Source: https://patents.google.com/patent/JP2016197350A/en
Timestamp: 2020-07-05 02:15:09
Document Index: 262701606

Matched Legal Cases: ['arts 6', 'arts 6', 'art 6', 'art 42', 'art 11', 'art 12', 'art 13', 'art 21', 'art 42']

JP2016197350A - Information transmitter, motion experience system, information transmission method and motion experience method - Google Patents
Information transmitter, motion experience system, information transmission method and motion experience method Download PDF
2015-04-03 Priority to JP2015077243A priority Critical patent/JP2016197350A/en
2016-11-24 Publication of JP2016197350A publication Critical patent/JP2016197350A/en
PROBLEM TO BE SOLVED: To provide an information transmitter capable of transmitting active motions of a performer as experiences to plural audiences.SOLUTION: An information transmitter (40) includes: an acquisition section (41) that acquires a piece of information on a detected motion of a performer; a control signal generation section (43) that generates a control signal which causes a wearable unit (1) to perform an operation to give a sensory stimulation to the wearers corresponding to the motion of the performer; and a transmission section (44) that performs a broadcast transmission of the control signal to the plural wearable units.SELECTED DRAWING: Figure 3
The present invention relates to an information transmission device and a system that allows others to experience behavior.
Traditionally, attempts have been made to reproduce the atmosphere of the concert venue.
In Patent Document 1, biological information (myoelectricity, body surface temperature, skin sweating, skin resistance, pulse, respiration, microvibration, electrocardiogram, heart rate, or blood pressure) of a participant of a concert is multiplexed and transmitted as audio information. The technology to do is described. Patent Document 1 describes that the atmosphere of the concert venue is reproduced at the transmission destination.
Japanese Patent No. 4391091 (issued December 24, 2009)
In the above-described conventional technology, the transmitted biological information of the participant is based on an autonomous biological reaction. For this reason, for example, it is not possible for the audience at the concert venue to experience the actions that actors (such as singer or performer) on stage perform actively as production. In other words, the performer cannot intentionally give a feeling to a plurality of audiences at the concert venue.
An object of the present invention is to convey the active behavior of a performer as a bodily sensation to a plurality of wearers of wearable equipment.
An information transmission apparatus according to an aspect of the present invention includes an acquisition unit that acquires information about the active action or utterance of a sensed actor as information on the actor's behavior, and a tactile sense or vision corresponding to the actor's behavior. A control signal generation unit that generates a control signal for causing the wearable device to perform an operation of giving sensory stimulation to a wearer of the wearable device, and a transmission unit that broadcasts the control signal to the plurality of wearable devices.
An information transmission method according to an aspect of the present invention includes an acquisition step of acquiring sensed actor's active action or utterance information as information on the actor's behavior, and a tactile or visual response corresponding to the actor's behavior A control signal generating step of generating a control signal for causing the wearable device to perform an operation of giving a sensory stimulus to the wearer of the wearable device; and a transmission step of broadcasting the control signal to the plurality of wearable devices.
The behavior sensation method according to an aspect of the present invention senses an active action or utterance of an actor as an actor action, generates a control signal that causes the wearable device to perform an action corresponding to the actor action, and performs the control A signal is broadcasted to the plurality of wearable devices, and the wearable device causes the wearer to wear a tactile sense or visual sense stimulus corresponding to the control signal.
According to one aspect of the present invention, a plurality of wearers can simultaneously experience the performer's behavior. Therefore, it is possible to make the wearer feel a sense of unity with the performer and other wearers, thereby amplifying the sense of reality.
It is sectional drawing which shows the state with which the wearable apparatus used by one Embodiment of this invention was mounted | worn with the user's body. It is a figure which shows the mode of the concert venue to which one Embodiment of this invention is applied. It is a block diagram which shows the structure of the action experience system which concerns on one Embodiment of this invention. It is a figure which shows the control flow of the information transmission apparatus of the said action experience system. It is a figure which shows the control flow of the wearable apparatus of the said behavioral sensation system.
Hereinafter, embodiments of the present invention will be described in detail. For convenience of explanation, members having the same functions as those shown in the embodiments are denoted by the same reference numerals, and description thereof is omitted as appropriate.
