WO2014173214A1

WO2014173214A1 - Conversion device and display system

Info

Publication number: WO2014173214A1
Application number: PCT/CN2014/073860
Authority: WO
Inventors: 李东声
Original assignee: 天地融科技股份有限公司
Priority date: 2013-04-27
Filing date: 2014-03-21
Publication date: 2014-10-30
Also published as: CN103248486B; CN103248486A

Abstract

The present invention provides a conversion device and a display system. The conversion device comprises: a first transmission module, a first security module, and a second transmission module. The first transmission module is used for establishing a communication connection and receiving first encrypted information after establishing the communication connection; and the first security module is used for: after the first transmission module receives the first encrypted information, decrypting the first encrypted information to obtain first decrypted information, encrypting the first decrypted information to obtain first encrypted data, and sending the first encrypted data to the second transmission module to be transmitted externally; or the first security module sends, after the first transmission module receives the first encrypted information, the first encrypted information to the second transmission module to be transmitted externally.

Description

Conversion device and display system

Technical field

The present invention relates to the field of electronic technologies, and in particular, to a conversion device and a display system. Background technique

With the emergence and development of smart products, such as MP3, tablets, and smartphones, people have more flexible requirements for browsing data such as video, audio, and text. Therefore, some people in the industry have designed glasses that can receive data transmitted by the terminal and display the data sent by the terminal, which greatly facilitates the demand for data browsing.

However, the existing glasses that can receive and display data are generally what kind of data is transmitted by the terminal to the glasses, and the data is directly displayed. Due to the transparency of the data transmission, it is easy to cause the data related to privacy to be transmitted. The security of the data transmission cannot be guaranteed, which may easily lead to security risks such as privacy leakage. Summary of the invention

The object of the present invention is to at least solve one of the above technical drawbacks.

A first aspect of the present invention provides a conversion apparatus, including: a first transmission module, a first security module, and a second transmission module; the first transmission module is configured to establish a communication connection, and after receiving the communication connection, receive the first Encrypting information; the first security module is configured to: after the first transmission module receives the first encryption information, decrypt the first encrypted information to obtain first decryption information, and use the first decryption information Performing encryption to obtain first encrypted data, and transmitting the first encrypted data to the second transmission module for outgoing; or the first security module after receiving the first encrypted information by the first transmission module Sending the first encrypted information to the second transmission module for outgoing.

In addition, the first security module is further configured to: after decrypting the first encrypted information to obtain the first decrypted information, determining whether the first decrypted information is information in a preset format, where, if it is a preset format And performing one of the following operations: encrypting the first decryption information to obtain first encrypted data, and sending the first encrypted data to a second transmission module for outgoing; and using the first encrypted information Sending to the second transmission module for outgoing.

In addition, the second transmission module is further configured to receive the second encrypted data, and send the second encrypted data to the first security module, where the first security module performs after receiving the second encrypted data. One of the following operations: decrypting the second encrypted data, obtaining second decrypted information, encrypting the second decrypted information, obtaining second encrypted information, and transmitting the second encrypted information to the The first transmission module performs outgoing: sending the second encrypted data to the first transmission module for outgoing.

In addition, the first security module is further configured to sign at least the first encrypted data to obtain a first signature number. And sending the first signature data to the second transmission module for outgoing; or the first security module is further configured to: sign the first encrypted information to obtain the first signature data, and Sending the first signature data to the second transmission module for outgoing; or the first security module is further configured to sign at least the first decryption information, obtain first signature data, and The first signature data is sent to the second transmission module for outgoing.

In addition, the second transmission module of the converting device is further configured to receive the second signature data when the second encrypted data is received, and send the second signature data to the first security module; After receiving the second encrypted data and the second signature data, the security module performs one of the following operations: performing verification on the second signature data, and after verifying that the second signature data is passed, Decrypting the second encrypted data to obtain the second decrypted information, and encrypting the second decrypted information to obtain the second encrypted information, and sending the second encrypted information to the first transmission Executing the second signature data, and after verifying that the second signature data is passed, sending the second encrypted data to the first transmission module for outgoing; Decrypting the data to obtain the second decryption information, and after obtaining the second decryption information, verifying the second signature data, and verifying the After the second signature data is passed, the second decryption information is encrypted to obtain the second encrypted information, and the second encrypted information is sent to the first transmission module for outgoing; for the second encrypted data Decrypting, obtaining the second decryption information, and after obtaining the second decryption information, verifying the second signature data, and after verifying that the second signature data is passed, the second encryption is performed Data is sent to the first transmission module for outgoing.

In addition, the first transmission module performs data transmission by using one of the following modes: audio transmission mode, USB transmission mode, serial port transmission mode, NFC transmission mode, Bluetooth transmission mode, infrared transmission mode, optical transmission mode, WIFI transmission mode, and GPRS Transmission mode, 3G transmission mode and GSM transmission mode; the second transmission module performs data transmission by one of the following modes: audio transmission mode, USB transmission mode, serial port transmission mode, NFC transmission mode, Bluetooth transmission mode, infrared transmission mode, Optical transmission mode, WIFI transmission mode, GPRS transmission mode, 3G transmission mode and GSM transmission mode.

A second aspect of the present invention provides a display system including glasses and the above-described conversion device. The glasses include a lens body, a display module disposed on the lens body, a second security module, and a communication module. Establishing a communication connection with the second transmission module of the conversion device, and after establishing the communication connection, receiving the first encrypted data or the first encrypted information; the second security module is used in the communication module After receiving the first encrypted data or the first encrypted information, decrypting the first encrypted data or the first encrypted information to obtain the first decrypted information; And after the obtaining the first decryption information, sending a display instruction to the display module; the display module is configured to receive the display instruction, and display according to the display instruction and the first decryption information. In addition, the second security module is further configured to receive an input instruction, generate information to be output according to the input instruction, and encrypt the to-be-output information to obtain the second encrypted data; After the second security module obtains the second encrypted data, the second encrypted data is sent out.

