WO2018145311A1

WO2018145311A1 - Data sharing system, smart terminal, and first smart terminal

Info

Publication number: WO2018145311A1
Application number: PCT/CN2017/073355
Authority: WO
Inventors: 陈旭; 刘云飞
Original assignee: 深圳市欸阿技术有限公司
Priority date: 2017-02-13
Filing date: 2017-02-13
Publication date: 2018-08-16

Abstract

Disclosed in the present invention is a data sharing system and a smart terminal of the system. When a first smart terminal is on a touch screen plane of said system smart terminal, on the basis of the intensity of the optical signal received by each optical receiver, said system smart terminal locates the position of the first smart terminal on the touch screen thereof, and determines a target light emitter; acquiring data corresponding to the position, sending the data to the target light emitter, and, by means of the target light emitter, converting the data into an optical signal and emitting the optical signal in the direction of a corresponding first optical receiver; the first smart terminal receives the optical signal by means of the first optical receiver, and restores the optical signal to data. Also disclosed in the present invention are a smart terminal and a first smart terminal. The system of the present invention is able to implement data interaction between smart terminals as long as power is sufficient; the smart terminals do not need to access any wireless network, and there is no data loss; compared to existing methods of data transmission, data transmission in the present invention is rapid, high density, highly secure, confidential, and low cost, and does not have negative effects on the human body as a result of electromagnetic radiation.

Description

Data sharing system, intelligent terminal, first intelligent terminal

Technical field

The present invention relates to the field of communications technologies, and in particular, to a data sharing system, an intelligent terminal, and a first intelligent terminal.

Background technique

With the development of wireless communication technology, there are many ways of wireless communication. WIFI wireless network has the advantages of strong RF signal, low power consumption and high security. It can realize large-scale communication and can carry out many-to-many multi-user data transmission. It is currently the most popular wireless network. However, data transmission through the WIFI wireless network is prone to loss of data and unstable transmission speed. Once there is a problem in the WIFI wireless network, data transmission cannot be achieved.

Summary of the invention

The main object of the present invention is to provide a data sharing system, an intelligent terminal, and a first intelligent terminal that do not need to rely on an existing wireless network, have fast data transmission speed, and are highly secure.

To achieve the above objective, the present invention provides a data sharing system, including an intelligent terminal and a first intelligent terminal;

The frame of the smart terminal is composed of two sets of opposite sides; each side of one side of the set is provided with a plurality of illuminators, and the other side inner wall is respectively provided with a light receiver at a position corresponding to each illuminator;

The first frame of the first smart terminal is composed of two sets of opposite first side edges; at least one first side outer wall of at least one set is provided with a plurality of first illuminators, and the other first side outer wall is provided with a plurality of First light receivers;

The plane size of the first smart terminal is smaller than the plane size of the touch screen of the smart terminal;

The smart terminal is configured to: when the first smart terminal is in a touch screen plane thereof, locate the position of the first smart terminal on the touch screen according to the strength of the optical signal received by each optical receiver, and determine the target illumination And acquiring data corresponding to the location, transmitting the data to the target illuminator, converting the data into an optical signal by the target illuminator, and directing the optical signal to The direction of the first light receiver corresponding to the position of the target illuminator is emitted;

The first intelligent terminal is configured to receive the optical signal by using the first optical receiver, and restore the optical signal to the data.

Preferably, the first intelligent terminal is further configured to: when the user is in the touch screen plane of the smart terminal, acquire corresponding first data according to the received optical transmission data sending instruction; and send the first data to the a first illuminator; converting the first data into a first optical signal by the first illuminator, and directing the first optical signal toward a direction of a light receiver corresponding to the first illuminator position emission;

The smart terminal is further configured to receive the first optical signal by using a light receiver corresponding to the first illuminator position, and restore the first optical signal to the first data.

Preferably, the illuminator is a light emitting diode; the light receiver is a CCD camera.

Preferably, the first illuminator is a light emitting diode; the first light receiver is a CCD camera.

In addition, in order to achieve the above object, the present invention further provides an intelligent terminal, wherein a frame of the smart terminal is composed of two sets of opposite side edges; each side of one set has a plurality of illuminators on one inner side wall and the other side inner wall a light receiver is respectively disposed at a position corresponding to each of the illuminators;

The smart terminal is configured to: when the first smart terminal whose plane size is smaller than the plane size of the touch screen is in the plane of the touch screen, locate the first smart terminal on the touch screen of the first smart terminal according to the strength of the optical signal received by each optical receiver. Positioning and determining a target illuminator; and acquiring data corresponding to the location, transmitting the data to the target illuminator, converting the data into an optical signal by the target illuminator, and The light signal is emitted toward a direction of the first light receiver corresponding to the target illuminator position in the first smart terminal.

