Reception apparatus, reception method and recording medium

A transmission apparatus used for transmitting a question to a recipient. Generates a control signal for limiting an answer-inputting function of a reception apparatus used by the recipient; adds the control signal generated by a generation mechanism and used for limiting the answer-inputting function of the reception apparatus and an address of a recipient reception collector unit showing a collection destination of where an answer entered by said recipient in response to the question is transmitted when an amount of recipient responses stored in a storage unit exceeds a predetermined number. The apparatus then transmits the broadcast signal including the control signal and the address of a recipient reception collector unit to the recipient.

BACKGROUND OF THE INVENTION

In general, the present invention relates to a transmission apparatus, a transmission method, a reception apparatus, a reception method and a recording medium. More particularly, the present invention relates to a transmission apparatus, a transmission method, a reception apparatus, a reception method and a recording medium that allow a transmitting side to broadcast a question such as a quiz or a questionnaire prompting a recipient of the question on a receiving side to respond to the question and allow the receiving side to accept an answer to the question from the question recipient and to transmit the answer to the transmitting side.

In a program of a television or radio broadcast, a quiz or a questionnaire is sometimes presented to the watcher or the listener respectively. There are general methods to respond to the quiz or the questionnaire whereby an answer to the quiz or the questionnaire is usually sent by post, by phone or through the Internet.

In accordance with a method disclosed in Japanese Patent Laid-open No. Hei 1-115232, for example, answers to queries in a questionnaire are transmitted through a telephone line. The method has a shortcoming of poor operatability due to the fact that the transmission of an answer requires much labor such as finding the phone number of a station broadcasting the questionnaire and making an access to the broadcasting station.

However, a method of transmitting an answer by post, by phone or through the Internet has a problem that the responder must know information on the answer-transmission destination such as the address, the phone number or the URL (Uniform Resource Locator). In addition, there is also raised a problem that the method requires much labor such as preparing a written answer and making a phone call or making an access to a server connected to the Internet.

SUMMARY OF THE INVENTION

It is thus an object of the present invention addressing the problems described above to allow an answer to a broadcasted quiz or questionnaire to be transmitted quickly without requiring much labor.

A transmission apparatus for transmitting a question to a recipient in accordance with the present invention comprises: generation means for generating a control signal for limiting an answer-inputting function of a reception apparatus used by the recipient; first addition means for adding the control signal generated by the generation means and used for limiting the answer-inputting function of the reception apparatus and adding transmission-destination information showing a transmission destination of an answer entered by the recipient in response to the question prompting the recipient to enter the answer to a broadcast signal; and transmission means for transmitting the broadcast signal including the control signal and the transmission-destination information, which are added to the broadcast signal by the first addition means.

As the control signal for limiting the answer-inputting function of the reception apparatus, it is possible to make the generation means capable of generating an activate signal for enabling the answer-inputting function of the reception apparatus and a deactivate signal for disabling the answer-inputting function of the reception apparatus.

It is possible to further provide the transmission apparatus provided by the present invention with second addition means for adding question identification information for identifying the question prompting the recipient to enter the answer to the broadcast signal.

A transmission method for transmitting a question to a recipient in accordance with the present invention comprises: a generation step of generating a control signal for limiting an answer-inputting function of a reception apparatus used by the recipient; an addition step of adding the control signal generated at the generation step and used for limiting the answer-inputting function of the reception apparatus and adding transmission-destination information showing a transmission destination of an answer entered by the recipient in response to the question prompting the recipient to enter the answer to a broadcast signal; and a transmission step of transmitting the broadcast signal including the control signal and the transmission-destination information, which are added to the broadcast signal at the addition step.

A program recorded on a recording medium provided by the present invention and executed to transmit a question to a recipient comprises: a generation step of generating a control signal for limiting an answer-inputting function of a reception apparatus used by the recipient; an addition step of adding the control signal generated at the generation step and used for limiting the answer-inputting function of the reception apparatus and adding transmission-destination information showing a transmission destination of an answer entered by the recipient in response to the question prompting the recipient to enter the answer to a broadcast signal; and a transmission step of transmitting the broadcast signal including the control signal and the transmission-destination information, which are added to the broadcast signal at the addition step.

A reception apparatus provided by the present invention comprises: reception means for receiving a broadcasted signal; playback means for playing back the broadcasted signal received by the reception means; extraction means for extracting a control signal added to the broadcasted signal received by the reception means; accepting means for accepting an answer to a question included in a broadcast obtained as a result of a playback operation carried out by the playback means; limitation means for limiting a period of the accepting means to accept an answer to the question in accordance with the control signal extracted by the extraction means; and transmission means for transmitting the answer accepted by the accepting means in response to the question and information identifying the question to a transmission destination included in the broadcasted signal.

It is possible to make the transmission means capable of transmitting at least one of a broadcasting time and a broadcasting channel as the information identifying the question.

It is possible to make the transmission means capable of transmitting question identification information added to the broadcasted signal as the information identifying the question.

It is possible to make the transmission means capable of transmitting information identifying the reception apparatus to a transmission destination tincluded in the broadcasted signal.

It is possible to further provide the accepting means employed in the reception apparatus provided by the present invention with display means for displaying information indicating that a period of the accepting means to accept an answer has not expired.

