JP2009135750A - REPRODUCTION SYSTEM, REPRODUCTION CONTROL DEVICE, REPRODUCTION CONTROL METHOD, AND REPRODUCTION CONTROL PROGRAM - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reproduce a realistic sound.
A reproduction system includes a plurality of mobile phones, each of which includes an AV decoder for reproducing 5.1 channel audio data, a GPS sensor for detecting a current position, and a plurality of mobile phones. A wireless LAN circuit for communicating with other mobile telephones out of the telephones, and one master unit of the plurality of mobile telephones acquires a position of each of the plurality of mobile telephones (S03, S05) And assigning means (S08) for assigning one or more channels of the plurality of mobile phones to each of the plurality of mobile phones based on the positions of the plurality of mobile phones, and one or more channels assigned to the plurality of mobile phones, respectively. Reproduction instruction means (S09, S10) for reproducing the audio data.
[Selection] Figure 3

Description

  The present invention relates to a playback system, a playback control device, a playback control method, and a playback control program, and in particular, a playback system, playback control device, playback control method and playback executed by the playback control device for playing back multi-channel audio. It relates to the control program.

  In recent years, multi-channel digital audio such as 5.1 channel may be broadcast. A surround system that reproduces the 5.1 channel digital audio is described in Japanese Patent Application Laid-Open No. 2007-43320 (Patent Document 1). The conventional surround system is a surround system that forms a surround sound field by reproducing each channel's audio signal output from the audio signal reproducing device from the arranged speakers, and the distance from the listening point to each speaker is determined. The volume of the audio signal of each channel is obtained by measuring and transmitting the distance data transmitted between the autofocus function of the camera that transmits the distance data to the audio signal reproduction device and the distance measuring device using the USB connection. And an audio signal reproduction device that generates adjustment data and delay time setting data, and controls the volume and delay time for the audio signal in accordance with the volume adjustment data and the delay time setting data. As described above, in order to reproduce 5.1-channel digital audio with a realistic sound, six speakers arranged at different positions are required.

On the other hand, the mobile phone can receive 5.1 channel digital audio broadcasting, but has at most two speakers for reproducing audio. For this reason, there is a problem that only two-channel audio can be output at the maximum, and a realistic sound cannot be reproduced.
JP 2007-43320 A

  The present invention has been made to solve the above-described problems, and one of the objects of the present invention is to provide a reproduction system capable of reproducing a realistic sound.

  Another object of the present invention is to provide a reproduction control apparatus capable of reproducing a realistic sound.

  Still another object of the present invention is to provide a reproduction control method capable of reproducing a realistic sound.

  Still another object of the present invention is to provide a reproduction control program capable of reproducing realistic sounds.

  The present invention has been made to achieve the above-described object, and according to one aspect of the present invention, the playback system is a playback system including a plurality of playback devices, and each of the plurality of playback devices has a plurality of channels. Reproduction means for reproducing the audio data, position detection means for detecting the current position, and communication means for communicating with other reproduction apparatuses among the plurality of reproduction apparatuses. At least one playback device allocates one or more channels of the plurality of playback devices to each of the plurality of playback devices based on position acquisition means for acquiring the position of each of the plurality of playback devices and the position of each of the plurality of playback devices. Allocating means, and reproduction instruction means for reproducing audio data of one or more channels allocated to each of the plurality of reproducing devices.

  According to this aspect, the position of each of the plurality of playback devices is acquired in at least one playback device among the plurality of playback devices, and a plurality of channels are assigned to each of the plurality of playback devices based on the position of each of the plurality of playback devices. One or more channels are assigned, and audio data of one or more channels assigned to each of the plurality of playback devices is played back. For this reason, even if multiple playback devices cannot play multiple channels at once, multiple channels play back different channels, so multiple channels can be played back by multiple playback devices. can do. As a result, it is possible to provide a reproduction system that can reproduce realistic sounds.

  Preferably, the at least one playback device further includes volume determination means for determining a volume for playing back each of the audio data of one or more channels assigned to each of the plurality of playback devices based on the positions of the plurality of playback devices. The reproduction instruction means reproduces one or more channels assigned to each of the plurality of reproduction apparatuses at the determined volume.

  According to this aspect, the volume for reproducing each of the audio data of one or more channels assigned to each of the plurality of playback devices is determined based on the positions of the plurality of playback devices, and the channel audio data is determined with the determined volume. Is played. For this reason, the sound of a plurality of channels can be reproduced with good balance.

  Preferably, one parent device of the plurality of playback devices includes a position acquisition unit, an allocation unit, and a playback instruction unit, and the playback instruction unit includes one or more child devices other than the parent device among the plurality of playback devices. Each includes reproduction instruction transmitting means for transmitting a reproduction instruction for reproducing one or more channels assigned to the child device, and each reproduction means of the one or more child devices receives a reproduction instruction received from the parent device. Accordingly, the audio data of one or more channels among the audio data of the plurality of channels is reproduced.

