CN105577290A - Data sending, reception and interaction methods, sending and reception terminals and communication system - Google Patents

Abstract

The invention discloses data sending, reception and interaction methods, sending and reception terminals and a communication system. The sending terminal obtains data to be sent, carries out supersonic coding on the data to be sent to obtain supersonic audio signals, and sends the obtained supersonic audio signals to the reception terminal via a supersonic emission module; and the reception terminal receives the supersonic audio signals sent by the sending terminal via a supersonic reception module, and carries out supersonic decoding on the received supersonic audio signals to obtain original data. According to the technical scheme provided by the invention, rapid data interaction between the sending terminal and the reception terminal is realized via supersonic transmission, the methods, terminals and system are characterized by being free of flows, low in radiation and more environment-friendly, and the user satisfaction is further improved.

Description

Data transmission, reception and exchange method, transmission, receiving terminal and communication system

Technical field

The present invention relates to the communications field, be specifically related to a kind of data transmission method for uplink, data receive method, data interactive method, and transmitting terminal, receiving terminal and communication system.

Background technology

Along with popularizing of various intelligent terminal, increasing user has been accustomed to using access internet through browsers whenever and wherever possible; Sometimes, for interested webpage or bookmark or access history record, need the friend being shared with surrounding, the technology of current employing is by 2G/3G/4G network or wifi network, this all needs having the situation of network to carry out sharing information, and there is consumed flow, power consumption is large, the problem that radiation is large.Therefore need badly provide a kind of fast, exempt from that flow, radiation are little, the data interactive method of environmental protection, better share experience for user provides.

Summary of the invention

The main technical problem to be solved in the present invention is, a kind of data transmission method for uplink, data receive method, data interactive method are provided, and transmitting terminal, receiving terminal and communication system, solve existing terminal and there is consumption flow by network sharing data, power consumption is large, the problem that radiation is large.

For solving the problems of the technologies described above, the invention provides a kind of data transmission method for uplink, comprising:

Transmitting terminal obtains data to be sent;

Transmitting terminal is carried out ultrasonic wave coded treatment to described data to be sent and is obtained ultrasonic wave audio signal;

Described ultrasonic wave audio signal is sent to receiving terminal by its ultrasonic wave transmitter module by transmitting terminal.

In an embodiment of the present invention, described data to be sent comprise: the data of the web data of transmitting terminal browser, bookmark and historical record and/or transmitting terminal this locality.

In an embodiment of the present invention, described ultrasonic wave transmitter module is the loud speaker with ultrasonic wave emission function of described transmitting terminal.

For solving the problems of the technologies described above, present invention also offers a kind of data receive method, comprising:

Receiving terminal receives the ultrasonic wave audio signal of transmitting terminal transmission by its ultrasonic wave receiver module;

Receiving terminal carries out ultrasonic wave decoding process to the ultrasonic wave audio signal received and obtains initial data.

In an embodiment of the present invention, described ultrasonic wave receiver module is the microphone with ultrasonic wave receiving function of described transmitting terminal.

For solving the problems of the technologies described above, present invention also offers a kind of data interactive method, comprising:

Transmitting terminal obtains data to be sent;

Transmitting terminal is carried out ultrasonic wave coded treatment to described data to be sent and is obtained ultrasonic wave audio signal;

Described ultrasonic wave audio signal is sent to receiving terminal by its ultrasonic wave transmitter module by transmitting terminal;

Receiving terminal receives the ultrasonic wave audio signal of transmitting terminal transmission by its ultrasonic wave receiver module;

Receiving terminal carries out ultrasonic wave decoding process to the ultrasonic wave audio signal received and obtains initial data.

For solving the problems of the technologies described above, present invention also offers a kind of transmitting terminal, comprising data acquisition module, data coding module and ultrasonic wave transmitter module;

Described data acquisition module is for obtaining data to be sent;

Described data coding module is used for carrying out ultrasonic wave coded treatment to described data to be sent and obtains ultrasonic wave audio signal;

Described ultrasonic wave transmitter module is used for described ultrasonic wave audio signal to send to receiving terminal.