It is possible to further provide the accepting means with increment means for incrementing the value of an answer to the question and decrement means for decrementing the value of an answer to the question.

A reception method provided by the present invention comprises: a reception step of receiving a broadcasted signal; a playback step of playing back the broadcasted signal received at the reception step; an extraction step of extracting a control signal added to the broadcasted signal received at the reception step; an accepting step of accepting an answer to a question included in a broadcast obtained as a result of a playback operation carried out at the playback step; a limitation step of limiting a period to accept an answer to the question at the accepting step in accordance with the control signal extracted at the extraction step; and a transmission step of transmitting the answer accepted at the accepting step in response to the question and information identifying the question to a transmission destination included in the broadcasted signal.

A program recorded on a recording medium provided by the present invention comprises: a reception step of receiving a broadcasted signal; a playback step of playing back the broadcasted signal received at the reception step; an extraction step of extracting a control signal added to the broadcasted signal received at the reception step; an accepting step of accepting an answer to a question included in a broadcast obtained as a result of a playback operation carried out at the playback step; a limitation step of limiting a period to accept an answer to the question at the accepting step in accordance with the control signal extracted at the extraction step; and a transmission step of transmitting the answer accepted at the accepting step in response to the question and information identifying the question to a transmission destination included in the broadcasted signal.

In accordance with the transmission apparatus and the transmission method, which are provided by the present invention, as well as the program recorded on the recording medium also provided by the present invention, a control signal is generated for limiting an answer-inputting function of a reception apparatus used by a recipient; the control signal for limiting the answer-inputting function of the reception apparatus and transmission-destination information showing a transmission destination of an answer entered by the recipient in response to the question prompting the recipient to enter the answer are added to a broadcast signal; and the broadcast signal including the control signal and the transmission-destination information is transmitted.

In accordance with the reception apparatus and the reception method, which are provided by the present invention, as well as the program recorded on the recording medium also provided by the present invention, a broadcasted signal is received; the broadcasted signal is played back; a control signal added to the broadcasted signal is extracted; an answer to a question included in a broadcast obtained as a result of the playback operation is accepted; a period to accept an answer to the question is limited in accordance with the extracted control signal; and the accepted answer responding to the question and information identifying the question are transmitted to a transmission destination included in the broadcasted signal.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following description explains a typical configuration of a broadcasting system applying the present invention to radio broadcasting by referring toFIG. 1. A broadcasting apparatus1shown in the figure is installed typically in a radio broadcasting station broadcasting a radio program such as disc jockey voices and music into which a quiz or a questionnaire is inserted with a proper timing. It should be noted that the quiz or the questionnaire broadcasted along with a radio program can be answered by using a number.

A broadcast signal transmitted by the broadcasting apparatus1includes an embedded activate signal in addition to an audio signal of a radio program. As will be described later, the activate signal is a signal for controlling a reception apparatus2. The broadcasting apparatus1also encrypts content data for sales to listeners and transmits the encrypted data by multiplexing the data with the broadcast signal. In addition, the broadcasting apparatus1transmits a decryption key to specific reception apparatus2by multiplexing the decryption key with the broadcast signal. The decryption key is used for decrypting the encrypted content data.

It should be noted that the content data for sales to listeners include images, sounds and games. The content data may also include a program for controlling the reception apparatus2.

The listener to a radio program operates the reception apparatus2to receive a broadcast signal transmitted by the broadcasting apparatus1and to play back sounds and voices from the received broadcast signal. The reception apparatus2also accepts an answer entered by the listener in response to a quiz or a questionnaire properly inserted into a broadcasted radio program, and stores the answer. The reception apparatus2then transmits the stored answer to a collection apparatus5by way of a radio base station3and a public telephone line network4.

The collection apparatus5collects as well as analyzes an answer transmitted by the reception apparatus2by way of the radio base station3and the public telephone line network4in response to a quiz or a questionnaire, storing results of analyses. It should be noted that a plurality of different collection apparatuses5can be provided for different quizzes and questionnaires.

FIG. 2is a diagram showing a typical configuration of the broadcasting apparatus1. A control unit11employed in the broadcasting apparatus1controls a drive12to read out a control program from a magnetic disc13, an optical disc14, a magneto-optical disc15or a semiconductor memory16. The control unit11then controls other components employed in the broadcasting apparatus1on the basis of the control program read out by the drive12and operation inputs entered by the user.

A database17is used for storing data such as disc-jockey voices and music, which serve as materials of a radio program, as well as voices reading quizzes and questionnaires. The database17is also used for storing information for identifying quizzes and questionnaires. In the following description, a quiz or a questionnaire is referred to simply as a question whereas information for identifying a quiz and a questionnaire is referred to as a question ID. A question ID for identifying a question is stored in the database17, being associated with the question also stored in the database17. In addition, for each question, the database17contains the address of a collection apparatus5(for example, phone number for making an access to the collection apparatus5) for collecting answers to the question. Furthermore, the database17is also used for storing content data for sales.

Controlled by the control unit11, a content output unit18reads out materials of a radio program other than a question, and content data for sales, to be transmitted as a broadcast signal from the database17and supplies the materials to a transmission unit24. The content output unit18also receives materials of a radio program other than a question entered via a microphone not shown in the figure in a real-time manner and supplies the materials to the transmission unit24. Examples of such materials are disc-jockey voices and music.

