JP2004112747A - Program reservation network system for digital broadcasting - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To unify maneuverability of program reservation and enable program reservation even from a remote place, even in the case of a receiver of different manufacturers. <P>SOLUTION: An EPG data acquisition means 501 receives a digital broadcast signal from a broadcasting station, and acquires electronic program guide (EPG) data showing a program guide from the signal. A reservation reception means 503 receives program reservation from a user on a web page. A reservation information forming means 504 forms program reservation information containing the received program reservation and a receiver ID of the user, on the basis of the acquired EPG data, and stores the information in a storage device 309. The stored program reservation information is encoded to a control instruction code for controlling program reservation process in a receiver of a broadcasting condition corresponding to a receiver ID, multiplexed by a broadcast signal with a suitable point and broadcasted. In a receiver 105, only a control instruction code having the own receiver ID is extracted, and program reservation processing is performed on the basis of the code. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to digital broadcast program reservation, and more specifically, to improve user operability of viewing reservation and recording reservation (hereinafter referred to as “program reservation”), and to enable program reservation from a remote place. The present invention relates to a program reservation network system for digital broadcasting.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been provided a service of distributing a digitized television signal via a cable and receiving the signal using a digital broadcast receiving device. In such a receiving device, a program is displayed on a television screen by selecting any channel from a plurality of digital broadcast programs by a user operation. Further, information for constructing a program guide called an EPG (Electronic Program Guide) is extracted from distribution data, and for example, a broadcast schedule from the present to one week later is configured as an EPG and is configured to be displayed on a television screen. ing. From the displayed EPG, the user can, for example, make a viewing reservation for a program several days ahead or make a recording reservation. Here, information on such program reservation (that is, viewing reservation and recording reservation) is stored in a non-volatile memory in the digital broadcast receiving apparatus, and when the reserved time comes, the digital broadcast receiving apparatus is used. Is configured to execute a reserved operation.
[0003]
However, since the EPG is usually displayed in a relatively small display area on a television screen, its listing is poor, and the user needs to perform many operations such as scrolling to find a desired program. For this reason, the user refers to a program table published in newspapers or magazines, stores the channel and broadcast date and time of a desired program, and performs a program reservation operation on the EPG based on his / her own memory. ing.
[0004]
By the way, in recent years, the use of the “Internet”, which is a wide-area network system developed worldwide, has rapidly advanced, and the WWW (World Wide Web), which is a wide-area information retrieval system having a hyperlink structure, has been widely used. The WWW discloses information created in a description language called HTML (Hyper Text Markup Language). These pieces of information are provided by a WWW server, and are converted and displayed by a WWW client in a form visible to a user. The WWW client operates on a computer, and recently also operates on a mobile computer terminal, a mobile phone terminal, or the like. Therefore, even with these mobile terminals, it is possible to refer to information provided by a WWW server. . Among the information provided by such WWW servers, there are many information in which a program guide is described in HTML and is disclosed on a web page.
The user can refer to the program guide on these web pages instead of newspapers or magazines.
[0005]
However, even when referring to a program guide on a web page, the user has the same problem as when referring to a program guide for newspapers and magazines. That is, the user needs to find and store a desired program from the program table on the web page, and again find the desired program from the EPG on the screen of the receiving device. What not to do is a burden on the user.
In addition, since the nonvolatile memory for storing the information of the program reservation is limited, it is practically impossible to input all the reservations even if there is one week of EPG information. Only reservations of a certain number are possible.
[0006]
Furthermore, in a digital broadcasting system via a cable, a cable broadcasting company usually lends receiving devices made by a plurality of manufacturers to users in order to provide services. In this case, the reservation operation is generally different if the maker of the receiving device is different. For this reason, when the receiving device lent to the user is replaced, the user needs to remember the operation of the new receiving device. In addition, cable broadcasters need to prepare manuals for each manufacturer and establish a system to support user operations.
Furthermore, when a user has a plurality of receiving apparatuses that are compatible with digital broadcasting in a plurality of broadcasting modes (for example, CS digital broadcasting and BS digital broadcasting), the operation method is different. There is a problem that it is necessary to learn the operation method.
[0007]
Also, if it is necessary to change the operation screen for program reservation, when upgrading the software of the digital broadcast receiving device, visit the user's home or download from the cable broadcaster via the Internet or the like. Therefore, it is necessary to install new software on the receiving device. Since software download is usually performed only for a certain period of time, there is a problem that not all users can download upgraded software.
[0008]
Further, a system capable of making a program reservation from a remote place has already been proposed, but such a system also has various problems as follows.
JP-A-2000-4434 (Patent Document 1) and JP-A-2000-216737 (Patent Document 2) transmit EPG data to a mobile phone terminal via a telephone line and reserve a program in the mobile phone terminal. There is disclosed a system for performing an operation, transmitting program reservation data to a digital broadcast receiving apparatus, and performing program reservation setting. According to such a system, program reservation from a remote place is possible. Japanese Patent Application Laid-Open No. 2001-273239 (Patent Document 3) discloses that an electronic mail in which a control command is written is transmitted using a public telephone line or a mobile phone, and a receiving device for digital broadcasting is transmitted from a mail server. There is disclosed a system which receives the electronic mail and performs program reservation setting in accordance with a control command written in the electronic mail. In these systems, it is necessary to acquire program information with reference to newspapers and magazines, but reservations can be made from remote locations.
However, in these conventional examples in which program reservation can be made from a remote place, a program for setting a program reservation at least via a telephone line requires a modem for connecting a digital broadcast receiving apparatus to the telephone line. As a result, there is a problem that the price increases. Further, it is impossible to make a program reservation while the telephone line is being used for another purpose.
[0009]
Furthermore, as described above, the program reservation by the EPG in the digital broadcast is completed only by specifying the program from the television screen. Therefore, the program reservation in which the channel and the time in the conventional analog broadcast without the EPG are individually specified. It is much easier and more convenient than. However, whether digital or analog broadcasting, each user must make a reservation for each individual program, and if a user forgets to make a program reservation, there is no opportunity to view. There is still the problem of missing.
As a method for solving such inconvenience, Japanese Patent Application Laid-Open No. 2001-184755 (Patent Document 4) discloses a method in which an information terminal is used to connect to a reservation center via a network system and refer to program information. A system is described that enables reservation from a remote location based on program information.
[0010]
[Patent Document 1]
JP-A-2000-4434
[Patent Document 2]
JP 2000-216737 A
[Patent Document 3]
JP 2001-273239 A
[Patent Document 4]
JP 2001-184755 A
[0011]
[Problems to be solved by the invention]
However, in the system disclosed in Japanese Patent Application Laid-Open No. 2001-184755 (Patent Document 4), the receiving device needs to be connected to some kind of communication network system. Therefore, a new communication line or an installation place is secured. There is a problem that you have to do.
Further, in this system, only control of a receiving device in one broadcasting mode (for example, analog terrestrial television) is assumed, and CS digital broadcasting and BS digital broadcasting, which have recently become widespread, and which will become widespread in the future. There is a problem that it is impossible to control program reservation of a plurality of digital broadcast receiving apparatuses over a plurality of broadcast modes such as terrestrial digital broadcasts.
[0012]
Further, this system does not assume control of program reservation in a receiving apparatus in a broadcast mode in which EPG can be used, and independently constructs EPG data based on program guide information from a television station. Therefore, there is a problem in that the system becomes very large as a whole, and a large cost is required for realization.
Further, since the program reservation control of the receiving apparatus is a simple program reservation by designating a channel and time, when the broadcast time of a program, which is one of the features of digital broadcasting, changes, the program reservation time follows. There is a problem that it is impossible to change automatically.