In addition, the communication module further receives the first signature data when receiving the first encrypted data or the first encrypted information, and the second security module is configured to receive the first After signing the data, performing one of the following operations: verifying the first signature data, and after verifying that the first signature data is passed, decrypting the first encrypted data or the first encrypted information, Obtaining the first decryption information; decrypting the first encrypted data or the first encrypted information, obtaining the first decrypted information, and after obtaining the first decrypted information, the first signature The data is verified, and after verifying that the first signature data is passed, a display instruction is sent to the display module.

In addition, the second security module is further configured to: after the information to be output is generated, at least the information to be output is signed to obtain the second signature data; or the second security module is further configured to use at least the second The encrypted data is signed to obtain the second signature data. The communication module is further configured to: after the second security module obtains the second signature data, send the second signature data.

In addition, a button is further disposed on the lens body, and the second security module receives an input instruction through the button. In addition, the communication module performs data transmission with the second transmission module by using one of the following modes: an audio transmission mode, a USB transmission mode, a serial port transmission mode, an NFC transmission mode, a Bluetooth transmission mode, an infrared transmission mode, and an optical transmission mode, WIFI transmission mode, GPRS transmission mode, 3G transmission mode and GSM transmission mode.

In addition, the display system further includes: a terminal; the terminal establishes a communication connection with the first transmission module of the conversion device, and after the communication connection is established, sends the first encrypted information to the first transmission module.

In addition, the terminal further receives the second encrypted information or the second encrypted data transmitted by the first transmission module.

A third aspect of the present invention provides a conversion apparatus, including: a first transmission module, a first security module, and a second transmission module; the first transmission module is configured to establish a communication connection, and after receiving the communication connection, receive the first The first security module is configured to decrypt the first encrypted information to obtain first decryption information, and convert the first decrypted information into The first conversion information of the preset format is encrypted to obtain the first encrypted conversion data, and the first encrypted conversion data is sent to the second transmission module for outgoing.

In addition, the first security module is further configured to: after decrypting the first encrypted information to obtain the first decrypted information, determining whether the first decrypted information is information in a preset format, where, if not Formatting the information, converting the first decryption information into the first conversion information of the preset format. In addition, the second transmission module is further configured to receive the second encrypted data, and send the second encrypted data to the first security module, where the first security module performs after receiving the second encrypted data. One of the following operations: decrypting the second encrypted data, obtaining second decrypted information, encrypting the second decrypted information, obtaining second encrypted information, and transmitting the second encrypted information to the The first transmission module performs outgoing: sending the second encrypted data to the first transmission module for outgoing.

In addition, the first security module further signs at least the first encrypted conversion data, obtains first signature data, and sends the first signature data to the second transmission module for outgoing; or The first security module further signs the first conversion information, obtains the first signature data, and sends the first signature data to the second transmission module for outgoing.

In addition, the second transmission module of the converting device is further configured to receive the second signature data when the second encrypted data is received, and send the second signature data to the first security module; After receiving the second encrypted data and the second signature data, the first security module performs one of the following operations: verifying the second signature data, and after verifying that the second signature data is passed Decrypting the second encrypted data to obtain second decrypted information, and encrypting the second decrypted information to obtain the second encrypted information, and sending the second encrypted information to the first transmission Executing the second signature data, and after verifying that the second signature data is passed, sending the second encrypted data to the first transmission module for outgoing; or Decoding the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, verifying the second signature data, verifying After the second signature data is passed, the second decryption information is encrypted to obtain the second encrypted information, and the second encrypted information is sent to the first transmission module for outgoing; or Decrypting the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, verifying the second signature data, and after verifying that the second signature data is passed, The second encrypted data is sent to the first transmission module for outgoing.

A fourth aspect of the present invention provides a display system including glasses and the above-described conversion device. The glasses include a lens body, a display module disposed on the lens body, a second security module, and a communication module. Establishing a communication connection with the second transmission module of the conversion device, and after establishing the communication connection, receiving the first addition The second security module is configured to decrypt the first encrypted conversion data after the communication module receives the first encrypted conversion data, to obtain the first conversion information; The second security module is further configured to send a display instruction to the display module after obtaining the first conversion information; the display module is configured to receive the display instruction, and display according to the display instruction and the first conversion information .

In addition, the second security module is further configured to receive an input instruction, generate information to be output according to the input instruction, and encrypt the to-be-output information to obtain the second encrypted data; After the second security module obtains the second encrypted data, the second encrypted data is sent out.

In addition, the communication module further receives the first signature data when receiving the first encrypted conversion data, and the second security module is configured to perform the following operations after the communication module receives the first signature data. One of: performing verification on the first signature data, after verifying that the first signature data is passed, decrypting the first encrypted conversion data to obtain the first conversion information; or Converting the data for decryption, obtaining the first conversion information, and after obtaining the first conversion information, verifying the first signature data, and after verifying that the first signature data is passed, sending a display instruction to the The display module.

In addition, the display system further includes: a terminal; the terminal establishes a communication connection with the first transmission module of the conversion device, and after establishing the communication connection, transmits the first encrypted information to the first transmission module.

It can be seen from the technical solution provided by the above invention that the present invention provides a conversion device and a display system, which are ensured the security of the data transmission because the data is encrypted during the transmission process;

In addition, the glasses of the present invention locally decrypt the encrypted data sent by the conversion device through the second security module, further ensuring the security of data transmission, and maximally preventing remote attacks by hackers, thereby eliminating the use of other decryption devices for decryption. The unsafe hidden dangers that are sent to the glasses;

In addition, the information output by the glasses is encrypted by the second security module of the glasses and then sent out through the communication module. To ensure the safety of the data output by the glasses;

In addition, since the data transmitted by the conversion device can be signed, the glasses verify the signature, the data sent by the glasses can also be signed, and the conversion device performs verification, thereby ensuring the authenticity of the identity of both the conversion device and the glasses, and further improving the data transmission. Security. DRAWINGS

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention, Those skilled in the art can also obtain other drawings based on these drawings without any creative work.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block diagram showing the structure of a display system according to Embodiment 1 of the present invention. detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "vertical", "transverse", "upper", "lower", "previous", "rear", "left", "right", " The orientation or positional relationship of the indications of "", "horizon", "top", "bottom", "inside", "outside", etc. is based on the orientation or positional relationship shown in the drawings, only for the convenience of describing the present invention and The simplification of the description is not intended to limit or imply that the device or elements referred to have a particular orientation, construction and operation in a particular orientation. Moreover, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or quantity or location.

