JP4320766B2 - Mobile phone - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile phone, an automatic performance device, an automatic performance control device, and an automatic performance system that can control light emission and automatic performance by a swing operation.
[0002]
BACKGROUND OF THE INVENTION
In recent years, mobile phones have become widespread and become an “essential item” especially among young people. There are many young people who love music, and many of these young music lovers perform music themselves or go to live concerts.
[0003]
[Problems to be solved by the invention]
In order to play music yourself, it is necessary to be able to play some kind of instrument, but to play the instrument requires skill and carrying the instrument is difficult. Also, in live concerts, the penlight often swells along with the stage, but for this purpose it is necessary to have a penlight, and the general penlight emits yellowish green chemically Only the change was scarce.
[0004]
An object of the present invention is to realize a mobile phone or the like that can realize all the needs of the above-mentioned young people by integrating various functions into a mobile phone generally owned by the young people.
[0008]
[Means for Solving the Problems]
  ThisThe invention of, SongStorage means for storing data;Communication means for receiving operation data transmitted from another mobile phone, and based on the operation data received by the communication meansAutomatic performance means for automatically performing the music data while controlling performance elements.Also thisThe invention ofSensor means for detecting a swing operation is provided, and the communication means transmits operation data corresponding to the detection contents of the sensor means via a telephone communication channel or a control channel.It is characterized by that.
[0009]
  In the present invention, when the communication means receives a signal transmitted from another mobile phone to the base station, the communication means has a function of transmitting a signal indicating that communication is possible to the other mobile phone, and the communication means Is provided with an alert means for performing an alert operation for notifying that another mobile phone capable of communication is within a certain range when a signal indicating that communication is possible is transmitted. In the present invention, the storage means stores profile data including information for selecting a communication partner and a communication partner selection condition, and the communication means transmits another mobile phone to the base station. When the received signal is received, the profile data is transmitted to the other mobile phone, and the alert means satisfies the selection condition when the communication means receives the profile data transmitted from the other mobile phone. The alert operation is performed when the selection condition is satisfied.
[0010]
  According to the present invention, an operation unit that receives a selection of a communication mode, and the operation data transmitted from a partner device that is a mobile phone of a communication partner is received and transmitted from the partner device in accordance with the operation received by the operation unit. Control means for executing a reception mode for performing automatically based on the operation data, or a transmission mode for transmitting the operation data of the own device to the other device. In addition, this inventionIn,The song data is composed of a plurality of parts, and the control meansThe reception modeWhen runningIsAssigning a part for a partner machine that performs automatically based on the operation data of the partner machine, and a part for host machine that performs automatically based on the operation data of the host machine, the automatic performance means,In the operation data transmitted from the partner machineAutomatically play the part for the other machine based on theBased on work dataThe self-partPlay automaticallyRukoAnd features.
[0011]
  ThisIn the invention, the control means randomly distributes the counterpart machine part and the own machine part. Also, in the present invention, the communication means transmits a message indicating that the music has ended when the music is completed when the reception mode is executed.
[0012]
The mobile phone constantly communicates with the base station in order to maintain a callable state. By intercepting this radio wave, it can be detected that there is another mobile phone nearby. In the case of a PHS telephone, radio waves can be transmitted and received with each other within a range of about 20 meters. And if the communication function of a mobile telephone is used, it will also be possible for mobile telephones to communicate without going through a base station (it may communicate via a base station or a network). Using the communication function of this mobile phone, the operation data of one mobile phone is transmitted to another mobile phone, and in the (other) mobile phone that has received this operation data, the content detected by the sensor means of its own device The performance elements of the automatic performance are controlled based on the received operation data. Thereby, it becomes possible to perform an ensemble (session) using a plurality of mobile phones.
If the communication function is provided, the function is not limited to the mobile phone. As the sensor means of the present invention, a device such as a push button switch that is temporarily in contact with movement of the body may be used. However, the sensor means is attached to the body or operated by the user's hand or the like. Those that exercise with are preferred. Such a sensor means can be used to detect a movement mode or posture state and control an automatic performance performed by any of the plurality of devices, thereby enabling a simple session regardless of location. Here, the body part to be detected in the movement mode may be anywhere such as an arm, a foot, a finger, etc., and the posture state is such as which direction the body part is facing and the angle at which the joint is bent. A static state that can be applied to any body part or joint.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
A PHS telephone which is an embodiment of the present invention will be described with reference to the drawings. In this embodiment, a PHS telephone is described as an example, but a similar function can be realized by a so-called mobile telephone.