[0013]
The present invention has been made in view of the above-described various problems in the related art, and one object of the present invention is to unify the operability of program reservation even in digital broadcast receiving devices of different manufacturers. It is an object of the present invention to provide a possible digital broadcast transmitting / receiving device.
[0014]
It is another object of the present invention to provide an inexpensive digital broadcast receiving apparatus and transmitting apparatus that enable program reservation from a remote place.
Still another object of the present invention is to provide a receiving device and a transmitting device for digital broadcasting that can increase the number of reservable programs.
[0015]
Another object of the present invention is to provide an automatic reservation method capable of greatly reducing the possibility of a user missing a viewing opportunity due to forgetting to reserve a program.
[0016]
Still another object of the present invention is to provide a remote broadcast program without restricting the method of installing a digital broadcast receiving apparatus or securing a new communication line for the receiving apparatus in a normal broadcast viewing environment. The realization of a reservation.
[0017]
It is another object of the present invention to provide a program reservation system that supports a plurality of broadcasting modes (for example, CS digital broadcasting and BS digital broadcasting) and that does not make the user aware of the distinction of the broadcasting mode. It is realized by.
[0018]
Still another object of the present invention is to provide a program reservation system that makes use of the characteristics of digital broadcasting and can automatically make a program reservation following a change in the broadcast time of a program.
[0019]
Another object of the present invention is to extend the period during which a program can be reserved by an EPG in a digital broadcast receiving apparatus.
Another object of the present invention is to make it possible to reserve a broadcast change even with a limited STB nonvolatile memory.
[0020]
Another object of the present invention is to transmit the information for those reservations to a receiver without being tampered with without being known to a third party.
[0021]
[Means for Solving the Problems]
The present invention relates to a remote reservation system for transmitting operation reservation control information such as output or storage of content to a content receiving device, wherein the operation reservation control information includes a receiver ID for specifying a receiving device to be controlled, The content is transmitted to the receiving device through the same transmission path as that of the content to be transmitted to the receiving device, including operation content such as output or storage of the content.
[0022]
Also, an operation unit for receiving the operation content for performing the reservation control, a receiver ID for specifying the receiving device to be controlled, and operation reservation control information for the receiving device are generated from the received operation content and the receiver ID. Means, a transmission center comprising means for transmitting the generated operation reservation control information to the receiving device on the same transmission path as the content transmitted to the receiving device, and receiving the operation reservation control information; And a receiving device that performs viewing control according to the received operation reservation control information.
[0023]
Further, the transmission of the content to be transmitted to the receiving device is a digital broadcast, and the transmission device includes a unit for multiplexing the generated operation reservation control information for the receiving device into a digital broadcast signal.
[0024]
Also, a user terminal connectable to a communication network, an operation content for performing reservation control from the user terminal via the communication network, and reception of information on a receiver ID for specifying a receiver to be controlled. Means.
[0025]
In addition, a receiver having means for decrypting the encrypted content, and means for encrypting operation contents such as output or storage of the content are provided, and the receiver ID for specifying the receiver does not perform encryption. The decryption of the encrypted operation content such as the output or storage of the content is performed by decrypting the content of the receiving device, or at least using a part of the composite unit. It is characterized by.
[0026]
The present invention also provides means for acquiring electronic program guide (EPG) data relating to an operation relating to transmitted content, and operation reservation control information based on the acquired EPG data and the content of the operation for performing the received reservation control. Creating means, storing means for storing the created operation reservation control information, encoding means for converting the stored program reservation control information into a control instruction code in a broadcast form corresponding to the receiver ID, and an encoded control instruction code And a transmission means for transmitting a remote reservation.
[0027]
The above-mentioned remote reservation system according to the present invention further comprises means for rearranging the stored operation reservation control information in the order of the scheduled broadcast time of the program, and a predetermined number of operations in the future from the present and closer to the current time. Means for providing the reservation control information to the encoding means.
[0028]
Further, in the above-described remote reservation system according to the present invention, the receiving means for receiving the operation content for performing the reservation control and the receiver ID for specifying the receiving device to be controlled is provided on the user terminal connected to the communication network. It is preferable that the network server presents an operation input page for inputting operation settings and operation setting deletion. In this case, it is preferable that the network server is further configured to present, on the user terminal, a page of a program guide represented by electronic program guide (EPG) data. In this case, the system further includes means for determining whether or not the information on the operation setting input on the operation input page can be distributed to the receiving device by the scheduled broadcast time of the program. When distribution is impossible by then, the network server is preferably configured to display the fact on a user terminal through a communication network to notify the user.
[0029]
Further, in the above-described remote reservation system according to the present invention, the remote reservation system further includes operation level storage means for storing in advance a level relating to a user's operation reservation operation, and the network server is configured to input a plurality of operation levels. A page for selectively presenting a page, and when the user accesses the terminal for operation reservation, the operation level of the user is read from the operation level storage means, and an input page corresponding to the operation level is read by the user terminal. Preferably, it is configured to be presented above. Further, the remote reservation system includes an operation history holding unit that stores a user's operation reservation history, and a program table customizing unit that creates a program table of a genre preferred by the user based on the storage content of the operation history holding unit. Preferably, the network server is configured to present both sides of a page representing the program guide created by the program guide customizing means to the user terminal.
[0030]
Still further, in the above-mentioned remote reservation system according to the present invention, when the program reserved by the user is a series of multiple times, a reservation input page capable of reserving the program in series. Is presented to the user terminal, and when the program reserved by the user is broadcasted a plurality of times at different times, a reservation input page capable of reserving another broadcast time is presented to the user terminal. It is preferable that it is comprised so that it may be.
[0031]
The present invention further includes means for detecting a change in the transmission schedule of the content, means for storing the history of transmitted operation reservation control information, and operation associated with the detection of the change in the transmission schedule of the content whose operation reservation has been transmitted. A means for transmitting reservation cancellation information or change information is provided.
[0032]
Further, it is preferable that, when detecting a change in the scheduled transmission of the content, the network server is configured to display the fact on a user terminal through a communication network to notify the user.
[0033]
In the present invention, the transmitting device may further include: a unit for transmitting the digital broadcast; an operation content for performing a reservation control; a receiving unit for receiving a receiver ID for specifying a receiving device to be controlled; Means for generating operation reservation control information for the receiving device from the device ID, means for multiplexing the generated operation reservation control information into a digital broadcast signal, and means for transmitting the multiplexed digital broadcast signal It is characterized by:
[0034]
Also, the receiving device includes a unit for acquiring electronic program guide (EPG) data relating to the content to be transmitted, a unit for performing an operation reservation based on the acquired EPG data, and a receiver ID for identifying the receiving device. ID holding means for holding, means for extracting operation reservation control information multiplexed on the digital broadcast signal, and means for decoding the extracted operation reservation control information. It is preferable to execute a content output or storage operation based on the content.
[0035]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of a program reservation system for digital broadcasting according to the present invention will be described in detail with reference to the drawings. In the present invention, the broadcasting format is not particularly limited. However, in the following, a digital cable television is mainly described as an example, and other broadcasting formats (for example, CS digital broadcasting and BS digital broadcasting) will be described as an example.
[0036]
FIG. 1 is a system conceptual diagram of a network system including a transmitting device and a receiving device of an operation reservation system according to the present invention. The present invention can be applied to various content distribution systems such as a facsimile distribution service, a mail distribution service, and Internet broadcasting. As an example, an example in which the present invention is applied to digital broadcasting will be described. In the following description, as a broadcasting company, a cable broadcasting company will mainly be described as an example. However, there is no particular limitation on the broadcasting company, and other broadcasting forms (for example, CS digital broadcasting and BS digital broadcasting) can be used. It is possible. Also, in the following, the broadcaster and the reservation service provider are described as being the same, but the broadcaster and the reservation service provider may be different.