Preferably, the smart terminal is further configured to receive, by the optical receiver corresponding to the first illuminator position of the first smart terminal, the first optical signal converted by the first illuminator and converted by the first data. And reducing the first optical signal to the first data.

In addition, in order to achieve the above object, the present invention further provides a first intelligent terminal, wherein a first frame of the first smart terminal is composed of two sets of opposite first sides; at least one set of a first side outer wall is provided. There are a plurality of first illuminators, and the other first side outer wall is provided with a plurality of first light receivers;

The first intelligent terminal is configured to: when the size of the touch plane is smaller than the plane size of the touch screen of the smart terminal, and obtain the corresponding first data according to the received optical transmission data sending instruction; Transmitting data to the first illuminator; converting the first data into a first optical signal by the first illuminator, and directing the first optical signal toward the first terminal The illuminator position is emitted in the direction of the light receiver.

Preferably, the first intelligent terminal is further configured to receive, by the first optical receiver, a data-converted optical signal emitted by a target illuminator corresponding to the first receiver position in the smart terminal, And restoring the optical signal to the data.

The data sharing system provided by the present invention, when the first smart terminal whose plane size is smaller than the plane size of the touch screen is in the touch screen plane of the smart terminal, locates the first smart terminal according to the strength of the optical signal received by each optical receiver. Positioning on the touch screen of the self, and determining the target illuminator; and acquiring data corresponding to the position, transmitting the data to the target illuminator, and converting the data into an optical signal by the target illuminator And transmitting the optical signal in a direction of a first optical receiver corresponding to the target illuminator position; the first smart terminal receiving the optical signal through the first optical receiver, and The method of restoring the optical signal to the data, as long as the power is sufficient, the intelligent terminal and the first intelligent terminal can implement data interaction without accessing any wireless network, and data loss does not occur during data transmission. Data transmission mode, the data transmission speed of the invention is fast, high density, high security, good confidentiality, low cost, and no electromagnetic radiation Will not cause adverse effects on the human body due to electromagnetic radiation.

DRAWINGS

1 is a schematic structural diagram of a data sharing system according to the present invention;

2 is a schematic structural diagram of a first intelligent terminal according to the present invention;

3 is a schematic diagram of a state in which a smart terminal locates a first intelligent terminal and determines a target illuminator according to the present invention;

4 is a schematic diagram of a state in which an intelligent terminal transmits an optical signal converted by data to a first intelligent terminal according to the present invention;

FIG. 5 is a schematic diagram of a state in which a first smart terminal according to the present invention transmits a first optical signal converted by a first data to an intelligent terminal.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

The preferred embodiments of the present invention are described in conjunction with the accompanying drawings, and the preferred embodiments described herein are intended to illustrate and explain the invention, and not to limit the invention, and The embodiments and the features in the embodiments can be combined with each other.

The invention further provides a data sharing system. Referring to FIG. 1, FIG. 1 is a schematic structural diagram of a data sharing system according to the present invention. In an embodiment, the data sharing system includes: the smart terminal 100 and the first smart terminal 200. The frame of the smart terminal 100 is composed of two sets of opposite side edges 110; the inner wall of one side of each group 110 is provided with a plurality of illuminators 120, and the inner wall of the other side 110 corresponds to each illuminator 120 respectively. A light receiver 130 is provided. Referring to FIG. 2, FIG. 2 is a schematic structural diagram of a first intelligent terminal according to the present invention; a first frame of the first smart terminal 200 is composed of two sets of opposite first side edges 210; and a first side of at least one group The outer wall of the 210 is provided with a plurality of first illuminators 220, and the outer wall of the other first side 210 is provided with a plurality of first light receivers 230. Referring to FIG. 1 , the first smart terminal 200 has a plane size smaller than a plane size of the touch screen 101 of the smart terminal 100. Referring to FIG. 3, FIG. 3 is a schematic diagram of a state in which a smart terminal locates a first smart terminal and determines a target illuminator according to the present invention; and the smart terminal 100 is configured to: when the first smart terminal 200 is in a plane of the touch screen 101 of the touch panel, Positioning the position 102 of the first smart terminal 200 on the touch screen 101 of the first smart terminal 200 according to the intensity of the optical signal received by each of the optical receivers 130, and determining the target illuminator 121; and acquiring data corresponding to the position, The data is sent to the target illuminator 121; see FIG. 4, which is a schematic diagram of a state in which the smart terminal transmits the optical signal converted by the data to the first intelligent terminal; and the data is converted by the target illuminator 121. In the optical signal, the optical signal is emitted in a direction of the first optical receiver 230 corresponding to the position of the target illuminator 121. The first smart terminal 200 is configured to receive the optical signal by the first optical receiver 230 and restore the optical signal to the data.

