KR101015984B1 - Feeling signal generating system - Google Patents

Abstract

The present invention is a technology that allows the remote user to feel the actual sense through the instrument by converting the degree of the sense expressed by the image and sound into a standard sense signal, and then transmitted to the remote place to react the instrument. The present invention also relates to a system capable of generating sensory signals via motion generating means in a state of unidirectional and bidirectional communication via the Internet.

Image, sensory signal, fixture

Description

Feeling signal generating system

The present invention relates to a sensory signal generation system.

In particular, the present invention converts the degree of sensation represented by the image and sound in the multimedia into a standard sense signal and transmits it to a remote place so that the device reacts so that the remote user can feel the real sense through the device.

In another aspect, the present invention is to transmit the sensory signal through the means capable of moving, such as keyboard, mouse, and the like in a state capable of unidirectional or two-way communication via the Internet to allow the other side to respond to the response.

Conventional multimedia systems mainly provide visual and auditory information to the user, so within this category, the viewer can feel enough of the actual situation, so there is no problem. There were many aspects that could not be felt under the emotion or interest.

As a means to solve this problem, some techniques have been disclosed, such as having a fragrance generating means separately so that a sense of smell can be displayed when a suitable scene is displayed. However, the technique is that the fragrance generating means consumes fragrance after a certain time. Given this, it was a hassle to replenish the fragrance periodically.

In addition, when a screen related to emotion, tremor, fear, etc. is displayed, such a sense is made in the viewer's mind, and since there is no means to actually feel the body, if a sensory device is developed based on such a scene, it can be used as a kind of game machine. Could be.

It is an object of the present invention to provide a system capable of generating a sensory signal based on a display scene of a multimedia system.

Another object of the present invention is to provide a system that can be applied to the game or play the user can feel the real sense by allowing the mechanism to be linked to the generated sensory signal.

Still another object of the present invention is to provide a system capable of generating sensory signals through motion generating means in a state where unidirectional and bidirectional communication is possible through the Internet.

According to a first aspect of the present invention, there is provided a sensory signal generation system comprising: a multimedia for generating an image and sound for sensory signal generation; Multimedia to generate sensory signals based on multimedia images and sounds, and predetermined senses corresponding to various images and sounds generated in multimedia to encode sensory information in synchronization with the images and sounds of multimedia. A sensory signal encoder configured to encode information, a sensory signal processor configured to store predetermined code information for various types of sensors in response to an input signal from the sensory signal encoder, and a sensory signal encoder input to the sensory signal processor. A sensory signal generator comprising a sensory signal decoder for decoding the sensory signal and a communication network for transmitting the sensory signal decoded by the sensory signal decoder to the vibration mechanism; A communication network configured to transmit and receive a sensory signal generated by the sensory signal generator through wireless communication; And it is characterized by consisting of a vibrating mechanism that is operated to feel the actual sense based on the sensory signal.

Vibration mechanism unit of the present invention sensory signal processing unit for controlling the operation of the vibration mechanism based on the sensory signal input through the communication network; A motor driven to operate the vibration mechanism in various directions by the control of the sensor signal processor; And a mechanism interlocked with the driving of the motor.

According to another embodiment of the present invention, a sensory signal generation system includes a keyboard / mouse and / or a mechanism connected to a PC to generate a sensational sense (subject to vibration, pressure, pressure, etc.) signal that can be realistically felt; A sensor for detecting a movement generated in the mechanism unit; A signal transmitter for transmitting a sensory signal generated by the keyboard / mouse and the instrument; A PC configured to provide a PC configured to process sensory signals transmitted through the signal transmitter, and a PC configured to process sensory signals transmitted from a PC of the provider side; A signal receiver for receiving a signal processed by the PC; And a receiver side configured to receive a sensory signal from a signal receiver and generate a sensory movement generated by the keyboard / mouse and / or the mechanism on the provider side.