[0037]
As shown in FIG. 1, the cable broadcasting company 104 and the receiving device 105 for digital broadcasting are connected by an optical network or a coaxial network, and a broadcast signal is transmitted from the cable broadcasting company 104 to the receiving device 105. I have. The cable broadcaster 104, which also serves as a reservation service provider, is connected to the Internet 103, which is a communication network, and a user can access the cable broadcaster 104 from the personal computer 101 or the portable terminal 102 via the Internet. It is possible to access the web server and send and receive data for program reservation.
The communication network can also be applied to other services such as a push-phone reservation service for a subscriber line telephone, a mobile phone data communication service, a multimedia terminal service network installed in a convenience store, a captain system and a cable broadcasting network, In the following description, the Internet, which is widely used, will be described as an example.
[0038]
FIG. 2 is a block diagram showing an embodiment of a digital broadcast receiving apparatus having a program reservation function according to the present invention, which is applicable as the receiving apparatus 105 in the network system shown in FIG. is there. In the receiving apparatus of FIG. 2, a broadcast signal received via a cable is input to a tuner 201, frequency selected, input to a demodulator 202, and demodulated. The output of the demodulator 202 is sent to a transport stream separation unit (TS separation unit) 203 as a transport stream (TS), and packets are separated. In the TS separation unit 203, the video data is separated into MPEG video data, MPEG audio data, and additional information including EPG data and control instruction codes. The MPEG video data separated by the TS separation unit 203 is sent to the video processing unit 206 and decoded. The MPEG audio data is sent to the audio processing unit 204, decoded, and sent to the audio output terminal 205.
[0039]
The additional information separated by the TS separation unit 203 is stored in the memory 210 via the control unit 211. The EPG data in the attached information stored in the memory 210 is processed into EPG generation data by the control unit 211 and sent to the on-screen generation unit 207. The on-screen generation unit 207 generates display data from the EPG generation data. The display data is superimposed on the video signal decoded by the video processing unit 206 and sent to the video output terminal 208.
[0040]
On the other hand, the control instruction code in the attached information stored in the memory 210 is processed as follows. That is, in the nonvolatile memory 209 connected to the control unit 211, a receiver ID for identifying a receiving device for digital broadcasting is stored in advance. The control command code extraction unit 212 extracts only the control command code corresponding to the receiver ID from the memory 210 via the control unit 211, and sends the control command code to the control command code decoding unit 213 via the control unit 211. The control instruction code decoding unit 213 performs decoding according to the content of the control instruction code, and thereby generates, for example, reservation setting information. The decoded reservation setting information is stored in the reservation management unit 214 via the control unit 211, as in the case of the reservation setting of the conventional example performed on-screen. The execution processing of the program recording or the like based on the reservation is the same as the conventional case, and when the reservation time comes, the channel designated for reservation is selected.
[0041]
FIG. 3 is a block diagram showing one embodiment of a transmission apparatus for digital broadcasting according to the present invention, which is applicable as the cable broadcasting company 104 in the network system shown in FIG. As shown in FIG. 3, a BS digital broadcast wave is received by a BS receiver 302 via an antenna 301, and high-frequency processing and demodulation are performed. A transport stream (hereinafter, referred to as a “broadcast TS”) output from the BS receiver 302 is sent to a TS multiplexing / demultiplexing device 303, where the data size of the BS digital broadcast is reduced to a data size that can be distributed via a cable. Larger, it is separated into deliverable sizes. On the other hand, the reservation information set by the user via the WWW server 308 via the Internet is stored in the storage device 309, and is sent to the reservation information encoding device 306 under the control of the reservation information management device 307. A plurality of reservation information encoding devices 306 can be prepared corresponding to a plurality of broadcast formats, and the reservation information management device 307 belongs to an appropriate broadcast format from among a plurality of broadcast formats as a transmission destination of the reservation information. The reservation information encoding device 306 is selected.
[0042]
The operation of the reservation information management device 307, the method of receiving the reservation information, and the transmission of the reservation information to the reservation information encoding device 306 will be described later in detail with reference to FIG.
The reservation information encoding device 306 generates a control command code (see FIG. 5) corresponding to the receiver ID from the reservation information, and sends it to the carousel transmission device 310. The carousel transmitting device 310 repeatedly sends a control command code to the TS demultiplexing device 303 at predetermined intervals. The TS multiplexing / demultiplexing device 303 inserts a control command code into a packet (NULL packet) of the broadcast TS without data, or an independent TS configured by the control command code (hereinafter, referred to as a “control command TS”). To generate either. The TS demultiplexer 303 sends the broadcast TS including the control command code, or the broadcast TS and the control command TS to the 64QAM modulator 304. The multiplexing control device 311 controls the transmission timing of the carousel transmitting device 310 and the insertion timing of the control command code in the TS demultiplexing device 303. The 64QAM modulator 304 performs 64QAM modulation and addition of an error correction code, and sends the result to the RF transmitter 305.
[0043]
Various methods can be considered when the control command code is transmitted from the carousel transmission device 310. A method of starting transmission immediately when reservation information is received, a method of starting transmission when the time to start a reserved operation approaches, a method of continuing transmission whenever possible, or And their combinations. In particular, when the control instruction code is transmitted for a certain period immediately before (for example, one minute before) the reserved operation should be started, the power supply and the power supply are turned on at a time almost close to the time when the reserved operation is to be performed. As long as it is connected to the transmission medium to which the content is sent, which is indispensable for executing the reservation operation, it is almost certain that the operation can be reserved, and the receiving device records only one operation reservation at a time. There is an advantage that it should be possible. (In the case of the operation reservation for saving the content, it may occur if the storage cannot be performed depending on the state of the recording device.) Conversely, if the operation reservation fails in this method, even if the operation reservation is made, This means that the receiving device is in a state where the content cannot be received, and the content cannot be received even if the receiving device starts the reserved operation. Regarding the power switch of the receiving device, it is desirable that the power of the portion for receiving the reservation information and making an operation reservation is in a different system from the normal main power supply, and is in a form of constantly flowing.
Further, if the receiving apparatus always starts the reserved operation after a certain period of time after receiving the operation reservation information, the receiving apparatus controls the reservation operation start time of the receiving apparatus by transmitting the operation reservation information. This makes it unnecessary to explicitly include the start time in the operation reservation information to be transmitted, thereby reducing the amount of data transmitted per operation reservation.
[0044]
Here, the reservation setting operation in the digital broadcast receiving apparatus 105 shown in FIG. 2 will be described with reference to the flowchart shown in FIG. 4 and an example of the control command code in FIG. As described with reference to FIG. 1, a signal is transmitted from the cable broadcaster 104 having the program reservation service function to the receiving device 105. The tuner 201 of the receiving device 105 Upon receiving the transport stream (TS) including the control instruction code, in step S102, the TS separation unit 203 separates the attached information from the TS, and the control instruction code extraction unit 212 extracts the control instruction code from the attached information. , With reference to the control instruction code ID of the data structure shown in FIG. Next, in step S103, the control instruction code extraction unit 212 reads out the receiver ID from the nonvolatile memory 209, and in step S104, the receiver ID is included in the control instruction code separated by the control instruction code extraction unit 212. It is determined whether it is the same as the existing one. If they are the same, the process shifts to step S105 to determine whether there is a control command code following the receiver ID. If the determination in step S105 is affirmative, ie, YES, in step S106, the corresponding control instruction code is decoded by the control instruction code decoding unit 213 to obtain reservation information.
