JP3564747B2 - Data receiving device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention is a data receiving apparatus suitable for, for example, a television apparatus having a large capacity memory, and in particular, automatically selects an optimum memory means from various memory means in accordance with a category ID signal of received content to be recorded. The present invention relates to a data receiving device having a function of selecting a data receiving device.
[0002]
[Prior art]
In recent years, with the remarkable development of telecommunication technology, wireless and wired new media have appeared one after another. High-definition high-definition television (HDTV), clear vision (EDTV), still image broadcasting, text broadcasting, data broadcasting, 24-hour satellite broadcasting (BS / CS), and cable television (CATV) in the age of interactive services are also becoming widespread. Expected.
[0003]
In addition, there is a wide variety of program software broadcast by these new media. In addition to conventional program software focusing on entertainment viewing such as movies, sports, news, and quiz programs, new interactive features are utilized. For example, experiments for providing game software, karaoke software, local community information, library materials, home shopping information, home medical service information, program software reservation, various event reservation services, and the like have been started.
[0004]
In addition, the trend of digitalization of broadcast media is also accelerating, and it is planned that the current analog broadcasting will be shifted to a digital broadcasting system in the future, and then to integrated digital broadcasting (ISDB: Integrated Services Digital Broadcasting) integrating each network. Migration is also planned.
[0005]
On the other hand, the development of recording media has been remarkable, and the capacity of semiconductor memories, the capacity of recording devices using disk-shaped recording media, and high-speed processing have been further progressing, and rewritable magneto-optical disks (MO: Magneto Disk) Optical) and a phase-change optical disk (PC: Phase Change) system for recording / reproducing data by newly changing the light intensity have also been developed. The phase change optical disk is expected to be overwritable because it can be overwritten, and its related so-called mini disk (hereinafter simply referred to as “MD”) and digital video disk (hereinafter simply referred to as “DVD”) At present, a device capable of recording an MPEG-2 level moving image described later on a compact disk of 12 cm (hereinafter simply referred to as “CD”) for about 2 hours is being developed.
[0006]
Furthermore, the development of compression coding technology for images and audio signals has been remarkable. With the development of this compression coding technology, the amount of data actually required can be compressed and reduced, and it is not limited to broadcasting, but is used for media such as communication and recording media. Technology for transmitting a large amount of images, audio signals, and data information in a short period of time, and for recording / reproducing the data is also being developed. This compression coding technique of image and audio signals is realized by a world standard method of image / audio compression called MPEG2 (Moving Picture Image Coding Experts Group Phase 2), which is an extension of MPEG1, which is already in practical use. We are at the stage.
[0007]
This MPEG2 has a high image quality specification for normal television broadcasting to high definition broadcasting, and is expected to compress images and audio signals to about 3 to 9 Mbit / sec. Also, assuming that the above-mentioned new media service will be used in each household in the future, standardization has been performed mainly on a general-purpose encoding method that allows mutual use of broadcast / communication / recording media. ing.
[0008]
By using a compression encoding technique such as the MPEG2, a digital signal is recorded on a magnetic tape medium for about one hour for the MD and about two hours for a recordable / reproducible CD and a DVD which is expected to be developed in the future. A digital video tape recorder (hereinafter simply referred to as "DVTR") for recording is recorded for about 21 hours, and a re-recordable large-capacity semiconductor memory (hereinafter simply referred to as "RAM") for about 10 minutes. / Reproduction becomes possible.
[0009]
[Problems to be solved by the invention]
However, there are various types of program software provided from the new broadcasting services as described above, ranging from several hours such as movie software to just a few minutes. In addition, these program softwares include a mixture of moving images and still images, and are digital broadcast signals having a so-called video frequency, and are merely graphic image signals. Thus, in order to efficiently record these program software on a recording medium, it is necessary to consider the properties of the recording medium and the maximum recordable capacity even when the program software has the same time length.