Controlled by the control unit11, a question output unit19reads out a question to be inserted into a radio program from the database17and supplies the question to the transmission unit24. The question output unit19also receives a question entered via the microphone in a real-time manner and supplies the question to the transmission unit24.

Controlled by the control unit11, a question-ID output unit20reads out a question ID identifying a question read out by the question output unit19from the database17and supplies the question ID to the transmission unit24.

Controlled by the control unit11, a collection-apparatus-address output unit21reads out the address of collection apparatus5for collecting answers to a question read out by the question output unit19from the database17and supplies the address to the transmission unit24.

Controlled by the control unit11, an activate-signal-generating unit22generates an activate signal and supplies the signal to the transmission unit24.

Controlled by the control unit11, a deactivate-signal-generating unit23generates a deactivate signal and supplies the signal to the transmission unit24. The activate signal is a signal transmitted to the reception apparatus2to show a timing, with which a select button32of the reception apparatus2shown inFIG. 3is put in an enabled-operation state. On the other hand, the deactivate signal is a signal transmitted to the reception apparatus2to show a timing, with which the select button32of the reception apparatus2is put in a disabled-operation state.

Controlled by the control unit11, the transmission unit24includes the materials other than a question of a radio program received from the content output unit18or a question received from the question output unit19in a broadcast signal and transmits the broadcast signal including the material and the question as an audio signal of the radio program. The transmission unit24also has the question ID received from the question-ID output unit20, the address of the collection apparatus5received from the collection-apparatus-address output unit21, the activate signal received from the activate-signal-generating unit22or the deactivate signal from the deactivate-signal-generating unit23embedded in the broadcast signal in a signal format like a watermark prior to transmission of the broadcast signal.

In addition, the transmission unit24encrypts content data received from the content output unit18for sales and multiplexes the encrypted content data with the broadcast signal before transmitting the broadcast signal in accordance with control executed by the control unit11. Furthermore, the transmission unit24also encrypts a decryption key for decrypting the encrypted content data by using the reception-apparatus ID of a reception apparatus2serving as a transmission destination and multiplexes the encrypted decryption key prior to the transmission of the broadcast signal in accordance with control executed by the control unit11.

Moreover, the broadcasting apparatus1includes a reception unit for receiving a purchase application signal applying for a purchase of a decryption key from a reception apparatus2. Composed of a content ID and a reception-apparatus ID, the purchase application signal is transmitted by the reception apparatus2to the broadcasting apparatus1by way of the public telephone line network4. The reception unit itself is shown in none of the figures. The purchase application signal applying for a purchase of a decryption key is supplied to the control unit11.

Next, a typical configuration of the reception apparatus2is explained by referring toFIGS. 3 and 4.

FIG. 3is a diagram showing an external view of a typical configuration of the reception apparatus2. An active indicator31is turned on when a select button32and a cancel button33are put in an operatable state by an activate signal received from the broadcasting apparatus1. On the other hand, the active indicator31is turned off when the select button32and the cancel button33are put in an unoperatable state by deactivate signal received from the broadcasting apparatus1.

The select button32is used by the user (the content recipient) to enter an answer to a broadcasted question. To be more specific, a number entered as an answer is incremented by1each time the select button32is pressed. The number of times the select button32was pressed so far is displayed on a select-count display window34. The value of an answer entered by pressing the select button32, that is, a value displayed on the select-count display window34, is decremented by 1 each time the cancel button33is pressed.

In order to enter the number 3 as an answer to a question, for example, the user needs to press the select button32three times. If the user presses the select button32four times by mistake, for example, the user needs to press the cancel button33once. At that time, the select-count display window34once displays the number 4 and eventually displays a final answer of 3 (=4−1).

It should be noted that an answer to a question displayed on the select-count display window34is stored in a storage unit49shown inFIG. 4, being associated with the question ID of the question.

If a content-data sale service is rendered through radio broadcasting, for example, the select button32is also pressed to make a request for downloading or recording of content data. The content-data sale service is a service to sell compressed and encoded data of music broadcasted as an audio signal by multiplexing the data in a broadcasted signal. The compressed and encoded data is obtained as a result of encryption. In this case, if the cancel button33is pressed, the request for downloading or recording of content data is canceled.

A content ID identifying content data downloaded by an operation to press the select button32is stored in the storage unit49shown inFIG. 4much like an answer to a question and other data. The content ID is embedded in the broadcasted signal.

A tuning slide35is operated to select a radio broadcasting station, a broadcast of which is to be received.

A transmit button36is pressed to set the reception apparatus2in an answer-data-transmission mode. To put it concretely, the transmit button36is pressed to transmit a question ID stored in the storage unit49and data such as an answer associated with the question ID to the collection apparatus5. The transmit button36is also pressed to indicate a desire to purchase a decryption key of downloaded encrypted content data. That is to say, the transmit button36is pressed to make a request for a transfer of the decryption key.

A speaker37outputs voices and sounds of a radio program. An antenna38transmits a radio signal conveying a question ID stored in the storage unit49and data such as an answer associated with the question ID.

FIG. 4is a diagram showing a typical electrical configuration of the reception apparatus2. A control unit41employed in the reception apparatus2controls a drive42to read out a control program from a magnetic disc43, an optical disc44, a magneto-optical disc45or a semiconductor memory46. The control unit41also controls other components composing the reception apparatus2on the basis of operation information entered by the user via an operation input unit47by execution of the control program read out by the drive42.

