JP6120343B1 - Communication system, output control method, program - Google Patents

Communication system, output control method, program Download PDF

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JP6120343B1
JP6120343B1 JP2016122157A JP2016122157A JP6120343B1 JP 6120343 B1 JP6120343 B1 JP 6120343B1 JP 2016122157 A JP2016122157 A JP 2016122157A JP 2016122157 A JP2016122157 A JP 2016122157A JP 6120343 B1 JP6120343 B1 JP 6120343B1
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light emission
unit
output device
music
information terminal
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JP2017228859A (en
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諒太 伊澤
諒太 伊澤
優 宮路
優 宮路
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株式会社ハタプロ
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Abstract

Provided are an output device, a communication system, an output control method, a program, and accessories, interior goods, and clothing using the same, which can control contents such as light emission and sound output through communication with a portable terminal. An output device 3 that can communicate with an information terminal includes a light emitting unit 33, a control unit 31 that controls light emission of the light emitting unit 33, and a communication unit 32 that communicates with the information terminal, and is set in the information terminal. Based on the light emission conditions, the light emitting unit 33 emits light, and when the music is played on the information terminal, the BPM value in the music is analyzed, a light emission pattern is generated based on the analysis result, and the light emission conditions are set based on the light emission pattern. The [Selection] Figure 3

Description

The present invention relates to an output device or the like for emitting an audio output or the like, in particular controllable communication system emitting an audio output or the like by remote control, output control method relates to the program.

  2. Description of the Related Art Conventionally, mobile terminals such as smartphones have been owned by many people, and are used on a daily basis for a wide variety of purposes due to their multi-functionality.

  For example, playing your favorite music, sending and receiving e-mails, updating SNS articles, and performing remote communication with various external devices such as Bluetooth (registered trademark) Is one of its uses and functions.

  Focusing on one of the uses of such a portable terminal, for example, in Patent Document 1, if the carrying information identifying information of the IC tag is registered in the portable terminal device in advance and is not carried, it is carried in the portable terminal device. There has been disclosed a communication system for preventing a user from forgetting to carry a product by notifying that the product is not carried.

Japanese Patent Application No. 2006-85192

  However, in the one disclosed in Patent Document 1, it is necessary to attach an IC tag for each carry-on item and to perform pre-registration on the mobile terminal device side, which makes the user troublesome in pre-registration and the like. .

  On the other hand, although there are various devices that can communicate remotely with a mobile terminal and Bluetooth (registered trademark), etc., as with mobile terminals, decorative and stunning effects and functional convenience can be applied to a bag carried by the user. There are no accessories to provide. For example, conventionally, there is no accessory that can control light emission and audio output on the mobile terminal side, can confirm a place where a carried item has been left behind, or can change the production according to the movement of the user.

The present invention has been made in view of such problems, and an object mobile terminal and the communication by emitting an audio output or the like controllable communication system, the output control method, to provide a program .

In order to solve the above problems, a communication system according to a first aspect of the present invention is a communication system in which an output device and an information terminal are communicatively connected. The output device includes a light emitting unit, and the light emitting unit. And a first communication unit that communicates with the information terminal, the information terminal including a second communication unit that communicates with the output device, and a music reproduction control unit that reproduces music. A BPM value analysis unit that analyzes a beat in the music, a light emission pattern generation unit that generates a light emission pattern based on a sound analysis result by the BPM value analysis unit, and light emission by the light emission unit of the output device A light emission condition setting unit for setting a light emission condition including color and brightness, and a light emission instruction unit for instructing light emission by the light emission unit of the output device. In the information terminal, the light emission instruction unit includes the music piece Is again If not, an instruction is given for light emission based on the light emission conditions set by the light emission condition setting unit. When music is being played, the light emission conditions set by the light emission condition setting unit and the light emission pattern generation unit are used. Instructing light emission based on the generated light emission pattern, and in the output device, the light emission control unit controls the repetition timing of light emission on / off of the light emission unit based on the light emission pattern, and based on the light emission condition The light emission color and brightness of the light emission unit are controlled, and the light emission unit of the output device emits light.