[0045]
Thereafter, in step S107, it is determined whether or not the reservation information is “reservation setting” (represented by “reservation setting / deletion command” in FIG. 5), and if the result of the determination is YES, then in step S108 The control unit 211 determines whether or not the reservation information is stored in the reservation management unit 214. If the reservation information is not stored, the reservation information (such as a channel number, a start date and time, an end date and time, and an external device control command) is stored in the reservation management unit 214 in step S110. If the reservation information has already been stored, the process returns from step S108 to step S105 without executing the reservation setting. Then, it is again checked whether there is a control instruction code, and steps S105 to S110 are repeated until there is no control instruction code.
If the reservation information is “reservation deletion” (represented by the “reservation setting / deletion command” in FIG. 5) in step S107, the process proceeds to step S109, where the control unit 211 Delete the corresponding reservation information.
[0046]
Here, the data structure of the control instruction code in FIG. 5 will be described in detail. The “control instruction code identification ID” indicates that the control instruction code is a control instruction code. Based on this, the control instruction code can be separated from the attached information as described above. The “receiver ID” is an ID uniquely assigned to the digital broadcast receiving device, and can identify the digital broadcast receiving device. The “data length” indicates a subsequent data length in the data structure, and the receiving device can determine the number of repetitions based on the data length. The “reservation setting / deletion command” indicates whether subsequent information in the control instruction code is a reservation setting or a reservation deletion. “Channel number” indicates channel information of the reserved program. “Start date and time” indicates the reservation start date and time, and “end date and time” indicates the reservation end date and time. The “external device control command” sets whether to control a recording device such as a VTR from a digital broadcast receiving device when making a recording reservation or the like. “CRC” is data for detecting an error. In the present embodiment, the example of the “reservation setting / deletion command” mode is described. However, other commands such as “operation lock for preventing malfunction of the receiver” may be set.
[0047]
In order to set a plurality of such reservation information for one receiver ID, the data from the reservation setting / deletion command to the external device control command are repeatedly described in the data structure. Digital broadcast receiving devices from different manufacturers and having different user interfaces can be controlled by a common control command code as long as the receiving device can convert the control command code into reservation information.
[0048]
Next, in the network system shown in FIG. 1, a processing operation when a user makes a reservation setting via the Internet 103 using the personal computer 101 will be described with reference to FIGS.
FIG. 6 shows an example of screens 401 to 404, which are web pages for the user to make a reservation setting. These screens are used by the user to access a website for providing a program reservation service of the cable broadcaster 104. Is displayed on the display of the personal computer 101 of the user. Each screen is created in an HTML description language and can be displayed by a WWW browser.
When the user inputs a user ID, a user name, and a password on the user registration screen 401 in FIG. 6, the user is registered as a member on the website of the cable broadcaster 104, and the user ID, user name, And the password are used for user authentication at the time of the subsequent program reservation.
Note that the user ID can be used to identify a digital broadcast receiving device to be controlled. That is, when the user has a plurality of receiving apparatuses 105 in a plurality of digital broadcasting modes (for example, CS digital broadcasting and BS digital broadcasting), the receiver ID of the receiving apparatus 105 to be controlled is received. A plurality of devices can be registered on the device registration screen 406 (FIG. 15).
[0049]
The “existence” or “absence” of the external device control function on the user registration screen 401 in FIG. 6 indicates whether or not the digital broadcast receiving device used by the user has a function of controlling an external device such as a VTR. Is what you do. The “maximum number of reservations” is for registering the maximum number of programs that can be reserved via the transmission device of the cable broadcasting company 104 for digital broadcasting according to the present invention. The number of reservation information that can be registered in the receiving device 105 differs depending on the manufacturer and model. This depends on the size of the mounted nonvolatile memory. For example, even when a maximum of 20 programs can be reserved in a digital broadcast receiving device, if the maximum number of reservations is set to 15, only 15 programs are registered in the receiving device. As a result, the receiving apparatus 105 can set up to 15 programs as usual.
[0050]
6 has a larger display area than the EPG displayed on the television screen, and thus has a good listing, so that the user can easily search for a desired program.
The reservation setting screen 403 displays the channel of the program to be registered or deleted, the start and end dates and times, and the program contents, and can be confirmed before registration or deletion. “Yes” or “No” of the external device control is to set whether or not the digital broadcast receiving device controls an external device such as a VTR.
The reservation confirmation screen 404 displays a list of programs for which reservation registration or reservation deletion has been set. Programs whose reservation date and time have passed are not sequentially displayed.
[0051]
When the user accesses the website for providing the program reservation service of the cable broadcaster 104 using the WWW browser of the personal computer 101, a user authentication screen is displayed in step S201. Although not shown, the user authentication screen includes input fields for inputting a user ID, a user name, and a password. The user enters the user ID and password on the user authentication screen.
When input, if it is determined that the authentication is OK in step S202 and it is determined that the user has been registered in step S203, the process proceeds to step S205, and the program guide screen 402 is displayed. If the authentication is not OK, the input of the user authentication is required again. If the user registration is insufficient or the user wants to make a change, a user registration screen 401 is displayed in step S204, and the user sets a password, sets whether or not the external device control function is provided, and sets the maximum number of reservations.
[0052]
In step S206, when a program is selected on the program guide screen 402 (the screen 402 in FIG. 6 shows a state in which “movie” is selected), a reservation setting screen is displayed in step S208. . On the reservation setting screen 403, the channel number, start, end date and time, and program contents of the selected program are displayed. When the external control device is set to “Yes” on the user registration screen, “Yes” or “No” for the external device control can be selected on the reservation setting screen 403. In step S209, it is determined that either "reservation registration" or "reservation deletion" has been selected on the reservation setting screen 403, in step S211 it is determined that the reservation has been made in the same time zone, and in step S212 If it is determined that the reservation registration has been selected, in step S213, "already reserved in the same time zone" is displayed.
[0053]
On the other hand, if the reservation has not been made in the same time zone, or if the reservation deletion is selected instead of the reservation registration, the process proceeds to step S214. In this step, it is determined whether the control command code can be transmitted by the reservation start time based on the current time and the number of registered reservation information of all the subscribers. If the transmission is not in time, step S215 Displays "Transmission is not in time." If the transmission is in time, the reservation information is stored in the storage device in step S216.
[0054]
In this way, since the reservation setting is performed on the web, even if the receiving device is of a different manufacturer or a receiving device corresponding to a plurality of broadcasting modes (for example, CS digital broadcasting and BS digital broadcasting, etc.), it is unified. Can be a reservation operation. This makes it extremely easy for cable broadcasters who have installed receiving apparatuses from a plurality of manufacturers to support users.
In addition to the above, when a user has receiving devices of a plurality of manufacturers or owns receiving devices corresponding to a plurality of broadcasting modes (for example, CS digital broadcasting and BS digital broadcasting, etc.), There is an advantage that it is possible to make a reservation for all devices by the above operation.
[0055]
Further, since the reservation setting screen 403 is created in the HTML description language, it is possible to easily and inexpensively enhance the program reservation service function of the cable broadcaster 104. Furthermore, by previously determining the user's operation ability level and associating the user's operation ability level with the user ID, it is possible to set the operation screen to a simple one or an advanced one according to the user's operation ability level. Thereby, even if the user who is accustomed to the reservation operation and the user who are not accustomed use the same digital broadcast receiving device, the accustomed user is an advanced user and an unskilled user. Can be provided with a simple one. Further, since the reservation information is stored in a large-capacity storage device such as a hard disk provided on the web server side, the reservation information does not run out.
[0056]
Next, the operation of the reservation information management device 307 in FIG. 3 will be described with reference to FIGS.