When an activate signal is received by a received-signal separation unit51, for example, the control unit41controls a display control unit48to turn on the active indicator31and controls an operation input unit47to detect an operation to press the select button32or the cancel button33. When a deactivate signal is received by the received-signal separation unit51, on the other hand, the control unit41controls the display control unit48to turn off the active indicator31and controls the operation input unit47to ignore an operation to press the select button32or the cancel button33.

The operation input unit47detects an operation carried out by the user on the select button32, the cancel button33, the tuning slide35or the transmit button36and outputs information on the operation to the control unit41. Controlled by the control unit41, the display control unit48controls operations to turn on or off the active indicator31and to display information on the select-count display window34.

The storage unit49is used for storing the address of a collection apparatus5, a question ID and an answer supplied thereto by operating the select button32and the cancel button33as a set. The storage unit49is also used for storing a unique reception-apparatus ID assigned to the reception apparatus2. It should be noted that the reception-apparatus ID is not only used for identifying the reception apparatus2, but also used by a supervisory person for identifying the user through management executed by associating the reception-apparatus ID and the profile of the user. In addition, the storage unit49is also used for storing downloaded content data, that is, compressed and encoded data of music and the like. It should be noted that the storage unit49can be integrated with the magnetic disc43, the optical disc44, the magneto-optical disc45or the semiconductor memory46into a single unit.

Controlled by the control unit41, a station-selecting unit50receives a signal broadcasted by a radio broadcasting station selected by the user by operating the tuning slide35and supplies the signal to a received-signal separation unit51. Also controlled by the control unit41, the received-signal separation unit51separates an audio signal from the broadcasted signal and outputs the audio signal to a content & question playback unit52. The received-signal separation unit51also separates signals other than the audio signal and content data from the broadcasted signal and supplies the other signals to the control unit41. The other signals include a question ID, the address of a collection apparatus5to receive an answer from the user, an activate or deactivate signal and a decryption key. In addition, the received-signal separation unit51separates the content data from the broadcasted signal and supplies the content data to the storage unit49.

The content & question playback unit52plays back an audio signal received from the received-signal separation unit51and outputs a signal obtained as a result of the playback operation to the speaker37. In addition, the content & question playback unit52also decodes encrypted content data read out from the storage unit49by using a decryption key received from the control unit41, plays back a result of decoding and outputs a signal obtained as a result of the playback operation to the speaker37. The encrypted content data read out from the storage unit49is compressed and encoded data of music or the like.

A transmission unit53has a function equivalent to the data-communication function of a mobile phone or a PHS (Personal Handyphone System). Controlled by the control unit41, the transmission unit53reads out a set comprising the address of a collection apparatus5, a question ID and an answer from the storage unit49, properly adds the reception-apparatus ID to the answer and the question ID, and transmits the answer, the question ID and the reception-apparatus ID to the address of the collection apparatus5as a radio signal. In addition, also on the basis of control executed by the control unit41, the transmission unit53transmits information applying for a purchase of a decryption key for decoding content data stored in the storage unit49to the broadcasting apparatus1as a radio signal. In actuality, the information comprises a content ID and a reception-apparatus ID.

FIG. 5is a diagram showing a typical configuration of the collection apparatus5. A reception unit61employed in the collection apparatus5receives typically an answer to a question from a reception apparatus2through the public telephone line network4and stores the answer in a storage unit62. An answer-analyzing unit63reads out an answer to a question from the storage unit62, analyzes the answer and stores a result of the analysis in a database64.

Next, processing carried out by the broadcasting apparatus1to transmit activate signals is explained by referring to a flowchart shown inFIG. 6and a timing diagram shown inFIG. 7. The broadcasting apparatus1carries out broadcasting in accordance with a schedule determined in advance. To put it concretely, music and disc-jockey voices read out by the content output unit18or the question output unit19from the database17, voices reading a quiz or a questionnaire and other broadcasts are transmitted from the transmission unit24as an audio signal of a broadcast signal. When a question is transmitted, the question ID of the question and the address of an collection apparatus5for collecting answers to the question are included in the broadcast signal.

The processing to transmit activate signals is started when a transmission of a question as an audio signal of a radio broadcast is commenced. For example, the processing is started at a time to start a transmission of a question (or a question IDI shown inFIG. 7).

The flowchart shown inFIG. 6begins with a step S1at which the control unit11forms a judgment as to whether or not a predetermined time has lapsed since the start of a transmission of a question. The control unit11is in a wait state, forming the judgment repeatedly till the outcome of the judgment indicates that the predetermined time has lapsed. As the outcome of the judgment indicates that the predetermined time has lapsed, that is, at a time t1shown inFIG. 7, the flow of the processing goes on to a step S2.

At the step S2, the activate-signal-generating unit22generates an activate signal and outputs the signal to the transmission unit24in accordance with control executed by the control unit11. The transmission unit24includes the activate signal received from the activate-signal-generating unit22in a broadcast signal and transmits the broadcast signal.

At the next step S3, the control unit11forms a judgment as to whether or not the transmission of a question has been completed. The control unit11is in a wait state, forming the judgment repeatedly till the outcome of the judgment indicates that the transmission of a question has been completed. As the outcome of the judgment indicates that the transmission of a question has been completed, that is, at a time t2shown inFIG. 7, the flow of the processing goes on to a step S4.