This PHS telephone is capable of calling by receiving / receiving as a normal function, an acceleration sensor for detecting acceleration by which a user swings the PHS telephone, a plurality of LEDs, and storage means for storing song data (EEPROM) The built-in automatic performance unit that automatically plays music based on the song data, and the user controls the light emission mode of the plurality of LEDs and the automatic performance of the music by swinging the PHS telephone. You can do it.
[0014]
The light emission control of the LED is as follows, for example. “LEDs of four colors that emit blue, green, red, and orange light are provided. The direction in which the PHS phone is swung left and right is the X-axis direction, and the direction in which the PHS phone is swung in the front-back direction is the Y-axis direction. Assuming that the direction of swinging up and down (the direction of the antenna) is the Z-axis direction, when the acceleration in the + direction of the X-axis is equal to or greater than a certain level, the blue light emitting LED is turned on with a light amount corresponding to the acceleration. When the acceleration in the negative direction of the axis is above a certain level, the green LED is turned on with a light amount corresponding to the acceleration, and when the acceleration in the positive direction of the Y axis is above a certain level, the light amount corresponding to the acceleration. When the acceleration in the negative direction of the Y-axis exceeds a certain level, the LED that emits orange light is lit with a light amount corresponding to the acceleration, and the acceleration in the positive direction of the Z-axis is constant. In these cases, it corresponds to the acceleration When the acceleration in the negative direction of the Z-axis is greater than or equal to a certain level, the red LED and the orange LED are simultaneously turned on with the amount of light corresponding to the acceleration. This is the method.
[0015]
Further, automatic performance using music data can be performed in the following two modes. In the normal automatic performance mode, when the start is instructed, the music data is read at a predetermined tempo and automatically played at a predetermined volume. In the control mode, when the performance is started, the user performs an automatic performance at a tempo corresponding to the period at which the user swings the PHS telephone and a volume corresponding to the speed (acceleration) at which the user swings. That is, in the control mode, the user can control the automatic performance by swinging the PHS telephone.
[0016]
Further, the LED light emission control and the automatic performance control mode can be combined.
[0017]
Also, this PHS telephone monitors the area registration radio waves transmitted by other PHS telephones, and when receiving the area registration radio waves transmitted by the other PHS telephones, it communicates with each other to create a single song. It is possible to perform session performance in which automatic performance based on data is controlled based on rocking operation data generated by both PHS telephones.
[0018]
FIG. 1 is an external view of the PHS telephone 1, and FIG. 2 is a block diagram of the PHS telephone. In the PHS telephone 1, the upper half or the whole of the housing 10 is translucent so that the light emitted from the inside can be seen through. The LED group 17 is provided inside the translucent housing. The LED group includes a blue light emitting LED 17a, a green light emitting LED 17b, a red light emitting LED 17c, an orange light emitting LED 17d, and a white light emitting LED 17e. Among these, the LED 17 e is provided inside the antenna 11. The antenna 11 provided in the upper part of the housing is also translucent. An LCD matrix display 12, a key group 13 including a numeric keypad and an off-hook key, a call microphone 14, a receiving speaker 15 and a calling speaker 16 are provided on the front of the housing.
[0019]
In FIG. 2, a ROM 21, a RAM 22, an RF block 24, a modem unit 25, a TDMA processing unit 26, a voice CODEC 27, an EEPROM media 29, an automatic performance unit 30, and an interface 31 are connected to the control unit 20 configured by a microcomputer. Has been. The ROM 21 stores a control program for determining the function of the mobile phone. The EEPROM medium 29 is detachable through a slot 29a, and stores song data of a song to be played on this PHS telephone. The RAM 22 stores temporarily generated data.