[0010]
When the program software is recorded on various recording media, an optimal recording medium according to the content of the program software is selected in order to efficiently play, search, save, and edit the recorded program software. It is desired to do. For example, when recording movie software for a long time, it is preferable to select a recording medium of a DVTR having a long recording capacity, and for game software, it is preferable to select RAM. Further, in the case of the program software such as the home shopping information, library materials, and karaoke, it is most suitable to select a CD or MD which is easily read and accessed.
[0011]
Furthermore, these recording media are not always provided in the receiving device owned by the viewer (user), and if there is a recording medium that is optionally loaded, program software to be recorded and user It is necessary to define and use the priority order according to the recording medium held by the company. However, it is difficult for the user to select the recording medium owned by the user according to the program software to be recorded, and there is a possibility that the functions of those recording media cannot be fully utilized, and sometimes the recording itself is not performed. It can fail.
[0012]
SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems, and to select a recording medium suitable for the type and time length of desired program software, and to understand the function of the recording medium. It is an object of the present invention to provide a data receiving apparatus which enables use of a recording medium without excess or shortage and enables recording without failure.
[0013]
[Means for Solving the Problems]
The data receiving apparatus of the present invention includes: a plurality of types of memories; data classified into a plurality of categories; receiving means for receiving a category ID signal corresponding to the category; and a category ID signal received by the receiving means. Category ID signal detecting means for detecting, memory capacity detecting means for detecting the recordable capacity of the plurality of memories, and display processing means for displaying the remaining amount of the plurality of memories detected by the memory capacity detecting means And selecting means for selecting a desired memory from the plurality of types of memory based on the remaining amount display of the plurality of types of memory displayed by the display processing means, and transmitting the received data to the category ID signal. The above-mentioned problem is solved by recording in the selected desired memory based on the above.
[0014]
Further, the data receiving apparatus of the present invention includes: a plurality of types of memories having different recording methods; data classified into a plurality of categories; a receiving unit for receiving a category ID signal including a memory selection code signal; Code signal detecting means for detecting the memory selection code signal in the received category ID signal; and selecting means for selecting an optimum memory from the plurality of types of memories in accordance with an output of the code signal detecting means. The above-mentioned problem is solved by recording the received data in the selected optimum memory based on the memory selection code signal.
[0015]
Next, in the data recording method of the present invention, in the data recording method in the data receiving apparatus having a plurality of types of memories, a receiving step of receiving data classified into a plurality of categories and a category ID signal including a memory selection code signal. A category signal detecting step of detecting the category ID signal received in the receiving step; a memory capacity detecting step of detecting a recordable capacity of the plurality of memories; and a plurality of types of memory detected in the memory capacity detecting step. A display processing step for displaying the remaining amount of memory; and a selecting step of selecting a desired memory from the plurality of types of memory based on the remaining amount display of the plurality of types of memory displayed in the display processing step. And storing the received data in the selected desired memory based on the category ID signal. By recording, to solve the problems described above.
[0016]
Further, the data recording method of the present invention is a data recording method in a data receiving apparatus having a plurality of types of memories having different recording methods, and includes a data classified into a plurality of categories and a category ID signal including a memory selection code signal. A receiving step of receiving, a code signal detecting step of detecting the memory selection code signal in the category ID signal received in the receiving step, and an optimum one of the plurality of types of memories according to an output of the code signal detecting step. A selecting step of selecting a suitable memory, and recording the received data in the selected optimum memory based on the memory selection code signal, thereby solving the above-described problem.
[0017]
That is, in the present invention, for example, in a television device having a large-capacity memory, a video signal that is classified into a plurality of categories, a receiving unit that receives a category ID signal corresponding to the category, and a receiving unit that receives the video signal. A category ID signal detecting means for detecting a category ID signal, a plurality of kinds of memory means, and a memory capacity detecting means for detecting a recordable capacity of the plurality of memories are provided. A display processing unit for displaying the remaining amount of the plurality of types of memory detected by the memory capacity detecting unit; and the plurality of types of memory based on the remaining amount display of the plurality of types of memory displayed by the display processing unit. And selecting means for selecting a desired memory from the memories, and records the received video signal in the desired memory means selected based on the indication of the remaining amount of the plurality of memories.