At the step S4, the control unit11forms a judgment as to whether or not a predetermined time has lapsed since the end of the transmission of a question. The control unit11is in a wait state, forming the judgment repeatedly till the outcome of the judgment indicates that the predetermined time has lapsed. As the outcome of the judgment indicates that the predetermined time has lapsed, that is, at a time t3shown inFIG. 7, the flow of the processing goes on to a step S5.

At the step S5, the deactivate-signal-generating unit23generates a deactivate signal and outputs the signal to the transmission unit24in accordance with control executed by the control unit11. The transmission unit24includes the deactivate signal received from the deactivate-signal-generating unit23in a broadcast signal and transmits the broadcast signal.

By carrying out processing to transmit activate and deactivate signals as described above, it is possible to set a period during which an answer to a question can be entered to a reception apparatus2each time an answer is transmitted. In the example shown inFIG. 7, for example, a period between times t1and t3is a period during which an answer to a question identified by a question identification ID1can be entered to a reception apparatus2. On the other hand, a period between times t5and t7is a period during which an answer to a question identified by a question identification ID2can be entered to the reception apparatus2.

Next, reception processing carried out by the reception apparatus2is explained by referring to a flowchart shown inFIG. 8. The reception processing is started when the power supply of the reception apparatus2is turned on.

The flowchart shown inFIG. 8begins with a step Sll at which the station-selecting unit50employed in the reception apparatus2receives a broadcasted signal from a radio broadcasting station1selected by operating the tuning slide35and outputs the signal to a component at the following stage. As a result, voices and sounds of the selected radio broadcasting station1are output from the speaker37.

At the next step S12, the control unit41controls the operation input unit47so as to ignore operations carried out by the user on the select button32and the cancel button33. The control unit41also controls the display control unit48to turn off the active indicator31. As a result, the select button32and the cancel button33are each put effectively in a state of being disabled to generate input signals and the active indicator31is turned off. The active indicator31is normally put in an off state. So, in this case, the off state is sustained.

At the next step S13, the control unit41forms a judgment as to whether or not the transmit button36has been pressed to set the answer-data-transmission mode. If the outcome of the judgment indicates that the answer-data-transmission mode has not been set, the flow of the reception processing goes on to a step S14.

At the next step S14, the control unit41forms a judgment as to whether or not an activate signal has been received. If the outcome of the judgment indicates that an activate signal has been received, the flow of the reception processing goes on to a step S15. At the step S15, the control unit41controls the operation input unit47so as to detect operations carried out by the user on the select button32and the cancel button33and also controls the display control unit48to turn on the active indicator31. As a result, the select button32and the cancel button33are each put effectively in a state of being enabled to generate input signals and the active indicator31is turned on.

It should be noted that, if the outcome of the judgment formed at the step S14indicates that an activate signal has not been received, on the other hand, the processing of the step S15is skipped.

At the next step S16, the control unit41forms a judgment as to whether or not the select button32and the cancel button33are each put effectively in a state of being enabled to generate input signals and an answer to a question has been entered by operating the select button32and the cancel button33. If the outcome of the judgment indicates that the select button32and the cancel button33are each put effectively in a state of being enabled to generate input signals and an answer to a question has been entered by operating the select button32and the cancel button33, the flow of the reception processing goes on to a step S17.

At the next step S17, the control unit41stores an answer entered by operating the select button32and the cancel button33in response to a question, a question ID and the address of a destination to which the answer is to be transmitted in the storage unit49. The destination is the collection apparatus5. In the following description, the answer, the question ID and the address of the collection apparatus5are collectively referred to as answer data.

It should be noted that, if the outcome of the judgment formed at the step S16indicates that the select button32and the cancel button33have not each been put effectively in a state of being enabled to generate input signals or an answer to a question has not been entered by operating the select button32and the cancel button33, on the other hand, the processing of the step S17is skipped.

At the next step S18, the control unit41forms a judgment as to whether or not a deactivate signal has been received. If the outcome of the judgment indicates that a deactivate signal has been received, the flow of the reception processing goes on to a step S19. At the step S19, the control unit41controls the operation input unit47so as to ignore operations carried out by the user on the select button32and the cancel button33. The control unit41also controls the display control unit48to turn off the active indicator31. As a result, the select button32and the cancel button33are each put effectively in a state of being disabled to generate input signals and the active indicator31is turned off.

Then, the flow of the reception processing goes back to the step S13to carry out the processing repeatedly till the power supply of the reception apparatus2is turned off.

It should be noted that, if the outcome of the judgment formed at the step S18indicates that a deactivate signal has not been received, on the other hand, the flow of the reception processing goes back directly to the step S13, skipping the processing of the step S19. Then, the processing is carried out repeatedly till the power supply of the reception apparatus2is turned off.

By the way, if the outcome of the judgment formed at the step S13indicates that the answer-data-transmission mode has been set, on the other hand, the flow of the reception processing goes on to a step S20.

At the step S20, the control unit41carries out processing in the answer-data-transmission mode. The processing in the answer-data-transmission mode is explained by referring to a flowchart shown inFIG. 9.