[0020]
An antenna 11-a duplexer 23-an RF block 24-a modem unit 25, a TDMA processing unit 26-a voice CODEC 27 is a functional unit that processes a well-known PHS telephone function. The voice CODEC 27 includes the microphone 14, the receiving speaker 15, A key group 13 is connected. The transmission output of the PHS telephone is about 10 mW, and if it is a high-sensitivity base station receiver, it can receive radio waves transmitted by the PHS telephone within a range of about 200 meters. Radio waves transmitted by other PHS telephones can be received within a range of about 20 meters.
[0021]
The automatic performance unit 30 is configured by a DSP, and realizes a sequence processing function and a software sound source function based on music data. By inputting the song data to the automatic performance section 30, it is possible to generate a musical tone that has played the song data. The generated musical sound is output from the calling speaker 16. A so-called ring tone is also synthesized by the automatic performance unit 30.
[0022]
Further, an LCD driver 32, a light emission control unit 33, and an AD converter 34 are connected to the interface 31. The LCD driver 32 drives the LCD matrix display 12 to display a telephone number and time. The light emission control unit 33 controls the light emission of the LED group 17. A triaxial acceleration sensor (3D sensor) 28 is connected to the AD converter 34. The 3D sensor 28 detects the swing acceleration of the PHS telephone 1. The detected swing acceleration is converted into digital data by the AD converter 34 and input to the control unit 20 via the interface 31.
[0023]
Since the EEPROM media 29a is detachable, the song data can be set in the PHS telephone by attaching the EEPROM media 29a in which the song data is written in advance. It is also possible to download music data from a server connected to the network via a PHS communication channel using the PHS telephone communication function.
[0024]
FIG. 3 is a configuration diagram of song data stored in the EEPROM. This music data is composed of a plurality of parts, and a separate track is provided for each part. In each track, event data for instructing the sound generation and mute and the timing data for instructing the reading timing of the event data are written in time series. A control track in which event data such as tempo information for instructing the tempo of performance is written is provided separately from each part track. When performing normal automatic performance, the tracks of each part are read in parallel at the tempo specified by the control track. In the automatic performance control mode and the session mode, the reading tempo of each part track is controlled by the tempo information determined by the swing of the PHS telephone or the session partner PHS telephone.
[0025]
FIG. 4 is a configuration diagram of a network including the PHS telephone 1. A plurality of base stations 2 are installed every several hundred meters, and a PHS telephone 1 is connected to a telephone network via the base station 2 and manages a PHS telephone of a communication partner via an exchange 3 Connected. A general subscriber telephone line is connected via the exchange 3. The exchange 3 is connected to a server device 4 that stores a large number of music data of music that the PHS telephone 1 automatically performs.
[0026]
The operation of the PHS telephone will be described with reference to the flowchart in FIG. FIG. 5 is a flowchart showing a main routine for mode setting and mode handling processing. When the user performs a mode setting operation (s1), the corresponding mode is set / reset correspondingly (s2). After that, the corresponding processing operation of the set mode is executed (s3 to s9). That is, when the light emission control mode is set (s3), the swing detection operation of FIG. 6A and the light emission control operation of FIG. 6B are executed. If the automatic performance mode is set (s4), the operation shown in FIG. 7A is executed. When the automatic performance control mode is set (s5), the swing detection operation of FIG. 6 (A) and the operation of FIG. 8 are executed. If the song data download mode is set (s6), the operation of FIG. 9 is executed. When the session mode is set (s7), the swing detection operation of FIG. 6A and the session operations of FIGS. 11 to 13 are executed. If the profile input mode or the session condition input mode is set (s8, s9), the input operations shown in FIGS. 5B and 5C are executed.
[0027]
FIG. 6A is a flowchart showing the swing detection operation. In this operation, swing operation data is output based on the detection content of the 3D sensor 28 that is a three-axis acceleration sensor. This operation is executed in the light emission control mode, the automatic performance control mode, and the session mode. When the mode is entered, speed data and the like are initialized (s20). Then, an operation of s21 or less is executed at intervals of about 10 ms. First, acceleration data is taken from the 3D sensor 28 (s21). Then, the accelerations of the X, Y, and Z axes are combined to detect the swing acceleration (s22). Then, the acceleration data is integrated for each axis (s23), and by combining the integration results, the swing speed is detected (s24) and the swing direction is determined (s25). These swing directions, swing speeds, and swing accelerations are output as swing operation data to the light emission control program of FIG. 6B or the automatic performance control program of FIG. 8 (s26). Based on the change trajectory, the peak of oscillation is detected (s27). If a swing peak is detected, peak detection information is output to the light emission control program or the automatic performance control program (s28).