FIG. 8 shows an example of a reservation information management table 801, 802, 803 for each receiving device storing reservation information and a reservation information transmission table 804 used when transmitting the reservation information. The reservation information management table 801 manages the reservation information of the receiver ID 0001, and registers a reservation date and time, a reserved program channel, and “Yes” or “No” for external device control. Registration and deletion of reservations are managed separately. In both registration and deletion, the reservation start date and time are arranged in the order of earliest. The reservation information management table 802 represents a reservation information management table of the receiver ID 0001 after a new reservation is made by the user, which will be described later. The reservation information management table 803 manages reservation information for the receiver ID 0002. The reservation information transmission table 804 is a table in which reservation deletion information of all the reservation information management tables 802 and 803 after a new reservation is made by the user and reservation registration information within the maximum reservation number. Here, the reservation information is arranged in the order of deletion and registration, and each is arranged in the order of earlier reservation start date and time.
[0057]
FIG. 9 shows a processing procedure of the reservation information management apparatus 307. When a user performs a reservation operation, it is determined in step S401 whether or not the number of reservations is equal to or greater than the maximum reservation number. If the number is equal to or greater than the maximum number of reservations, it is determined in step S402 whether the new reservation information is earlier than the maximum number of reservation start times in the reservation information management table. For example, if the broadcast time of the input reservation is the reservation date and time earlier than 22:00 of 12/2 in the reservation information management table 801, the determination in step S402 becomes YES, and the process proceeds to step S403, where the maximum reservation is made. The number-th reservation information is stored in the reservation information management table as reservation deletion. The reservation information management table 802 is a reservation information management table after new reservation information is registered and reservation deletion of the reservation information of the maximum reservation number is registered. Then, the process proceeds from step S403 to step S404, where the newly input reservation information is stored as a registration in the reservation information management table. When the determinations in steps S401 and S402 are NO, the process also proceeds to step S404.
[0058]
Next, in step S405, the reservation information management tables 802 or 803 are rearranged in ascending order of the start date and time. The reservation information transmission table 804 is rewritten as data to transmit the reservation registrations within the reservation number. Then, in step S407, the reservation information whose reservation start date and time has passed is deleted from the reservation information management table 802 or 803 and the reservation information transmission table 804, and the reservation registration information is stored in the storage device as history information. , Sends the reservation information transmission table to the reservation information encoding device 306.
[0059]
The update of the reservation information transmission table 804 is performed periodically, or when the reservation registration information stored as a history in the recording device has passed the reservation start date and time, or the time at which the reserved operation should start is approaching. This is also performed at times, and the reservation registration transmission that has received the maximum number of reservations or more is sequentially performed. Only the maximum number of reservations that can be set in the receiving device is stored in the reservation information transmission table 804, and only these reservations are transmitted to the receiving device, so that no program reservation is set in the receiving device. There is no. Also, the reserved information is stored in the storage device as history information, so that it is possible to provide a popular program based on the history information.
[0060]
According to the above embodiment, even if the receiving device is for digital broadcasting from a different manufacturer or a receiving device corresponding to a plurality of broadcasting modes (for example, CS digital broadcasting and BS digital broadcasting, etc.), By accessing a web server for providing a reservation service of a cable broadcasting company via the Internet, a unified user interface reservation operation can be performed from a remote place. Further, it is possible to make a reservation more than the number that can be reserved by the own receiver.
[0061]
FIG. 10 shows an embodiment of an automatic reservation system 307 according to the present invention. The automatic reservation system 307 includes an EPG data acquisition unit 501, an EPG data search unit 502, a reservation reception unit 503, a reservation information creation unit 504, It comprises a reservation information transmitting means 505.
The automatic reservation system 307 has a function equivalent to that of the reservation information management device 307 in FIG. Therefore, the automatic reservation system 307 can be applied as the reservation information management device 307 in FIG. 3, and in this case, the automatic reservation system 307 constitutes a part of a transmission device for digital broadcasting. FIG. 10 also shows a storage device 309, which is also denoted by the same reference numerals as in FIG. A storage area is efficiently arranged in the storage device 309 so that a plurality of broadcast-form EPG data can be stored and searched.
[0062]
The operation of the automatic reservation system 307 will be described in detail below, taking two examples of a plurality of broadcasting modes, BS digital broadcasting and CS digital broadcasting.
FIG. 11 is an example of a processing flow of the EPG data acquisition unit 501 in the automatic reservation system 307. In step S501, the EPG data acquisition means 501 always receives EPG data continuously transmitted from each broadcasting station. The EPG data continuously transmitted from the broadcasting station is operated on the basis of using exactly the same contents as those used in ordinary broadcasting as it is. It is possible to greatly reduce the load related to the data creation processing for users. Further, since the EPG data is the same as the data used when performing a normal EPG process in a general digital broadcast receiving apparatus, an addition on the receiving apparatus 105 side to support this automatic reservation system is performed. Processing can be minimized to only the degree of decoding of the control instruction code, and it is possible to automatically follow a reservation when the broadcast time of a program, which is a feature of digital broadcasting, is changed. There is no particular limitation on the transmission means of the EPG data, and a method using some communication line other than the direct reception of the broadcast wave can be appropriately adopted.
[0063]
Next, in step S502, the acquired information is compared with the already acquired EPG data in the storage device 309. As a result, if the acquired EPG data is different from the previously acquired EPG data, the process proceeds from step S503 to step S504, and if they are the same, the process ends without doing anything.
In step S504, only the information (for example, broadcast mode, channel number, program ID, broadcast start time, broadcast duration, program title, program description, etc.) necessary for storing the acquired information from the new EPG data is extracted. Then, in step S505, the EPG data is stored in the storage device 309, and the process ends. At this time, since the EPG data is stored in the storage device 309 by the same EPG data storage method as that performed by a general digital broadcast receiving device, special data processing is usually required. However, it is also possible to process data as needed when expanding services.
[0064]
The validity period of the EPG data provided to the digital broadcast receiving device 105 is generally about one week due to the limitation of the memory area that can be mounted on the receiving device. On the other hand, since the automatic reservation system 307 according to the present invention includes the large-capacity storage device 309 on the web server side, the general reservation period that can be used by the reception device 105 is not restricted by the memory area of the reception device. It is possible to provide a reservation service for a longer period.
Through the steps as described above, the automatic reservation system 307 according to the present invention can generate a complicated program ID, generate a special reservation code (for example, G code of Gemstar, etc.) which generates a fee, A reservation service can be provided by simply acquiring and storing a plurality of EPG data in a broadcast form at low cost without constructing a storage area.
[0065]
Next, the operation at the time of receiving a reservation by the reservation receiving means 503 will be described in detail. Normally, the reservation receiving means 503 uses the EPG data searching means 502 in accordance with the content requested by the user, and displays a program table screen similar to a TV column of a newspaper in the program table screen 402 of FIG. 15 (see FIG. 6). Basically, program information of each broadcast form is displayed on a user's personal computer or the like in a format like the screen 402), and the user's program reservation is accepted. The EPG data search means 502 is used in a format similar to a search engine on the Internet, and the program corresponding to the user's ambiguous program designation (eg, keyword) input on the program search screen 407 in FIG. It is also possible to display in a format such as the program search result screen 408 without discriminating the broadcasting mode. Thereby, the user can select a favorite program by a simpler method.
The EPG data search means 502 does not require any special operation, but is provided with general search means such as matching of designated conditions by channel, broadcast mode, broadcast time, keyword, etc., so that processing can be performed. It is possible.