  Preferably, one parent device of the plurality of reproduction devices includes a position acquisition unit, an allocation unit, and a reproduction instruction unit, and the parent device further includes a participation request transmission unit that transmits a participation request, a participation request A plurality of one or more playback devices each transmitting one or more received participation responses as one or more child devices on condition that one or more participation responses indicating participation in response to transmission are received System configuration means for determining a playback device, and each of one or more child devices other than the parent device among the plurality of playback devices further transmits a participation response in response to receiving a participation request from the parent device An inquiry means for inquiring the user whether or not to perform, an operation accepting means for accepting an operation by the user indicating whether or not to transmit a participation response, and an operation indicating that a participation response is transmitted by the operation accepting means are accepted. On condition to be, and a join response transmitting means for transmitting a participation response to the parent device that includes position information indicating the current position detected by the position detecting means.

  According to this aspect, in response to receiving the participation request from the parent device, each of the one or more child devices inquires of the user whether or not to transmit the participation response, and an operation indicating that the participation response is transmitted. A participation response is returned to the parent device on the condition that it is instructed and accepted by the user. For this reason, it is determined by the user whether or not to reproduce the audio data. As a result, it is possible to prevent the voice from being played against the user's will.

  According to another aspect of the present invention, the playback control device is configured to acquire a position of each of a plurality of playback devices capable of playing back multi-channel audio data, and based on the position of each of the plurality of playback devices. An assigning unit that assigns one or more channels of the plurality of channels to each of the plurality of playback devices, and a playback instruction unit that plays back audio data of one or more channels assigned to each of the plurality of playback devices.

  According to this aspect, since a plurality of playback devices share and play different channels, a plurality of channels can be played back by a plurality of playback devices. As a result, it is possible to provide a reproduction control device that can reproduce realistic sounds.

  According to still another aspect of the present invention, a playback control method includes a step of acquiring the positions of a plurality of playback devices capable of playing back audio data of a plurality of channels, and a plurality of playback control methods based on the positions of the plurality of playback devices. Assigning one or more channels of the plurality of channels to each of the playback devices, and playing back one or more channels assigned to each of the plurality of playback devices.

  According to this aspect, it is possible to provide a reproduction control method capable of reproducing a realistic sound.

  According to still another aspect of the present invention, the playback control program is configured to obtain a plurality of positions based on the respective positions of the plurality of playback devices capable of playing back the audio data of the plurality of channels and the positions of the plurality of playback devices. And causing the computer to execute a step of assigning one or more channels of the plurality of channels to each of the playback devices and a step of playing back one or more channels assigned to the plurality of playback devices.

  According to this aspect, it is possible to provide a reproduction control program capable of reproducing realistic sounds.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

  FIG. 1 is a diagram showing an overall outline of a playback system according to one embodiment of the present invention. Referring to FIG. 1, playback system 100 includes five mobile phones 1, 1A, 1B, 1C, and 1D as playback devices. Each of the mobile phones 1, 1A, 1B, 1C, and 1D can receive a multi-channel radio broadcast and select and reproduce at least one multi-channel. Furthermore, each of the mobile phones 1, 1A, 1B, 1C, 1D can communicate with other mobile phones. Since the functions and configurations of the cellular phones 1, 1A, 1B, 1C, and 1D are the same, the cellular phone 1 will be described as an example here unless otherwise specified.

  FIG. 2 is a functional block diagram illustrating an example of functions of the mobile phone. Referring to FIG. 2, a mobile phone 1 includes a control unit 21 for controlling the entire mobile phone 1, a wireless circuit 22 connected to an antenna 22A, a wireless LAN circuit 23 connected to an antenna 23A, Codec unit 28 for processing audio data, microphone 13 and first speaker 11 each connected to codec unit 28, tuner 24 connected to antenna 24A, AV decoder 29, and input of user operation , An operation unit 25 that accepts an image, a GPS sensor 26, a card interface (I / F) 27, a display control unit 30 for controlling display on a liquid crystal display (LCD) 16, a program executed by the control unit 21, etc. ROM (Read Only Memory) 31 and RAM used as a work area for the control unit 21 (Random Access Memory) 32 and an EEPROM (Electronically Erasable and Programmable ROM) 33 for storing data in a nonvolatile manner.

  The radio circuit 22 is connected to a W-CDMA (Wideband Code Division Multiple Access) communication system network. Specifically, the radio circuit 22 performs radio communication with a base station apparatus connected to a W-CDMA network. A radio signal transmitted from the base station apparatus is received by the antenna 22A. The radio circuit 22 receives the radio signal received by the antenna 22 </ b> A and outputs a signal obtained by demodulating the radio signal to the control unit 21. When the signal obtained by demodulating the radio signal is an audio signal, the control unit 21 outputs the audio signal to the codec unit 28.

  When a signal is input from the control unit 21, the radio circuit 22 outputs a radio signal obtained by modulating the signal to the antenna 22A. When the audio signal is input from the codec unit 28, the control unit 21 outputs the audio signal to the first radio circuit 22. A radio signal transmitted from the antenna 22A is received by a W-CDMA base station apparatus and input to the W-CDMA base station apparatus.