In the description of the present invention, it should be noted that the terms "installation", "connected", and "connected" are to be understood broadly, and may be fixed or detachable, for example, unless otherwise explicitly defined and defined. Connected, or connected integrally; can be mechanical or electrical; can be directly connected, or indirectly connected through an intermediate medium, can be the internal communication of the two components. The specific meaning of the above terms in the present invention can be understood in a specific case by those skilled in the art.

The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings. Example 1 1 is a schematic structural diagram of a display system according to Embodiment 1 of the present invention. Referring to FIG. 1, the display system includes: a conversion device 10, and glasses 20; in addition, the display system of the present invention may further include: a terminal 30, and the terminal 30 may For any of the following devices: MP3, smartphone, tablet, laptop, PC, USB stick or remote server. Of course, the conversion device 10 of the present invention can also be used as a separate device, and different interfaces are provided. For example, the conversion device 10 includes an interface such as an IC card slot, an SD card slot or a card reader, and can read an IC card and an SD card. An encrypted file stored in a device such as a card that is connected through an interface.

Its towel:

The conversion device 10 may include: a first transmission module 101, a first security module 102, and a second transmission module 103; wherein: the first transmission module 101 can establish a communication connection by:

Wired transmission mode: audio transmission mode, USB transmission mode or serial port transmission mode;

Wireless transmission mode: NFC transmission mode, Bluetooth transmission mode, infrared transmission mode, optical transmission mode, WIFI transmission mode, GPRS transmission mode, 3G transmission mode or GSM transmission mode.

The wireless transmission method can reduce the setting of the interface, reduce the volume of the conversion device 10, and is more convenient to use and carry.

Wherein: the second transmission module 103 can establish a communication connection by:

The glasses 20 include: a lens body; a display module 201, a second security module 202, and a communication module 203 may be disposed on the lens body; of course, the display module 201 may be separately disposed at the frame or may be disposed on the surface of the lens. The latter user can directly view the displayed content while wearing the glasses 20, which is convenient for the user to use. Of course, the display module 201 can also be directly formed into a lens, which makes the process simple and practical. The second security module 202 and the communication module 203 can be separately disposed at the frame or inside the frame, and the latter can reduce the volume of the glasses 20 for convenient carrying and use.

Specifically, the communication module 203 can establish a communication connection by:

The wireless transmission method can reduce the setting of the interface, reduce the volume of the glasses 20, and is more convenient to use and carry. The first transmission module 101 of the conversion device 10 establishes a communication connection with the terminal 30 through the matched transmission mode, so that the information transmitted by the terminal 30 can be received; the second transmission module 103 of the conversion device 10 and the communication module 203 of the glasses 20 pass the matched transmission. The communication connection is established in such a manner that the information transmitted by the processed terminal 30 can be transmitted to the glasses 20. The terminal 30 is configured to generate first information, and encrypt the first information to obtain the first encrypted information. After the terminal 30 establishes a communication connection with the first transmission module 101, the terminal 30 sends the first encrypted information to the first of the conversion device 10. A transmission module 101. In this embodiment, the terminal 30 encrypts the first information, so that the information sent by the terminal 30 is ciphertext information. Therefore, after the first encryption information is received by the conversion device 10, the following processing is performed:

The first transmission module 101 is configured to establish a communication connection, and after the communication connection is established, receive the first encryption information. Specifically, after establishing a communication connection with the first transmission module 101, the terminal 30 sends the ciphertext of the information to the first transmission. Module 101 is for subsequent processing.

The first security module 102 is configured to: after the first transmission module 101 receives the first encrypted information, decrypt the first encrypted information to obtain the first decrypted information, and encrypt the first decrypted information to obtain the first encrypted data, and An encrypted data is sent to the second transmission module for outgoing.

It can be seen that the data is encrypted during the transmission process, which ensures the security of the data transmission.

Specifically, after decrypting the first encrypted information to obtain the first decrypted information, the first security module 102 determines whether the first decrypted information is information in a preset format, and if the information is in a preset format, the first decrypted information is obtained. Encryption is performed to obtain the first encrypted data, and the first encrypted data is sent to the second transmission module 103 for outgoing.

Since the original text of the first encrypted information sent by the terminal 30 in the embodiment is the information in the preset format, the first security module 102 directly follows the first decrypted information and the glasses after decrypting the first encrypted information. The 20 matched encryption/decryption algorithm performs encryption to obtain the first encrypted data, and sends the first encrypted data to the second transmission module 103 for outgoing to the glasses 20.

It should be noted that the preset format supported by the glasses 20 of the present invention may be the codec format with the highest encoding and decoding efficiency, for example: the preset format of the document supported by the glasses 20 is: TXT format; the preset of the picture supported by the glasses 20 The format is: ESC format, etc. Of course, it can also support the codec format with the highest codec efficiency of different types (for example, audio format, video format), which are not enumerated here. The preset format uses the codec format with the highest codec efficiency to improve the speed of data processing by the eyepiece 20.

Of course, if the encryption and decryption algorithm of the encrypted first information used by the terminal 30 is the same as the encryption and decryption algorithm of the glasses 20, the first security module 102 directly determines that the first decryption information is the preset format information supported by the glasses 20, The first encrypted information is sent out to the glasses 20 through the second transmission module 103. Therefore, in order to match the conversion device 10, when the conversion device 10 transmits the first encrypted data or the first encrypted information to the second transmission module 103 for outgoing, the communication module 203 of the glasses 20 is used for the conversion device The second transmission module 103 establishes a communication connection, and after the communication connection is established, receives the first encrypted data or the first encrypted information. The second security module 202 is configured to: after the communication module 203 receives the first encrypted data or the first encrypted information, Decrypting the first encrypted data or the first encrypted information, and obtaining first decrypting information obtained by the converting device 10 by decrypting the first encrypted information or the first encrypted information;

The second security module 202 is further configured to send a display instruction to the display module 201 after obtaining the first decryption information;

The display module 201 receives the display instruction and displays according to the display instruction and the first decryption information.