The flowchart shown inFIG. 9begins with a step S31at which the control unit41forms a judgment as to whether or not the answer data to be transmitted to the collection apparatus5is stored in the storage unit49. If the outcome of the judgment indicates that the answer data to be transmitted to the collection apparatus5is stored in the storage unit49, the flow of the processing in the answer-data-transmission mode goes on to a step S32.

At the step S32, the control unit41selects a piece of answer data stored in the storage unit49and reads out the selected piece of answer data from the storage unit49. At the next step S33, the control unit extracts the address of the collection apparatus5serving as a destination from the piece of answer data read out from the storage unit49. Controlled by the control unit41, the transmission unit53makes an access to the destination by dialing in order to establish a communication.

At the next step S34, controlled by the control unit41, the transmission unit53transmits answer data and an answer ID included in the answer data to the collection apparatus5accessed at the step S33.

At the next step S35, the control unit41forms a judgment as to whether or not a reception-apparatus ID is to be added to the answer and the answer ID, which were transmitted at the step S34, and to be transmitted too. If the outcome of the judgment indicates that a reception-apparatus ID is to be added and to be transmitted as well, the flow of the processing in the answer-data-transmission mode goes on to a step S36. It should be noted that, as a condition for determining that a reception-apparatus ID is to be added and to be transmitted in this judgment, the collection apparatus5desires such a reception-apparatus ID and the user of the reception apparatus2consents to transmission of the reception-apparatus ID. The existence or non-existence of the collection apparatus' desire for a reception-apparatus ID is indicated by information embedded in the broadcasted signal.

At the step S36, controlled by the control unit41, the transmission unit53transmits the reception-apparatus ID to the collection apparatus5accessed at the step S33. It should be noted that, if the outcome of the judgment formed at the step S35indicates that a reception-apparatus ID is not to be added and to be transmitted, on the other hand, the processing of the step S36is skipped.

At the next step S37, controlled by the control unit41, the storage unit49deletes the piece of answer-data transmitted at the step S34. At the next step S38, the control unit41forms a judgment as to whether or not the storage unit49still includes another piece of answer data to be transmitted to the destination accessed at the step S33to establish a communication therewith. If the outcome of the judgment indicates that such a piece of answer data remains in the storage unit49to be transmitted to the destination with an established communication, the flow of the processing in the answer-data-transmission mode goes back to the step S34to repeat the processing starting with the step S34.

If the outcome of the judgment formed at the step S38indicates that no more piece of answer data remains in the storage unit49to be transmitted to the destination with an established communication, on the other hand, the communication established at the step S33is terminated. Then, the flow of the processing in the answer-data-transmission mode goes back to the step S31to repeat the processing starting with the step S31.

If the outcome of the judgment formed at the step S31indicates that no answer data to be transmitted to the collection apparatus5is stored in the storage unit49, on the other hand, the flow of the processing in the answer-data-transmission mode goes on to a step S39. At the step S39, the control unit41releases the reception apparatus2from the answer-data-transmission mode. The flow of the processing then goes back to the step S12of the flowchart shown inFIG. 8.

By virtue of the reception processing carried out by the reception apparatus2as described above, the user is capable of transmitting an answer to the collection apparatus5automatically by merely pressing the transmit button36without performing processing to write words or to make a phone call.

In the reception processing described above, in the answer-data-transmission mode set by pressing the transmit button36, answer data is transmitted. It should be noted, however, that answer data can also be transmitted periodically such as every month-end or every weekend. As an alternative, a piece of answer data is transmitted only when the answer-data count of answer data stored in the storage unit49exceeds a predetermined number.

The following description explains processing carried out by the collection apparatus5to collect answer data by referring to a flowchart shown inFIG. 10. As shown in the figure, the flowchart begins with a step S51at which the reception unit61forms a judgment as to whether or not the reception apparatus2made an access thereto. The reception unit61is in a wait state, forming the judgment repeatedly till the outcome of the judgment indicates that the reception apparatus2made an access thereto. As the outcome of the judgment indicates that the reception apparatus2made an access thereto, the reception unit61receives answer data from the reception apparatus2. Then, the flow of the processing goes on to a step S52.

At the step S52, the reception unit61extracts a question ID from the received answer data. At the next step S53, the reception unit61forms a judgment as to whether or not a period to accept an answer associated with the question ID has expired. It should be noted that a deadline of collection of answers is set by the user of the collection apparatus5for each question.

If the outcome of the judgment formed at the step S53indicates that the period to accept an answer associated with the question ID extracted at the step S52has not expired, the flow of the processing goes on to a step S54. At the step S54, the reception unit61stores the answer data in the storage unit62.

Then, the pieces of processing of the steps S51to S53are carried out repeatedly till the outcome of the judgment formed at the step S53indicates that the period to accept an answer associated with the question ID extracted at the step S52has expired. As the outcome of the judgment formed at the step S53indicates that the period to accept an answer associated with the question ID extracted at the step S52has expired, the flow of the processing goes on to a step S55.

At the step S55, the answer-analyzing unit63reads out answer data, the collection period of which has expired, from the storage unit62, and analyzes the data. In the case of a question of a quiz, for example, the answer data is compared with a correct answer to form a judgment as to whether the answer data is correct. A reception-apparatus ID included in the answer data is stored.

At the next step S56, the answer-analyzing unit63stores results of the analysis carried out at the step S55in the database64. The analysis results of a question stored in the database64are typically transmitted to a broadcasting station employing the broadcasting apparatus1.