[0018]
At this time, in a television device having a large capacity memory, receiving means for receiving a video signal classified into a plurality of categories, a category ID signal including a memory means selection code signal, and selecting a memory means in the category ID signal A code signal detecting means for detecting a code signal, a plurality of types of memory means having different recording methods, and a memory capacity detecting means for detecting a recordable capacity of the plurality of types of memory means are provided. And selecting means for selecting an optimum memory means among the plurality of types of memory means in accordance with an output of the code signal detecting means, and recording the received video signal in the optimum memory means selected based on the code signal. .
[0019]
Further, it is preferable that the selected optimum memory means is selectively displayed on the television device or the remote controller, and that the remaining memory amount of the selected optimum memory means is displayed on the television device or the remote controller. Made it possible.
[0020]
Further, the recording medium of the plurality of types of memory means is detachable from the outside of the multimedia recording apparatus, and the recording medium of the plurality of types of memory means is at least an optical disk using a disk-shaped recording medium and a writable / readable medium. And a semiconductor storage medium.
[0021]
Further, the present apparatus is a video signal classified into a plurality of categories, receiving means for receiving a category ID signal corresponding to the category, a category ID signal detecting step for detecting the category ID signal received by the receiving means, There are a plurality of types of memory means having different recording methods, and a memory capacity detecting step of detecting a recordable capacity of the plurality of types of memory means. And comparing the output of the category ID signal detection step with the output of the memory capacity detection step to select an optimum memory means among the plurality of types of memory means. A method of recording in the optimum memory means selected based on the ID signal is adopted.
[0022]
The apparatus further comprises a receiving means for receiving a video signal classified into a plurality of categories, a category ID signal including a memory means selecting code signal, and a code signal detecting means for detecting a memory means selecting code signal in the category ID signal. And a plurality of types of memory means having different recording methods, and a memory capacity detecting step of detecting a recordable capacity of the plurality of types of memory means. And a selecting step of selecting an optimum memory means among the plurality of types of memory means in accordance with an output of the code signal detecting means, and selecting a video signal to be received based on the optimum memory means selected based on the code signal. The above problem was solved by adopting a method of recording in the means.
[0023]
According to the present invention, in a television apparatus provided with a large-capacity memory, a broadcast service to be recorded or desired program software can be used in response to a category ID signal including a category and a time length from such various large-capacity memory means. Since the optimum memory means is selected for recording, it is possible to always realize the optimum recording state.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a multimedia recording device and a recording method as an embodiment of a data receiving device of the present invention will be described with reference to FIGS.
[0025]
FIG. 1 is a conceptual diagram of a multimedia recording device according to an embodiment of the present invention, FIG. 2 is a diagram illustrating an example of a remote controller (remote control) unit of the multimedia recording device according to an embodiment of the present invention, and FIG. FIG. 4 is a diagram showing a broadcast station center related to the multimedia recording apparatus according to the embodiment of the present invention, FIG. 4 is a block diagram showing a main part of the multimedia recording apparatus according to the embodiment of the present invention, and FIG. FIG. 6 is a schematic diagram for explaining ID signal allocation of the embodiment, FIG. 6 is a flowchart for explaining a first specific example of the multimedia recording apparatus of the embodiment of the present invention, and FIG. FIG. 4 is a flowchart for explaining a second specific example of the multimedia recording device according to the embodiment;
[0026]
First, the configuration of a multimedia recording apparatus according to an embodiment of the present invention will be described with reference to FIG. Reference numeral 1 is an example of the multimedia recording apparatus according to the embodiment of the present invention, and reference numeral 2 is a remote controller for mainly operating the multimedia recording apparatus 1 according to the embodiment of the present invention. Reference numeral 3 denotes a display unit capable of displaying a desired image on a multi-screen or a small screen capable of zooming in and out. The display unit 3 displays the operating status of the multimedia recording apparatus 1 and the memory means built in or optionally loaded. The current selection status is displayed (3A), and the remaining amount of the memory means is displayed (3B).