It can be seen that the glasses 20 of the present invention locally decrypt the encrypted data sent by the conversion device 10 through the second security module 202, further ensuring the security of data transmission, and maximally preventing remote attacks by hackers, thereby eliminating the adoption. The unsecured hidden danger generated by the other decryption device after being decrypted and sent to the glasses 20. In addition, in order to ensure the security of the data output by the glasses 20, the second security module 202 of the glasses 20 is further configured to receive an input instruction, generate information to be output according to the input instruction, and encrypt the information to be output to obtain second encrypted data; 203 is further configured to send the second encrypted data after the second security module 202 obtains the second encrypted data. It can be seen that the information output by the glasses 20 is encrypted by the second security module 202 of the glasses 20 and then transmitted through the communication module 203, so that the security of the data output by the glasses 20 can be ensured.

At this time, the second transmission module 103 of the conversion device 10 further receives the second encrypted data, and sends the second encrypted data to the first security module 102. After receiving the second encrypted data, the first security module 102, if the terminal 30, the data encryption and decryption algorithm is different from the glasses 20, the first security module 102 decrypts the second encrypted data, obtains the second decrypted information, and encrypts the second decrypted information to obtain the second encrypted information, and The second encrypted information is sent to the first transmission module 101 for outgoing; because the ciphertext of the data is transmitted between the terminal 30 and the conversion device 10, the conversion device 10 encrypts the second decrypted information to obtain the second encrypted information, and the second The encrypted information is sent to the first transmission module 101 for outgoing, and the terminal 30 receives the second encrypted information or the second encrypted data transmitted by the first transmission module 101. At this time, the algorithm for encrypting the second decrypted information should match the decryption algorithm of the terminal 30.

Of course, if the encryption and decryption algorithms of the glasses 20 and the terminal 30 are the same, the conversion module 10 can directly transmit the second encrypted data transmitted by the received glasses 20 to the terminal 30.

By encrypting the second decrypted information, transmitting the second encrypted information or directly transmitting the second encrypted data to the terminal 30, the security of the data transmission output by the glasses 20 can be ensured. In order to further improve the security of data transmission and ensure the authenticity of the identity of the conversion device 10, the conversion device 10 further The transmitted data can be signed, and the glasses 20 can also verify the signature of the conversion device 10. Specifically, the authentication can be performed by one of the following methods:

(1) The first security module 102 of the conversion device 10 signs at least the first encrypted data or the first encrypted information, obtains the first signature data, and sends the first signature data to the second transmission module 103 for outgoing;

The communication module 203 of the glasses 20 further receives the first signature data when receiving the first encrypted data or the first encrypted information. The second security module 202 is configured to: after the communication module 203 receives the first signature data, the first signature data. Performing verification, and after verifying that the first signature data is passed, decrypting the first encrypted data or the first encrypted information to obtain the first decrypted information.

By directly signing and verifying the encrypted data, the verification process is reduced, the data processing speed is improved, and the encrypted data is decrypted only after the verification signature is passed. Otherwise, if the verification signature fails, the encryption is not performed. The data is decrypted to ensure the security of the data.

(2) The first security module 102 of the conversion device 10 signs at least the first decryption information, obtains the first signature data, and sends the first signature data to the second transmission module 103 for outgoing;

The communication module 203 of the glasses 20 further receives the first signature data when receiving the first encrypted data or the first encrypted information. The second security module 202 is configured to: after the communication module 203 receives the first signature data, the first encrypted data. Or the first encrypted information is decrypted, the first decrypted information is obtained, and after the first decrypted information is obtained, the first signature data is verified, and after the first signature data is verified, the display instruction is sent to the display module.

The decrypted information is obtained by decrypting the encrypted data, and the first signature data is verified according to the decrypted information, thereby improving the correctness of the verification, and even if the encrypted data and the signature are simultaneously tampered with, the verification can be performed, thereby ensuring the security of the data transmission. The authenticity of the identity of the sex and conversion device 10. In order to further improve the security of the data transmission and ensure the authenticity of the identity of the glasses 20, the glasses 20 can also sign the transmitted data, and the conversion device 10 can also verify the signature of the conversion device 20, which can be performed by one of the following methods. Authentication:

(1) The second security module 202 of the glasses 20 may, after generating the information to be output, at least the output information is signed to obtain the second signature data; the communication module 203 is further configured to: after the second security module 202 obtains the second signature data, , the second signature data is sent out;

At this time, the second transmission module 103 of the conversion device 10 further receives the second signature data when receiving the second encrypted data, and transmits the second signature data to the first security module 102; the first security module 102 receives the first After encrypting the data and the second signature data, decrypting the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, performing one of the following operations: The first security module 102 verifies the second signature data, and after verifying that the second signature data is passed, encrypts the second decryption information to obtain the second encrypted information, and sends the second encrypted information to the first transmission module. Send; or

The first security module 102 verifies the second signature data, and after verifying that the second signature data is passed, sends the second encrypted data to the first transmission module for outgoing;

Since the terminal 30 and the conversion device 10 transmit the ciphertext through the data, the first security module 102 of the conversion device 10 determines the difference between the encryption and decryption algorithms adopted by the terminal 30 and the glasses 20 after verifying that the second signature data is passed. Alternatively, the first security module 102 may send the second encrypted information or the second encrypted data to the first transmission module 101 for outgoing transmission for transmission to the terminal 30.

The glasses 20 directly sign the output information, thereby improving the security of the signature data itself, and even if the second encrypted data and the second signature data are simultaneously falsified, they can be verified at the conversion device 10, thereby ensuring the security of data transmission. The authenticity of the identity of sex and glasses 20;

The conversion device 10 obtains the second decrypted information by decrypting the second encrypted data to verify the second signature data, thereby improving the correctness of the verification, and even if the ciphertext and the signature are simultaneously tampered with, the verification can be performed, thereby ensuring the security of the data transmission. And the authenticity of the identity of the glasses 20.