In an embodiment of the present invention, described ultrasonic wave transmitter module is the loud speaker with ultrasonic wave emission function of described transmitting terminal.

For solving the problems of the technologies described above, present invention also offers a kind of receiving terminal, comprising ultrasonic wave receiver module, data decode module:

The ultrasonic wave audio signal that described ultrasonic wave receiver module sends for receiving transmitting terminal;

Described data decode module is used for carrying out ultrasonic wave decoding process to described ultrasonic wave audio signal and obtains initial data.

In an embodiment of the present invention, described ultrasonic wave receiver module is the microphone with ultrasonic wave receiving function of described transmitting terminal.

In order to solve the problem, present invention also offers a kind of communication system, comprise transmitting terminal and receiving terminal;

Described transmitting terminal, for obtaining data to be sent, is carried out ultrasonic wave coded treatment to described data to be sent and is obtained ultrasonic wave audio signal, and by its ultrasonic wave transmitter module, described ultrasonic wave audio signal is sent to receiving terminal;

Receiving terminal be used for by its ultrasonic wave receiver module receive described transmitting terminal send ultrasonic wave audio signal, and to the ultrasonic wave audio signal received carry out ultrasonic wave decoding process obtain initial data.

The invention has the beneficial effects as follows:

Data transmission method for uplink provided by the invention, data receive method, data interactive method, and transmitting terminal, receiving terminal and communication system; Transmitting terminal obtains data to be sent, carries out ultrasonic wave coded treatment obtain ultrasonic wave audio signal to data to be sent, and by its ultrasonic wave transmitter module, the ultrasonic wave audio signal obtained is sent to receiving terminal; Receiving terminal by its ultrasonic wave receiver module receive transmitting terminal send ultrasonic wave audio signal, and to the ultrasonic wave audio signal received carry out ultrasonic wave decoding process obtain initial data.Visible, it is mutual fast that scheme provided by the invention to achieve between transmitting terminal and receiving terminal data by ultrasonic transmission, has to exempt from that flow, radiation are little, the feature of more environmental protection, can promote the satisfaction of Consumer's Experience further.

Accompanying drawing explanation

The communication system architecture schematic diagram that Fig. 1 provides for the embodiment of the present invention one;

The transmitting terminal structural representation that Fig. 2 provides for the embodiment of the present invention two;

Another transmitting terminal structural representation that Fig. 3 provides for the embodiment of the present invention two;

Another transmitting terminal structural representation that Fig. 4 provides for the embodiment of the present invention two;

The receiving terminal structural representation that Fig. 5 provides for the embodiment of the present invention two;

Another receiving terminal structural representation that Fig. 6 provides for the embodiment of the present invention two;

The data transmission method for uplink schematic flow sheet that Fig. 7 provides for the embodiment of the present invention three;

The data receive method schematic flow sheet that Fig. 8 provides for the embodiment of the present invention three;

The data interactive method schematic flow sheet that Fig. 9 provides for the embodiment of the present invention three.

Embodiment

By reference to the accompanying drawings the present invention is described in further detail below by embodiment.

Embodiment one:

For a better understanding of the present invention, the present embodiment first carries out brief description to ultrasonic wave.: sound wave is the mode of propagation of sound vibrated by object (sound source) and produce for hyperacoustic definition.The sound wave frequency that people's ear can be heard is generally between 20 hertz to 20000 hertz.

By frequency categorization, frequency is called infrasound lower than the sound wave of 20Hz; The sound wave of frequency 20Hz ~ 20kHz is called can listen ripple; The sound wave of frequency 20kHz ~ 1GHz is called ultrasonic wave; The sound wave that frequency is greater than 1GHz is called hypersonic sound or microwave ultrasound.

Ultrasonic wave refers to that vibration frequency is greater than more than 20kHz, and beyond the general upper limit (20kHz) of human auditory system, hyperacoustic wavelength is very short, only has several centimetres, even some thousandths of millimeter.Because hyperacoustic wavelength is very short, it can directed straightline propagation in uniform dielectric, possesses good directivity; Therefore it possesses the various performances of data transportation requirements.