[0066]
FIG. 12 is an example of a processing flow of the reservation receiving unit 503 in the automatic reservation system 307 according to the present invention. First, in step S506, the reservation accepting unit 503 acquires the EPG data of the program selected by the user from the storage area of the broadcast form (for example, CS digital broadcast or BS digital broadcast) to which the selected program belongs in the storage device 309. In step S507, the program selected by the user is searched by the EPG data search means 502. In step S508, it is checked whether the program is a series program. If the program is a series program, a series program reservation screen 409 as shown in FIG. 15 is displayed. The user is asked whether or not to make an automatic reservation continuously without making a reservation. By this step, when a series program is reserved, the probability of missing a viewing opportunity due to the user forgetting to reserve can be greatly reduced.
[0067]
Further, in step S510, it is confirmed whether or not the program is a program to be broadcasted a plurality of times. If the program is a program to be broadcasted a plurality of times, the process proceeds to step S511 to reserve a program to be broadcasted a plurality of times as shown in FIG. A screen 410 is displayed to confirm with the user whether to automatically reserve a plurality of schedules without separately reserving another schedule. By this step, the probability that the user misses the viewing opportunity due to the overlap of the schedule or the trouble of the device can be greatly reduced. Next, in step S512, the received reservation designation information is stored in the storage device 309 in an appropriate form together with information on the broadcast format to which the program belongs (for example, CS digital broadcast or BS digital broadcast).
Regarding the method of accepting reservations, it is assumed that the use of various information terminals such as PCs and mobile phone terminals via the Internet is a normal operation, but reception means that does not go through the Internet, such as mail and FAX, should also be prepared. Accordingly, it is possible to provide a service to a user who does not have a means for connecting to a network system. In this case as well, the method of designating the reserved programs is not limited to the reservation of individual programs, but also the reservation of series programs, continuous reservation of rebroadcast programs, and reservation under ambiguous conditions using keywords. A service content comparable to that of a reservation is realized.
[0068]
FIG. 13 is an example of a processing flow in the reservation information creating means 504 in the automatic reservation system 307 according to the present invention. The reservation information creation unit 504 acquires the reservation designation information stored by the reservation reception unit 503 from the storage device 309 in step S513. Next, in step S514, from the storage device 309, the EPG data of the program described in the acquired reservation designation information and the broadcast mode (for example, CS digital broadcast or BS digital broadcast) to which the program belongs are acquired. In step S515, it is determined whether or not the obtained reservation designation information is a series program reservation. If the reservation specification information is a series program reservation, the process proceeds to step S516 to acquire other times of the reservation EPG data from the storage device 309. Thereafter, in step S517, it is determined whether or not the obtained reservation designation information is a multiple-time broadcast program reservation. If it is a multiple-time broadcast program reservation, in step S518, the reservation EPG data of another schedule is also stored in the storage device 309. get.
[0069]
Then, in step S519, it is determined whether there is a remaining reservation that could not be reserved because there is a future broadcast schedule but no EPG data. If there is a reservation remaining, in step S520, the new storage is stored in the storage device 309. The information is stored together with the broadcast form to which the program belongs (for example, CS digital broadcast or BS digital broadcast) as reservation designation information. Next, in step S521, from the acquired EPG data, a broadcast mode (for example, CS digital broadcast or BS digital broadcast) to which each program to be reserved belongs and a receiver ID for identifying the receiver are included. The reservation information is created and stored in the storage device 309 in each broadcast mode area. Then, in step S522, the reservation designation information is deleted from the storage device 309 for the reservation for which the creation of the reservation information has been completed.
The reservation information created by the reservation information creating unit 504 is configured to be able to be transmitted as it is by a broadcasting station of each broadcasting form as much as possible, thereby minimizing the equipment cost of the entire system and the load on operation. .
[0070]
With reference to the processing flow of FIG. 14, the processing of the reservation information transmitting means 505 in the automatic reservation system 307 according to the present invention will be described. In step S523, the reservation information transmitting unit 505 selects a broadcast format (for example, CS digital broadcast or BS digital broadcast) to be transmitted. Then, in step S524, the reservation information stored in the reservation information creating unit 504 is stored in the storage device. 309 from the storage area for the selected broadcast mode. Then, in step S525, it is determined whether or not the obtained reservation information is before the reservation time. If the reservation time has passed, in step S526, the obtained reservation information is stored in the storage device 309 for the selected broadcast mode. The file is deleted from the storage area, and the process ends. On the other hand, if the reservation time has not passed, the process proceeds from step S525 to step S527, and the reservation information is transmitted toward the selected broadcast mode.
[0071]
The transmission of the reservation information created in this way to the receiving device 105 is performed a plurality of times for each reservation information at regular intervals up to the reservation start time. The receiving device 105 receives the control command code from the reservation information, but the receiving device 105 is configured not to perform the control process even if it receives the same control command code as the control command code once obtained. This makes it possible to avoid a trouble that the receiving apparatus 105 cannot receive the control command code when the power of the receiving apparatus is not turned on or the receiving state is temporarily deteriorated.
When a plurality of broadcast program reservations are specified and the same program broadcasted on a plurality of schedules is reserved for each schedule, at least one of the programs has been successfully reserved by the digital broadcast receiving apparatus 105. By implementing the function of deleting the reservation of the same program later by confirming the above, it is possible to realize a practical reservation operation without performing unnecessary duplicate recording.
[0072]
FIG. 16 shows another example of the receiving apparatus 105 corresponding to a system in which information obtained by combining an unencrypted receiver ID and encrypted information related to an operation of outputting or storing content is transmitted. This is one embodiment.
The function of each part from 201 to 210 and 212 to 214 in FIG. 16 is the same as that of each part in FIG. The CA descrambler 215 decrypts the encrypted information and content included in the transport stream output from the demodulator 202 based on an instruction from the controller 211.
The CA module 216 includes a circuit that generates an identification ID unique to the module and a decryption key for decrypting the encrypted information or content. When a permission to decrypt the target information or content is sent from the transmitting apparatus, a decryption key is generated in accordance with the permission content and transmitted to the CA descrambler 215. Tell if there is. The control unit 211 instructs the CA descramble unit 215 to decrypt the target information or content using the decryption key.
[0073]
FIG. 17 is an example of transmission of a receiver ID of a receiving apparatus to be reserved for operation in digital broadcasting and operation reservation information in the present embodiment. The receiver ID and the operation reservation information are packetized in the same manner as the content using broadcast waves and transmitted as a broadcast TS. As described above, by using the broadcast wave, the operation reservation information can be transmitted without newly providing a special communication line.
A packet ID or the like for identifying the packet is described in a header portion of each packet. The header part is not encrypted. Contents and various information are stored in the payload portion of the packet, and encrypted and transmitted as necessary.
The mechanism of decryption using the CA descramble section and the CA module described above is a method used as an encryption method for pay-broadcast content as CA (conditional access: conditional access), and the operation reservation information is used as the encryption method. Even if the operation reservation information is encrypted in order to prevent what is known to the three parties and to prevent unauthorized operation of the receiving device due to falsification of the operation reservation information, it is easily realized by using the content encryption method. It is possible.
[0074]
The control unit 211 acquires a packet having receiver ID information equal to the ID of the own receiver in the transport stream separating unit 203. The ID of the receiver may be stored in the non-volatile memory 209 as in the above-described embodiment, or may be a system using an identification ID unique to the CA module 216. Since the CA module 216 is normally managed and distributed by a broadcasting company, if the broadcasting company and the operation reservation service provider are the same, it is not necessary to newly specify the receiver ID of the receiving device to be operation-reserved. Often, there is an effect that user management is simplified.