Although an example in which the radio circuit 22 is connected to a W-CDMA network is shown here, a PDC (Personal Digital Cellular) system, a GSM (Global System for Mobile) is shown.
) System, CDMA (Code Division Multiple Access) network, and PHS (Personal Handyphone System) network.

  The wireless LAN circuit 23 is an example of a communication unit, and is connected to a network of a communication system of WiMAX (Worldwide Interoperability for Microwave Access). The WiMAX communication method is also called Wireless MAN (Wireless Metropolitan Area Network), and is a standard that provides high-speed wireless communication for an urban area called IEEE 802.16. Specifically, the wireless LAN circuit 23 wirelessly communicates with another mobile phone 1A, 1B, 1C, 1D or access point connected to a WiMAX network. Radio signals transmitted from the cellular phones 1A, 1B, 1C, 1D or the access point are received by the antenna 23A. The wireless LAN circuit 23 receives the wireless signal received by the antenna 23 </ b> A and outputs a signal obtained by demodulating the wireless signal to the control unit 21.

  When a transmission signal is input from the control unit 21, the wireless LAN circuit 23 outputs a wireless signal obtained by modulating the signal to the antenna 23A. A radio signal transmitted from the antenna 23A is received by the cellular phones 1A, 1B, 1C, 1D or the access point.

  Here, an example is shown in which the wireless LAN circuit 23 is connected to a WiMAX network, but the wireless LAN circuit 23 is not limited to a WiMAX network as long as it is a wireless LAN. For example, BLUETOOTH (registered trademark), WiFi (registered trademark) Or the like.

  The codec unit 28 decodes the audio signal input from the control unit 21, converts the decoded digital audio signal to analog, amplifies it, and outputs it to the first speaker 11 as a receiver. The codec unit 28 receives an analog audio signal from the microphone 13, converts the audio signal to digital, encodes it, and outputs the encoded audio signal to the control unit 21.

  The tuner 24 is connected to the antenna 24A, and receives a digital audio broadcast signal received by the antenna 24A. The broadcast signal is a high-frequency digital modulation signal, and includes audio data in the case of radio broadcast, and includes video data and audio data in the case of television broadcast. The tuner 24 extracts a signal having a specific frequency from the high-frequency digital modulation signal input from the antenna 24A. Further, the tuner 24 includes a deinterleave circuit and an error correction circuit, demodulates the extracted high frequency digital modulation signal of a specific frequency, and outputs a variable length code to the AV decoder 29.

  The AV decoder 29 is an example of a reproducing unit, and includes a video decoder and an audio decoder. The AV decoder 29 decodes the variable length code input from the tuner 24 to generate a video signal and an audio signal, and converts the video signal into a D / A. (Digital / analog) conversion and output to the display control unit 30, and the audio signal is D / A converted and applied to the second speaker 12. In the following description, an example of receiving and reproducing a digital audio broadcast radio wave including a 5.1 channel audio signal is shown. Although an example in which a digital audio signal is received is shown here, an analog audio signal may be received and reproduced.

  In addition, when the audio signal is 5.1 channel, the AV decoder 29 is controlled by the control unit 21 and selects one of the 5.1 channels, and D / A converts the audio signal of the selected channel. Amplified and supplied to the second speaker 12. When the mobile phone 1 includes two second speakers 12, the AV decoder 29 selects two of the 5.1 channels, D / A converts and amplifies the audio signals of the two selected channels. Each of the two second speakers 12 is given.

  The display control unit 30 is controlled by the control unit 21 and controls the LCD 16 according to an instruction input from the control unit 21 to display an image on the LCD 16. The image displayed on the LCD 16 includes a moving image and a still image.

  A removable flash memory 27A is attached to the card I / F 27. The control unit 21 can access the flash memory 27A via the card I / F 27. Although an example in which a program to be executed by the control unit 21 is stored in the ROM 31 will be described here, the program is stored in the flash memory 27A, the program is read from the flash memory 27A, and the control unit 21 You may make it perform. The recording medium for storing the program is not limited to the flash memory 27A, but is a flexible disk, cassette tape, optical disk (CD-ROM (Compact Disc-ROM) / MO (Magnetic Optical Disc) / MD (Mini Disc) / DVD (Digital). Versatile Disc)), an IC card (including a memory card), an optical card, a semiconductor memory such as a mask ROM, EPROM, or EEPROM. Alternatively, the mobile phone 1 may be connected to the Internet via the wireless circuit 22 or the wireless LAN circuit 23, and a program may be downloaded from a computer connected to the Internet and executed by the control unit 21. The program here includes not only a program directly executable by the control unit 21 but also a program in a source program format, a compressed program, an encrypted program, and the like.

  The GPS sensor 26 is an example of a position detection unit, receives radio waves from GPS satellites in the global positioning system (GPS), and measures the current position on the map. The GPS sensor 26 outputs position information indicating the position on the map obtained by measurement to the control unit 21.

  The operation unit 25 includes an operation key 14 and a lamp 25A. The operation key 14 receives an operation input from the user and outputs the received operation to the control unit 21. The lamp 25A emits light under the control of the control unit 21. As a result, the user can check the operation key 14 even in a dark place.