The sensory signal generation system according to another embodiment of the present invention is characterized in that the sensory signal generated in the mechanical unit is transmitted to the counterpart via a direct communication network to be generated as a sensory signal.

According to the sensory signal generation system of the present invention has the following excellent effects.

First, it generates a sensory signal based on the image and sound expressed in the multimedia and transmits it to the user through a communication network so that the user can feel it with real sense, so it can be applied to a game or other play.

Second, the sensory signal is transmitted through a communication network between a plurality of remote users, so it can be felt at the same time.

Third, since a sensory signal is generated and shared through a motion generating means in a state where unidirectional and bidirectional communication is possible through the Internet, a sense of homogeneity can be obtained.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention can be applied to both a case where a predetermined (predictable) image and sound are displayed and a case where a vibration signal can be operated by generating a sensory signal based on the image and sound displayed in real time (unpredictably). .

In addition, the present invention may operate the vibrating device while the user directly watches the image and sound displayed through the multimedia, or may operate the vibrating device while watching the image and sound transmitted from a remote location.

As shown in FIG. 1, the multimedia system for generating a sensory signal according to the first embodiment of the present invention includes a multimedia 10 generating a sensory signal generation image and a sound, and an image generated from the multimedia 10. And a sensory signal generator 20 for generating a sensory signal according to sound, a communication network 30 for transmitting and receiving a sensory signal generated by the sensory signal generator 20 through wireless communication, and a communication network 30. On the basis of the on-sensing signal is made of a vibration mechanism 40 that is operated to feel the actual sense.

The vibrating mechanism part 40 may be comprised in multiple places. In this case, the sensory signal generator 20 may directly receive and operate a sensory signal through the communication network 30, or a method of receiving and operating a sensory signal from another vibration mechanism unit may be selectively configured.

   That is, the communication network 30 may be responsible for communication between the multimedia device 10 and the vibration mechanism unit 40 at a certain point, and may also be responsible for communication with the vibration mechanism unit 40 at a certain point and the vibration mechanism unit at another place. Vibration mechanism part 40 at a certain point operates the device configured in itself by the sensory signal generated on the basis of the image and sound signal of the multimedia 10 through the communication network 30 and also operates the device located in another place. The same sensory signal is wirelessly transmitted through the communication network.

In FIG. 1, a plurality of communication networks are designated as 30 for convenience and a plurality of vibration mechanisms are designated as 40.

The multimedia 10 and the sensory signal generator 20 of FIG. 1 are a system that operates integrally. As shown in FIG. 2, for example, the multimedia 10 that generates various video and audio signals, and the multimedia ( A video encoder 11 for encoding the video signal of 10), an audio A / D converter 12 for converting the audio signal of the multimedia 10 into a digital signal, and the video and sound of the multimedia 10 The sensory signal encoder 21 to convert the encoded sensory information into a predetermined format so that the sensory information can be encoded and integrated with the signal passed through the image encoder 11 and the acoustic A / D converter 12, and the image encoder 11 And a mixer 22 which integrates and encodes the image / audio signal received from the acoustic A / D converter 12 and the sensory signal encoded by the sensory signal encoder 21 into one data, and the mixed data of the mixer 22. Sensory signal processing unit 23 for receiving and storing the A composite decoder 24 which receives the mixing signal from the sensory signal processor 23 and separates the video / audio signal and the sensory signal, and an image decoder 13 which decodes the video signal separated by the complex decoder 24; A sound D / A converter 14 for converting the digital sound signal separated from the composite decoder 24 into an analog sound signal, and a display device 15 for outputting sound / video signals such as a TV monitor, a speaker, and a PC monitor. And a sensory signal decoder 25 for decoding the sensory signal among the signals separated by the composite decoder 24, and a communication network 30 for transmitting the sensory signal converted by the sensory signal decoder 25 to the vibration mechanism unit 40. ), And a vibrating mechanism part 40 that operates based on the sensory signal input through the communication network 30.