The communication system according to a second aspect of the present invention is the communication system according to the first aspect, wherein the output device further includes a motion detection unit that detects motion, and the first communication unit receives a detection result by the motion detection unit. The information is transmitted to the information terminal, and the light emission condition setting unit sets the light emission condition based on the detection result.

In the communication system according to a third aspect of the present invention, in the first aspect, in the information terminal, the light emission instructing unit sends the e-mail to the output device at least at the timing of receiving an e-mail and updating an SNS posted article. Instruct the flash to fire.

In a communication system according to a fourth aspect of the present invention, in the first aspect, the information terminal further includes a position information management unit that acquires and manages position information, and the position information management unit includes the output device and the position information management unit. The location information is acquired and managed at the timing when the communication connection is released.

In a communication system according to a fifth aspect of the present invention , in the first to fourth aspects, the output device is any one of an accessory, an interior product, a clothing product, a DIY product, and a handmade product.

An output control method according to a sixth aspect of the present invention is an output control method using a communication system in which a light emitting unit, an output device including a light emission control unit, and an information terminal are connected to be communicable. A step of communicating with the output device; a step of reproducing a song; a step of analyzing a sound beat in the song; a step of generating a light emission pattern based on a result of the analysis; and the light emitting unit of the output device A step of setting a light emission condition including a light emission color and brightness according to the above, and instructing light emission based on the set light emission condition when the music is not reproduced, and when the music is reproduced, the set light emission Instructing light emission based on the conditions and the generated light emission pattern; and Controlling the repetition timing of on / off, the control the emission color and brightness of light emission of the light emitting portion based on the light emission condition, having a step of performing light emission by the light emitting portion.

A program according to a seventh aspect of the present invention is a program executed by an information terminal in a communication system in which an output device including a light emitting unit and a light emission control unit and an information terminal are connected to be able to communicate with each other, The information terminal includes a music reproduction control unit that reproduces music, a BPM value analysis unit that analyzes a beat in the music, and a light emission pattern that generates a light emission pattern based on the analysis result of the sound by the BPM value analysis unit A generation unit, a light emission condition setting unit that sets a light emission condition including light emission color and brightness by the light emitting unit of the output device, and a light emission instruction unit that instructs light emission by the light emitting unit of the output device, When the light emitting instruction unit instructs the light emission based on the light emission condition set by the light emission condition setting unit when the music is not reproduced, and when the music is reproduced Instructs the light emission based on the emission pattern generated by the light emission condition set by the light emitting condition setting unit and the illumination pattern generation unit.

According to the present invention, the communication with the portable terminal and the like, controllable communication system the contents such as a light-emitting or sound output, output control method, it is possible to provide a program.

Further, according to the present invention, the communication with the portable terminal and the like, can be provided to that communication system allowing see where left her baggage on map choice, output control method, a program.

Then, according to the present invention, the communication with the portable terminal and the like, can be directed by the light-emitting or sound output, etc. according to the movement of the user provides modifiable communication system, the output control method, a program.

It is a block diagram of the communication system which concerns on one Embodiment of this invention. It is a block diagram of the server apparatus of the system. It is a block diagram of the portable terminal of the system. It is a block diagram of the output device of the system. It is a flowchart which shows the light emission control of the system. It is a setting screen concerning light emission control. It is a setting screen concerning light emission control. It is a flowchart which shows the light emission control according to the music of the system. It is a setting screen concerning the light emission control according to the music. It is a flowchart which shows the light emission control matched with operation | movement of the system. It is a setting screen regarding the light emission control according to operation | movement. It is a setting screen regarding the light emission control according to operation | movement. It is a setting screen regarding the light emission control according to operation | movement. It is a flowchart which shows the light emission control linked with the notification of the system. It is a setting screen regarding the light emission control linked to the notification. It is a flowchart which shows the process which concerns on misplacement prevention by the system. It is a screen which shows a misplaced place. It is a setting screen concerning simultaneous control of a plurality of output devices. It is a structural example in the case of using the output device of this system as an accessory.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 shows a configuration of a communication system according to an embodiment of the present invention.