In each of the following embodiments, the wearable device 1 will be described as a bracelet type device that can be worn on the user's wrist. The wearable device 1 may be any device that can be worn on the user's body, such as an anklet type that can be worn on the user's ankle, a headphone type, a headband type, or a ring type.
(Outline of wearable device 1)
FIG. 1 is a cross-sectional view showing a state in which a wearable device 1 used in the present embodiment is worn on a user's body (arm 10). As shown in FIG. 1, the wearable device 1 includes a band 2, a balloon 3, a micro blower 4, a sensor 5, and a vibration unit 6. The band 2 holds the wearable device 1 on an arm (wrist) 10 that is a user's body, and a balloon 3, a microblower 4, a sensor 5, and a vibration unit 6 are arranged in the band 2.
The balloon 3 is a balloon-type member that can be inflated and deflated. The balloon 3 is inflated by injecting a fluid (for example, air) into the balloon 3 and deflated by discharging the fluid from the balloon 3. For example, the micro blower 4 adjusts the amount of fluid in the balloon 3 according to the detection result by the sensor 5. The sensor 5 detects the degree of adhesion between the arm (body) 10 of the user wearing the wearable device 1 and the vibration unit 6. For example, the sensor 5 is a pressure that detects a pressure value inside the balloon 3. It is a sensor.
The vibration unit 6 applies vibration to the body (arm 10) of the user wearing the wearable device 1. As shown in the figure, the vibration unit 6 is disposed at a position opposite to the balloon 3 with the arm 10 interposed therebetween, and the number of the vibration units 6 may be plural or one. When there are a plurality of vibration parts 6, the plurality of vibration parts 6 are arranged so as not to vibrate each other.
FIG. 1A is a cross-sectional view showing the wearable device 1 before the balloon 3 is inflated. As shown in FIG. 1A, the band 2 has a length that is wide with respect to the outer periphery of the arm 10, so that the vibrating portion 6 is not in close contact with the arm 10. For example, immediately after the user wears the wearable device 1 on the arm 10, the wearable device 1 is in the state shown in FIG.
FIG. 1B is a cross-sectional view showing the wearable device 1 after the balloon 3 is inflated. As shown in FIG. 1B, the balloon 3 is inflated from the state of the balloon 3 shown in FIG. For this reason, the vibration part 6 is in a state of being in close contact with the arm 10. Therefore, when the vibration unit 6 vibrates, the vibration of the vibration unit 6 is effectively transmitted to the arm 10.
Further, the degree of inflation of the balloon 3 is adjusted based on the pressure value detected by the sensor 5 to such an extent that the vibrating portion 6 is in close contact with the arm 10 and the band 2 does not excessively tighten the arm 10. For this reason, even if there are individual differences in the thickness of the arm 10, the vibrating portion 6 can be brought into close contact with the arm 10 with a constant pressure by adjusting the degree of expansion of the balloon 3.
The wearable device 1 includes an antenna (not shown) for wireless communication. The wearable device 1 may include a display unit (not shown) including a lamp (light emitting diode) or a display screen.
(Outline of behavioral experience system)
FIG. 2 is a diagram illustrating a state of a concert venue (live concert venue) to which the present embodiment is applied. An actor 21 is on the stage 20, and a plurality of spectators 22 are in front of the stage 20. Here, the performer 21 is described as being a singer, but the performer 21 may be a performer performing on the stage 20, such as a performer, a performer such as a theater, or a dancer. The spectator 22 is a person who views or listens to the performance. In the present embodiment, the audience 22 can share the sensory stimulus corresponding to the active action or utterance of the performer 21 as an effect by the performer 21.
An information transmission device 40 is arranged at the concert venue. The movement of the performer 21 is sensed as a performer action by the motion sensor 31, the pressure sensor 32, and / or the camera 33. On the other hand, each spectator 22 is wearing the wearable device 1. The information transmission device 40 can communicate with the motion sensor 31, the pressure sensor 32, the camera 33, the microphone 34, and the wearable device 1 in the concert hall.
The actor 21 may wear one or more motion sensors 31. The motion sensor 31 senses the movement of the actor 21, and for example, an acceleration sensor can be used as the motion sensor 31. The motion sensor 31 transmits the acquired movement information to the information transmission device 40.