  When an operation is input from the operation key 14, the control unit 21 executes a process according to the input operation. The control unit 21 reads and executes a plurality of application programs stored in the ROM 31. The application program includes a playback program to be described later and an application program for causing the mobile phone 1 to function as a radio. These application programs are described in a program language such as C language or JAVA (registered trademark), but the program language in which the application program is described is not limited thereto, and is described in any other program language. May be. Further, a plurality of application programs are stored in the ROM 31 and mounted on the mobile phone 1, but the plurality of application programs may be described in a single program language or described in different program languages. It may be. That is, application programs described in a plurality of program languages may be mixed.

  The control unit 21 can simultaneously execute a plurality of application programs. Here, an application program for causing the mobile phone 1 to function as a radio and an application program (hereinafter referred to as “playback program”) for playing a radio broadcast shared by a plurality of mobile phones are executed simultaneously. Will be described as an example.

  In reproduction system 100 in the present embodiment, at least one of radio broadcast multi-channels is assigned to each of cellular phones 1, 1A, 1B, 1C, 1D, and cellular phones 1, 1A, 1B, 1C, 1D as a whole. Play multi-channel radio broadcasts. For this purpose, one of the mobile phones 1, 1A, 1B, 1C, 1D is set as a parent device (parent device), and the other mobile phone is set as a child device (child device). Here, a case will be described as an example where the mobile phone 1 is set as the parent device and the other mobile phones 1A, 1B, 1C, and 1D are set as the child devices. The mobile phone 1 set as the master unit acquires location information indicating the position on the map from each of the mobile phones 1A, 1B, 1C, and 1D set as the slave units, and the acquired location information of the slave unit and An arrangement map indicating the positional relationship between the cellular phones 1, 1A, 1B, 1C, and 1D is generated from the location information of the cellular phone 1 that is the parent device. The mobile phone 1 determines which of the 5.1 channels is assigned to each of the mobile phones 1, 1A, 1B, 1C, 1D based on the generated arrangement map, and each of the mobile phones 1, 1A, 1B, 1C, 1D Play the sound of the channel assigned to.

  FIG. 3 is a flowchart showing an example of the flow of channel assignment processing. The channel assignment process is a process executed by the control unit 21 when the control unit 21 of the mobile phone 1 serving as the base unit executes a playback program and an application program for causing the mobile phone 1 to function as a radio.

  Referring to FIG. 3, control unit 21 determines whether a sound group reproduction instruction has been accepted (step S01). If the user indicates a key assigned in advance for instructing a sound group reproduction instruction among the operation keys 14 of the operation unit 25, the sound group reproduction instruction is accepted. Then, a participation request is transmitted by broadcast via the wireless LAN circuit 23 (step S02). When the control unit 21 executes Step S02, a participation request transmission unit is configured. The participation request is a signal for requesting participation in a sound group in which multi-channel audio is shared and played by a plurality of mobile phones. If the propagation distance of the radio wave transmitted by the wireless LAN circuit 23 is limited, the cellular phones 1A, 1B, 1C, 1D located within the propagation distance range from the cellular phone receive the participation request. Here, a case where the cellular phones 1A, 1B, 1C, and 1D receive a participation request will be described as an example.

  Then, it is determined whether or not a participation response has been received from the cellular phones 1A, 1B, 1C, and 1D that have received the participation request within a predetermined time (step S03). The participation response is a response to the participation request and is a signal indicating participation in a sound group that reproduces multi-channel audio. The participation response includes position information indicating the current position on the map of the mobile phone that has transmitted the participation response. Further, the participation response includes device information of the mobile phone that has transmitted the participation response. The device information includes information such as the number of speakers, speaker performance information (db), a speaker configuration indicating whether the speaker is stereo or monaural, and directivity adjustment availability.

  In step S03, reception of the participation request is continued until a predetermined time elapses. If one or more participation requests are received within the predetermined time, the process proceeds to step S04, and one participation request is received within the predetermined time. If not, the process proceeds to step S18. In step S18, an error message indicating that the multi-channel sound cannot be reproduced by the sound group is displayed on the LCD 16, and the process ends. This is because if there is no participation response, a sound group cannot be composed of a plurality of units.

  In step S04, the device that has transmitted the participation response is set as a child device. When the control unit 21 executes Step S04, system configuration means for determining the parent device and the child device that constitute the sound group is configured. Specifically, since device identification information for identifying the device is received together with the participation response, the device identification information is stored in the EEPROM 33. For example, an IP (Internet Protocol) address can be used as the device identification information. Here, a case where a participation response is received from all of the mobile phones 1A, 1B, 1C, 1D will be described as an example.

  In the next step S05, position information indicating the current position on the map is acquired. The position information output by the GPS sensor 26 is acquired. Since the participation response in which the participation response is received in step S03 includes the location information of the child device, when the participation response is received in step S03 and the location information of the own device is acquired in step S05, the parent device and the participation response are displayed. The location information of the child device that has transmitted is acquired. Therefore, a position acquisition means is comprised when the control part 21 performs step S03 and step S05. In the next step S06, an arrangement map is generated based on the location information of the slave unit and the location information of the master unit. The arrangement map is a diagram showing the relative positions of the mobile phones 1, 1A, 1B, 1C, and 1D constituting the sound group.