  As shown in the figure, the communication system according to the present embodiment has a configuration in which a server device 1, a user information terminal 2, and an output device 3 are communicatively connected via a network 4 such as the Internet. Has been. As the information terminal 2 for the user, various devices such as a mobile phone, a smartphone, a tablet terminal, and a notebook personal computer (hereinafter abbreviated as PC) can be adopted.

  In such a configuration, the information terminal 2 can download music data and the like by accessing the server device 1. In addition, when a light emission condition such as a light emission color or light emission brightness is set in the information terminal 2, the output terminal 3 wirelessly connected based on a communication standard such as Bluetooth (registered trademark) is set based on the light emission condition. A light emission instruction is given, and a light emitting unit such as an LED (Light Emitting Diode) emits light. Further, based on an instruction from the information terminal 2, the output device 3 outputs a predetermined sound.

  In the information terminal 2, when a music piece is reproduced, a BPM (Beats Per Minute) value of the music piece is analyzed, a light emission pattern is generated based on the BPM value, and a light emission pattern and light emission condition setting unit. A light emission instruction is made based on the light emission conditions set by the above, and the output device 3 emits light based on the light emission pattern.

  When the information terminal 2 transmits / receives an incoming call or e-mail, updates an SNS article, or transmits / receives a message, a light emission instruction or a sound output instruction is given at that timing, and the output device 3 emits light or sound. Output is made. Further, when the wireless communication connection between the information terminal 2 and the output device 3 is released, the location information of the information terminal 2 is acquired and stored at that timing, so that the information terminal 2 and the output device 3 are predetermined. That is, it is possible to confirm a place where a carry item such as a bag to which the output device 3 is connected is left behind.

  The output device 3 can be realized in a wide variety of forms such as interior decorations, accessories such as key holders, interior goods such as furniture, and clothing. It can also be built in a stuffed animal.

  FIG. 2 shows and describes the configuration of the server device.

  As shown in the figure, the server device includes a control unit 11 such as a CPU (Central Processing Unit). The control unit 11 is connected to the communication unit 12 and the storage unit 13 via the system bus. The communication unit 12 is a communication interface that communicates with the output device 3 via the network 4. The storage unit 13 includes a memory such as a ROM and a RAM, an HDD (Hard Disc Drive), and the like, and stores a program 16 executed by the control unit 11. Furthermore, it has a music database (hereinafter abbreviated as DB) 14 and a user DB 15. The music DB stores music data, and the user DB 15 stores user attribute information.

  The control unit 11 functions as the main control unit 11a, the authentication unit 11b, the screen generation unit 11c, the user management unit 11d, and the music management unit 11e by reading and executing the program 16 in the storage unit 13.

  In such a configuration, the authentication unit 11b authenticates the user information terminal 2. The screen generation unit 11c generates screen data such as HTML data based on a user request. The user management unit 11d manages and updates attribute information and the like registered by the user. The music management unit 11e manages a large number of music data. The main control unit 11a performs overall control in addition to the above. The server device 1 opens a web page that allows a large number of music data to be downloaded by the information terminal 2.

  FIG. 3 shows and describes the configuration of the mobile terminal.

  As shown in the figure, the information terminal 2 includes a control unit 21 such as a CPU. The control unit 21 is connected to the communication unit 22, the touch panel 25, the audio output unit 24, the sound collection unit 27, and the storage unit 28 via a system bus. The communication unit 22 is a communication interface that communicates with the output device 3 and the like via the network 4. The touch panel 25 includes an operation unit 23 and a display unit 24. The audio output unit 26 includes a speaker or the like. The sound collection unit 27 includes a microphone or the like. The storage unit 28 includes a memory such as a RAM and a ROM, an HDD, and the like, and stores a program 29 executed by the control unit 21.

  The control unit 21 reads and executes the program 29 to thereby execute a main control unit 21a, a music reproduction control unit 21b, a BPM value analysis unit 21c, a light emission pattern generation unit 21d, a light emission condition setting unit 21e, a light emission instruction unit 21f, and position information. It functions as a management unit 21g and a display control unit 21h.