The pressure sensor 32 may be provided, for example, in a microphone 34 held (held) by the performer 21 or may be provided in a bracelet-type wearable device worn by the performer 21. The pressure sensor 32 senses the action of the performer 21 holding the device (microphone or wearable device) provided with the pressure sensor 32. The pressure sensor 32 transmits the acquired pressure information to the information transmission device 40.
The camera 33 functions as a tracker that detects a marker in motion capture. Information on movement of each part of the body of the performer 21 can be obtained by photographing the marker 33a attached to each part of the body by the camera 33 with the camera 33. The camera 33 transmits the acquired moving image or information on the movement of the marker 33 a to the information transmission device 40. A plurality of cameras 33 may be used, or a camera and a depth sensor that measures the depth of the subject may be used in combination. Instead of the camera 33, another device that performs motion capture may be used.
The microphone 34 functions as a vocal cord sensor that senses a voice uttered by the performer 21 as a performer action, in addition to transmitting the voice uttered by the performer 21 to the audience 22 through a speaker. The microphone 34 transmits the acquired audio information to the information transmission device 40.
All the above devices (motion sensor 31, pressure sensor 32, camera 33, and microphone 34) need not be provided. For example, any one device may be provided in order to sense the action or utterance of the performer 21. Also good.
(Behavioral experience system configuration)
FIG. 3 is a block diagram illustrating a configuration of the behavior sensation system 30 according to the present embodiment. The action experience system 30 includes an information transmission device 40 and the wearable device 1. In addition, the behavior sensation system 30 includes a motion sensor 31, a pressure sensor 32, a camera 33, and a microphone 34 as sensors for sensing the motion or utterance of the performer 21.
The information transmission device 40 includes an acquisition unit 41, an analysis unit 42, a control signal generation unit 43, and a transmission unit 44. The information transmission apparatus 40 includes an antenna (not shown) for wireless communication. The acquisition unit 41 acquires information on the actor's behavior (action or utterance) of the performer 21 from various sensors (motion sensor 31, pressure sensor 32, camera 33, and microphone 34) via a wired or wireless connection. The acquisition unit 41 outputs the acquired actor behavior information to the analysis unit 42.
The analysis unit 42 identifies what kind of behavior the actor's behavior is based on the actor's behavior information obtained by sensing. The analysis unit 42 outputs information indicating what the actor behavior is to the control signal generation unit 43.
For example, the analysis unit 42 specifies the movement of the arm from the measurement value obtained from the motion sensor 31 attached to the arm of the performer 21. For example, the analysis unit 42 specifies whether the performer action corresponds to “swing an arm sideways”, “raise an arm”, “turn an arm in a certain direction”, or the like. For example, the analysis unit 42 can determine what kind of behavior the actor behavior is by comparing the obtained measurement value and the measurement value obtained in advance for the known behavior.
For example, the analysis unit 42 determines whether or not the device provided with the pressure sensor 32 is grasped from the measurement value obtained from the pressure sensor 32. Thereby, the analysis unit 42 specifies whether the actor's action corresponds to “hold the device”. The analysis unit 42 can determine, for example, whether the actor behavior is “grasping” behavior by comparing the obtained measured value with a predetermined threshold value.
In addition, for example, the analysis unit 42 specifies the movement of each part of the body of the performer 21 by specifying the movements of a plurality of markers attached to the performer 21 from the moving image obtained from the camera 33. For example, the analysis unit 42 specifies whether the actor's behavior corresponds to “swing an arm sideways”, “raise a leg”, and / or “jump”. As a technique for analyzing motion from a moving image, a known motion capture technique can be used.
In addition, for example, the analysis unit 42 specifies what words the performer 21 has uttered from the audio information obtained from the microphone 34. For example, the analysis unit 42 specifies whether the actor's behavior corresponds to an action that utters a predetermined word (character string). As a technique for analyzing words emitted from voice information, a known voice recognition technique can be used.