[0075]
FIG. 18 is an example of the data structure of the receiver ID information. The header ID of the packet transmitting the receiver ID and the information describing the corresponding operation reservation information is described. The receiver acquires a packet having the corresponding header ID from the transport stream with reference to the described header ID. For example, if the target packet header ID corresponding to the own receiver ID is described as 3801 in FIGS. 17 and 18, the packet with the header ID of 3801 is acquired. In the acquired packet, the operation reservation information is described as a control instruction code. The receiving device converts the control command code into operation information of the own receiver and performs processing such as reservation.
The above is a case where information combining a receiver ID and information relating to an operation of outputting or storing content is transmitted over a plurality of TS packets. In particular, the receiver ID is one TS packet, Information on the operation is transmitted in another TS packet, which is convenient for processing by CA descrambling.
The packet transmitting the receiver ID information may be encrypted. However, if the packet is not encrypted, the receiving apparatus monitors only the receiver ID information of the packet without performing a decryption operation, and Only when the machine ID information matches the ID of the own receiver, it is sufficient to extract and decode the packet transmitting the information in which the operation reservation information is described, so that the processing related to the decoding can be reduced.
[0076]
FIG. 19 shows an example of the data structure of the control instruction code. Basically, the control command data structure is the same as that of FIG. 5, but the receiver ID is omitted because it is already referred to in the packet representing the receiver ID information, or the receiver ID is different from the receiver ID. A special ID representing data that is commonly referred to may be used. If the program for which the operation reservation is performed is a popular program and many perform the same operation reservation, only the packet describing the receiver ID information is transmitted for each receiver, and the packets describing the operation reservation information are grouped as the same packet. By transmitting the transmission band, the transmission band can be used efficiently. In particular, when the same control code is transmitted even in a model having a different user interface due to a different manufacturer of the receiving device for digital broadcasting as in the present invention, the same operation reservation information is transmitted by broadcasting to more users. It is very effective because it can be transmitted to
[0077]
FIG. 20 is a system conceptual diagram of another embodiment of a network system including a transmitting device and a receiving device of the operation reservation system according to the present invention, and shows a case where a reservation operation is accepted through a communication network other than the Internet. The cable broadcaster 104 is connected to a public network 113. The user performs a reservation operation using the fixed telephone 111 or the mobile telephone 112. The interface for receiving the reservation operation is provided by the data service center 114 operated by the telephone company. The data service center 114 mediates with the cable broadcaster 104 to accept and confirm operation reservations. When a program is changed on the broadcast station side and the reservation is canceled or changed accordingly, the data service center 114 may notify the user of the change to the user's mobile phone or FAX by e-mail or the like. When the operation reservation information is received using a fixed telephone or a mobile phone as in the present embodiment, there is an effect that the operation reservation service provider can actively notify the information.
When the reception of the operation reservation is received by the multimedia terminal 117 or the captain system terminal 118 installed in a convenience store or the like, each of the data service centers 115 and 116 similarly receives and confirms the operation reservation.
[0078]
FIG. 21 is an example of a transmission device of a system for notifying a user of a reservation change notification or a reservation distribution failure notification according to another embodiment of the present invention. A reservation change notifying unit 506 for notifying the user is provided, and is connected to a network capable of making a call.
[0079]
FIG. 22 is an example of a processing flow in the automatic reservation system 307 using the reservation change notification means 506 described above. First, the EPG data acquisition means 501 acquires EPG data in step S601, compares it with the already acquired EPG data in the storage device 309 in step S602, and extracts change information such as cancellation of broadcasting of a program and postponement. .
Next, in step S603, it is checked whether or not a program corresponding to the change is reserved by referring to the transmission history recorded in the storage device 309. If a program corresponding to the change has been reserved, the transmitted reservation registration information of the corresponding program is stored in the reservation information management table as a reservation deletion in step S604.
Further, the reservation information of the corresponding program is stored in the reservation information management table as a newly registered reservation in step S605 in association with the change information, and the reservation information is transmitted in step S606. Although not shown in FIG. 21, the reservation information shown in FIG. 9 is rearranged in this registration and transmission.
In step S607, the fact that the reservation information has been changed is notified to the reservation receiving means 503, so that the next time the user accesses, the contents of the change can be confirmed. Further, the change information may be sent to the change information notifying unit 506, and the change information may be transmitted to the user by a mobile phone, Internet mail, FAX or the like in step S608.
As described above, in the present invention, it is possible to automatically change the reservation when the program is changed. In particular, when the broadcasting company and the reservation service provider are the same, the reservation change information can be easily obtained, so that it is possible to respond quickly and effectively. In addition, digital broadcast receivers usually have a function of making a reservation in response to a change in a program, but even in such a case, the reservation information must be held in the receiver until the reservation start time. In the present invention, the limited memory area in the receiver is occupied. However, in the present invention, the memory area in the receiver can be used efficiently by performing deletion.
Further, by using the immediateness and two-way communication means such as a mobile phone, it is possible to promptly and actively notify the user of the change information.
[0080]
【The invention's effect】
Since the present invention is configured as described above, the following operational effects can be obtained.
The interface for operation can be unified even for digital broadcast receiving devices of different manufacturers with operability such as program reservation.
It is possible to make a program reservation from a remote location.
In the receiving device, it is possible to increase the limited number that can be reserved.
Even if the broadcasting form is different, it is possible to provide a seamless program reservation method with unified operability.
It is possible to realize an automatic reservation system corresponding to a plurality of broadcast modes by a low-cost and simple method, and to provide an automatic reservation system capable of automatically following a change in the broadcast time of a program.
It is possible to actively notify the user of the result of the reservation change.
It is possible to greatly reduce the possibility that the user misses a viewing opportunity due to forgetting to reserve a program.
Without securing the communication line of the receiving device for receiving the reservation information or having to register the information of the communication line in the automatic reservation system, just secure the environment that can receive ordinary broadcasts, It is possible to realize program reservation from a remote place. The reservation information can be transmitted to a large number of users by effectively using the broadcast band.
The reservation information can be transmitted to the receiver without being known to a third party and without being tampered with.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of a program reservation network system including a transmitting device and a receiving device for digital broadcasting according to the present invention.
FIG. 2 is a block diagram illustrating an embodiment of a digital broadcast receiving apparatus according to the present invention.
FIG. 3 is a block diagram illustrating an embodiment of a transmission device for digital broadcasting according to the present invention.
FIG. 4 is a flowchart of a reservation setting operation executed in the receiving apparatus shown in FIG. 2;
FIG. 5 is an explanatory diagram showing a data structure of a control instruction code used in the program reservation network system according to the present invention.
FIG. 6 is a schematic diagram of a screen for performing user registration and reservation setting provided to a user on the program reservation network system according to the present invention.
FIG. 7 is a flowchart of a reservation setting operation executed in the transmission device shown in FIG. 3;
FIG. 8 is an explanatory diagram showing the contents of a table managed by a reservation information management device in the transmission device shown in FIG. 3;
9 is a flowchart of an operation executed in the reservation information management device in the transmission device shown in FIG.
FIG. 10 is a functional block diagram showing an embodiment of an automatic reservation system according to the present invention.
FIG. 11 is a flowchart of an operation executed by an EPG data acquisition unit in the automatic reservation system according to the present invention.
FIG. 12 is a flowchart of an operation executed by a reservation receiving unit in the automatic reservation system according to the present invention.
FIG. 13 is a flowchart of an operation executed by a reservation information creating unit in the automatic reservation system according to the present invention.
FIG. 14 is a flowchart of an operation executed by a reservation information transmitting unit in the automatic reservation system according to the present invention.
FIG. 15 is a schematic diagram of a screen presented at the time of accepting a reservation in the automatic reservation system according to the present invention.
FIG. 16 is a block diagram showing an embodiment of a digital broadcast receiving apparatus according to the present invention.