  In such a configuration, the music reproduction control unit 21 b controls the audio output accompanying the reproduction of the music from the audio output unit 26. The BPM value analysis unit 21c analyzes the beats related to the music. The light emission pattern generation unit 21d generates a light emission pattern based on the analysis result of the sound beats by the BPM value analysis unit 21c. The light emission condition setting unit 21e receives settings of the light emission color and brightness of the light emitted from the output device 3, and records and updates the light emission conditions. The light emission instruction unit 21 f instructs the output device 3 to emit light. When the music is not being played back, light emission based on the light emission conditions set by the light emission condition setting unit 21e is instructed. When the music is being played back, the light emission conditions and the light emission pattern generation unit set by the light emission condition setting unit 21e The light emission based on the light emission pattern generated by is instructed. The location information management unit 21g acquires and manages location information of the information terminal 2. The display control unit 21 h controls display on the display unit 24 of the touch panel 25. In addition to the above, the main control unit 21a detects, for example, the timing of receiving an e-mail and updating an article posted on the SNS, and controls to issue a light emission instruction from the light emission instruction unit 21f, or communicates with the output device. It controls overall control, such as controlling to acquire and manage position information by the position information management unit 21g at the timing when the release of is performed.

  FIG. 4 shows and describes the configuration of the output device.

  As shown in the figure, the output device 3 includes a control unit 31 such as a CPU. The control unit 31 is connected to the communication unit 32, the light emitting unit 33, the audio output unit 34, the acceleration sensor 35, the input unit 36, the charging control unit 37, the storage unit 39, and the sound collection unit 40. The controller 31 is supplied with power from the rechargeable battery 38. The communication unit 32 is a communication interface that communicates with the information terminal 2 by wireless communication. The light emitting unit 33 is a light emitting device including an LED array or the like. The audio output unit 34 is a speaker or the like. The acceleration sensor 35 is a sensor for detecting the movement of the output device 3. The input unit 36 is an input interface that receives input of audio data and the like from the outside. The charging control unit 37 controls charging of the charging place 38. And the memory | storage part 39 consists of memories, such as RAM and ROM, and memorize | stores various data. The sound collection unit 40 is composed of a macrophone or the like, and collects external sound.

  In such a configuration, more specifically, the control unit 31 functions as a light emission control unit 31a, a hue adjustment unit 31b, an audio output control unit 31c, a motion detection unit 31d, and a main control unit 31e. The light emission control unit 31a controls light emission by the light emitting unit 33 based on the light emission pattern and the light emission conditions transmitted from the information terminal 2. More specifically, the light emission control unit 31a controls the light emission ON / OFF repetition timing based on the light emission pattern, and the light emission color, brightness, etc. of the light emission unit 33 based on the light emission conditions. To control. At this time, the hue adjusting unit 31 b adjusts the hue of light emitted by the light emitting unit 33. The audio output unit 31 c controls the audio output by the audio output unit 34. The motion detection unit 31 d detects the motion of the output device 3 based on the output signal of the acceleration sensor 35. Information on this movement is sent to the information terminal 2 in real time via the communication unit 32 under the control of the main control unit 31e. The main control unit 31e performs overall control in addition to the above.

  Hereinafter, the light emission control of the communication system will be described with reference to the flowchart of FIG.

  When the program 29 is started in the information terminal 2 (S1) and the power is turned on on the output device 3 side in parallel (S2), the information terminal 2 is connected to, for example, Bluetooth (registered trademark), All the output devices 3 in the wireless communication area are searched (S4), and the wireless communication connection is established by pairing (S4), although not shown, at this time, with the plurality of output devices 3 in advance. Wireless communication connection is established with a plurality of output devices 3.

  When the setting of the light emission condition is selected (Yes in S5), the light emission condition is set by the light emission condition setting unit 21e based on the operation of the operation unit 23 (S6). Here, the emission color, the reproduction order for each emission color, the reproduction speed, and the like are set. Of course, when simultaneous connection and simultaneous control with a plurality of output devices 3 are performed, the setting can be changed for each output device 3 or can be synchronized.