The control signal generation unit 43 generates a control signal (command) for causing the wearable device 1 to perform a specific operation according to the specified actor behavior. Note that the specific operation of the wearable device 1 here is an operation to be given to the spectator 22 (wearer) wearing a tactile sense or a sensory stimulus for vision. For example, the control signal generation unit 43 generates a control signal that causes the vibration unit 6 of the wearable device 1 to vibrate intermittently with a certain rhythm (vibration pattern) in response to a certain actor action “shake an arm sideways”. . On the other hand, the control signal generation unit 43 generates a control signal that causes the vibration unit 6 to vibrate intermittently (or at a different frequency) with a different rhythm in response to another actor action “raise arm”. For example, the control signal generation unit 43 may generate a control signal for operating the micro blower 4 so that the balloon 3 has different pressure values according to the actor's behavior. In this way, the control signal generation unit 43 generates a control signal so that the wearable device 1 performs different operations for different performer actions. The control signal generation unit 43 outputs the generated control signal to the transmission unit 44.
Further, for example, the control signal generation unit 43 may operate different operation mechanisms of the wearable device 1 for different performer actions. For example, the control signal generation unit 43 generates a control signal that causes the vibration unit 6 of the wearable device 1 to vibrate intermittently in response to a certain actor action “shake an arm sideways”. On the other hand, the control signal generation unit 43 generates a control signal for inflating the balloon 3 in response to another actor action “raise arm”.
Further, for example, the control signal generation unit 43 may operate different combinations of a plurality of operation mechanisms of the wearable device 1 for different performer actions. For example, the control signal generation unit 43 generates a control signal that vibrates the vibration unit 6 of the wearable device 1 and inflates the balloon 3 in response to a certain actor action “shake an arm sideways”. On the other hand, the control signal generation unit 43 generates a control signal for inflating the balloon 3 and lighting the display unit of the wearable device 1 in response to another actor action “raise arm”. Note that the vibration pattern of the vibration unit 6, the degree of expansion of the balloon 3, and the lighting period, color, or lighting intensity of the display unit may be varied according to the actor's behavior.
Further, for example, the operating mechanism to be operated may be varied depending on the type of sensor that senses the actor's behavior. For example, the control signal generation unit 43 generates a control signal that vibrates the vibration unit 6 of the wearable device 1 and inflates the balloon 3 in accordance with the actor behavior sensed by the motion sensor 31. Note that the vibration pattern and the degree of expansion may be varied depending on the actor's behavior. On the other hand, the control signal generation unit 43 generates a control signal for inflating the balloon 3 and lighting the display unit of the wearable device 1 according to the actor's behavior sensed by the pressure sensor 32 which is another sensor. .
The transmitter 44 broadcasts and transmits the received control signal to a plurality of wearable devices 1 possessed (mounted) by a plurality of spectators 22 by radio. The range in which the control signal is broadcast is, for example, a communicable range (such as in a concert hall) according to the wireless communication to be used.
The wearable device 1 includes a receiving unit 11 and an operation control unit 12. The wearable device 1 includes a balloon 3, a micro blower 4, a vibration unit 6, and a display unit 13 as an operation mechanism that gives a sensation stimulus to the audience for tactile sensation or vision. The receiving unit 11 of each wearable device 1 receives a control signal from the information transmission device 40 wirelessly. The receiving unit 11 outputs the received control signal to the operation control unit 12.
The motion control unit 12 controls the motion of each motion mechanism that provides sensory stimulation according to the received control signal. For example, when the control signal instructs to inflate the balloon 3, the operation control unit 12 operates the micro blower 4 so that the internal pressure of the balloon 3 becomes the pressure specified by the control signal. The micro blower 4 injects fluid into the balloon 3 to maintain the internal pressure of the balloon 3 at a specified pressure. For example, when the control signal instructs to vibrate the vibration unit 6, the operation control unit 12 vibrates the vibration unit 6 with the vibration pattern and frequency specified in the control signal. Further, for example, when the control signal instructs the display of the display unit 13, the operation control unit 12 lights (displays) the display unit 13 with the lighting period, color, lighting intensity, or the like specified by the control signal. Let Similarly, when the control signal instructs the operation of a plurality of operation mechanisms, the operation control unit 12 operates each operation mechanism in accordance with the control signal.