The sensory signal encoder 21 encodes predetermined sensory information corresponding to various video and audio scenes generated from the multimedia 10. The sensory signal processor includes a database that stores predetermined code information for various types of sensors. 23 or stored in the sensory signal processing unit 80 configured in the vibrating mechanism unit 40.

The sensory signal processing unit 23 or 80 of the present invention, for example, codes the sensory signal encoded in the mixer 22 based on the image and sound generated in the multimedia 10 as shown in Figs. Manage by storage. For example, if the encoded code numbers are from 1 to 8, only 1 to 5 are set so that the vibration of the apparatus is strong and weak, and 6 to 8 are set to perform the front, rear, up and down, and rotational driving of the apparatus.

In addition, the combination code is set so that the strength and weakness of each of the strength and weakness, and the front and rear, up and down, and rotational driving are selectively or simultaneously performed.

On the other hand, the video decoder 13 for decoding the video signal separated by the composite decoder 24 in the configuration of Figure 2, the audio D / A converter 14 for converting a digital sound signal into an analog sound signal, and a display device ( 15 is a part not directly related to the vibrating mechanism part 40, and these configurations are for example, to receive a video and sound generated from a separate multimedia means (configured on the vibrating mechanism part side), that is, the multimedia 10 to the user side. It is necessary if the same display means is provided.

In the present invention, the basic configuration is to operate the vibration mechanism while the user directly watching the image and sound displayed on the multimedia 10, and the above parts may be configured and operated additionally.

Vibration mechanism part 40 of the present invention is a part that is operated so that a real person can decode the sensory signal input through the communication network 30, the operation of the vibration mechanism based on the sensory signal input through the communication network 30 The sensory signal processing unit 80 for controlling the control unit, the motor 72 is driven to operate the vibration mechanism in various directions by the control of the sensory signal processing unit 80, and is linked to the drive of the motor 72 It consists of the fixture 73.

The motor 72 includes a vibration motor 72a for allowing the mechanism 73 to simply drive vibration, a front and rear motor 72b for enabling the drive in the front and rear directions, and a drive for the up and down direction of the mechanism. It consists of an up-and-down motor 72c, the rotating motor 72d, etc. which enable the 360-degree rotation drive of a mechanism.

These motors 72 and the mechanism 73 are connected via a shaft and the interworking is a common technique, so further detailed description is omitted.

Operation of the sensory signal generation system for multimedia according to the first embodiment of the present invention configured as described above is as follows.

When a predetermined image and sound are displayed through the multimedia 10, the image is converted into an encoding and digital signal by the image encoder 11 and the sound is converted by the acoustic A / D converter 12 and input to the mixer 22, respectively. .

At the same time, the sensory signal encoder 21 generates sensory information synchronized with the image and sound of the multimedia 10, and the mixer 22 receiving the sensory information receives the image encoder 11 and the acoustic A / D converter. The video / audio signal received from (12) and one data are integrally encoded and input to the controller 23.

The sensory signal processor 23 controls the composite decoder 24 to separate the image / audio signal and the sensory signal among the signals encoded by the mixer 22, and the sensory signal decoder 25 is decoded by the sensory signal decoder 25 to communicate. It is transmitted to the vibrating mechanism 40 through 30 to operate the mechanism.

On the other hand, the video signal and the audio signal separated from the composite decoder 24 is converted into decoding and analog signals by the video decoder 13 and the audio D / A converter 14, respectively, to the outside through the display device 15 Is displayed.

Next, another embodiment of the present invention will be described.