  When the setting of the light emission condition is not selected (No in S5), the latest or saved recent light emission condition is used. Thus, when the light emission instruction unit 21f of the information terminal 2 gives a light emission instruction to the output device 3 (S7), in the output device 3, the light emission control unit 31a controls the light emission of the light emitting unit 33 based on the light emission conditions ( S8). The information terminal 2 stores, updates, etc. the set light emission conditions (S9), thus ending the series of processes.

  Here, FIG. 6 and FIG. 7 show and explain the setting screen for the light emission conditions.

  As shown in FIG. 6, the setting screen 100 is provided with a tab 100 a on the upper side, where “palet” for manually setting the light emission condition is selected. In the center of the screen, there is a brightness function, that is, an emission color selection area 100b. Each color is displayed in a layered manner on the arc so that it can be selected. The light emission color is selected by moving to. The emission color corresponding to the position of the break icon on the arc is displayed in the central circular area 100c and can be confirmed. The emission color selected by operating the areas 100b and 100c is reflected in the reproduction order display area 100e arranged next to the reproduction button 100d. The stage of changing the emission color is indicated by a check mark. In the area 100g, the playback speed can be selected. In this example, 2 seconds, 1.5 seconds, 0.5 seconds, and 0 seconds can be selected. Even when the play button 100d is pressed, a light emission instruction is issued from the light emission instruction unit 21f, and the output device 3 emits light based on the light emission conditions.

  As shown in FIG. 7, in the setting screen 101, “Mood” is selected in the upper tab 101a. In this case, selection icons corresponding to various moods are displayed in the area 101b, and a desired one can be selected from a large number of moods such as rain, cherry blossom, and therapy. When a desired icon is tapped, a light emission instruction based on a light emission condition corresponding to the mood is given, and light is emitted on the output device 3 side. When the plus button 101c is selected, the mood can be additionally set. When the button 101d is selected, the mood can be edited and deleted. In addition, when the reset button 101e is selected, the initial state is restored.

  Next, the light emission control according to the music of the communication system will be described with reference to the flowchart of FIG.

  When the program 29 is started in the information terminal 2 (S11), and the power is turned on on the output device 3 side in parallel with this (S12), the information terminal 2 is wirelessly connected to, for example, Bluetooth (registered trademark). All output devices 3 within the communication range are searched (S13), and wireless communication connection is established by pairing (S14). Although not shown, at this time, if settings related to simultaneous communication with a plurality of output devices 3 are made in advance, wireless communication connections are established with the plurality of output devices 3. It will be.

  When the setting of the light emission condition is selected (Yes in S15), the light emission condition is set by the light emission condition setting unit 21e based on the operation of the operation unit 23 (S16). Here, the light emission color, the reproduction order, the reproduction speed, etc. relating to each light emission color are set. When the setting of the light emission condition is not selected (No in S15), the latest or saved recent light emission condition may be used. When simultaneous connection and simultaneous control with a plurality of output devices 3 are performed, the setting can be changed for each output device 3 or can be synchronized.

  Subsequently, the music is played under the control of the music playback controller 21b (S17), the BPM value is analyzed by the BPM value analyzer 21c, and the light emission pattern is generated by the light emission pattern generator 21d (S18). A light emission pattern means the timing which light-emits continuously according to the music beat. When the light emission instruction unit 21f of the information terminal 2 gives a light emission instruction to the output device 3 (S19), the light emission control unit 31a causes the light emission unit 33 to emit light based on the light emission pattern and the light emission conditions. Control (S20). The information terminal 2 stores, updates, etc. the set light emission conditions (S21), thus ending the series of processes.

  Here, FIG. 9 shows a music playback screen for explanation.

  The music playback screen 102 is provided with a button 102a for reading the mood color, and the mood color is read by selecting the button 102a. A music reproduction start button 102b, a music name display area 102c, a music selection button 102d at a music providing site, and a built-in sound source selection button 102e are provided. When the music selection button 102d on the music providing site is selected, an application linked to the music providing site is activated and the music can be selected. When the built-in sound source selection button 102e is selected, the built-in sound source can be selected.

  Next, with reference to the flowchart of FIG. 10, the light emission control according to the operation of the communication system will be described.