Shown in Figure 1, the communication system that the present embodiment provides comprises transmitting terminal and receiving terminal, and the transmitting terminal in the present embodiment and receiving terminal can be mobile phone terminal, PC terminal or other communication terminals; Wherein:

Transmitting terminal, for obtaining data to be sent, is carried out ultrasonic wave coded treatment to data to be sent and is obtained ultrasonic wave audio signal, and by its ultrasonic wave transmitter module, the ultrasonic wave audio signal obtained is sent to receiving terminal;

Data to be sent herein comprise the data (comprising various text data, image data even sound, video data etc.) of the web data (comprising the data in Web page text, website information, web page title etc.) of transmitting terminal browser, bookmark and historical record and/or transmitting terminal this locality.

Receiving terminal be used for by its ultrasonic wave receiver module receive transmitting terminal send ultrasonic wave audio signal, and to the ultrasonic wave audio signal received carry out ultrasonic wave decoding process obtain initial data.

Concrete, shown in Figure 2, the transmitting terminal in the present embodiment comprises data acquisition module, data coding module and ultrasonic wave transmitter module;

Data acquisition module, for obtaining data to be sent, specifically can gather web data to be sent (and/or data of transmitting terminal this locality;

Data coding module is used for carrying out ultrasonic wave coded treatment to data to be sent and obtains ultrasonic wave audio signal; Coding in the present embodiment specifically can adopt Synchronization, but is not limited to this kind of coded system; Other coded systems that can realize identical function are also all applicable;

Ultrasonic wave transmitter module is used for ultrasonic wave audio signal to send to receiving terminal with hyperacoustic form.

Ultrasonic wave transmitter module in the present embodiment can be arranged on separately in transmitting terminal, possess the standalone module of ultrasonic wave emission function; Also can directly adopt the loud speaker of transmitting terminal to realize, this loud speaker has ultrasonic wave emission function.Loud speaker in the present embodiment can be the first loud speaker for grafting earphone in terminal, and the PIN pin of the first loud speaker now can be utilized to produce ultrasonic signal, specifically also can select left and/R channel pin realization; Loud speaker also can be the second loud speaker for putting in terminal outward, and now specifically by arranging ultrasonic wave vibrating diaphragm or directly integrated ultrasonic generation transducer realization on the second loud speaker, after processing like this, loud speaker can launch ultrasonic wave.

Shown in Figure 3, the transmitting terminal in the present embodiment also comprises memory module, for storing data to be sent and/or obtaining data after storing encoded process.

Shown in Figure 4, the transmitting terminal in the present embodiment also comprises transmitting administration module, for controlling the switch of ultrasonic wave transmitter module.Concrete, it when needs send data, can open ultrasonic wave transmitter module according to command adapted thereto (can be the instruction that user issues); After data are sent, close ultrasonic wave transmitter module according to command adapted thereto; Certainly, ultrasonic wave transmitter module can be set to a direct-open in the present embodiment, but this is unfavorable for saving power consumption.

Shown in Figure 5, the receiving terminal in the present embodiment comprises ultrasonic wave receiver module, data decode module, memory module and display module;

The ultrasonic wave audio signal that ultrasonic wave receiver module sends for receiving transmitting terminal;

Data decode module is used for carrying out ultrasonic wave decoding process to ultrasonic wave audio signal and obtains initial data, and the coded system that its decoding process and transmitting terminal adopt is corresponding;

Memory module is for storing this initial data;

Display module is then for being shown to user by this initial data.

Ultrasonic wave receiver module in the present embodiment can be arranged on separately on receiving terminal, possess the standalone module of ultrasonic wave receiving function; Also can directly adopt the microphone of transmitting terminal to realize, this microphone has ultrasonic wave receiving function, now need set up the functional module for receiving ultrasonic wave audio signal or directly utilize the pin of MIC to realize the reception of ultrasonic signal on microphone.