The following description explains processing carried out by the reception apparatus2to purchase content data sold by multiplexing the data in a signal broadcasted by the broadcasting apparatus1by referring to a flowchart shown inFIG. 11. The processing to purchase content data is started when the control unit41detects content data multiplexed in a broadcasted signal in a radio broadcast received by the reception apparatus2.

The flowchart shown inFIG. 11begins with a step S61at which the control unit41forms a judgment as to whether or not an activate signal has been received. The formation of the judgment is repeated till the outcome of the judgment indicates that an activate signal has been received. As the outcome of the judgment indicates that an activate signal has been received, the control unit41controls the operation input unit47so as to detect operations carried out by the user on the select button32and the cancel button33and also controls the display control unit48to turn on the active indicator31. As a result, the select button32and the cancel button33are each put effectively in a state of being enabled to generate input signals and the active indicator31is turned on.

At the next step S62, the control unit41forms a judgment as to whether or not the select button32was pressed and the cancel button33was not. If the outcome of the judgment indicates that the select button32was pressed and the cancel button33was not, the purchase processing goes on to a step S63.

At the step S63, the storage unit49stores content data separated by the received-signal separation unit51in accordance with control executed by the control unit41. At the next step S64, the storage unit49stores the content ID of the recorded content data in accordance with control executed by the control unit41.

It should be noted that if the outcome of the judgment formed at the step S62indicates that the select button32was not pressed or the cancel button33was pressed, on the other hand, the pieces of processing of the steps S63and S64are skipped.

At the next step S65, the control unit41forms a judgment as to whether or not the transmit button36was pressed. If the outcome of the judgment indicates that the transmit button36was pressed, the purchasing processing goes on to a step S66. At the step S66, the transmission unit53transmits the content ID of content data and the reception-apparatus ID, which are stored in the storage unit49, to the broadcasting apparatus1in accordance with control executed by the control unit41.

At the next step S67, the control unit41forms a judgment as to whether or not a deactivate signal has been received. If the outcome of the judgment indicates that a deactivate signal has not been received, the purchasing processing goes back to the step S62and the following pieces of processing is repeated. If the outcome of the judgment indicates that a deactivate signal has been received, on the other hand, the control unit41controls the operation input unit47so as to ignore operations carried out by the user on the select button32and the cancel button33and also controls the display control unit48to turn off the active indicator31. As a result, the select button32and the cancel button33are each put effectively in a state of being disabled to generate input signals and the active indicator31is turned off.

As described above, if the outcome of the judgment formed at the step S62indicates that the select button32was not pressed or the cancel button33was pressed, the pieces of processing of the steps S63and S64are skipped. If the outcome of the judgment formed at the step S65indicates that the transmit button36was not pressed, on the other hand, the processing of the step S66is skipped.

In the processing to purchase content data as described above, encrypted content data is stored in the storage unit49. In order to make a request for a decryption key for decoding the encrypted content data, it is necessary to transmit the content ID and the reception-apparatus ID to the broadcasting apparatus1.

The broadcasting apparatus1transmits a decryption key indicated by the content ID received from the reception apparatus2to the reception apparatus2indicated by the reception-apparatus ID also received from the reception'apparatus2. The processing to transmit a decryption key is explained by referring to a flowchart shown inFIG. 12.

As shown inFIG. 12, the flowchart begins with a step S71at which a reception unit employed in the broadcasting apparatus1receives a content ID and a reception-apparatus ID from the reception apparatus2in accordance with control executed by the control unit11. The reception unit itself is shown in none of the figures. At the next step S72, the transmission unit24generates a decryption key of already transmitted encrypted content data indicated by the content ID received at the step S71in accordance with control executed by the control unit11.

At the next step S73, the transmission unit24encrypts the decryption key generated at the step S72by using the reception-apparatus ID received at the step S71in accordance with control executed by the control unit11. At the next step S74, the transmission unit24includes the decryption key encrypted at the step S73in a broadcast signal and transmits the signal in accordance with control executed by the control unit11.

The encrypted decryption key included in the broadcast signal is decrypted by the control unit41employed in the reception apparatus2. The decryption key is then supplied to the content & question playback unit52for use in decryption of encrypted content data.

It should be noted that, since the encrypted decryption key is encrypted by the reception apparatus2by using the reception-apparatus ID known only by the reception apparatus2, the content data cannot be used illegally.

The broadcasting apparatus1identifies the user using the content data from the received reception-apparatus ID and charges the fee for the purchase of the content to the user.

As described above, in accordance with the reception apparatus2provided by the present invention, the transmit button36is operated for both specifying a transmission of answer data and specifying a purchase of content data. Thus, the number of buttons provided on the reception apparatus2can be reduced, the reception apparatus2can be made small in size and the operatability of the reception apparatus2is improved.

In addition, since familiarization with the operation to transmit an answer to a question leads to familiarization with the operation to purchase content data, it is possible to prevent the user of the reception apparatus2from hesitating to purchase content data due to unfamiliarity with the operation of a button.

In this embodiment, a question ID and a content ID are used respectively as information for identifying a question and information for identifying content data as described above. It should be noted, however, that information comprising typically a channel number and a broadcasting time can also be used as information for identifying a question or content data in place of a question ID and a content ID.