[0028]
FIG. 5B is a flowchart showing the light emission control operation. This operation is executed in the light emission control mode. First, the light emission and light amount of the blue light emitting LED 17a and the green light emitting LED 17b are controlled based on the X-axis acceleration and the Z-axis acceleration (s30). Next, the light emission and light amount of the red light emitting LED 17c and the orange light emitting LED 17d are controlled based on the Y-axis acceleration and the Z-axis acceleration (s31). Further, the light emission and light quantity of the white light emitting LED 17e are controlled based on the Z-axis acceleration (s32).
[0029]
Here, the direction in which the PHS telephone is swung left and right is the X-axis direction, the direction in which the PHS telephone is swung in the front-back direction is the Y-axis direction, and the direction in which the PHS telephone is swung up and down (antenna direction) is the Z-axis direction. When the acceleration in the + direction of the X axis is greater than or equal to a certain value, the blue light emitting LED 17a is turned on with a light amount corresponding to the acceleration. When the acceleration in the negative direction of the X axis is equal to or greater than a certain level, the green LED 17b is turned on with a light amount corresponding to the acceleration. When the acceleration in the + direction of the Y axis is equal to or greater than a certain level, the red LED 17c is turned on with a light amount corresponding to the acceleration. When the acceleration in the negative direction of the Y axis is greater than or equal to a certain level, the LED 17e that emits orange light is turned on with a light amount corresponding to the acceleration. When the acceleration in the + direction of the Z axis is equal to or greater than a certain value, the LED 17a, LED 17b, and white light emitting LED 17e are simultaneously turned on with a light amount corresponding to the acceleration. When the acceleration in the negative direction of the Z axis is equal to or greater than a certain value, the LED 17c, LED 17d, and LED 17e are simultaneously turned on with a light amount corresponding to the acceleration.
[0030]
In this embodiment, light emission is controlled based on the acceleration of each axis in the above swing operation data, but other swing operation data (for example, speed, swing direction, swing peak). Etc.) may be controlled based on the emission color and the amount of emitted light.
[0031]
In this embodiment, the amount of emitted light is controlled based on the swing acceleration. However, in addition to the amount of light, the blinking interval and the number of LEDs that are lit by providing a plurality of LEDs of the same color may be controlled. Good.
[0032]
FIG. 7A is a flowchart showing the automatic performance operation. This operation is performed in the automatic performance mode. First, a list of song data stored in the EEPROM medium 29a is displayed on the LCD display. This display is performed by displaying a list of song names written in the header of the song data (s33). When the user selects a song (s34), the song number of the selected song (this song number may be a song number uniquely assigned to the song data and indicates the number in the EEPROM media 29a). (Which may be a number) is input to the automatic performance unit 30 together with an instruction to start automatic performance (s35). After that, since the automatic performance unit 30 executes the automatic performance, the control unit 20 inputs the corresponding piece of music data to the automatic performance unit 30 partly in response to a request from the automatic performance unit 30 (s36). This is continuously executed until the music ends (s37).
[0033]
FIG. 7B is a flowchart showing the sequence operation of the automatic performance unit 30. First, timing data at the beginning of the music data is set (s40). Then, the tempo of the tempo clock is set based on the tempo information input from the control unit 20 (s41), and the timing data is counted at this tempo (s42). When the timing data is counted up to the event timing, the process proceeds from s43 to s44.
[0034]
In s44, event data following the counted timing data is read, and processing corresponding to this event is executed (s45). The event response processing includes a sound generation operation and a mute operation. After this processing, the next timing data is set (s46), and the process returns to s41. Note that although not appearing in this flowchart, the volume control is always performed for the musical sound being sounded, and this volume control is performed based on the volume control data. Further, the volume control data may be used as velocity data at the time of sounding operation.