Shown in Figure 6, the receiving terminal in the present embodiment also comprises receiving management module, for controlling the switch of ultrasonic wave receiver module.Concrete, it when needs receive data, can open ultrasonic wave receiver module according to command adapted thereto (can be the instruction that user issues); After data receiver, close ultrasonic wave receiver module according to command adapted thereto; Certainly, ultrasonic wave receiver module can be set to a direct-open in the present embodiment.

Embodiment two:

The data transmission method for uplink that the present embodiment provides is shown in Figure 7, comprising:

Step 702: transmitting terminal obtains data to be sent; Data to be sent herein comprise the data (comprising various text data, image data even sound, video data etc.) of the web data (comprising the data in Web page text, website information, web page title etc.) of transmitting terminal browser, bookmark and historical record and/or transmitting terminal this locality.

Step 702: transmitting terminal is carried out ultrasonic wave coded treatment to data to be sent and obtained ultrasonic wave audio signal; Coding specifically can adopt Synchronization, but is not limited to this kind of coded system; Other coded systems that can realize identical function are also all applicable;

Step 703: this ultrasonic wave audio signal is sent to receiving terminal by its ultrasonic wave transmitter module by transmitting terminal.

Ultrasonic wave transmitter module in the present embodiment can be arranged on separately in transmitting terminal, possess the standalone module of ultrasonic wave emission function; Also the loud speaker of transmitting terminal can be directly adopted to realize, loud speaker in the present embodiment can be the first loud speaker for grafting earphone in terminal, the PIN pin of the first loud speaker now can be utilized to produce ultrasonic signal, specifically also can select left and/R channel pin realization; Loud speaker also can be the second loud speaker for putting in terminal outward, and now specifically by arranging ultrasonic wave vibrating diaphragm or directly integrated ultrasonic generation transducer realization on the second loud speaker, after processing like this, loud speaker can launch ultrasonic wave.

In the present embodiment, when needs send data, ultrasonic wave transmitter module can be opened according to command adapted thereto (can be the instruction that user issues); After data are sent, close ultrasonic wave transmitter module according to command adapted thereto; Certainly, ultrasonic wave transmitter module can be set to a direct-open in the present embodiment.

Shown in Figure 8, the data receive method in the present embodiment comprises:

Step 801: receiving terminal receives the ultrasonic wave audio signal of transmitting terminal transmission by its ultrasonic wave receiver module;

Step 802: receiving terminal carries out ultrasonic wave decoding process to the ultrasonic wave audio signal received and obtains initial data, and the coded system that its decoding process and transmitting terminal adopt is corresponding;

Step 803: this initial data is shown to user by receiving terminal.

After above-mentioned steps 802, also can comprise the step that the initial data obtained is stored.

Ultrasonic wave receiver module in the present embodiment can be arranged on separately on receiving terminal, possess the standalone module of ultrasonic wave receiving function; Also can directly adopt the microphone of transmitting terminal to realize, this microphone has ultrasonic wave receiving function, now need set up the functional module for receiving ultrasonic wave audio signal or directly utilize the pin of microphone to realize hyperacoustic reception on microphone.

When needs receive data, ultrasonic wave receiver module can be opened according to command adapted thereto (can be the instruction that user issues) in the present embodiment; After data receiver, close ultrasonic wave receiver module according to command adapted thereto; Certainly, ultrasonic wave receiver module can be set to a direct-open in the present embodiment.

For a better understanding of the present invention, below in conjunction with a data interaction detailed process of transmitting terminal and receiving terminal, the invention will be further described.Shown in Figure 9, comprising:

Step 901: transmitting terminal response sends Client-initiated and shares request;

Step 902: transmitting terminal collection needs the initial data shared, such as: the current network address browsed, bookmark, historical record.

Step 903: transmitting terminal is encoded to raw information, is specially ultrasonic wave coded treatment;

Step 904: transmitting terminal stores the data after coding;

Step 905: transmitting terminal opens loud speaker, is ready for sending coded data;

Step 906: transmitting terminal sends coded data by loud speaker, is sent rear mute speaker;

Step 907: the user of receiving terminal is to receiving terminal transmission and reception announcement information;

Step 908: its built-in microphone opened by receiving terminal, starts to receive ultrasonic wave voice data;

Step 909: after receiving terminal finishes receiving, decodes to ultrasonic wave voice data, is reduced to the initial data of transmit leg;

Step 910: store initial data;

Step 911: the primary data information (pdi) stored is presented to receiving terminal user.