(Control flow of information transmission equipment)
FIG. 4 is a diagram illustrating a control flow of the information transmission apparatus 40. The information transmission device 40 starts the process illustrated in FIG. 4 at predetermined timing, for example, in accordance with the sensing timing. The acquisition unit 41 of the information transmission device 40 acquires information on the actor behavior sensed from the motion sensor 31, the pressure sensor 32, the camera 33, and / or the microphone 34 for each predetermined period (S1).
The analysis unit 42 identifies what kind of behavior the actor behavior is based on the acquired information on the actor behavior (S2). In that case, the analysis part 42 may specify what kind of action the actor action was from the information of the actor action based on a plurality of types of sensors. For example, the analysis unit 42 may specify the movement of the performer 21 from information on the motion sensor 31 and the camera 33.
When the actor action is the specific action A (Yes in S3), the control signal generation unit 43 generates a control signal for causing the operation mechanism of the wearable device 1 to perform the specific action a (S4). The specific operation a may include operations of a plurality of operation mechanisms.
When the actor's action is not the specific action A but the specific action B (No in S3 and Yes in S5), the control signal generation unit 43 similarly causes the operation mechanism of the wearable device 1 to perform the specific action b. A control signal is generated for this purpose (S6). As described above, the control signal generation unit 43 performs the same determination for a specific action for which a corresponding action is set (S7, S8).
When the actor's action is not any of the specific actions for which the corresponding action is set (No in S7), the control signal generating unit 43 ends the process. Alternatively, the control signal generation unit 43 may generate a control signal that ends a specific operation.
The transmission unit 44 transmits the generated control signal to the plurality of wearable devices 1 (S9).
(Control flow for wearable devices)
FIG. 5 is a diagram illustrating a control flow of the wearable device 1. When the wearable device 1 receives the control signal from the information transmission device 40, the wearable device 1 starts the process shown in FIG. When the control signal instructs to inflate (or deflate) the balloon 3 (Yes in S11), the operation control unit 12 inflates the balloon 3 by operating the micro blower 4 (S12). At that time, the operation control unit 12 operates the micro blower 4 according to the period, pressure, and ON / OFF timing (rhythm) specified in the control signal.
When the control signal does not instruct to inflate (or deflate) the balloon 3 (No in S11), the process of S12 is skipped.
When the control signal instructs to vibrate the vibration unit 6 (Yes in S13), the operation control unit 12 vibrates the vibration unit 6 (S14). At that time, the operation control unit 12 operates the vibration unit 6 according to the period, frequency, and ON / OFF timing (rhythm) specified in the control signal. For example, the wearable device 1 may cause the audience 22 to feel an impact by vigorously vibrating the vibration unit 6 for a short period in response to the action of the actor 21 “poke”.
When the control signal does not instruct to vibrate the vibration unit 6 (No in S13), the process of S14 is skipped.
When the control signal is an instruction to change (light up) the display of the display unit 13 (Yes in S15), the operation control unit 12 changes the display (lights up) of the display unit 13 (S16). At that time, the operation control unit 12 changes the display of the display unit 13 in accordance with the period, color, and ON / OFF timing (rhythm) specified in the control signal. Thereby, the display or lighting state of the wearable devices 1 of the plurality of spectators 22 that have received the broadcast control signal changes in the same manner. Therefore, it is possible to give a sensory stimulus to the sight of the audience 22 corresponding to the behavior of the performer 21.
When the control signal does not instruct to change the display of the display unit 13 (No in S15), the process of S16 is skipped.
According to the action sensation system 30 of the present embodiment, a control signal for performing an action corresponding to the action (active action or utterance) of the performer 21 is broadcasted to the wearable devices 1 of the plurality of spectators 22 in real time. The For example, the wearable device 1 applies pressure to the portion where the wearable device 1 is worn by inflating the balloon 3 in response to the act of “grabbing” the performer 21. As a result, the audience 22 can feel “held”. Therefore, a large number of spectators 22 can experience various actions of the performer 21 as sensory stimuli all at once. Therefore, for example, in a concert venue, the audience 22 can feel (share) a sense of unity with the performer 21 and the other audience 22. Even in a large concert venue, the action experience system 30 allows the audience 22 to experience the actions of the performer 21 in combination with the music that can be heard and the appearance of the performer 21 that can be seen. Can be amplified.