[0035]
In the process of the automatic performance section, in the normal automatic performance mode, tempo setting data written in the music data is used as tempo information. In an automatic performance control mode, which will be described later, a tempo clock is set based on tempo information generated based on a user's rocking operation. Thereby, the tempo of automatic performance is controlled by the user's swinging operation.
[0036]
FIG. 8 is a flowchart showing the automatic performance control operation. This operation is performed in the automatic performance control mode. First, a list of song data stored in the EEPROM medium 29a is displayed on the LCD display (s49). This display is performed by displaying a list of song names written in the header of the song data. When the user selects a song (s50), the song number of the selected song (this song number may be a song number uniquely assigned to the song data and indicates the number in the EEPROM media 29a). (Which may be a number) is input to the automatic performance section 30 together with an instruction to start automatic performance (s51). After that, since the automatic performance unit 30 executes the automatic performance, the control unit 20 inputs the corresponding piece of music data to the automatic performance unit 30 partly in response to a request from the automatic performance unit 30 (s52). At the same time, in order to control the tempo and volume of the automatic performance based on the swing operation of the user, the tempo is determined based on the swing operation data (s53). The tempo can be determined by detecting the peak of the swing operation and determining the tempo so as to follow the peak. Alternatively, the peak of the swing operation may be forcibly determined as the beat timing, and the tempo may be determined by dividing between the beat timings. In any case, any of various conventionally proposed tempo determination methods can be used.
[0037]
Next, volume control data is generated based on the swing operation data. The volume control data may be a value correlated with the peak value of acceleration and the rocking speed.
[0038]
These tempo information and volume control data are output to the automatic performance unit 30 (s55). This is continuously executed until the music ends (s56).
[0039]
FIG. 9 is a flowchart showing an operation of downloading music data stored in the EEPROM medium 29a from a server on the network. This operation is executed in the music data download mode. First, the music data server 4 is accessed using the telephone function of PHS (s59), and a music data list is received (s60). The user selects a desired song from the song data list (s61). This song data list reception and song data selection input may be performed by receiving a list of all songs at a time and selecting from them, but using a hierarchical menu categorized by genre, singer gender, etc. Depending on the user's selection, the user may enter a deep hierarchy, and finally transmit / receive the song names corresponding to the classification. Alternatively, the user may directly input the song number uniquely assigned to the song data and specify the song data.
[0040]
When song data selection input is performed as described above (s61), the song selection information (song number) is transmitted to the server device (s62). Since music data is downloaded from the server device in response to transmission of this music selection information, it is received (s63) and written to the EEPROM media 29a (s64). Thereby, music data can be downloaded using PHS telephone communication.
[0041]
10 to 13 are flowcharts showing processing in the session mode. The session mode is a mode in which automatic performance control of one piece of music data is performed simultaneously by two people.
FIG. 10 is a flowchart showing a standby operation for waiting for a session partner. FIG. 6A is a flowchart showing a standby operation when the session condition is not inspected. First, a normal area registration operation is performed. That is, a CS code (CS call code) of the base station (one or more) that can communicate from the control channel is received (s70), and the CS code with the best communication condition is stored (s71). Then, its own PS code (PS call code) is transmitted to the base station via the control channel (s72).
[0042]
After that, it is checked whether or not the PS code transmitted to the base station by another PHS telephone can be received (s73). Generally, when two PHS telephones approach each other within about 20 meters, they can receive each other's radio waves. When a PS code of another PHS telephone is received, a signal indicating that a session is possible is returned to the PHS telephone (s74), and a predetermined alert sound is generated using the automatic performance unit 30, An alert operation such as blinking the LED is executed (s75). By this alert operation, the user can know that there is a partner who can have a session at a short distance. Thereafter, the process proceeds to the session operation shown in FIG.
[0043]
11 to 13 are flowcharts showing the session operation. The session operation is an operation when the user finds the owner of the PHS telephone with which the user communicated in the operation of FIG. 10 and makes a session with the owner. First, in FIG. 11, a session partner (PS code of a PHS telephone possessed by the session partner) is registered by a predetermined key operation (s90). Then, the session mode is selected (s91). The session mode includes a transmission mode, a reception mode, and a twin mode. This mode selection needs to be matched with the session partner. That is, if you select the transmission mode, the other party selects the reception mode, if you select the reception mode, the other party selects the transmission mode, and if you select twin mode, the other party also selects the twin mode. Select.