FIG. 17 is an explanatory diagram showing an embodiment of receiver ID information and operation reservation information transmitted by digital broadcasting according to the present invention.
18 is an explanatory diagram showing one embodiment of the contents of a table transmitted by the receiver ID information shown in FIG.
FIG. 19 is an explanatory diagram showing one embodiment of the contents of a table transmitted by the operation reservation information shown in FIG. 17;
FIG. 20 is a conceptual diagram of a program reservation network system including a transmitting device and a receiving device for digital broadcasting according to the present invention.
FIG. 21 is a functional block diagram showing an embodiment of a reservation change notification system according to the present invention.
FIG. 22 is a flowchart of an embodiment of a reservation change notification system according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 101 ... Personal computer, 102 ... Portable terminal, 103 ... Internet, 104 ... Cable broadcaster, 105 ... Receiving device, 111 ... Fixed telephone, 112 ... Mobile telephone, 113 ... Public line network, 114-116 ... Data service center, 117 multimedia terminal, 118 captain system terminal, 201 tuner, 202 demodulator, 203 transport stream (TS) separation unit, 204 audio processing unit, 205 audio output terminal, 206 video processing unit 207: on-screen generation unit, 208: video output terminal, 209: nonvolatile memory, 210: memory, 211: control unit, 212: control instruction code extraction unit, 213: control instruction code decoding unit, 214: reservation management unit, 215: CA descramble part, 216: CA module, 3 Reference Signs List 1 antenna, 302 BS receiver, 303 TS demultiplexer, 304 64 QAM modulator, 305 RF transmitter, 306 reservation information encoding device, 307 reservation information management device (automatic reservation system), 308 WWW server, 309 storage device, 310 carousel transmission device, 311 multiplex control device, 401-404, 406-410 web page screen, 501 EPG data acquisition means, 502 EPG data search means, 503 reservation Reception means, 504: reservation information creation means, 505: reservation information transmission means, 506: reservation change notification means, 801 to 803: reservation information management table, 804: reservation information transmission table.

Claims (18)

In a remote reservation system for transmitting operation reservation control information such as output or storage of content to a content receiving device,
The operation reservation control information includes a receiver ID for specifying a receiving device to be controlled, and an operation content such as output or storage of the content. A remote reservation system transmitted to a device. An operation content for performing reservation control, and a receiving unit for receiving a receiver ID for specifying a receiving device to be controlled;
Means for generating operation reservation control information for a receiving device from the received operation content and the receiver ID,
A transmission center comprising means for transmitting the generated operation reservation control information to the receiving device on the same transmission line as the content transmission line to be transmitted to the receiving device;
2. The remote reservation system according to claim 1, further comprising: a receiving device that receives the operation reservation control information and controls viewing according to the received operation reservation control information. The transmission of the content to be transmitted to the receiving device is a digital broadcast, and the device includes means for multiplexing the generated operation reservation control information for the receiving device into a digital broadcast signal. Remote reservation system. A user terminal connectable to a communication network;
2. The apparatus according to claim 1, further comprising: an operation content for performing a reservation control from said user terminal via said communication network; and a receiving unit for receiving information of a receiver ID for specifying a receiving device to be controlled. 4. The remote reservation system according to any one of claims 1 to 3. A receiving device having means for decrypting the encrypted content, and a means for encrypting the operation content such as output or storage of the content,
The receiver ID for receiving device identification is transmitted without encryption,
The decryption of the encrypted operation content such as the output or storage of the content is characterized in that the content is decrypted by using a means for decrypting the content of the receiving device, or at least a part of the decrypting means. The remote reservation system according to claim 1. Means for obtaining electronic program guide (EPG) data regarding the transmitted content;
Means for creating operation reservation control information from the acquired EPG data and the content of the operation for performing the received reservation control;
Storage means for storing the created operation reservation control information,
Encoding means for converting the stored operation reservation control information into a broadcast-type control instruction code corresponding to the receiver ID;
The remote reservation system according to any one of claims 1 to 5, further comprising transmission means for transmitting the encoded control command code. 7. The remote reservation system according to claim 5, wherein the remote reservation system further comprises:
A means for rearranging the stored operation reservation control information in the order of the scheduled broadcast time of the program; and a means for providing a predetermined number of operation reservation control information to the encoding means in the future from the present and closer to the current time. A remote reservation system characterized by the following. The receiving means for receiving the operation content for performing the reservation control and the receiver ID for specifying a receiving device to be controlled is an operation for inputting an operation setting and an operation setting deletion on a user terminal connected to a communication network. 8. The remote reservation system according to claim 1, wherein the remote reservation system is a network server that presents an input page. 8. The remote booking system of claim 7, wherein the network server is further configured to present, on the user terminal, a program listing page represented by electronic program guide (EPG) data. Features a remote reservation system. The remote reservation system according to claim 8 or 9,
The remote reservation system further includes means for determining whether or not the information on the operation setting input on the operation input page can be distributed to the receiving device by the scheduled broadcast time of the program,
A remote reservation system, wherein when distribution is impossible by a scheduled broadcast time, the network server is configured to display the fact on a user terminal through a communication network and notify the user of the fact. The remote reservation system according to any one of claims 8 to 10,
The remote reservation system further includes an operation level storage unit that previously stores a level related to a user's operation reservation operation,
The network server is configured to selectively present input pages of a plurality of operation levels, and, when the user accesses for operation reservation, reads out the operation level of the user from the operation level storage means, A remote reservation system configured to present an input page corresponding to an operation level on the user terminal. The remote reservation system according to any one of claims 8 to 11, wherein the remote reservation system further comprises:
Operation history holding means for storing an operation reservation history of the user;
Program table customizing means for creating a program table of a genre preferred by the user based on the storage content of the operation history holding means, wherein the network server displays a page screen showing the program table created by the program table customizing means. , A remote reservation system configured to be presented to the user terminal. The remote reservation system according to any one of claims 8 to 12,
The network server is configured to present, to the user terminal, a reservation input page capable of reserving the program in series when the program reserved by the user is a series of multiple times. Features a remote reservation system. The remote reservation system according to any one of claims 8 to 13,
The network server is configured to present, to the user terminal, a reservation input page on which a program reserved by a user can be reserved for other broadcasts when the program reserved for the broadcast is broadcast a plurality of times at different times. A remote reservation system characterized by the following. Means for detecting a change in the content transmission schedule; means for storing a history of transmitted operation reservation control information; operation reservation cancellation information in response to detection of a change in the transmission schedule of the content for which the operation reservation has been transmitted; or 15. A remote reservation system according to claim 8, further comprising: means for transmitting change information. 16. The system according to claim 15, wherein when detecting a change in the scheduled transmission of the content, the network server is configured to display the change on a user terminal through a communication network to notify the user of the change. Remote reservation system. A transmitting device used in the remote reservation system according to any one of claims 1 to 16, wherein the transmitting device transmits a digital broadcast;
An operation content for performing the reservation control, a receiving unit for receiving device ID for specifying a receiving device to be controlled, a unit for generating operation reservation control information for a receiving device from the operation content and the receiver ID,
Means for multiplexing the generated operation reservation control information into a digital broadcast signal,
Means for transmitting the multiplexed digital broadcast signal. 17. A receiving device used in the remote reservation system according to any one of claims 1 to 16, wherein: means for acquiring electronic program guide (EPG) data relating to transmitted content;
Means for making an operation reservation based on the acquired EPG data, ID holding means for holding a receiver ID for identifying a receiving device,
Means for extracting operation reservation control information multiplexed in the digital broadcast signal,
Means for decoding the extracted operation reservation control information,
A receiving apparatus for executing a content output or storage operation based on operation reservation control information obtained by decoding.

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