  FIG. 4 is a diagram illustrating an example of an arrangement map. Referring to FIG. 4, the arrangement map includes marks indicating the positions of mobile phones 1, 1 </ b> A, 1 </ b> B, 1 </ b> C, and 1 </ b> D and line segments connecting the positions.

  Returning to FIG. 3, in step S <b> 07, 5.1 channels are allocated to the slave unit and the own device, respectively, according to the generated arrangement map. The control unit 21 executes step S07 to configure an assigning unit. Specifically, using the arrangement map shown in FIG. 4, first, the shape formed by a line segment connecting two adjacent mobile phones 1, 1A, 1B, 1C, and 1D is analyzed. To do. The longitudinal direction of the shape is determined as the left-right direction, and the direction orthogonal to the longitudinal direction is determined as the front-rear direction. Moreover, let the longest line segment side among the line segments of the longitudinal direction of a shape be a front direction. More specifically, a line segment connecting the mobile phone 1 and the mobile phone 1A, a line segment connecting the mobile phone 1 and the mobile phone 1C, and a line segment connecting the mobile phone 1B and the mobile phone 1D in the layout map are shown. A line segment connecting the mobile phone 1A and the mobile phone 1B and a line connecting the mobile phone 1C and the mobile phone 1D are determined as the line segments in the front-rear direction. Further, among the three line segments in the longitudinal direction, the line segment connecting the longest mobile phone 1B and the mobile phone 1D is determined as the forward direction, the line segment connecting the other mobile phone 1 and the mobile phone 1A, and the mobile phone A line segment connecting 1 and the mobile phone 1C is determined as the backward direction.

  5.1 Channels are a center channel showing the center sound when viewed from the viewer, a front left channel showing the front and left sound, a front right channel showing the front and right sound, and a rear left showing the rear and left sound. A channel, a rear right channel indicating the right and rear sound, and a subwoofer channel indicating the sound of the subwoofer.

  Therefore, a central channel is assigned to the mobile phone 1 located in the center of the mobile phones 1, 1A, 1B, 1C, and 1D in the arrangement map, a rear left channel is assigned to the mobile phone 1A, and a front left channel is assigned to the mobile phone 1B. The rear right channel is assigned to the mobile phone 1C, and the front right channel is assigned to the mobile phone 1D. In the arrangement map shown in FIG. 4, the subwoofer channel is not assigned to any of the mobile phones 1, 1A, 1B, 1C, 1D. If any of the mobile phones 1, 1A, 1B, 1C, and 1D has a stereo playback function, the mobile phone can play back two channels. For example, if the mobile phone 1 has a function of reproducing in stereo, a central channel and a subwoofer channel are assigned to the mobile phone 1.

  The allocation pattern in which the master unit allocates 5.1 channels is determined based on the number of mobile phones that constitute the playback system 100 and the functions that the mobile phone has.

  FIG. 5 is a diagram illustrating an example of a channel assignment pattern. Referring to FIG. 5, the first to fifth lines show the assigned patterns in the case where the sound group is composed of a mobile phone having a function of reproducing monaural sound. The first line shows the assigned pattern when the sound group is composed of six mobile phones. The six mobile phones have a center channel, front left channel, front right channel, rear left channel, rear right channel, and Each subwoofer channel is assigned. The second row shows the allocation pattern when the sound group is composed of five mobile phones, and the central channel, front left channel, front right channel, rear left channel and rear right channel are provided on the five mobile phones. Assigned to each.

  The third line shows the assignment pattern when the sound group is composed of four mobile phones, and the front left channel, front right channel, rear left channel and rear right channel are assigned to the four mobile phones, respectively. . The fourth line shows an allocation pattern in the case where the sound group is composed of three mobile phones, and a central channel, a front left channel, and a front right channel are allocated to the three mobile phones, respectively. The fifth line shows an assignment pattern when the sound group is composed of two mobile phones, and the front left channel and the front right channel are assigned to the two mobile phones, respectively.

The sixth line and the seventh line show the assigned patterns in the case where the sound group is composed of a mobile phone having a function of reproducing stereo sound. The sixth line shows the allocation pattern when the sound group is composed of two mobile phones, and one selected from the front left channel, the front right channel, the rear left channel, and the rear right channel is one. It is assigned to the mobile phone, and the remaining two are assigned to other mobile phones. The seventh line shows the assigned pattern when the sound group is composed of three mobile phones, and is selected from the center channel, front left channel, front right channel, rear left channel and rear right channel. One is assigned to one mobile phone, two selected from the remaining channels are assigned to another mobile phone, and the remaining one channel is assigned to the remaining mobile phone.
The

  Returning to FIG. 3, in step S08, a volume is determined for each channel assigned in step S07. The control unit executes step S07 to configure volume determination means. The volume is determined based on the positions of the mobile phones 1, 1A, 1B, 1C, 1D included in the arrangement map. In the arrangement map, the position of the viewer is set at the front center, and the volume for reproducing the sound of each channel is determined so that the sound is balanced at the position of the viewer. In this case, the volume is determined based on the performance information of the speaker included in the mobile phone included in the device information received together with the participation response. Thereby, it is possible to prevent the sound reproduced by the mobile phones 1, 1A, 1B, 1C, 1D from being varied due to the difference in the performance of the speakers between the mobile phones 1, 1A, 1B, 1C, 1D. A balanced sound can be reproduced by a plurality of mobile phones 1, 1A, 1B, 1C, 1D. In addition to the volume, a delay time may be set.