[0044]
Here, the reception mode is a mode for controlling the automatic performance of the own device together with the swing operation mode generated by the own device by receiving the swing operation data transmitted from the PHS telephone of the session partner. On the other hand, the transmission mode is a mode for controlling the automatic performance of the partner machine by transmitting the swing operation data of the own machine to the PHS phone of the session partner.
[0045]
The twin mode is a mode for controlling different parts of the same song on both the own machine and the other machine based on the swing operation data generated by itself.
[0046]
When a mode is selected, the operation jumps to an operation corresponding to the selected mode (s92).
[0047]
FIG. 12 is a flowchart showing the operation in the reception mode. First, a list of song data stored in the EEPROM medium 29a is displayed on the LCD display (s100). This display is performed by displaying a list of song names written in the header of the song data. Then, the music selection input is accepted (s101). The music selection operation may be performed by inputting a music number or may be specified with a cursor. This music data is composed of multiple parts. Among them, a part controlled by its own machine (swing operation data generated by it) and a part controlled by its partner machine (swing operation data sent from it) are assigned. (S102). This assignment may be performed by the user by key operation, but the part for the own machine and the part for the other machine may be automatically assigned in advance, and at that time, the parts are randomly assigned to give game characteristics. May be.
[0048]
Thereafter, the tune number is notified to the automatic performance section 30 and the performance start is instructed (s103). Then, since the automatic performance unit 30 performs automatic performance after that, the control unit 20 inputs the corresponding piece of music data to the automatic performance unit 30 partly in response to a request from the automatic performance unit 30 (s104). . In order to control the tempo and volume of the automatic performance based on the user's swing operation data, the tempo is determined based on the swing operation data (s105), and the volume control data is determined based on the swing operation data. Generate (s106). Then, the tempo information / volume control data and the part assigned to the player are input to the automatic performance unit 30 (s107). Next, the tempo information / volume control data generated by the swing operation of the partner machine is received from the partner machine (s108), and this is input to the automatic performance unit 30 together with the part assigned to the partner machine (s109). . As a result, the automatic performance unit 30 controls the automatic performance for each part assigned to the own machine and each part assigned to the other machine to execute the automatic performance. This is continuously executed until the music ends (s110).
[0049]
The above is the operation in the reception mode. Returning to FIG. 11, the operation in the transmission mode will be described. A tempo is determined based on the swing operation data (s93), and volume control data is generated (s94). The tempo information and volume control data are transmitted to the session partner PHS telephone (s95). This transmission / reception may be performed using a control channel used for area registration. The above operation is continuously executed until the music ends (s96). The end of the song may be determined by the end of the user's operation, or the end of the song may be determined when a message indicating that the song has ended is received from the other party's PHS telephone.
[0050]
FIG. 13 is a flowchart showing the operation in the twin mode. In twin mode, it is necessary to store the same song data on both PHS phones, but you can play with the song data stored on your device (sending side) or receive the song data stored on the other device. To perform (receive side) is selected (s111). When the transmission side is selected, first, a list of music data stored in the EEPROM medium 29a is displayed on the LCD display (s112). This display is performed by displaying a list of song names written in the header of the song data. Then, a music selection input is accepted (s113). The music selection operation may be performed by inputting a music number or may be specified with a cursor. This music data is composed of multiple parts. Among them, a part controlled by its own machine (swing operation data generated by it) and a part controlled by its partner machine (swing operation data sent from it) are assigned. (S114). This assignment may be performed by the user by key operation, but the part for the own machine and the part for the other machine may be automatically assigned in advance, and at that time, the parts are randomly assigned to give game characteristics. May be. The music data and part assignment data are transmitted to the partner machine (s115).