(2) The second security module 202 of the glasses 20 can sign at least the second encrypted data to obtain the second signature data. The communication module 203 is further configured to: after the second security module 202 obtains the second signature data, the second signature Data is sent out;

At this time, the second transmission module 103 of the conversion device 10 further receives the second signature data when receiving the second encrypted data, and transmits the second signature data to the first security module 102; the first security module 102 receives the first After the second encrypted data and the second signed data are verified, the second signed data is verified, and after verifying that the second signed data is passed, one of the following operations may be performed:

The first security module 102 decrypts the second encrypted data, obtains the second decrypted information, and encrypts the second decrypted information to obtain the second encrypted information, and sends the second encrypted information to the first transmitting module for outgoing Or the first security module 102 sends the second encrypted data to the first transmission module for outgoing.

Since the terminal 30 and the conversion device 10 transmit the ciphertext of the data, the first security module 102 of the conversion device 10 is different or identical according to the encryption and decryption algorithm adopted by the terminal 30 and the glasses 20, and the first security module 102 can The second encrypted information or the second encrypted data is sent to the first transmission module 101 for outgoing transmission for transmission to the terminal 30.

The glasses 20 directly sign the second encrypted data to reduce the processing link and improve the data processing speed. The conversion device 10 directly verifies the second signature data according to the second encrypted data, thereby reducing the verification link. The data processing speed is high, and the second encrypted data is decrypted only after the verification signature is passed. Otherwise, if the verification signature fails, the second encrypted data is not decrypted to ensure security.

Of course, the button 20 can also be provided with a button. At this time, the second security module 202 receives an input command through the button. For example, the display module 201 displays the content as "whether to confirm the display information", and the user can press the button to send a confirmation command to inform the glasses 20 and/or the conversion device 10 to display. A display problem caused by software being prevented from being hijacked by hardware confirmation.

The speaker 20 can also be provided with a speaker. When transmitting audio data, the speaker can perform sound according to the information obtained by the second security module 202 to ensure normal use of the user.

Of course, the functions performed by the various modules in the present invention can be integrated on one chip. For example, the communication module 203 and the second security module 202 of the glasses 20 are integrated on one chip, and the modules are integrated on one chip, thereby saving space. The volume of the glasses 20 is reduced. The functions performed by the second security module 202 can also be split into several sub-modules to perform related functions, such as: encryption and decryption sub-module, signature sub-module, and the processing speed can be improved by this method; The second security module 202 can be a security chip; the first transmission module 101, the first security module 102, and the second transmission module 103 of the conversion device are integrated on one chip, and each module is integrated on one chip, thereby saving space and reducing Similarly, the function performed by the first security module 102 can be split into several sub-modules to perform related functions, such as: encryption and decryption sub-module, signature sub-module, in this way, the processing speed can be improved. The object of the present invention is achieved as long as the effects described in the present invention are achieved, and regardless of the module allocation method employed by the conversion device 10 and the glasses 20, it is within the scope of the present invention. Example 2

This embodiment is an improvement on the basis of the first embodiment. The structure of the display system is the same as that of the first embodiment, and is not described here. The difference between this embodiment and the first embodiment is only: The encrypted information is transmitted to the glasses 20 after the conversion device 10 decrypts and processes it.

The first transmission module 101 sends the received first encrypted information to the first security module 102, and the first security module 102 decrypts the first encrypted information to obtain the first decrypted information, and converts the first decrypted information into a preset. The first conversion information of the format is obtained by encrypting the first conversion information to obtain the first encrypted conversion data, and transmitting the first encrypted conversion data to the second transmission module 103 for outgoing.

It can be seen that the data is encrypted by the conversion device during the transmission process, which ensures the security of the data transmission.

Specifically, after decrypting the first encrypted information to obtain the first decrypted information, the first security module 102 determines whether the first decrypted information is information in a preset format, and if not the information in the preset format, the first decrypted information. Converting to the first conversion information in the preset format, encrypting the first conversion information to obtain the first encrypted conversion data, and adding the first addition The secret conversion data is sent to the second transmission module 103 for outgoing.

In the embodiment, the conversion device 10 converts the original text of the first encrypted information that is not sent in the preset format by the terminal 30, and converts the information into the preset format for matching with the glasses 20 supporting the preset format, so that the glasses can be This information is displayed correctly.

It should be noted that: the preset format supported by the glasses 20 of the present invention may be the codec format with the highest coding and decoding efficiency, for example: the preset format of the document supported by the glasses 20 is: TXT format; the preset of the picture supported by the glasses 20 The format is: ESC format, etc. Of course, it can also support the codec format with the highest codec efficiency of different types (for example, audio format, video format), which are not enumerated here. The preset format adopts the most efficient codec format for encoding and decoding, which can improve the speed of data processing of glasses 20.

Thus, in order to match the conversion device 10, when the conversion device 10 transmits the first encrypted conversion data to the second transmission module 103 for outgoing, the communication module 203 of the glasses 20 is used for the second transmission module 103 of the conversion device. Establishing a communication connection, and after establishing the communication connection, receiving the first encrypted conversion data;

The second security module 202 is configured to decrypt the first encrypted conversion data after the communication module 203 receives the first encrypted conversion data, to obtain first conversion information;

The second security module 202 is further configured to send a display instruction to the display module 201 after obtaining the first conversion information;

The display module 201 receives the display instruction and displays according to the display instruction and the first conversion information.

It can be seen that the glasses 20 of the present invention locally decrypt the encrypted data sent by the conversion device 10 through the second security module 202, further ensuring the security of data transmission, and maximally preventing remote attacks by hackers, thereby eliminating the adoption. The unsecured hidden danger generated by the other decryption device after being decrypted and sent to the glasses 20.