The present embodiment is different from the above-described embodiment in that a plurality of spectators 22 are divided into a plurality of groups and the wearable device 1 performs different operations for each group. Each wearable device 1 is set with a different identifier (ID) in advance. The same ID is set for the wearable devices 1 of a plurality of spectators 22 belonging to one group. For example, the audience 22 is classified into a plurality of groups corresponding to a plurality of blocks (sections) in a concert venue.
The control signal generation unit 43 of the information transmission device 40 generates a control signal including information specifying an ID according to the performer behavior of the performer 21. For example, the control signal generation unit 43 specifies an ID “XXX1” for a specific action A and generates a control signal for causing the wearable device 1 to perform a specific operation a. Further, the control signal generation unit 43 specifies an ID “XXX2” for the specific action B, and generates a control signal for causing the wearable device 1 to perform a specific operation a. Further, the control signal generation unit 43 specifies an ID “XXX3” for the specific action C, and generates a control signal for causing the wearable device 1 to perform a specific operation c. The specific action A and the specific action B have different targets (groups) on which the same specific action a is performed. The specific action A and the specific action C cause different objects (groups) to perform different actions.
In addition, for example, the control signal generation unit 43 designates the ID “XXX1” for the specific action A and sets the control signal for causing the wearable device 1 to perform the specific operation “a” and the ID “XXX4”. A control signal for designating and causing the wearable device 1 to perform a specific operation d may be generated. Thereby, for example, the strength of the bodily sensation can be adjusted by changing the strength of the sensory stimulus according to the position (near or far) of the spectator 22 with respect to the performer 21.
The transmission unit 44 broadcasts a control signal including information specifying an ID to a plurality of terminals. Therefore, for example, the control signal designating the ID “XXX1” is transmitted not only to the wearable device 1 in which the ID “XXX1” is set, but also to the wearable device 1 in which the IDs “XXX2” and “XXX3” are set. .
The receiving unit 11 of the wearable device 1 outputs a control signal to the operation control unit 12 when the ID information included in the received control signal matches the ID set in the own device. On the other hand, if the ID information included in the received control signal does not match the ID set in the own device, the receiving unit 11 does not output the control signal to the operation control unit 12. Thereby, the wearable apparatus 1 can perform the operation | movement corresponding to a control signal only with respect to the control signal which designates corresponding ID. Therefore, the behavior sensation system 30 can control the sensation of the audience 22 for each group by performing an operation corresponding to the actor's behavior for each group.
Note that the video of the concert venue and the control signal may be transmitted to a remote live viewing venue, and the control signal may be broadcasted to the wearable device 1 worn by a plurality of spectators at the live viewing venue. Thereby, the remote audience can also feel a sense of unity with the performer 21 and the concert hall audience 22. It should be noted that the control signal may be broadcasted to the wearable device 1 worn by a spectator who watches or listens to the performance of the performer 21 at an arbitrary place, not limited to the live viewing venue.
In the action sensation system 30 of the above-described embodiment, a switch that can be operated by the performer 21 may be provided as a sensor for sensing the operation of the performer 21. For example, a switch that detects the position of an object such as a proximity switch, a limit switch, or a button switch can be used. The acquisition unit 41 of the information transmission device 40 acquires a switch signal and outputs the switch signal to the analysis unit 42. The analysis unit 42 determines whether the performer 21 has performed an action of pressing the switch based on whether the switch is turned on.
The control signal generation unit 43 generates a control signal for causing the wearable device 1 to perform a specific operation in response to, for example, a performer action of pressing a switch. The specific operation may be the above-described operation, or for example, a sensory stimulus may be given by passing a weak current from the wearable device 1 to the wearing part of the spectator 22.
The control block (particularly the acquisition unit 41, the analysis unit 42, the control signal generation unit 43, the transmission unit 44, the reception unit 11, and the operation control unit 12) of the information transmission apparatus 40 and the wearable device 1 is an integrated circuit (IC chip) or the like. It may be realized by a logic circuit (hardware) formed in the above, or may be realized by software using a CPU (Central Processing Unit).