  When the program 29 is started in the information terminal 2 (S31) and the power is turned on on the output device 3 side in parallel (S32), the information terminal 2 is connected to the wireless terminal for wireless connection (for example, Bluetooth (registered trademark)). All output devices 3 in the communication area are searched (S33), and wireless communication connection is established by pairing (S34). Although not shown, at this time, if settings related to simultaneous communication with a plurality of output devices 3 are made in advance, wireless communication connections are established with the plurality of output devices 3. It will be.

  When the setting of the light emission condition is selected (Yes in S35), the light emission condition is set by the light emission condition setting unit 21e based on the operation of the operation unit 23 (S36). Here, the light emission color, the reproduction order, the reproduction speed, etc. relating to each light emission color are set. When the setting of the light emission condition is not selected (No in S35), the latest or saved recent light emission condition may be used. When simultaneous connection and simultaneous control with a plurality of output devices 3 are performed, the setting can be changed for each output device 3 or can be synchronized.

  Subsequently, when the motion detector 31d detects a motion based on the output signal from the acceleration sensor 35 in the output device 3, data relating to the motion is transmitted to the information terminal 2 under the control of the main controller 31e (S37). . In the information terminal 2, the main control unit 21a analyzes the movement (S38) and sets the light emission conditions (S39).

  When the light emission instruction unit 21f of the information terminal 2 instructs the output device 3 to emit light (S40), the light emission control unit 31a in the output device 3 emits light from the light emitting unit 33 based on the light emission pattern and the light emission conditions. Control (S41). The information terminal 2 stores, updates, etc. the set light emission conditions (S42), thus ending a series of processing.

  Here, FIG. 11 shows an operation setting screen, FIG. 12 shows an output voice selection screen, and FIG. 13 shows a voice registration screen.

  On the operation setting screen 103, a communication button 103a is provided, which is sequentially reproduced from the bottom of each color shown in the area 103b, and at the same time, audio is output on the information terminal 2 side. When the button 103c is selected, on / off switching is performed, and whether or not audio output is possible can be selected. When the button 103d is selected, a transition is made to the output sound selection screen 104 as shown in FIG. 12, and a desired sound can be selected by selecting a desired one from a number of icons arranged in the area 104a. It is like that. When the button 104b on the screen 104 is selected, a transition to the voice registration screen 105 in FIG. 13 is made. By selecting the recording start button 105a, the start and end of recording can be instructed, and by selecting the playback button 105b, You can also check the recorded voice. It is possible to additionally register the voice recorded in this way as voice output in conjunction with the operation.

  Next, with reference to the flowchart of FIG. 14, the light emission control linked with the notification of the communication system will be described.

  When the program 29 is activated in the information terminal 2 (S51), and the power is turned on on the output device 3 side in parallel with this (S52), the information terminal 2 is wirelessly connected to, for example, Bluetooth (registered trademark). All output devices 3 in the communication area are searched (S53), and wireless communication connection is established by pairing (S54). Although not shown, at this time, if settings related to simultaneous communication with a plurality of output devices 3 are made in advance, wireless communication connections are established with the plurality of output devices 3. It will be.

  Subsequently, when the information terminal 2 is notified of incoming calls, transmission / reception of e-mail, update of SNS time, transmission / reception of messages, etc. (Yes in S55), the main control unit 21a responds to the type of notification. The light emission conditions are determined (S57). When a light emission instruction is given to the output device 3 by the light emission instruction unit 21f (S58), the light emission control unit 31a in the output device 3 controls the light emission of the light emission unit 33 based on the light emission conditions (S59). Thus, a series of processing ends.

  Here, FIG. 15 shows a notification color setting screen, which will be described.

  As shown in the figure, on the notification color setting screen 106, it is possible to set a color related to each reception notification for incoming calls, mail, SMS, and various SNSs. In addition, it is possible to select whether or not notification by light emission in the output device 3 is possible. Furthermore, it is of course possible to set the color related to the reception notification of the corresponding application by cooperating with a third-party application.

  Next, processing related to prevention of misplacement by the communication system will be described with reference to the flowchart of FIG.