Of course, in this embodiment, the encryption and decryption algorithm used by the conversion device 10 should be the same as the encryption and decryption algorithm used by the glasses 20. The encryption and decryption algorithm used by the terminal 30 can be the same as or different from the encryption and decryption algorithm used by the glasses 20. In addition, in order to ensure the security of the data output by the glasses 20, the second security module 202 of the glasses 20 is further configured to receive an input instruction, generate information to be output according to the input instruction, and encrypt the information to be output to obtain second encrypted data; 203 is further configured to send the second encrypted data after the second security module 202 obtains the second encrypted data. It can be seen that the information output by the glasses 20 is encrypted by the second security module 202 of the glasses 20 and then transmitted through the communication module 203, so that the security of the data output by the glasses 20 can be ensured.

At this time, the second transmission module 103 of the conversion device 10 further receives the second encrypted data, and sends the second encrypted data to the first security module 102. After receiving the second encrypted data, the first security module 102 The second encrypted data is decrypted to obtain the second decrypted information. Since the ciphertext of the data is transmitted between the terminal 30 and the converting device 10, the converting device 10 further encrypts the second decrypted information to obtain the second encrypted information, and Two encrypted information is sent to the first The transmission module 101 performs the outgoing, and the terminal 30 receives the second encrypted information transmitted by the first transmission module 101. At this time, the algorithm for encrypting the second decrypted information should match the decryption algorithm of the terminal 30, and the encryption and decryption algorithm used by the terminal 30 can be different from the glasses 20. Of course, if the encryption and decryption algorithm adopted by the glasses 20 is the same as the encryption and decryption algorithm used by the terminal 30, the conversion module 10 can directly transmit the second encrypted data sent by the received glasses 20 to the terminal 30.

Transmitting the second decrypted information or directly transmitting the second encrypted data to the terminal by encrypting the second decrypted information

30, the security of the data transmission output by the glasses 20 can be ensured. In order to further improve the security of the data transmission and ensure the authenticity of the identity of the conversion device 10, the conversion device 10 can also sign the transmitted data, and the glasses 20 can also verify the signature of the conversion device 10, which can be one of the following ways. Authenticate:

(1) The first security module 102 may further sign the first encrypted conversion data, obtain the first signature data, and send the first signature data to the second transmission module 103 for outgoing;

The communication module 203 of the glasses 20 receives the first signature data when receiving the first encrypted conversion data. The second security module 202 is configured to verify the first signature data after the communication module 203 receives the first signature data, and After verifying that the first signature data is passed, the first encrypted conversion data is decrypted to obtain first conversion information.

(2) The first security module 102 may also sign the first conversion information, obtain the first signature data, and send the first signature data to the second transmission module 103 for outgoing;

The communication module 203 of the glasses 20 receives the first signature data when receiving the first encrypted conversion data. The second security module 202 is configured to decrypt the first encrypted conversion data after the communication module 203 receives the first signature data. Obtaining the first conversion information, and after obtaining the first conversion information, verifying the first signature data, and after verifying that the first signature data passes, transmitting the display instruction to the display module.

The decrypted information is obtained by decrypting the encrypted data, and the first signature data is verified according to the decrypted information, thereby improving the correctness of the verification, and even if the encrypted data and the signature are simultaneously tampered with, the verification can be performed, thereby ensuring the security of the data transmission. The authenticity of the identity of the sex and conversion device 10. In order to further improve the security of the data transmission and ensure the authenticity of the identity of the glasses 20, the glasses 20 can also sign the transmitted data, and the conversion device 10 can also verify the signature of the conversion device 20, which can be performed by one of the following methods. Authentication: (1) The second security module 202 of the glasses 20 may, after generating the information to be output, at least the output information is signed to obtain the second signature data; the communication module 203 is further configured to: after the second security module 202 obtains the second signature data, , the second signature data is sent out;

At this time, the second transmission module 103 of the conversion device 10 further receives the second signature data when receiving the second encrypted data, and transmits the second signature data to the first security module 102; the first security module 102 receives the first After encrypting the data and the second signature data, decrypting the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, performing one of the following operations:

The first security module 102 verifies the second signature data, and after verifying that the second signature data is passed, encrypts the second decryption information to obtain the second encrypted information, and sends the second encrypted information to the first transmission module. Send; or

The first security module 102 decrypts the second encrypted data, obtains the second decrypted information, and encrypts the second decrypted information to obtain the second encrypted information, and sends the second encrypted information to the first transmitting module for outgoing ; or The first security module 102 sends the second encrypted data to the first transmission module for outgoing.

The glasses 20 directly sign the second encrypted data, reduce the processing link, and improve the data processing speed. The conversion device 10 directly verifies the second signature data according to the second encrypted data, reduces the verification link, improves the data processing speed, and The second encrypted data is decrypted only after the verification signature is passed. Otherwise, if the verification signature fails, the second encrypted data is not decrypted to ensure security. Of course, the button 20 can also be provided with a button, which is the same as the embodiment 1, and will not be described again. The speaker 20 can also be provided with a speaker, which is also the same as the first embodiment, and will not be described again.

Of course, the functions performed by the various modules in the present invention can be integrated on one chip. For example, the communication module 203 and the second security module 202 of the glasses 20 are integrated on one chip, and the modules are integrated on one chip, thereby saving space. The size of the glasses 20 can be reduced. The functions performed by the second security module 202 can also be split into several modules to perform related functions, such as: encryption and decryption sub-module, signature sub-module, in this way, the processing speed can be improved; The security module 202 can be a security chip; the first transmission module 101, the first security module 102, and the second transmission module 103 of the conversion device are integrated on one chip, and each module is integrated on one chip, thereby saving space and reducing conversion. The volume of the device 10; similarly, the function performed by the first security module 102 can be split into several sub-modules to perform related functions, such as: an encryption and decryption sub-module, a signature sub-module, and the processing speed can be improved in this way. The object of the present invention is achieved as long as the effects described in the present invention are achieved, and regardless of the module allocation method employed by the conversion device 10 and the glasses 20, it is within the scope of the present invention. Any process or method description in the flowcharts or otherwise described herein may be understood to represent a module, segment or portion of code that includes one or more executable instructions for implementing the steps of a particular logical function or process. And the scope of the preferred embodiments of the invention includes additional implementations, in which the functions may be performed in a substantially simultaneous manner or in an opposite order depending on the functions involved, in the order shown or discussed. It will be understood by those skilled in the art to which the embodiments of the present invention pertain.