In the embodiment, when the first smart terminal 200 is placed in the touch screen of the smart terminal 100, due to the occlusion of the first smart terminal 200, the two sides of the optical receiver 130 are respectively disposed in the smart terminal 100. The intensity of the optical signal received by some of the optical receivers 130 is weaker than the optical signal received by the other optical receivers 130. As shown in FIG. 3, by receiving the location of the optical receiver 130 corresponding to the weak optical signal strength, the location of the first smart terminal 200 in the touch screen of the smart terminal 100 can be located; To the position of the optical receiver 130 corresponding to the weak optical signal strength, the positioning determines a target illuminator 121 for subsequently transmitting the optical signal converted by the data to the first smart terminal 200.

In the embodiment, the smart terminal 100 converts the data into an optical signal, and the transmitting the optical signal to the direction of the first optical receiver 230 corresponding to the position of the target illuminator 121 includes: first, the data. Digital signal processing and OFDM (Orthogonal) Frequency Division Multiplexing, Orthogonal Frequency Division Multiplexing (OFDM) coding; convolution and summation of the signal sub-channel and complex exponential signals of different frequencies; then input to the power amplifier circuit for power amplification processing to obtain the converted optical signal; The driving target illuminator 121 emits the converted optical signal in a direction of the first light receiver 230 corresponding to the position of the target illuminator 121. After receiving the optical signal, the first optical receiver 230 needs to perform digital signal processing on the optical signal to restore the optical signal to the data.

Further, the first smart terminal 200 in the data sharing system is further configured to: when it is in the plane of the touch screen 101 of the smart terminal 100, obtain the corresponding first data according to the received optical transmission data sending instruction; The first data is sent to the first illuminator 220; see FIG. 5, which is a schematic diagram of a state in which the first intelligent terminal transmits the first optical signal converted by the first data to the smart terminal according to the present invention; The first illuminator 220 converts the first data into a first optical signal and transmits the first optical signal in a direction of the optical receiver 130 corresponding to the position of the first illuminator 220. The smart terminal 100 is further configured to receive the first optical signal by using the optical receiver 130 corresponding to the position of the first illuminator 220, and restore the first optical signal to the first data.

In the embodiment, the first illuminator 220 converts the first data into a first optical signal, and transmits the first optical signal in a direction of the optical receiver 130 corresponding to the position of the first illuminator 220. The specific processing is as follows: first, the first data is subjected to digital signal processing, and OFDM encoding is performed; then the signal sub-channel and the complex exponential signal of different frequencies are convoluted and summed; and then input to the power amplifying circuit for power amplification. Processing, obtaining the converted first optical signal; finally driving the first illuminator 220 to emit the first optical signal in a direction of the optical receiver 130 corresponding to the position of the first illuminator 220. After receiving the first optical signal, the optical receiver 130 corresponding to the position of the first illuminator 220 in the smart terminal 100 needs to perform digital signal processing on the first optical signal to restore the first optical signal to The first data.

In the above embodiment, the illuminator 120 can emit light waves by using a high-brightness LED plus a waveguide plate, that is, the illuminator 120 can be a light-emitting diode; the illuminator 120 can also use a linear laser source as a light source, preferably. A high-intensity linear laser source is used as the light source. The light receiver 130 is a CCD camera.

Similarly, the first illuminator 220 can emit light waves by using a high-brightness LED plus a waveguide plate, that is, the first illuminator 220 can be a light-emitting diode. The first illuminator 220 can also use a linear laser source as the light source, and preferably a high-intensity linear laser source as the light source. The first light receiver 230 is a CCD camera.

The data sharing system provided by the present invention, through the smart terminal 100, when the first smart terminal 200 whose plane size is smaller than the plane size of the touch screen is in the touch screen plane of the touch panel, according to the intensity of the optical signal received by each optical receiver 130, the positioning is performed. Positioning a smart terminal 200 on the touch screen of the smart terminal 200, and determining the target illuminator 121; and acquiring data corresponding to the position, transmitting the data to the target illuminator 121, and passing the target illuminator 121 Converting the data into an optical signal and transmitting the optical signal in a direction of the first optical receiver 230 corresponding to the position of the target illuminator 121; the first smart terminal 200 passes the first optical receiver The method of receiving the optical signal and reducing the optical signal to the data, as long as the power is sufficient, the smart terminal 100 and the first smart terminal 200 can implement data interaction without accessing any wireless network, and the data transmission process There is no data loss phenomenon, and the data transmission speed, density, security, and security of the present invention are faster than existing data transmission methods. Good, low cost, and no electromagnetic radiation will not cause adverse effects on the human body due to electromagnetic radiation.