Visible, it is mutual fast that scheme provided by the invention to achieve between transmitting terminal and receiving terminal data by ultrasonic transmission, has to exempt from that flow, radiation are little, the feature of more environmental protection, can promote the satisfaction of Consumer's Experience further.

Above content is in conjunction with concrete execution mode further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to protection scope of the present invention.

Claims (11)

1. a data transmission method for uplink, is characterized in that, comprising:

Transmitting terminal obtains data to be sent;

Transmitting terminal is carried out ultrasonic wave coded treatment to described data to be sent and is obtained ultrasonic wave audio signal;

Described ultrasonic wave audio signal is sent to receiving terminal by its ultrasonic wave transmitter module by transmitting terminal.

2. data transmission method for uplink as claimed in claim 1, it is characterized in that, described data to be sent comprise: the data of the web data of transmitting terminal browser, bookmark and historical record and/or transmitting terminal this locality.

3. data transmission method for uplink as claimed in claim 1 or 2, it is characterized in that, described ultrasonic wave transmitter module is the loud speaker with ultrasonic wave emission function of described transmitting terminal.

4. a data receive method, is characterized in that, comprising:

Receiving terminal receives the ultrasonic wave audio signal of transmitting terminal transmission by its ultrasonic wave receiver module;

Receiving terminal carries out ultrasonic wave decoding process to the ultrasonic wave audio signal received and obtains initial data.

5. data receive method as claimed in claim 4, it is characterized in that, described ultrasonic wave receiver module is the microphone with ultrasonic wave receiving function of described transmitting terminal.

6. a data interactive method, is characterized in that, comprising:

Transmitting terminal obtains data to be sent;

Transmitting terminal is carried out ultrasonic wave coded treatment to described data to be sent and is obtained ultrasonic wave audio signal;

Described ultrasonic wave audio signal is sent to receiving terminal by its ultrasonic wave transmitter module by transmitting terminal;

Receiving terminal receives the ultrasonic wave audio signal of transmitting terminal transmission by its ultrasonic wave receiver module;

Receiving terminal carries out ultrasonic wave decoding process to the ultrasonic wave audio signal received and obtains initial data.

7. a transmitting terminal, is characterized in that, comprises data acquisition module, data coding module and ultrasonic wave transmitter module;

Described data acquisition module is for obtaining data to be sent;

Described data coding module is used for carrying out ultrasonic wave coded treatment to described data to be sent and obtains ultrasonic wave audio signal;

Described ultrasonic wave transmitter module is used for described ultrasonic wave audio signal to send to receiving terminal.

8. transmitting terminal as claimed in claim 7, it is characterized in that, described ultrasonic wave transmitter module is the loud speaker with ultrasonic wave emission function of described transmitting terminal.

9. a receiving terminal, is characterized in that, comprises ultrasonic wave receiver module, data decode module:

The ultrasonic wave audio signal that described ultrasonic wave receiver module sends for receiving transmitting terminal;

Described data decode module is used for carrying out ultrasonic wave decoding process to described ultrasonic wave audio signal and obtains initial data.

10. data receiving terminal as claimed in claim 9, it is characterized in that, described ultrasonic wave receiver module is the microphone with ultrasonic wave receiving function of described transmitting terminal.

11. 1 kinds of communication systems, is characterized in that, comprise transmitting terminal and receiving terminal;

Described transmitting terminal, for obtaining data to be sent, is carried out ultrasonic wave coded treatment to described data to be sent and is obtained ultrasonic wave audio signal, and by its ultrasonic wave transmitter module, described ultrasonic wave audio signal is sent to receiving terminal;

Receiving terminal be used for by its ultrasonic wave receiver module receive described transmitting terminal send ultrasonic wave audio signal, and to the ultrasonic wave audio signal received carry out ultrasonic wave decoding process obtain initial data.