[0027]
The multimedia recording apparatus 1 has a drive device such as a MD 17A, a CD 17B, a DVD 17C, a DVTR 17D, and a RAM 17E, which is a large-capacity memory 17, built in a television device or can be loaded as an option. The large-capacity memory 17 is capable of recording / reproducing broadcast services to be recorded and desired program software. The memory means of the large-capacity memory 17 includes an automatic selection mode and a manual selection mode. It is possible to select the desired memory means. These selections are designated by operating the operation unit 5 or the remote control unit 2 and displayed on the display unit 3. Reference numeral 5A denotes a light receiving section for receiving a signal from the remote controller 2.
[0028]
This figure shows a state where all of the various memory means are valid, and shows a state where the CD of the memory means is automatically selected. The same content displayed on the display unit 3 of the multimedia recording device 1 can be displayed on the display unit of the remote control unit 2 together with various control information.
[0029]
FIG. 2 shows an outline of the remote control unit 2, and includes an infrared transmitting unit 6 for transmitting infrared and radio waves on which various control signals necessary for operating the multimedia recording apparatus 1 according to the embodiment of the present invention are superimposed. An LCD panel unit 7 for displaying, a jog dial 8 for controlling fast-forwarding and rewinding, and other operations; a memory remaining amount display switch 9 for performing an operation of displaying the remaining amount of the memory means on the display unit 3 of the multimedia recording apparatus 1; , A memory device mounted therein as an option or a memory device selection switch 10 for selecting an automatic selection mode or a manual selection mode.
[0030]
Next, the configuration and operation of the multimedia recording apparatus according to the embodiment of the present invention will be described with reference to FIGS. FIG. 3 shows an example of a broadcasting station center on the broadcast transmitting side. Reference numeral 1 in FIG. 4 denotes a multimedia recording apparatus according to the embodiment of the present invention, and reference numeral 2 denotes a remote controller. First, the broadcasting station center shown in FIG. 3 includes a broadcasting camera 101 for transmitting a program and information from a relay station, a video server 102 serving as a data bank, and a video server 103 serving as a data bank of a movie distribution company. From the transmission device 104.
[0031]
The broadcast signal in the transmission device 104 is a normal program A such as sports, news, quizzes, and commercials, regional information B, book materials C that can be freely viewed by the user, and services such as home medical care. Medical registration D, home shopping E, game F, TV guide G that provides program software information for television broadcasting, karaoke H, message advertisement J as a means of transmitting information between users and local community information, movie software K, etc. All of these broadcast signals are added with an ID code such as time information and category contents by an ID code generator 105 and edited by a video editing device 106, and then are transmitted by a terrestrial or broadcast satellite 107, a coaxial cable, or the like. The data is transmitted to each user via the optical cable 108.
[0032]
In the multimedia recording apparatus 1 shown in FIG. 4, a broadcast signal is received by a tuner 13 via a receiving antenna 11 for receiving a broadcast signal and a CATV receiver 12. A digital broadcast signal or a broadcast signal that is a current analog broadcast signal is input to the switch / IO 14 unit. The switch / IO 14 selects a broadcast signal under the control of a central processing unit 15 (hereinafter simply referred to as “CPU”) to obtain designated data.
[0033]
When the broadcast signal is an analog broadcast signal, the broadcast signal is transmitted to the encoder 16 to encode the data into, for example, the MPEG2 system, MPEG2 video, and MPEG2 audio. The encoder 16 performs an encoding process for encoding the input analog broadcast signal into a recording format that matches the large-capacity memory 17. However, since the digital broadcast signal does not need to be encoded, it is processed by the encoder 16 as a digital broadcast signal without being processed, sent to the large-capacity memory 17, and recorded.
[0034]
The large capacity memory 17 includes an MD 17A, a CD 17B, a DVD 17C, a DVTR 17D, a RAM 17E and the like. The buffer memory 18 performs a so-called cache memory operation such as temporary standby of a broadcast signal. Although not shown, the CPU 15 has a built-in ROM, and a predetermined control program is stored in the ROM, whereby the control operation of the multimedia recording apparatus 1 is smoothly promoted.
