.
[0079]
【The invention's effect】
  As described above, according to the present invention, an information reproduction system that can flexibly cope with various encoding methods such as compression with a simple configuration and can easily prevent unauthorized use.And emotionInformation playbackPlaceCan be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing a configuration of an information reproduction system to which an information reproduction apparatus according to an embodiment of the present invention is applied.
FIG. 2 is a flowchart for explaining device side collation processing;
FIG. 3 is a flowchart for explaining memory-side collation processing;
FIG. 4 is a flowchart for explaining data read processing;
FIG. 5 is a block diagram schematically showing an example of the configuration of an information reproduction system to which a conventional information reproduction apparatus is applied.
[Explanation of symbols]
1,100 playback device
2,200 memory media
11, 21,101 CPU
12 DSP
13 RAM
14,103 buffers
15,104 DAC
16, 22 Flash RAM
17, 105 Operation keys
18,106 display unit
19,107 Light receiving part
23,201 ROM
102 Decoder
C11, C12, C21, C22
C101, C201 connector
T1, T2, T11, T12 output terminals

Claims (5)

A memory medium removable, said an information reproducing system composed of a playback device in communication with the memory medium for decoding reproducing information data recorded on said memory medium,
The memory medium is
Storage means for storing first identification information, second identification information, information data encoded by a predetermined encoding method , and a program defining a decoding function corresponding to the encoding method ;
Communication means for transmitting the first identification information, the information data, and the program stored in the storage means and communicating with the playback apparatus in response to a command from the playback apparatus;
With
The playback device
Volatile storage means for storing the program via the communication means ;
Signal processing means for decoding and reproducing information data encoded by an encoding method corresponding to the program according to the program stored in the volatile storage means;
A command is sent to the memory medium, the program supplied from the memory medium via the communication means is stored in the volatile storage means, and the signal processing means is executed, and the communication from the memory medium is performed. Reproduction control means for supplying the information data supplied through the means to the signal processing means for use in decoding reproduction ;
Input means for inputting predetermined identification information;
A non-volatile rewritable storage means;
Holding means for previously holding second identification information associated with each information reproducing device;
Equipped with a,
The reproduction control means includes
When the memory medium is mounted for the first time, the identification information input from the input means is compared with the first identification information supplied from the memory medium to determine whether they match, The first identification information is written to the rewritable storage means, and the second identification information held by the holding means is written to the memory medium via the communication means, and then the encoded information data is written to the memory medium. The signal is supplied to the signal processing unit via the communication unit to enable decoding and reproduction, and the password information stored in the rewritable storage unit input in advance by the input unit is transmitted through the communication unit. Write to memory media,
When the memory medium is mounted after the second time, the first identification information supplied from the memory medium via the communication means and the first identification information written in the rewritable storage means, the holding means And the second identification information written in the memory medium via the communication means, the password information stored in the rewritable storage means, and the communication means in the memory medium. Each of the password information written via each of them, and only when they all match, the processing means decodes and reproduces the encoded information data.
An information reproduction system characterized by that. The reproduction control unit determines whether or not the first identification information supplied from the memory medium via the communication unit is written in the rewritable storage unit, so that the reproduction medium is stored in the memory medium. To determine whether is installed for the first time or after the second time,
The information reproduction system according to claim 1 . The storage means is formed such that a predetermined number of second identification information corresponding to the playback device can be written,
The reproduction control unit determines whether or not the second identification information corresponding to the reproduction device can be written in the storage unit. If the reproduction control unit determines that the second identification information cannot be written, the reproduction device of the encoded information data Refusing decode playback in
The information reproduction system according to claim 1 or 2 , wherein Storage means for storing first identification information, second identification information, information data encoded by a predetermined encoding method, and a program defining a decoding function corresponding to the encoder method;
In response to a command from an external device, communication means for transmitting the first identification information, the information data, and the program stored in the storage means to communicate with the external device;
In an information reproducing apparatus for communicating with a removable memory medium comprising :
Volatile storage means for storing the program via the communication means ;
In accordance with a program stored in the volatile storage means, signal processing means for decoding information data encoded by an encoding method corresponding to the program ;
A command is sent to the memory medium, the program supplied from the memory medium via the communication means is stored in the volatile storage means, and the signal processing means is executed, and the communication from the memory medium is performed. Reproduction control means for supplying the information data supplied through the means to the signal processing means for use in decoding reproduction;
Input means for inputting predetermined identification information;
A non-volatile rewritable storage means;
Holding means for previously holding second identification information associated with each information reproducing device;
With
The reproduction control means includes
When the memory medium is mounted for the first time, the identification information input from the input means is compared with the first identification information supplied from the memory medium to determine whether they match, The first identification information is written to the rewritable storage means, and the second identification information held by the holding means is written to the memory medium via the communication means, and then the encoded information data is written to the memory medium. The signal is supplied to the signal processing unit via the communication unit to enable decoding and reproduction, and the password information stored in the rewritable storage unit input in advance by the input unit is transmitted through the communication unit. Write to memory media,
When the memory medium is mounted after the second time, the first identification information supplied from the memory medium via the communication means and the first identification information written in the rewritable storage means, the holding means And the second identification information written in the memory medium via the communication means, the password information stored in the rewritable storage means, and the communication means in the memory medium. Each of the password information written via each of them, and only when they all match, the processing means decodes and reproduces the encoded information data.
An information reproducing apparatus characterized by that. The reproduction control means determines whether or not the first identification information supplied from the memory medium via the communication means is written in the rewritable storage means, so that the memory medium is loaded for the first time. To determine if it was installed after the second time,
The information reproducing apparatus according to claim 4 , wherein:

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