  When the program 29 is started in the information terminal 2 (S61) and the power is turned on on the output device 3 side in parallel with this (S62), the information terminal 2 is wirelessly connected to, for example, Bluetooth (registered trademark). All output devices 3 in the communication area are searched (S63), and wireless communication connection is established by pairing (S64). Although not shown, at this time, if settings related to simultaneous communication with a plurality of output devices 3 are made in advance, wireless communication connections are established with the plurality of output devices 3. It will be.

  Subsequently, when the communication connection is released in the information terminal 2 (Yes in S65), the mobile terminal 2 outputs a sound (S66), and the location information management unit 21g obtains the location information of the information terminal at that timing. Acquired and stored in the storage unit 28 (S67). Thus, a series of processing ends. Since this position information can be displayed and confirmed later on the display unit 24, it is possible to confirm the point where the communication connection is released, that is, the place where it has been misplaced.

  Here, FIG. 17 shows a confirmation screen.

  As shown in the figure, since the point where the communication connection is released is displayed on the map, it is possible to confirm a place where it may have been left behind.

  FIG. 18 shows a setting screen for simultaneous control of a plurality of output devices 3. When the user holds a plurality of output devices 3 in various forms in advance (for example, accessories, clothing, interior goods, etc.), the output device 3 to be controlled can be set on the screen 108 or the like. it can. FIG. 19 shows a design example when the output device 3 is realized as an accessory. FIG. 19A is a side view, and FIG. 19B is a plan view, and is configured so that light from an internal light emitting part transmits a case or scatters from a slit to give a beautiful shine. ing.

  Although one embodiment of the present invention has been described above, the present invention is not limited to this, and it is needless to say that various improvements and changes can be made without departing from the spirit of the present invention.

  For example, in a program executed by an information terminal capable of communicating with an output device, the information terminal sets a light emission condition setting unit for setting a light emission condition by the light emitting unit of the output device, and light emission for instructing light emission by the light emitting unit of the output device It functions as an instruction unit, and controls to emit light by the light emitting unit of the output device based on the light emission condition set by the light emission condition setting unit, and when the music is played, the BPM value in the music is analyzed, Implementation as a program characterized by generating a light emission pattern based on the analysis result and setting light emission conditions based on the light emission pattern is also possible. Further, the present invention can be implemented as a recording medium in which such a program is recorded so as to be readable by a computer.

  The output device according to an embodiment of the present invention can also be applied to effects such as restaurants and the stage. Furthermore, it can be applied to various products related to DIY and handmade.

  DESCRIPTION OF SYMBOLS 1 ... Server apparatus, 2 ... Portable terminal, 3 ... Output device, 4 ... Network, 11 ... Control part, 11a ... Main control part, 11b ... Authentication part, 11c ... Screen generation part, 11d ... User management part, 11e ... Music Management unit, 12 ... Communication unit, 13 ... Storage unit, 14 ... Music DB, 15 ... User DB, 16 ... Program, 21 ... Control unit, 21a ... Main control unit, 21b ... Music reproduction control unit, 21c ... BPM value analysis , 21d: Light emission pattern generation unit, 21e: Light emission condition setting unit, 21f: Light emission instruction unit, 21g: Location information management unit, 21h: Display control unit, 22 ... Communication unit, 23 ... Operation unit, 24 ... Display unit, 25 ... Touch panel, 26 ... Audio output unit, 27 ... Storage unit, 31 ... Control unit, 31a ... Light emission control unit, 31b ... Hue adjustment unit, 31c ... Audio output control unit, 31d ... Motion detection unit, 31e ... Main control unit , 32 ... Parts, 33 ... light-emitting unit, 34 ... sound output unit, 35 ... acceleration sensor, 36 ... input unit, 37 ... charging control unit, 38 ... battery, 39 ... storage unit, 40 ... clef collector.