[0035]
The format configuration (not shown) of the broadcast signal transmitted from the broadcast station center shown in FIG. 3 is such that a header section in which necessary information for recording broadcast contents (program software) is recorded in advance and a broadcast signal section are minimum. The broadcast program is composed of a packet including a limited number of packets, and this packet is always transmitted at the beginning of the broadcast program. A category code or the like for searching for broadcast contents is added to the header portion and transmitted. The program decodes the program 19 and decodes the category code added to the broadcast contents to read and send the decoded code to the CPU 15. The CPU 15 classifies a predetermined category area based on the category code, and sends it to the switch / IO 14 via the switch control 20. An optimal large-capacity memory 17 is selected by the switch / IO 14 unit.
[0036]
The contents recorded in the large-capacity memory 17 are subjected to decoding processing such as decompression by the decoder 21 and restored as a composite video signal or RGB component signal. It is displayed on the display unit 3 such as a liquid crystal display device. In addition, the multimedia recording device 1 is provided with a telephone line 24, and it is possible to automatically settle a pay broadcast or the like from a user's bank account. The CPU 15 includes a light receiving unit for receiving a signal from the remote controller 2, decodes the signal according to the control format transmitted from the remote controller 2, and performs processing within the CPU 15.
[0037]
The ID signal allocation according to the embodiment of the present invention will be described with reference to FIG. FIG. 2 shows an example of a program ID added to the header of a digital broadcast signal and transmitted. The configuration of the ID signal allocation is roughly classified into a program ID 50, a recording control 51, and a broadcast program 52. The program ID 50 includes necessary information for retrieving broadcast contents. The recording control ID 51 is inserted at the start position and the end position of the broadcast program 52. An instruction signal of (normal recording or long-time recording), a control signal of recording end, and a control signal of a rewind instruction after recording are inserted.
[0038]
As for the category content L in the program ID 50, for example, in the broadcast program 52 received with an ID code such as “0011”, the last “11” indicates the live broadcast category. The program content M is information about what kind of broadcast program is currently being received and in what form of broadcast. The structure is header information, program title, and if the program is a movie, the name of the distribution software company of the movie, The name of the person is shown and the correspondence with the ID code is shown. If the program is paid, the fact is displayed, and the reception fee is settled after being associated with the user ID. As for the current time N, the device has an automatic time setting function, and the accurate time in the area is built in, which is useful for timer reservation and the like.
[0039]
The channel allocation information O indicates the status of allocation of the broadcast program to each channel, the broadcast start date and time information P indicates the broadcast start date and time as the broadcast start information, and broadcast schedule information for about one week from the current time is broadcast. Useful for reservations etc. The broadcast end date / time information Q indicates the broadcast end date / time as broadcast end information. In the case of R, a digital broadcast signal is broadcast by compressing a video or audio signal according to, for example, the MPEG2 standard. However, since the compression ratio changes for each program, the R is broadcast with its format information added.
[0040]
Further, specific examples of the embodiments of the present invention will be described with reference to the accompanying drawings.
[0041]
First specific example
In this embodiment, an ID code indicating the content and time information of each video signal transmitted together with each program software from a broadcasting station center is detected on the receiver side, and the properties and configuration of its own memory means are further determined. Alternatively, an example in which the remaining memory recordable amount is detected and the optimum memory means is automatically selected according to the detection result will be described with reference to FIG.
[0042]
After starting the control operation (step SP1), the CPU 15 checks the large-capacity memory possessed by the multimedia recording apparatus 1 in step SP2. In step SP3, the recordable remaining capacity of the large-capacity memory owned by itself is checked and stored. In step SP4, the information of the broadcast start, broadcast end, and broadcast time length of various ID codes of the received broadcast program is read and stored. Subsequently, in step SP5, the code of the program selected by the user is checked and stored. At this time, if the user makes a program reservation, the program is preferentially accepted. In step SP6, the ideal use memory means is selected.