It should be understood that portions of the invention may be implemented in hardware, software, firmware or a combination thereof. In the above-described embodiments, multiple steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, it can be used in the art. Any one of the column technologies or a combination thereof: discrete logic circuits with logic gates for implementing logic functions on data signals, application specific integrated circuits with suitable combinational logic gates, programmable gate arrays (PGA) ), Field Programmable Gate Array (FPGA), etc.

One of ordinary skill in the art can understand that all or part of the steps carried by the method of implementing the above embodiments can be completed by a program to instruct related hardware, and the program can be stored in a computer readable storage medium. When executed, one or a combination of the steps of the method embodiments is included.

In addition, each functional unit in each embodiment of the present invention may be integrated into one processing module, or each unit may exist physically separately, or two or more units may be integrated into one module. The above integrated modules can be implemented in the form of hardware or in the form of software functional modules. The integrated modules, if implemented in the form of software functional modules and sold or used as separate products, may also be stored in a computer readable storage medium.

The above-mentioned storage medium may be a read only memory, a magnetic disk or an optical disk or the like.

In the description of the present specification, the description of the terms "one embodiment", "some embodiments", "example", "specific example", or "some examples" and the like means a specific feature described in connection with the embodiment or example. A structure, material or feature is included in at least one embodiment or example of the invention. In the present specification, the schematic representation of the above terms does not necessarily mean the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in a suitable manner in any one or more embodiments or examples.

Although the embodiments of the present invention have been shown and described, it is understood that the foregoing embodiments are illustrative and not restrictive Variations, modifications, alterations and variations of the above-described embodiments are possible within the scope of the invention. The scope of the invention is defined by the appended claims and their equivalents.

Claims

claims

1. A conversion device, characterized in that it includes: a first transmission module, a first safety module and a second transmission module;

The first transmission module is used to establish a communication connection, and after establishing the communication connection, receive the first encrypted information; the first security module is used to after the first transmission module receives the first encrypted information, Decrypt the first encrypted information to obtain the first decrypted information, encrypt the first decrypted information to obtain the first encrypted data, and send the first encrypted data to the second transmission module for outgoing transmission; or

After the first transmission module receives the first encrypted information, the first security module sends the first encrypted information to the second transmission module for outgoing transmission.

2. The conversion device according to claim 1, characterized in that,

The first security module is also configured to determine whether the first decrypted information is information in a preset format after decrypting the first encrypted information to obtain the first decrypted information, wherein, if it is information in a preset format , then perform one of the following operations:

Encrypt the first decrypted information to obtain the first encrypted data, and send the first encrypted data to the second transmission module for outgoing transmission;

Send the first encrypted information to the second transmission module for outgoing transmission.

3. The conversion device according to claim 1 or 2, characterized in that,

The second transmission module is also used to receive second encrypted data and send the second encrypted data to the first security module. After receiving the second encrypted data, the first security module performs the following operations one of:

Decrypt the second encrypted data to obtain second decrypted information, encrypt the second decrypted information to obtain second encrypted information, and send the second encrypted information to the first transmission module for processing. Outgoing;

Send the second encrypted data to the first transmission module for outgoing transmission.

4. The conversion device according to any one of claims 1 to 3, characterized in that,

The first security module is also configured to sign at least the first encrypted data, obtain the first signature data, and send the first signature data to the second transmission module for outgoing transmission; or

The first security module is also configured to sign at least the first encrypted information, obtain first signature data, and send the first signature data to the second transmission module for outgoing transmission; or

The first security module is also configured to sign at least the first decrypted information, obtain first signature data, and send the first signature data to the second transmission module for outgoing transmission.

5. The conversion device according to claim 3, characterized in that, When receiving the second encrypted data, the second transmission module of the conversion device is also used to receive second signature data and send the second signature data to the first security module;

After receiving the second encrypted data and the second signature data, the first security module performs one of the following operations:

Verify the second signature data, and after verifying that the second signature data passes, decrypt the second encrypted data, obtain the second decrypted information, and encrypt the second decrypted information , obtain the second encrypted information, and send the second encrypted information to the first transmission module for outgoing transmission;

Verify the second signature data, and after verifying that the second signature data passes, send the second encrypted data to the first transmission module for outgoing transmission;

Decrypt the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, verify the second signature data, and after verifying that the second signature data passes , encrypt the second decrypted information, obtain the second encrypted information, and send the second encrypted information to the first transmission module for outgoing transmission;

Decrypt the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, verify the second signature data, and after verifying that the second signature data passes , sending the second encrypted data to the first transmission module for outgoing transmission.

6. The conversion device according to any one of claims 1 to 5, characterized in that,

The first transmission module performs data transmission in one of the following ways:

Audio transmission method, USB transmission method, serial port transmission method, NFC transmission method, Bluetooth transmission method, infrared transmission method, optical transmission method, WIFI transmission method, GPRS transmission method, 3G transmission method and GSM transmission method; the second transmission module Data is transferred via one of the following methods:

Audio transmission method, USB transmission method, serial port transmission method, NFC transmission method, Bluetooth transmission method, infrared transmission method, optical transmission method, WIFI transmission method, GPRS transmission method, 3G transmission method and GSM transmission method.

7. A display system, characterized in that it includes glasses and the conversion device according to any one of the above claims 1 to 6;

The glasses include a glasses body, a display module arranged on the glasses body, a second security module and a communication module; the communication module is used to establish a communication connection with the second transmission module of the conversion device, and after establishing the communication connection , receiving the first encrypted data or the first encrypted information;

The second security module is configured to decrypt the first encrypted data or the first encrypted information after the communication module receives the first encrypted data or the first encrypted information, and obtain the first decrypted information; the second security module is also configured to send a display instruction to the display module after obtaining the first decrypted information; The display module is configured to receive the display instruction and display according to the display instruction and the first decrypted information.