Claims (7)

  1. In a communication system in which an output device and an information terminal are communicatively connected,
    The output device is
    A light emitting unit;
    A light emission control unit for controlling light emission of the light emitting unit;
    A first communication unit that communicates with the information terminal,
    The information terminal
    A second communication unit that communicates with the output device;
    A music playback control unit for playing back music;
    A BPM value analyzer for analyzing beats in the music;
    A light emission pattern generation unit that generates a light emission pattern based on the analysis result of the beats by the BPM value analysis unit;
    A light emission condition setting unit for setting a light emission condition including light emission color and brightness by the light emitting unit of the output device;
    A light emission instructing unit for instructing light emission by the light emitting unit of the output device,
    In the information terminal, the light emission instructing unit instructs light emission based on the light emission condition set by the light emission condition setting unit when the music is not reproduced, and when the music is reproduced, the light emission condition Instructing light emission based on the light emission condition set by the setting unit and the light emission pattern generated by the light emission pattern generation unit,
    In the output device, the light emission control unit controls on / off repetition timing of light emission of the light emitting unit based on the light emission pattern, and the light emission color and brightness of light emission of the light emitting unit based on the light emission condition. A communication system that controls the light and emits light by the light emitting unit of the output device .
  2. The output device is
    A motion detection unit for detecting motion;
    The first communication unit transmits a detection result by the motion detection unit to the information terminal,
    The communication system according to claim 1, wherein in the information terminal, the light emission condition setting unit sets light emission conditions based on the detection result.
  3. In the information terminal,
    The communication system according to claim 1, wherein the light emission instructing unit issues a light emission instruction to the output device at least at a timing of receiving an e-mail and updating an SNS posted article.
  4. The information terminal
    A location information management unit for acquiring and managing location information;
    The communication system according to claim 1, wherein the position information management unit acquires and manages position information at a timing when a communication connection with the output device is released.
  5. The communication system according to any one of claims 1 to 4, wherein the output device is any one of an accessory, an interior product, a clothing product, a DIY product, and a handmade product.
  6. An output control method by a communication system in which an output device including a light emitting unit and a light emission control unit and an information terminal are connected to be communicable,
    In the information terminal,
    Communicating with the output device;
    Playing music, and
    Analyzing beats in the music;
    Generating a light emission pattern based on the result of the analysis;
    Setting emission conditions including emission color and brightness by the light emitting unit of the output device;
    Instructing light emission based on the set light emission condition when the music is not reproduced, and instructing light emission based on the set light emission condition and the generated light emission pattern when the music is being reproduced;
    In the output device,
    Based on the light emission pattern, the on / off repetition timing of the light emission unit is controlled, and the light emission color and brightness of the light emission unit are controlled based on the light emission conditions, and the light emission unit emits light. And having steps
    Output control method.
  7. In a communication system in which an output device including a light emitting unit and a light emission control unit and an information terminal are connected to each other in a communicable manner, a program executed by the information terminal,
    The information terminal,
    A music playback control unit for playing back music;
    A BPM value analyzer for analyzing beats in the music;
    A light emission pattern generation unit that generates a light emission pattern based on the analysis result of the beats by the BPM value analysis unit;
    A light emission condition setting unit for setting a light emission condition including light emission color and brightness by the light emitting unit of the output device;
    Function as a light emission instruction unit for instructing light emission by the light emitting unit of the output device;
    The light emission instructing unit instructs light emission based on the light emission condition set by the light emission condition setting unit when the music is not reproduced, and is set by the light emission condition setting unit when the music is reproduced. For instructing light emission based on the light emission conditions and the light emission pattern generated by the light emission pattern generation unit.
    program.
JP2016122157A 2016-06-20 2016-06-20 Communication system, output control method, program Active JP6120343B1 (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2014030188A1 (en) * 2012-08-23 2014-02-27 パイオニア株式会社 Content playback method, content playback device, and program
JP2014175838A (en) * 2013-03-08 2014-09-22 Pioneer Electronic Corp Acoustic device, method for controlling acoustic device, and program
JP2016512671A (en) * 2013-02-25 2016-04-28 リングリー インコーポレイテッドRingly Inc. Mobile communication device

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2014030188A1 (en) * 2012-08-23 2014-02-27 パイオニア株式会社 Content playback method, content playback device, and program
JP2016512671A (en) * 2013-02-25 2016-04-28 リングリー インコーポレイテッドRingly Inc. Mobile communication device
JP2014175838A (en) * 2013-03-08 2014-09-22 Pioneer Electronic Corp Acoustic device, method for controlling acoustic device, and program

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