[0043]
At step SP7, it is determined whether or not the remaining storage capacity of the selected memory means is sufficient. If the remaining storage capacity is sufficient, the process proceeds to step SP8. If not, the process proceeds to step SP6. Return to In step SP8, the state of coincidence of the broadcast times is confirmed, and if they match, the recording operation is terminated (step SP9). If they do not match, the procedure returns to step SP8 to act to match the broadcast times.
[0044]
Second specific example
The present embodiment is an example in which a memory unit having a higher priority is automatically selected based on a selection instruction code signal of an optimum memory unit transmitted from the broadcasting station center together with each program software. This will be described with reference to FIG.
[0045]
Similarly, after starting the control operation (step SP1), the CPU 15 checks the large-capacity memory of the multimedia recording device 1 in step SP2. In step SP3, the recordable remaining capacity of the large-capacity memory owned by itself is checked and stored. In step SP4, the information of the broadcast start, the broadcast end, the broadcast time length, and the memory designation code instructed by the broadcast station center of the received broadcast program are read and stored. Subsequently, in step SP5, the code of the program selected by the user is checked and stored. In step SP6, the ideal use memory means is selected by specifying the broadcast station center.
[0046]
At step SP7, it is determined whether or not the remaining storage capacity of the selected memory is sufficient. If the remaining storage capacity is sufficient, the process proceeds to step SP8. If not, the process proceeds to step SP6. Return. In step SP8, the state of coincidence of the broadcast times is confirmed, and if they match, the recording operation is terminated (step SP9). If they do not match, the procedure returns to step SP8 to act to match the broadcast times.
[0047]
In the above embodiment, the automatic recording mode in which the multimedia recording apparatus automatically selects and records the recording medium has been mainly described. However, it is needless to say that a desired program software is selected as in a normal television apparatus with a built-in recording apparatus. In this case, a manual operation for recording data on a desired recording medium is also possible. In this case, the desired program software is instructed to the tuner 13 by a program software selection switch (not shown) by the remote controller 2 shown in FIG. Similarly, a desired recording medium is instructed from the remote controller 2 to the CPU 15 to start a recording operation.
[0048]
In addition, the recording medium incorporated in the multimedia recording device is not limited to the example described in the embodiment, but covers all the recording media expected to be developed in the future, and the multimedia recording device is also included in the embodiment described above. It goes without saying that it can be developed into various forms without being bound.
[0049]
【The invention's effect】
As described above, as a data receiving device of the present invention, for example, a future multimedia-compatible television device can incorporate various types of large-capacity memories such as MD, CD, DVD, DVTR, and RAM. Is likely to be adopted. These large-capacity memories have been improved in function, capacity, and quality as they evolve, and are likely to be incorporated not only into the television device from the beginning but also into the television device as an option. According to the data receiving device of the present invention, even with the arrival of such a multimedia device, the user fails in the received broadcast program in an optimal state without special consideration of the functions and properties of the large-capacity memory owned by the user. It is possible to record without.
[0050]
For example, the longest recording time of a large-capacity memory owned by the user, ease of access after recording, image quality of recorded / reproduced images, and the like are always determined by the CPU of the television device owned by the user, and programs to be received are also determined. Since the type of software is determined by the category ID signal and the optimum memory means is selected, recording does not fail. Further, processing after recording in the large-capacity memory is easy, and the large-capacity memory is organized neatly for each broadcast content, category, or time, so that lending or exchange between users becomes very convenient. Further, it is also possible to record information such as overseas news and overseas market conditions on the MD or CD while the user is asleep, and to listen to the preview the next morning using the simple playback device.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram illustrating a configuration example of a multimedia recording device according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of a remote control unit of the multimedia recording device according to the embodiment of the present invention.
FIG. 3 is a diagram showing a broadcast station center related to the multimedia recording apparatus according to the embodiment of the present invention.
FIG. 4 is a block diagram showing a main part of the multimedia recording apparatus according to the embodiment of the present invention.
FIG. 5 is a schematic diagram for explaining ID signal allocation.
FIG. 6 is a flowchart illustrating an operation of the multimedia recording apparatus according to the first embodiment of the present invention.