When a question's channel number and broadcasting time are used for identifying a question in place of a question ID, it is necessary to transmit generation times of the activate and deactivate signals for the question and the question ID assigned to the question from the broadcasting apparatus1to the collection apparatus5in advance as shown inFIG. 13. However, answer data transmitted by the reception apparatus2in response to the question to the collection apparatus5includes a broadcasting time used as a substitute for the question ID. In this case, the collection apparatus5compares the broadcasting time received from the reception apparatus2with the activate and deactivate signals' generation times received from the broadcasting apparatus1to form a judgment as to whether or not the answer data also received from the reception apparatus2is associated with the question ID also received from the broadcasting apparatus1.

FIG. 13is a diagram showing another typical configuration of the broadcasting system provided by the present invention. In this broadcasting system, the broadcasting apparatus1transmits generation times of the activate and deactivate signals for a question and the question ID assigned to the question to the collection apparatus5as described above.

As shown inFIG. 13, the reception apparatus2is connected to a personal computer (PC)81for transmitting data such as an answer to the collection apparatus5by way of the Internet82.

FIG. 14is another typical configuration of the reception apparatus2. Select buttons91are 4 buttons assigned to the numbers 1 to 4 respectively and can be selected by the operator. The select buttons91are provided in place of the select button32and the cancel button33shown inFIG. 3. It should be noted that, by pressing one of the select buttons91several times, a value greater than 4 can be entered.

In addition, instead of providing operation means such as the select button32, the cancel button33and the select buttons91, at the external side surface of the reception apparatus2, in the typical configurations shown inFIGS. 3 and 14, a variety of inputs can also be entered to the reception apparatus2by operating a remote controller.

An external interface (I/F)92is connected to the PC81and used for exchanging data such as answers with the PC81. In this case, the antenna38employed in the typical configuration shown inFIG. 3is not required.

The typical configuration shown inFIG. 14does not include the transmit button36employed in the typical configuration shown inFIG. 3. This is because, in the typical configuration shown inFIG. 14, a command to transmit answer data and a command to purchase content data are entered by the user by operating the PC81connected to the reception apparatus2.

In addition, assume for example that an insertable and removable recording medium such as a memory stick is used as the storage unit49for storing answer data. In this case, the recording medium serving as the storage unit49can be pulled out from the reception apparatus2and plugged into a terminal apparatus such as a personal computer installed typically at the user's home, a convenience store, a gasoline station or a station stall and connected to the Internet. In this way, the answer data stored in recording medium can be transmitted to the collection apparatus5. As an alternative, the recording medium can be inserted into a communication terminal of a device such as a mobile phone so as to allow the answer data stored in the recording medium to be transmitted to the collection apparatus5.

The embodiment has been explained by taking radio broadcasting as an example. It should be noted, however, the scope of the present invention is not limited to the radio broadcasting. That is to say, the present invention can also be applied to all kinds of broadcasting for transmission of streaming data such as the Internet radio communication and the Internet television communication in addition the television satellite broadcasting and the ground-wave broadcasting.

The series of pieces of processing described above can be carried out by hardware or through execution of software. When execution of software is selected for carrying out the series of pieces of processing, a variety of programs composing the software are executed by a computer incorporated in special hardware. As an alternative, the programs are installed in a recording medium employed in typically a general-purpose personal computer capable of executing the programs to carry out the pieces of processing.

As shown inFIG. 4, a recording medium for presenting a program to the user is distributed separately from the main unit of the apparatus. In order to present a program to the user, however, the use of package media is not mandatory. As mentioned before, examples of the package media are the magnetic disc43including a floppy disc, the optical disc44including a CD-ROM (Compact-Disc Read-Only Memory) and a DVD (Digital Versatile Disc), the magneto-optical disc45including an MD (Mini Disc) and the semiconductor memory46. As an alternative, a program can also be presented to the user by incorporating the program in the main unit of the apparatus in advance. That is to say, the program is stored in a ROM or a hard disc.

It should be noted that, in this specification, while steps prescribed in a program recorded in a recording medium can of course be executed sequentially along the time axis in an order the steps are prescribed in the program, the steps are not always executed sequentially along the time axis. That is to say, a program may include steps that are executed concurrently or individually.

In addition, the technical term ‘system’ used in this specification means the whole equipment comprising a plurality of apparatuses.

In accordance with the transmission apparatus and the transmission method, which are provided by the present invention, as well as the program recorded on the recording medium also provided by the present invention, a control signal for limiting an answer-inputting function of a reception apparatus and transmission-destination information showing a transmission destination of an answer entered by a recipient in response to a question are added to a broadcast signal; and the broadcast signal including the control signal and the transmission-destination information is transmitted.

As a result, a quiz and a questionnaire can be broadcasted so that the broadcasted quiz or questionnaire can be responded quickly without requiring the recipient to spend much labor.

In accordance with the reception apparatus and the reception method, which are provided by the present invention, as well as the program recorded on the recording medium also provided by the present invention, a broadcasted signal is received and played back; an answer to a question included in a broadcast obtained as a result of the playback operation is accepted from the user; and the answer accepted in response to the question and information identifying the question are transmitted in accordance with a transmission-destination information included in the broadcasted signal.

As a result, an answer to a broadcasted quiz or questionnaire can be transmitted quickly without requiring the user to spend much labor.