The present invention also provides an intelligent terminal, which is the smart terminal 100 in the above data sharing system, and the structure and function thereof are not described herein.

The present invention also provides a first smart terminal, which is the first smart terminal 200 in the data sharing system, and the structure and function are not described here.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

A data sharing system includes an intelligent terminal and a first intelligent terminal;

The frame of the smart terminal is composed of two sets of opposite sides; each side of one side of the set is provided with a plurality of illuminators, and the other side inner wall is respectively provided with a light receiver at a position corresponding to each illuminator;

The first frame of the first smart terminal is composed of two sets of opposite first side edges; at least one first side outer wall of at least one set is provided with a plurality of first illuminators, and the other first side outer wall is provided with a plurality of First light receivers;

The plane size of the first smart terminal is smaller than the plane size of the touch screen of the smart terminal;

The smart terminal is configured to: when the first smart terminal is in a touch screen plane thereof, locate the position of the first smart terminal on the touch screen according to the strength of the optical signal received by each optical receiver, and determine the target illumination And acquiring data corresponding to the location, transmitting the data to the target illuminator, converting the data into an optical signal by the target illuminator, and directing the optical signal to The direction of the first light receiver corresponding to the position of the target illuminator is emitted;

The first intelligent terminal is configured to receive the optical signal by using the first optical receiver, and restore the optical signal to the data.
A data sharing system according to claim 1 wherein:

The first intelligent terminal is further configured to: when the user is in the touch screen plane of the smart terminal, acquire corresponding first data according to the received optical transmission data sending instruction; and send the first data to the first illuminating Converting the first data into a first optical signal by the first illuminator and transmitting the first optical signal in a direction of a light receiver corresponding to the first illuminator position;

The smart terminal is further configured to receive the first optical signal by using a light receiver corresponding to the first illuminator position, and restore the first optical signal to the first data.
The data sharing system according to claim 1, wherein said illuminator is a light emitting diode; and said light receiver is a CCD camera.
The data sharing system according to claim 1, wherein said first illuminator is a light emitting diode; and said first light receiver is a CCD camera.
An intelligent terminal, the frame of the smart terminal is composed of two sets of opposite sides; each side of one side of the set is provided with a plurality of illuminators, and the other side inner wall is respectively disposed at a position corresponding to each illuminator a light receiver; characterized in that

The smart terminal is configured to: when the first smart terminal whose plane size is smaller than the plane size of the touch screen is in the plane of the touch screen, locate the first smart terminal on the touch screen of the first smart terminal according to the strength of the optical signal received by each optical receiver. Positioning and determining a target illuminator; and acquiring data corresponding to the location, transmitting the data to the target illuminator, converting the data into an optical signal by the target illuminator, and The light signal is emitted toward a direction of the first light receiver corresponding to the target illuminator position in the first smart terminal.
The intelligent terminal according to claim 5, characterized in that

The smart terminal is further configured to receive, by the optical receiver corresponding to the first illuminator position of the first smart terminal, the first optical signal converted by the first illuminator and converted by the first illuminator, and The first optical signal is reduced to the first data.
The intelligent terminal according to claim 5, wherein the illuminator is a light emitting diode; and the light receiver is a CCD camera.
A first intelligent terminal, the first frame of the first smart terminal is composed of two sets of opposite first sides; at least one of the first side outer walls of the set is provided with a plurality of first illuminators, and the other a plurality of first light receivers are disposed on one side outer wall;

The first intelligent terminal is configured to: when the size of the touch plane is smaller than the plane size of the touch screen of the smart terminal, and obtain the corresponding first data according to the received optical transmission data sending instruction; Transmitting data to the first illuminator; converting the first data into a first optical signal by the first illuminator, and directing the first optical signal toward the first terminal The illuminator position is emitted in the direction of the light receiver.
A first intelligent terminal according to claim 8 wherein:

The first intelligent terminal is further configured to receive, by the first optical receiver, a data signal converted by the target illuminator corresponding to the first receiver position in the smart terminal, and The optical signal is restored to the data.
The first intelligent terminal according to claim 8, wherein the first illuminator is a light emitting diode; and the first light receiver is a CCD camera.