FIG. 7 is a flowchart illustrating an operation of the multimedia recording apparatus according to the second embodiment of the present invention;
[Explanation of symbols]
1 Multimedia recording device, 2 Remote control unit, 3 Display unit, 5 Operation unit, 6 Infrared light emitting unit, 7 LCD panel, 8 Jog dial, 9 Memory remaining amount display switch, 10 Memory device selection switch, 11 Reception antenna, 12 CATV reception , 13 tuner, 14, 22 switch / IO, 15 CPU, 16 encoder, 17 large capacity memory, 18 buffer memory, 19 program ID detection, 20, 23 switch control, 21 decoder, 24 telephone line, 50 program ID, 51 Recording control ID, 52 broadcast program, 101 broadcast camera, 102 video server, 103 video server, 104 transmitting device, 105 ID code generator, 106 video editing device, 107 broadcast satellite, 108 optical cable, A regular program, B Band information, C Library and Archives, D medical registration, E home shopping, F game, G TV guide

Claims (11)

In the data receiving device,
Multiple types of memory,
Receiving means for receiving data classified into a plurality of categories, and a category ID signal corresponding to the category;
Category ID signal detecting means for detecting the category ID signal received by the receiving means,
Memory capacity detection means for detecting the recordable capacity of the plurality of types of memories,
Display processing means for displaying the remaining amount of a plurality of types of memories detected by the memory capacity detection means,
Based on the remaining amount display of the multi several memory that is displayed by the display processing unit, and a selecting means for selecting a desired memory from the plurality of types of memories,
A data receiving apparatus for recording the received data in the selected desired memory based on the category ID signal. 2. The data receiving apparatus according to claim 1, further comprising a processing unit for displaying a remaining amount display of the plurality of types of memories detected by the memory capacity detecting unit on a remote controller display unit. 2. The data receiving apparatus according to claim 1, wherein a recording medium including a plurality of types of memories is detachable from outside the apparatus. 2. The data receiving apparatus according to claim 1, wherein the recording medium including a plurality of types of memories includes at least an optical disk using a disk-shaped recording medium and a writable / readable semiconductor storage medium. In the data receiving device,
Multiple types of memory,
Receiving means for receiving data classified into a plurality of categories and a category ID signal including a memory selection code signal;
Code signal detection means for detecting the memory selection code signal in the category ID signal received by the reception means,
Selecting means for selecting an optimum memory from the plurality of types of memories according to an output of the code signal detecting means,
A data receiving apparatus for recording received data in the selected optimum memory based on the memory selection code signal. 6. The data receiving apparatus according to claim 5, further comprising display processing means for displaying the selected optimum memory or displaying the remaining amount of the selected optimum memory. 6. The data receiving apparatus according to claim 5, further comprising processing means for displaying a display of the selected optimum memory or a remaining amount display of the selected optimum memory on a remote controller display unit. 6. The data receiving device according to claim 5, wherein a recording medium including a plurality of types of memories is detachable from outside the device. 6. The data receiving apparatus according to claim 5, wherein the recording medium including a plurality of types of memories includes at least an optical disk using a disk-shaped recording medium and a writable / readable semiconductor storage medium. In a data recording method in a data receiving device having a plurality of types of memories,
A receiving step of receiving data classified into a plurality of categories and a category ID signal corresponding to the category;
A category signal detecting step of detecting the category ID signal received in the receiving step,
A memory capacity detection step of detecting a recordable capacity of the plurality of types of memories;
A display processing step for displaying a remaining amount of a plurality of types of memories detected in the memory capacity detection step;
The display process based on the remaining amount display of the multi several memory that is displayed in step, a selection step of selecting a desired memory from the plurality of types of memories,
Recording the received data in the selected desired memory based on the category ID signal. In a data recording method in a data receiving device having a plurality of types of memories,
A receiving step of receiving data classified into a plurality of categories and a category ID signal including a memory selection code signal;
A code signal detecting step of detecting the memory selection code signal in the category ID signal received in the receiving step;
A selecting step of selecting an optimal memory from the plurality of types of memories according to an output of the code signal detecting step,
A data recording method comprising recording received data in the selected optimum memory based on the memory selection code signal.

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