Smart neckwear equipment and control method thereof

A kind of equipment and neck-wearing technology, applied in the electronic field, can solve the problems that people cannot communicate well and the range of communication is limited.

Pending Publication Date: 2018-11-23
郭磊
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Therefore, this person can only communicate with a small number of people, and the scope of communication is greatly limited
[0007] On the other hand, in schools for the deaf, whe

Method used

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  • Smart neckwear equipment and control method thereof
  • Smart neckwear equipment and control method thereof
  • Smart neckwear equipment and control method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0102] Embodiment one, such as figure 2 Shown is a schematic structural diagram of the location distribution of the main body of the smart neck-worn device and the interface of each functional module provided by an embodiment.

[0103] In this embodiment, the main unit 10 of the present invention is made into an arc shape, so as to meet the structural requirements of wearing on the neck of a human body. A display data output port 160 for connecting smart glasses, an audio output port 280 for connecting an audio output device 281, a voice input port 270 for connecting a voice input device 271, and a An internal and external data transmission port 430 with a terminal device 431 such as a mobile phone. A guide data output port 150 for connecting to a blind guide device 151 and an audio output port 280 for connecting to a cochlear implant device 282 are also provided on the shell of the host 10 along the arc shape. In addition, along the arc-shaped housing of the host computer ...

Embodiment 2

[0109] Embodiment two, such as image 3 Shown is a schematic structural diagram of the system in the first state in which the smart neck-mounted device is connected with AR or MR glasses provided by an embodiment.

[0110] In this embodiment, the host 10 is the host in each of the above-mentioned embodiments.

[0111] In addition, the main unit 10 in the present invention is made into an arc shape, so as to meet the structural requirements of wearing on the neck of a human body. Ports (display data output ports 160 ) for connecting smart glasses are respectively provided at the section of the arc-shaped host, and are respectively connected with the smart glasses by detachable (two) data lines. Also be provided with the connection port (the first output port of audio output port 280) that is used to connect earphone (audio output device 281), the connection port (the first output port of audio output port 280) that is used to connect microphone (voice input device 271) at the ...

Embodiment 3

[0133] Embodiment three, such as Figure 4 Shown is a schematic structural diagram of the second state system in which the smart neck-mounted device is connected with AR or MR glasses provided by an embodiment.

[0134]In the third embodiment, compared with the second embodiment, a braille data input / output device 531 is added to the external device. The Braille data input / output device 531 is connected to the host computer 10 through the Braille data transceiving unit 530 . A display screen for displaying text information is set on the lenses of the AR or MR smart glasses in an embedded manner. In addition, the AR or MR smart glasses are detachably connected to the host 10 using a single data cable. Correspondingly, a braille data transmission module 500 is provided in the host 10 to connect with a braille data input / output device 531 through a braille data transceiving unit 530 . Typically, the Braille data input / output device 531 is provided with a Blair Braille touch sc...

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Abstract

The invention provides smart neckwear equipment. The smart neckwear equipment comprises a host; the host comprises an audio processing module used for collecting and processing environmental sound information and generating 3D and/or AR audio data, an image processing module used for collecting and processing environmental image information and generating display data including sound source position information of environmental sounds, a central processing module used for comprehensively processing and controlling information data of all modules and a storage module used for storing computer programs executed by the central processing module. The display data includes data of at least one of VR, AR, and MR or combined data of two or more of VR, AR, and MR. Through the arrangement above, sound source positions of the sounds in the environment can be marked in VR and/or AR display, the deaf people can determine sources of the sounds through screens displayed by VR or AR, and the adaptability of the deaf people in a complex environment is improved. At the same time, an intelligent mobile hardware platform is provided for other mobile terminals. The invention also provides a control method of the smart neckwear equipment.

Description

technical field [0001] The invention relates to the field of electronic technology, in particular to an intelligent neck-wearing device and a control method thereof. Background technique [0002] Hearing, vision and language play an important role in human intellectual development. [0003] At present, deaf people generally obtain hearing by implanting cochlear implants before language development is completed (5 years old). However, this kind of people who obtain hearing by implanting cochlear implants can only obtain partial hearing, but cannot locate the position of the sound source, and cannot adapt to the complex sound environment. In addition, most deaf people without cochlear implants cannot hear the sound of the outside world. As a result, these people generally cannot speak, usually use sign language or text to communicate, and their intelligence is lower than that of ordinary peers. [0004] Blind people can only hear outside sounds but not see the world. They ge...

Claims

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Application Information

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IPC IPC(8): A61F9/08G09B21/00
CPCG09B21/00G09B21/006G09B21/009A61F9/08
Inventor 郭磊
Owner 郭磊
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