8. The display system according to claim 7, characterized in that,

The second security module is also used to receive input instructions, generate information to be output according to the input instructions, encrypt the information to be output, and obtain the second encrypted data;

The communication module is also configured to send the second encrypted data out after the second security module obtains the second encrypted data.

9. The display system according to claim 7 or 8, characterized in that,

When receiving the first encrypted data or the first encrypted information, the communication module also receives the first signature data;

The second security module is configured to perform the following operations to verify the first signature data after the communication module receives the first signature data, and after verifying that the first signature data passes, Decrypt the first encrypted data or the first encrypted information to obtain the first decrypted information;

Decrypt the first encrypted data or the first encrypted information, obtain the first decrypted information, and after obtaining the first decrypted information, verify the first signature data, and after verifying the After the first signature data passes, a display instruction is sent to the display module.

10. The display system according to claim 8, characterized in that,

The second security module is also configured to at least sign the information to be output and obtain second signature data after generating the information to be output; or the second security module is also configured to at least sign the second encrypted data. Sign and obtain the second signature data;

The communication module is also configured to send the second signature data out after the second security module obtains the second signature data.

11. The display system according to any one of claims 7 to 10, characterized in that buttons are also provided on the glasses body, and the second security module receives input instructions through the buttons.

12. The display system according to any one of claims 7 to 11, characterized in that the communication module performs data transmission with the second transmission module in one of the following ways:

13. The display system according to any one of claims 7 to 12, further comprising: a terminal; the terminal establishes a communication connection with the first transmission module of the conversion device, and after establishing the communication connection, general place The first encrypted information is sent to the first transmission module.

14. The display system according to claim 13, characterized in that,

The terminal also receives the second encrypted information or the second encrypted data transmitted from the first transmission module.

15. A conversion device, characterized in that it includes: a first transmission module, a first safety module and a second transmission module;

The first transmission module is used to establish a communication connection, and after establishing the communication connection, receive the first encrypted information; the first security module is used to after the first transmission module receives the first encrypted information, Decrypt the first encrypted information to obtain first decrypted information, convert the first decrypted information into first conversion information in a preset format, encrypt the first conversion information to obtain first encrypted conversion data, and Send the first encrypted conversion data to the second transmission module for outgoing transmission.

16. The conversion device according to claim 15, characterized in that,

The first security module is further configured to, after decrypting the first encrypted information to obtain the first decrypted information, determine whether the first decrypted information is information in a preset format, wherein, if it is not in a preset format information, the first decrypted information is converted into the first conversion information in the preset format.

17. The conversion device according to claim 15 or 16, characterized in that,

The second transmission module is also configured to receive second encrypted data and send the second encrypted data to the first security module. After receiving the second encrypted data, the first security module executes Do one of the following:

18. The conversion device according to any one of claims 15 to 17, characterized in that,

The first security module also signs at least the first encrypted conversion data, obtains the first signature data, and sends the first signature data to the second transmission module for outgoing transmission; or

The first security module also signs at least the first conversion information, obtains first signature data, and sends the first signature data to the second transmission module for outgoing transmission.

19. The conversion device according to claim 17, characterized in that,

When receiving the second encrypted data, the second transmission module is also used to receive second signature data and send the second signature data to the first security module;

After receiving the second encrypted data and the second signature data, the first security module performs one of the following operations: Verify the second signature data, and after verifying that the second signature data passes, decrypt the second encrypted data, obtain the second decrypted information, and encrypt the second decrypted information , obtain the second encrypted information, and send the second encrypted information to the first transmission module for outgoing transmission;

Decrypt the second encrypted data to obtain the second decrypted information, and after obtaining the second decrypted information, verify the second signature data, and after verifying that the second signature data passes, Encrypt the second decrypted information to obtain the second encrypted information, and send the second encrypted information to the first transmission module for outgoing transmission;

20. The conversion device according to any one of claims 15 to 19, characterized in that,

Audio transmission method, USB transmission method, serial port transmission method, NFC transmission method, Bluetooth transmission method, infrared transmission method, optical transmission method, WIFI transmission method, GPRS transmission method, 3G transmission method and or GSM transmission method.

21. A display system, characterized by comprising glasses and the conversion device according to any one of claims 15 to 20;

The glasses include a glasses body, a display module arranged on the glasses body, a second security module and a communication module;

The communication module is used to establish a communication connection with the second transmission module of the conversion device, and after establishing the communication connection, receive the first encrypted conversion data;

The second security module is configured to decrypt the first encrypted conversion data after the communication module receives the first encrypted conversion data, and obtain the first conversion information;

The second security module is also configured to send a display instruction to the display module after obtaining the first conversion information; the display module is configured to receive the display instruction, according to the display instruction and the first conversion information is displayed.

22. The display system according to claim 21, characterized in that,

23. The display system according to claim 21 or 22, characterized in that,

When receiving the first encrypted conversion data, the communication module also receives first signature data;

The second security module is configured to perform the following operations to verify the first signature data after the communication module receives the first signature data. After verifying that the first signature data passes, verify the first signature data. Decrypt the first encrypted conversion data to obtain the first conversion information;

Decrypt the first encrypted conversion data to obtain the first conversion information, and after obtaining the first conversion information, verify the first signature data. After verifying that the first signature data passes , sending display instructions to the display module.

24. The display system according to claim 22, characterized in that,

The second security module is further configured to, after generating the information to be output, at least sign the information to be output and obtain second signature data; or the second security module is further configured to at least sign the second signature data. Encrypt the data for signature and obtain the second signature data;

25. The display system according to any one of claims 21 to 24, wherein the glasses body is further provided with buttons, and the second security module receives input instructions through the buttons.

26. The display system according to any one of claims 21 to 25, characterized in that the communication module transmits data with the second transmission module in one of the following ways:

27. The display system according to any one of claims 21 to 26, further comprising: a terminal; the terminal establishes a communication connection with the first transmission module of the conversion device, and after establishing the communication connection, Send the first encrypted information to the first transmission module.

28. The display system according to claim 27, characterized in that,