The sensory signal generation system according to the second embodiment of the present invention shown in FIG. 7 is connected to the PC 100 to generate a signal that can be realistically felt (including movement, vibration, pressure, pressure, etc.). Keyboard / mouse 101 and / or instrument 102, sensor 103 for detecting movement generated by instrument 102, and sensory signals generated by keyboard / mouse 101 and instrument 102. The provider side consisting of a signal transmission unit 104 for transmitting a signal, a PC 100 for processing the sensory signal transmitted through the signal transmission unit 104, and the senses transmitted from the PC 100 of the provider side PC 200 for processing the signal, a signal receiver 201 for receiving the signal processed by the PC 200, and a sensor / receiving signal from the signal receiver 201 to the keyboard / mouse 101 of the provider side and Or as a mechanism 202 that generates sensory movements generated by the mechanism 102. It is configured toward the receiver.

In this case, the image displayed through the PC 100 and 200 is not limited. For example, in the case of an action object, the action object is displayed on the PC 100 and 200 through a web server to be viewed by each party. In the sensory signal generation system of the present invention operates.

The sensor signal transmission and reception between the provider side and the receiver side is performed through the communication network 300, and the communication network is irrelevant to the Internet, wired or wireless communication. The keyboard / mouse 101 and the mechanism 102 need only to input the movement value to the PC 100 regardless of whether the movement value is by a sensor or other means.

In addition, the movements made by the keyboard / mouse 101 and the mechanism 102 are determined based on the data of the database stored and managed by the PC 100, and the pinned sensory signals are transmitted to other PCs 200. When transmitted, the PC 200 stores and manages a database similarly to the PC 100, and thus generates a signal corresponding to the movement made by the keyboard / mouse 101 and the mechanism 102 to operate the mechanism 202. will be.

That is, the PC (100) 200 of the provider side and the receiver side converts the sensory movement generated by the keyboard / mouse 101 and / or the mechanism unit 102 into predetermined data based on a database stored therein and transmits it to the receiver side. Alternatively, when the provider receives a signal that has been transmitted by converting the sensory motion into predetermined data, the sensor unit converts the sensory motion signal into a sensory motion signal based on a database to operate the mechanism 102.

Here, the PCs 100 and 200 may be bidirectional or unidirectional with each other.

8 is a sensory signal generation system according to the third embodiment of the present invention, instead of configuring the PC 100 and 200 in FIG. 7, the sensory signal is transmitted and received through the direct communication network 300 so that the user can enjoy the game. Since it is almost the same as the configuration of FIG. 7, separate description is omitted.

Although the present invention has been described with reference to specific embodiments, the present invention is not limited thereto, and modifications and variations can be made within the technical scope of the present invention. The scope of the present invention is as described in the claims.

1 is a conceptual diagram of a signal generation system corresponding to a video of a multimedia of the present invention.

2 is an overall configuration diagram of a signal generation system corresponding to a multimedia video of the present invention.

Figure 3 is an exemplary view of the configuration of the vibration mechanism of the present invention.

4 to 6 are exemplary diagrams of a database stored and managed in the sensory signal processing unit of the present invention.

7 is a block diagram of a sensory signal generation system according to another embodiment of the present invention.

8 is a block diagram of a sensory signal generation system according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: multimedia 20: sensory signal generation unit

23, 80: sensory signal processing unit 30: communication network

40: vibration mechanism 72: motor

Claims (4)

delete delete Constant speed and rotation under the control of the microcomputer 80 and the microcomputer 80 connected to the PC 100 to generate a sensation (including vibration, pressure, pressure, etc.) signal that can be realistically felt. A mechanism portion 102 composed of a motor 72 driven by the number and a mechanism 73 linked to the drive of the motor 72; A sensor (103) for detecting movement generated in the mechanism (102); A signal transmitter 104 for transmitting the sensory signal generated by the instrument 102 through a communication network 300; A provider side comprising a PC 100 for processing a sensory signal transmitted through the signal transmitter 104; A PC 200 for processing sensory signals transmitted from the provider PC 100; A signal receiver 201 for receiving a signal processed by the PC 200; And a receiver side configured to receive a sensory signal from the signal receiver 201 and generate a sensory movement generated by the provider 102 on the provider side. delete

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