[0051]
After that, the music number is notified to the automatic performance unit 30, and the performance start of the automatic performance of only the assigned part is instructed (s116). At the same time, a performance start is instructed to the partner machine (s117). After that, since the automatic performance unit 30 performs automatic performance, the control unit 20 inputs the corresponding piece of music data to the automatic performance unit 30 part by part in response to a request from the automatic performance unit 30 (s118). In order to control the tempo and volume of the automatic performance based on the user's swing operation data, the tempo is determined based on the swing operation data (s119), and the volume control data is determined based on the swing operation data. Generate (s120). Then, the tempo information / volume control data and the part assigned to the player are input to the automatic performance unit 30 (s121). As a result, the automatic performance unit 30 controls the automatic performance of the parts assigned to itself and executes the automatic performance. This is continuously executed until the music ends (s122).
[0052]
When playing a song that is already stored in both PHS telephones, it is only necessary to send the part assignment data without sending the song data in s115.
[0053]
On the other hand, when it becomes the receiving side, the music data is received from the partner machine (s125) and stored in the EEPROM medium 29a (s126). Next, the part assignment data is received (s127). After receiving the above data, the process waits in s128 until a performance start instruction is received from the partner machine. When there is an instruction to start performance, the operation after s129 is executed.
[0054]
After that, the music number is notified to the automatic performance unit 30, and the performance start of the automatic performance of only the assigned part is instructed (s129). Then, since the automatic performance unit 30 performs automatic performance after that, the control unit 20 inputs the corresponding piece of music data to the automatic performance unit 30 partly in response to a request from the automatic performance unit 30 (s130). . In order to control the tempo and volume of the automatic performance based on the user's swing operation data, the tempo is determined based on the swing operation data (s131), and the volume control data is determined based on the swing operation data. Generate (s132). Then, the tempo information / volume control data and the part assigned to the player are input to the automatic performance unit 30 (s133). As a result, the automatic performance unit 30 controls the automatic performance of the parts assigned to itself and executes the automatic performance. This is continuously executed until the music ends (s134).
[0055]
As a result, different parts are automatically played on one PHS telephone, and one tune is played on both ensembles.
[0056]
In the standby operation of FIG. 10 (A), when a PS code transmitted from another PHS phone is received, an alert is made immediately indicating that a session is possible. You can also alert when a condition is met. Such a standby operation is shown in FIG. In the figure, first, a normal area registration operation is performed. That is, the CS code (CS call code) of the communicable base station (s) is received (s80), and the CS code with the best communication condition is stored (s81). Then, its own PS code (PS call code) is transmitted to the base station (s82).
[0057]
Thereafter, it is checked whether or not the PS code transmitted to the base station by another PHS telephone can be received (s83). Generally, when two PHS telephones approach each other within about 20 meters, they can receive each other's radio waves. When the PS code of another PHS telephone is received, this profile is returned to the PHS telephone (s84). The profile is data such as the user's name, gender, age, and hobbies, and is stored in the memory. At the same time, profile data is received from the other party's PHS telephone (s85), and it is determined whether or not this satisfies the session conditions set in the own apparatus (s86). The session condition is a condition that the profile sent from the partner machine satisfies the user's preference. The conditions such as age “18-25”, gender “male”, and hobby “music / rock” Is set. If this condition is satisfied, an alert operation is executed (s87). The alert operation is an operation such as generating a predetermined alert sound using the automatic performance unit 30 or blinking the LED 17. With this alert operation, the user can know that there is a partner who can have a session at a short distance. After that, it is possible to proceed to the session operation shown in FIG.
[0058]
FIG. 5B is a flowchart showing a profile input operation for inputting the profile. When the user operates the key group 13, his / her profile such as name, sex, age, and hobby is input (s11). Then, this profile is written into the memory (s12).
[0059]
FIG. 5C is a flowchart showing a session condition input operation for inputting the session condition. When the user operates the key group 13, conditions necessary for the other party's profile, such as sex, age, and hobby, are input as conditions for the other party of the session (s13). Then, the session condition is written in the memory (s14), and the operation is terminated.
[0060]
Although this embodiment shows an example in which the present invention is applied to a PHS phone, it may be a normal mobile phone or may not have a phone function. For example, it may be shaped like a conventional penlight.