In the latter case, the information transmission device 40 and the wearable device 1 include a CPU that executes instructions of a program that is software that realizes each function, and a ROM (the above-described program and various data are recorded so as to be readable by a computer (or CPU)). A Read Only Memory) or a storage device (these are referred to as “recording media”), a RAM (Random Access Memory) for expanding the program, and the like are provided. And the objective of this invention is achieved when a computer (or CPU) reads the said program from the said recording medium and runs it. As the recording medium, a “non-temporary tangible medium” such as a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. The program may be supplied to the computer via an arbitrary transmission medium (such as a communication network or a broadcast wave) that can transmit the program. The present invention can also be realized in the form of a data signal embedded in a carrier wave in which the program is embodied by electronic transmission.
The information transmission device (40) according to the first aspect of the present invention includes an acquisition unit (41) that acquires information on active actions or utterances of the sensed actor (21) as information on the actor behavior, and the performance described above. A control signal generating unit (43) for generating a control signal for causing the wearable device to perform an operation for giving a wearable device (1) a sensory stimulus for tactile sensation or vision according to a person's behavior, and a plurality of the control signals. A transmission unit (44) that broadcasts to the wearable device.
According to said structure, the control signal which makes a wearable apparatus perform the operation | movement corresponding to a performer's action is broadcast-transmitted to several wearable apparatus. Therefore, a plurality of wearers can experience the actor's behavior at the same time. Therefore, it is possible to make the wearer feel a sense of unity with the performer and other wearers, thereby amplifying the sense of reality. The wearer may be a spectator who watches or listens to the performer's performance.
In the information transmission apparatus according to aspect 2 of the present invention, in the above aspect 1, the performer's active action is very good as the active action of the performer.
According to said structure, the wearer can experience the active operation | movement of the actor performed as production.
The behavior sensation system according to aspect 3 of the present invention includes the information transmission device according to aspect 1 or 2 and a sensor (motion sensor 31, pressure sensor 32) that senses the active action or utterance of the performer as the performer action. , A camera 33 or a microphone 34), and the wearable device that gives the wearer a sensory stimulus according to the control signal.
In the behavior sensation system according to aspect 4 of the present invention, in the aspect 3, the wearable device may be configured to give the sensory stimulus to the wearer's tactile sensation.
According to said structure, the wearer can experience a performer's movement with a body.
In the behavior sensation system according to aspect 5 of the present invention, in the aspect 4, the wearer applies pressure to the portion where the wearer wears the wearable device by the bracelet-type wearable device in response to the movement of the performer. The structure to add may be sufficient.
According to said structure, the wearer can acquire the corresponding bodily sensation that it is grasped with respect to the action that an actor grasps. Therefore, it is possible to make the wearer feel a sense of unity with the performer.
In the behavioral sensation system according to aspect 6 of the present invention, in the above aspects 3 to 5, the active motion of the performer is controlled by the motion sensor or the pressure sensor attached to or possessed by the performer as the sensor. It may be configured to sense as the actor's action.
According to the above configuration, the actor's movement can be detected by the motion sensor or the pressure sensor.
An information transmission method according to aspect 7 of the present invention includes an acquisition step of acquiring sensed actor's active motion or utterance information as information on the actor's behavior, and a tactile or visual response corresponding to the actor's behavior. A control signal generating step of generating a control signal for causing the wearable device to perform an operation of giving a sensory stimulus to the wearer of the wearable device; and a transmission step of broadcasting the control signal to the plurality of wearable devices.
The behavior sensation method according to aspect 8 of the present invention senses an active action or utterance of an actor as an actor action, generates a control signal for causing the wearable device to perform an action corresponding to the actor action, and performs the control A signal is broadcasted to the plurality of wearable devices, and the wearable device causes the wearer to wear a tactile sense or visual sense stimulus corresponding to the control signal.
The behavior sensation system according to each aspect of the present invention may be realized by a computer. In this case, a part of the behavior sensation system is realized by operating the computer as each unit (software element) included in the behavior sensation system. The control program of the action sensation system for realizing the above in a computer and a computer-readable recording medium on which the control program is recorded also fall within the scope of the present invention.
INDUSTRIAL APPLICABILITY The present invention can be used in an information transmission apparatus and system for allowing a spectator to experience the actor's behavior.