  In the next step S09, a reproduction instruction is transmitted to the child device. When the control unit 21 executes step S9, a reproduction instruction transmission unit included in the reproduction instruction unit is configured. The reproduction instruction differs depending on the child device, and includes the channel assigned to the child device in step S07 and the volume determined corresponding to the channel in step S08. Specifically, the reproduction instruction transmitted to the mobile phone 1A is an instruction to reproduce the rear left channel at a predetermined volume, and the reproduction instruction transmitted to the cellular phone 1B is an instruction to reproduce the front left channel at a predetermined volume. The reproduction instruction to be transmitted to the mobile phone 1C is an instruction to reproduce the rear right channel at a predetermined volume, and the reproduction instruction to be transmitted to the cellular phone 1D is an instruction to reproduce the front right channel at a predetermined volume. .

  Then, the radio broadcast sound is reproduced in accordance with the reproduction instruction for the device itself (step S10). When the control unit 21 executes step S10, a reproduction instruction unit is configured. Specifically, the AV decoder 29 D / A converts the 5.1 channel audio signal input from the tuner 24 and includes the audio signal of the channel included in the playback instruction, and amplifies it to the volume included in the playback instruction. Let Here, the AB decoder 29 is caused to reproduce the center channel at a predetermined volume. As a result, the mobile phone 1, 1A, 1B, 1C, 1D reproduces the sound of the center channel, the rear left channel, the front left channel, the rear right channel, and the front right channel respectively at a predetermined volume. , You can watch balanced 5 channel sound.

  In step S11, it is determined whether or not an end instruction has been received from any of the child devices belonging to the sound group. The end instruction is a signal that is transmitted by the slave unit and indicates that the slave unit ends the reproduction of the sound of the radio broadcast and leaves the sound group. If the wireless LAN circuit 23 receives an end instruction from any of the cellular phones 1A, 1B, 1C, and 1D set as the slave units, the process proceeds to step S12, and if not, the process proceeds to step S14.

  In step S12, 1 is subtracted from the number N of slave units, and the process proceeds to step S13. In step S13, it is determined whether or not the number of handset N is 1 or more. If the number of slave units is 1 or more, the process returns to step S06. If the number of slave units is 0, the process proceeds to step S18. This is because a sound group cannot be configured with a plurality of devices unless there are a plurality of devices belonging to the sound group. For example, when the cellular phone 1A transmits an end instruction, the process returns to step S06, and a sound group is formed by the four cellular phones 1, 1B, 1C, and 1D remaining in the sound group. Channels are assigned to the mobile phones 1, 1B, 1C, 1D included in the sound group (step S08), the volume for each channel is determined (step S09), and the mobile phones 1, 1B, 1C, 1D are determined in accordance with the playback instruction. In each case, the sound of the channel assigned to each is reproduced. For this reason, even if any of the slave units constituting the sound group stops reproducing the sound of the channel, the remaining master unit and slave units constituting the sound group are set to 5.1 channels. Two or more channels can be played.

  In step S14, it is determined whether an end instruction has been accepted. If the user indicates a key assigned in advance for instructing the end of the operation keys 14 of the operation unit 25, the end instruction is accepted. When the voltage of the built-in battery decreases, an end instruction is received from a detection sensor that detects the voltage of the built-in battery. If an end instruction is accepted, the process proceeds to step S15; otherwise, the process returns to step S11. In step S15, one master unit is determined from the slave units belonging to the sound group. The parent device can be arbitrarily selected from a plurality of child devices.

  In step S16, the master change instruction and the arrangement map are transmitted to the device determined as the master in step S15, and the process proceeds to step S17. In step S17, the reproduction of the radio broadcast is terminated and the process is terminated.

  FIG. 6 is a flowchart showing an example of the flow of channel reproduction processing. The channel reproduction process is a process executed by the control unit 21 when the control unit 21 included in each of the mobile phones 1A, 1B, 1C, and 1D as the slave units executes a reproduction program and an application program for functioning as a radio. is there. Here, a case where the mobile phone 1B executes the channel reproduction process will be described as an example.

  Referring to FIG. 6, control unit 21 of mobile phone 1B determines whether or not a participation request has been received from mobile phone 1 serving as a parent device (step S51). The wireless LAN circuit 23 is in a standby state until it receives a participation request from the mobile phone 1 (NO in step S51). If a participation request is received, the process proceeds to step S52. That is, the channel reproduction process is a process executed on condition that a participation request is received from the parent device. Note that the playback program may be executed by receiving a participation request from the parent device as a trigger.