[0061]
In addition, the session may have no mobile phone function as long as it has a wireless communication function, and if at least one of them has an automatic performance function, other devices can be operated by swinging. The object of the present invention can be achieved if it has a function of only transmitting data.
[0062]
The session is not limited to two PHS telephones (one automatic performance device and one automatic performance control device), and may be performed by three or more devices.
[0063]
Further, the music data to be stored is not limited to sequence data, and may be waveform data in which performance musical sounds such as MP3 are recorded. In this case, the pitch of the music can be changed simultaneously by changing the read clock.
[0065]
【The invention's effect】
  As aboveAccording to this invention,An ensemble (session) is possible using multiple mobile phones,Based on each detected movement mode and posture stateMobile phoneSince the automatic performance of the music can be controlled, the session can be easily enjoyed and the threshold of music performance can be lowered.
[Brief description of the drawings]
FIG. 1 is an external view of a PHS telephone according to an embodiment of the present invention.
FIG. 2 is a block diagram of the PHS telephone.
FIG. 3 is a diagram showing a network including the PHS telephone.
FIG. 4 is a configuration diagram of song data stored in the PHS telephone.
FIG. 5 is a flowchart showing the operation of the PHS telephone.
FIG. 6 is a flowchart showing the operation of the PHS telephone.
FIG. 7 is a flowchart showing the operation of the PHS telephone.
FIG. 8 is a flowchart showing the operation of the PHS telephone.
FIG. 9 is a flowchart showing the operation of the PHS telephone.
FIG. 10 is a flowchart showing the operation of the PHS telephone.
FIG. 11 is a flowchart showing the operation of the PHS telephone.
FIG. 12 is a flowchart showing the operation of the PHS telephone.
FIG. 13 is a flowchart showing the operation of the PHS telephone.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... PHS telephone, 2 ... Base station, 3 ... Switching office, 4 ... (Song data) Server apparatus, 10 ... (Translucent) housing | casing, 11 ... Antenna, 17 ... LED

Claims (8)

Storage means for storing song data;
A communication means for receiving operation data transmitted from another mobile phone;
Automatic performance means for automatically performing the music data while controlling performance elements based on operation data received by the communication means;
Mobile phone equipped with. Comprising sensor means for detecting the swing operation;
Mobile phone according to claim 1 wherein the communication means to send an operation data corresponding to the detected contents of said sensor means. Operation means for accepting selection of a communication mode;
According to the operation received by the operation means,
A reception mode for receiving the operation data transmitted from a partner device which is a mobile phone of a communication partner, and performing automatically based on the operation data transmitted from the partner device, or the operation data of the own device in the partner device. A control means for executing a transmission mode for transmission;
The mobile phone according to claim 2, further comprising: The song data is composed of a plurality of parts,
The control means, when executing the reception mode, a partner machine part that automatically performs based on the operation data of the partner machine, and a part for the own machine that performs automatically based on the operation data of the host machine, Allocation ,
The automatic performance means, according to claim 3, wherein on the basis of the operation data transmitted from the partner apparatus automatically playing the mating machine parts, automatically playing the own apparatus for part on the basis of the operation data of its own The mobile phone described in 1. 5. The mobile phone according to claim 4 , wherein the control means randomly distributes the part for the counterpart machine and the part for the own machine. The mobile phone according to any one of claims 3 to 5 , wherein, when the reception mode is executed, the communication means transmits a message indicating that the music has ended when the music ends. The communication means has a function of transmitting a signal indicating that communication is possible to the other mobile phone when receiving a signal transmitted from the other mobile phone to the base station,
7. The apparatus according to claim 1, further comprising: an alert unit that performs an alert operation for notifying that another mobile phone capable of communication is within a certain range when the communication unit transmits a signal indicating that the communication is possible . A mobile phone according to any one of the above. The storage means stores profile data including information for selecting a communication partner, and communication partner selection conditions,
When the communication means receives a signal transmitted from another mobile phone to the base station, the communication means transmits the profile data to the other mobile phone,
The alert means determines whether or not the selection condition is satisfied when the communication means receives the profile data transmitted from another mobile phone, and performs the alert operation when the selection condition is satisfied. The mobile phone according to claim 7 to be performed.

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