DESCRIPTION OF SYMBOLS 1 Wearable apparatus 3 Balloon 4 Micro blower 6 Vibrating part 11 Receiving part 12 Operation control part 13 Display part 21 Acting person 22 Audience person 30 Action sensor system 31 Motion sensor 32 Pressure sensor 33 Camera 33a Marker 34 Microphone 40 Information transmission apparatus 41 Acquisition part 42 Analysis unit 43 Control signal generation unit 44 Transmission unit
An acquisition unit that acquires information about the active action or utterance of the sensed actor as information on the actor's behavior;
A control signal generation unit that generates a control signal that causes the wearable device to perform an operation of giving a sense of touch to the tactile sense or vision according to the actor's behavior to the wearer of the wearable device;
An information transmission apparatus comprising: a transmission unit that broadcasts the control signal to the plurality of wearable devices.
The information transmission apparatus according to claim 1, wherein the active action of the performer is the performer action.
3. The information transmission apparatus according to claim 1, wherein the wearer is a spectator who watches or listens to the performance of the performer.
An information transmission device according to any one of claims 1 to 3,
A sensor for sensing an active action or utterance of the performer as the performer action;
A behavioral sensation system comprising: the wearable device that provides the wearer with a sensory stimulus according to the control signal.
The behavior sensation system according to claim 4, wherein the wearable device gives the sensory stimulus to the tactile sense of the wearer.
6. The behavior sensation system according to claim 5, wherein the wearer applies pressure to a portion on which the wearable device is worn by the bracelet-type wearable device in response to an operation performed by the performer.
7. The active action of the performer is sensed as the performer action by a motion sensor or a pressure sensor attached to or possessed by the performer as the sensor. The behavior sensation system according to one item.
An acquisition step of acquiring information on the active action or utterance of the sensed actor as information on the actor's behavior;
A control signal generating step for generating a control signal for causing the wearable device to perform a tactile sense or a visual stimulus to the wearer of the wearer according to the actor's behavior;
A transmission step of broadcasting the control signal to the plurality of wearable devices.
Senses the actor's active movement or utterance as actor behavior,
Generate a control signal that causes the wearable device to perform an action corresponding to the actor's behavior,
Broadcasting the control signal to a plurality of wearable devices,
A behavioral sensation method characterized by causing a wearer to wear a tactile sense or visual sense stimulus corresponding to the control signal by the wearable device.
JP2015077243A 2015-04-03 2015-04-03 Information transmitter, motion experience system, information transmission method and motion experience method Pending JP2016197350A (en)
JP2015077243A JP2016197350A (en) 2015-04-03 2015-04-03 Information transmitter, motion experience system, information transmission method and motion experience method
JP2016197350A true JP2016197350A (en) 2016-11-24
JP2015077243A Pending JP2016197350A (en) 2015-04-03 2015-04-03 Information transmitter, motion experience system, information transmission method and motion experience method
JP (1) JP2016197350A (en)
WO2019035350A1 (en) * 2017-08-14 2019-02-21 ソニー株式会社 Information processing device, information processing method, and program
JP2002027453A (en) * 2000-07-05 2002-01-25 Hitachi Ltd Concert presence auxiliary system
JP2004219914A (en) * 2003-01-17 2004-08-05 Sony Corp Method and device for information transmission, method and device for information recording, method and device for information reproduction, and recording medium
JP2005250148A (en) * 2004-03-04 2005-09-15 Yamaha Corp Musical instrument, concert system using the musical instrument, and tool for communication between musical instruments
JP2014179984A (en) * 2013-03-14 2014-09-25 Immersion Corp Haptic effects broadcasting during group event
2015-04-03 JP JP2015077243A patent/JP2016197350A/en active Pending
JP6700272B2 (en) 2020-05-27 Exercise band with removable module
KR101687623B1 (en) 2016-12-19 Wireless sound equipment
JP5952258B2 (en) 2016-07-13 Tactile communication device for neck
KR101630864B1 (en) 2016-06-16 Method and system for conveying an emotion
JP4396175B2 (en) 2010-01-13 Content playback apparatus and content playback method
CN107005764A (en) 2017-08-01 Earphone with activity control output