  In step S52, an inquiry screen is displayed on LCD 16 and waits until an instruction is input by the user. An inquiry means is comprised when the control part 21 performs step S52. The inquiry screen is a screen for inquiring the user whether or not to participate in a sound group that plays a radio broadcast. For example, as a message for requesting participation in a sound group, “Multi-channel audio output is performed on this terminal”. Can I get started? "

  In step S53, it is determined whether a participation instruction has been accepted. The operation accepting unit is configured by the control unit 21 executing step S53. If the user indicates a key assigned in advance for instructing participation among the operation keys 14 of the operation unit 25, the participation instruction is accepted. If a participation instruction is accepted, the process proceeds to step S54; otherwise, the process ends.

  In step S54, position information indicating the current position on the map is acquired. The position information output by the GPS sensor 26 is acquired. In the next step S55, a participation response is transmitted via the wireless LAN circuit 23 to the mobile phone 1 that is the parent device that has transmitted the participation request. A participation response transmission unit is configured by the control unit 21 executing step S55. The participation response includes the position information acquired in step S54 and the device information of the mobile phone 1B. The device information includes information such as the number of speakers, speaker performance information (db), a speaker configuration indicating whether the speaker is stereo or monaural, and directivity adjustment availability.

  Then, the wireless LAN circuit 23 is in a standby state until it receives a reproduction instruction from the mobile phone 1 that is the base unit (NO in step S56). If the reproduction instruction is received, the process proceeds to step S57. In the next step S57, in accordance with the received reproduction instruction, the sound of the channel included in the reproduction instruction is reproduced with the volume included in the reproduction instruction. Specifically, the AV decoder 29 D / A converts the 5.1 channel audio signal input from the tuner 24 and includes the audio signal of the channel included in the playback instruction, and amplifies it to the volume included in the playback instruction. Let

  In the next step S58, it is determined whether or not the wireless LAN circuit 23 has received a parent device conversion instruction from the mobile phone 1 serving as the parent device. If a parent device change instruction is received, the process proceeds to step S59; otherwise, the process proceeds to step S61. In step S59, a new arrangement map is generated based on the arrangement map received together with the parent device change instruction. An arrangement map including the remaining mobile phones 1A, 1B, 1C, and 1D excluding the mobile phone 1 that is the parent device included in the arrangement map is generated.

  Then, in order to cause the mobile phone 1B to function as a parent device, a parent device process is executed (step S60). The base unit process is the same as the process shown in steps S07 to S17 shown in FIG. 3, and description thereof will not be repeated here.

  In step S61, it is determined whether an end instruction has been accepted. If the user indicates a key assigned in advance for instructing the end of the operation keys 14 of the operation unit 25, the end instruction is accepted. When the voltage of the built-in battery decreases, an end instruction is received from a detection sensor that detects the voltage of the built-in battery. If an end instruction is accepted, the process proceeds to step S62; otherwise, the process returns to step S58. In step S62, an end instruction is transmitted to the parent device. Then, the reproduction of the radio broadcast is terminated (step S63), and the process is terminated.

  As described above, the playback system 100 according to the present embodiment includes the mobile phones 1, 1A, 1B, 1C, and 1D as playback devices. In the mobile phone 1, which is the parent terminal among the mobile phones 1, 1A, 1B, 1C, and 1D, position information indicating the positions of the mobile phones 1, 1A, 1B, 1C, and 1D is acquired, and an arrangement map is generated. . Then, based on the arrangement map, one or more of 5.1 channels are assigned to each of the mobile phones 1, 1A, 1B, 1C, 1D, and assigned to each of the mobile phones 1, 1A, 1B, 1C, 1D. The audio data of one or more selected channels is reproduced. For this reason, even when the cellular phones 1, 1A, 1B, 1C, 1D cannot reproduce a plurality of channels at once, the cellular phones 1, 1A, 1B, 1C, 1D share different channels. Since the reproduction is performed, the sound of the 5.1 channel can be reproduced by the mobile phone 1, 1A, 1B, 1C, 1D with a realistic sound.

  Also, based on the arrangement map, the volume for reproducing each of the audio data of one or more channels assigned to each of the mobile phones 1, 1A, 1B, 1C, 1D is determined, and the audio data of the channel is determined with the determined volume. Since it is played back, 5.1 channel sound can be played back in a balanced manner.

  In addition, each of the mobile phones 1A, 1B, 1C, and 1D as the child terminals inquires of the user whether or not to send a participation response in response to receiving the participation request from the mobile phone 1 as the parent terminal, and participates. The participation response is returned to the mobile phone 1 as the parent terminal on condition that an operation indicating transmission of the response is instructed by the user. For this reason, since it is determined whether or not the user participates in the sound group and reproduces the audio data, it is possible to prevent the audio from being reproduced against the user's intention in each of the mobile phones 1A, 1B, 1C, and 1D. can do.

  In the above-described embodiment, the playback system 100 has been described. However, the playback control method for executing the channel assignment process shown in FIG. 3 or the channel playback process shown in FIG. Needless to say, the present invention can be understood as a reproduction control program for the above.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

<Appendix>
(1) Volume determining means for determining a volume for reproducing each of the audio data of one or more channels assigned to each of the plurality of reproduction devices based on the positions of the plurality of reproduction devices;
6. The reproduction control apparatus according to claim 5, wherein the reproduction instruction unit reproduces the one or more channels assigned to each of the plurality of reproduction apparatuses at the determined volume.
(2) The reproduction instruction means reproduces each of one or more other reproduction apparatuses other than the own apparatus among the plurality of reproduction apparatuses to reproduce the one or more channels assigned to the other reproduction apparatus. The reproduction control apparatus according to claim 5, further comprising reproduction instruction transmission means for transmitting an instruction.
(3) participation request transmission means for transmitting a participation request;
Including one or more other playback devices that respectively transmit the received one or more participation responses on the condition that one or more participation responses indicating participation in response to transmission of the participation request are received. The reproduction control apparatus according to claim 5, further comprising system configuration means for determining a plurality of reproduction apparatuses.

1 is a diagram showing an overall outline of a playback system in one embodiment of the present invention. It is a functional block diagram which shows an example of the function of a mobile telephone. It is a flowchart which shows an example of the flow of a channel allocation process. It is a figure which shows an example of an arrangement | positioning map. It is a figure which shows an example of a channel allocation pattern. It is a flowchart which shows an example of the flow of a channel reproduction | regeneration process.

Explanation of symbols

  100 playback system 1, 1A, 1B, 1C, 1D mobile phone, 11 first speaker, 12 second speaker, 13 microphone, 14 operation keys, 16 LCD16, 21 control unit, 22 wireless circuit, 23 wireless LAN circuit, 24 Tuner, 22A, 23A, 24A antenna, 25 operation unit, 26 GPS sensor, 27 card I / F, 27A flash memory, 28 codec unit, 29 AV decoder, 30 display control unit.

Claims (7)

A playback system comprising a plurality of playback devices,
Each of the plurality of playback devices includes playback means for playing back multiple channels of audio data;
Position detection means for detecting the current position;
Communication means for communicating with other playback devices among the plurality of playback devices,
At least one playback device among the plurality of playback devices includes position acquisition means for acquiring the position of each of the plurality of playback devices;
Allocating means for allocating one or more channels of the plurality of channels to each of the plurality of playback devices based on the position of each of the plurality of playback devices;
A playback system comprising playback instruction means for playing back the audio data of the assigned channel or channels to each of the plurality of playback devices. The at least one playback device further includes volume determining means for determining a volume for playing back each of the audio data of one or more channels assigned to each of the plurality of playback devices based on the positions of the plurality of playback devices. ,
The reproduction system according to claim 1, wherein the reproduction instruction unit reproduces the one or more channels assigned to each of the plurality of reproduction apparatuses at the determined volume. One parent device of the plurality of playback devices comprises the position acquisition means, the allocation means, and the playback instruction means,
The reproduction instruction means transmits a reproduction instruction for causing each of one or more child devices other than the parent device to reproduce the one or more channels assigned to the child device among the plurality of reproduction devices. Including transmission means,
2. The reproduction unit according to claim 1, wherein the reproduction unit of each of the one or more child devices reproduces the audio data of the one or more channels among the audio data of the plurality of channels in accordance with the reproduction instruction received from the parent device. Playback system. One parent device of the plurality of playback devices comprises the position acquisition means, the allocation means, and the playback instruction means,
The parent device further includes participation request transmission means for transmitting a participation request;
The one or more playback devices respectively transmitting the received one or more participation responses on the condition that one or more participation responses indicating participation in response to transmission of the participation request are received. System configuration means for determining the plurality of playback devices to be included as child devices,
Each of the one or more child devices other than the parent device among the plurality of playback devices further includes:
Inquiring means for inquiring a user whether to send the participation response in response to receiving a participation request from the parent device;
Operation accepting means for accepting an operation by a user indicating whether or not to transmit the participation response;
Participation that transmits the participation response including the position information indicating the current position detected by the position detection unit to the parent device on condition that the operation indicating that the operation reception unit transmits the participation response is received The playback system according to claim 1, further comprising response transmission means. Position acquisition means for acquiring the position of each of a plurality of playback devices capable of reproducing audio data of a plurality of channels;
Allocating means for allocating one or more channels of the plurality of channels to each of the plurality of playback devices based on the position of each of the plurality of playback devices;
A reproduction control device comprising: reproduction instruction means for reproducing the one or more assigned channels to each of the plurality of reproduction devices. Obtaining a position of each of a plurality of playback devices capable of playing back audio data of a plurality of channels;
Assigning one or more channels of the plurality of channels to each of the plurality of playback devices based on the position of each of the plurality of playback devices;
Playing each of the one or more assigned channels to each of the plurality of playback devices. Obtaining a position of each of a plurality of playback devices capable of playing back audio data of a plurality of channels;
Assigning one or more channels of the plurality of channels to each of the plurality of playback devices based on the position of each of the plurality of playback devices;
A reproduction control program for causing a computer to execute the step of reproducing the one or more assigned channels to each of the plurality of reproduction devices.

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