CN115100766A - Information processing method, system, equipment and storage medium based on intelligent lock - Google Patents

Abstract

The application relates to an information processing method, a system, equipment and a storage medium based on an intelligent lock, relating to the technical field of intelligent locks, wherein the information processing method comprises the following steps: the method comprises the steps of detecting plaintext password information of the intelligent lock, carrying out encryption conversion processing according to the plaintext password information to obtain password ciphertext information, carrying out identification verification according to ciphertext optical signals corresponding to the password ciphertext information to obtain an identification verification result corresponding to the plaintext password information, and therefore the safety problem caused by the fact that an unlocking mode of primary processing is adopted in an unlocking mode of the existing intelligent lock is solved, and the safety and reliability of the intelligent lock are improved.

Description

Information processing method, system, equipment and storage medium based on intelligent lock

Technical Field

The present application relates to the field of smart locks, and in particular, to a method, a system, a device, and a storage medium for processing information based on a smart lock.

Background

Along with the rapid development of society progress science and technology and the increasing improvement of people's standard of living, people's eye curtain is gradually reflected to intelligent house, and the intelligent lock in the middle of the intelligent house also receives liking and recognition of vast names.

Compared with the traditional mechanical door lock, the intelligent door lock is more intelligent and informationized, and is sufficient in science and technology sense. At present, the unlocking mode of the intelligent door lock mainly adopts touch keyboard unlocking, mechanical unlocking and fingerprint unlocking, but the unlocking modes are all in primary processing, so that the unlocking is easily unlocked and broken by illegal molecules by utilizing the unlocking characteristic, the door lock is forced to be unlocked, the theft phenomenon is caused, and the potential safety hazard is existed.

Disclosure of Invention

In view of this, the present application provides an information processing method, system, device and storage medium based on an intelligent lock, so as to solve the security problem caused by the unlocking manner of the existing intelligent lock adopting the primary processing unlocking manner, so that the intelligent lock is safer and more reliable.

In a first aspect, the present application provides an information processing method based on an intelligent lock, including:

detecting plaintext password information of the intelligent lock;

carrying out encryption conversion processing according to the plaintext password information to obtain password ciphertext information;

and performing identification verification according to the ciphertext optical signal corresponding to the cipher and ciphertext information to obtain an identification verification result corresponding to the plaintext cipher information.

Optionally, performing identification verification according to the ciphertext optical signal corresponding to the cipher text information to obtain an identification verification result corresponding to the plaintext cipher information, where the identification verification result includes:

generating a cipher text light signal through a light source module preset in the intelligent lock based on the cipher text information;

converting the ciphertext optical signal into a target digital signal;

if the target digital signal is matched with unlocking password information correspondingly preset by the intelligent lock, determining a verification passing result as the identification and verification result;

and if the target digital signal is not matched with the corresponding preset unlocking password information of the intelligent lock, determining a verification failure result as the identification verification result.

Optionally, the generating the ciphertext optical signal by a preset light source module in the smart lock based on the password ciphertext information includes:

determining the light source color corresponding to each password parameter in the password ciphertext information;

and calling a light source module corresponding to the light source color for each password parameter, and transmitting an optical signal corresponding to the password parameter to serve as the ciphertext optical signal.

Optionally, the performing encryption conversion processing according to the plaintext cipher information to obtain cipher text information includes:

transmitting the plaintext password information to a preset light-locking annunciator module;

converting the plaintext password information into the ciphertext optical signal information through the optical lock annunciator module;

and determining the cipher text optical signal information as the cipher text information.

Optionally, the determining the light source color corresponding to each cipher parameter in the cipher text information includes:

for each password parameter in the password ciphertext information, determining a color parameter value matched with the password parameter;

and determining the preset color corresponding to the color parameter value as the light source color corresponding to the password parameter.

Optionally, the detecting plaintext password information of the intelligent lock includes:

monitoring a key touch module of the intelligent lock;

and when the key touch module detects that the user inputs password information, determining the password information input by the user as the plaintext password information.

Optionally, after obtaining the identification and verification result corresponding to the plaintext password information, the method further includes:

when the identification verification result is a verification passing result, an unlocking instruction is generated based on the verification passing result;

sending the unlocking instruction to a main board driving motor module of the intelligent lock;

the unlocking instruction is subjected to safety verification through the mainboard driving motor module, and a safety verification result is obtained;

if the safety verification result is a safety verification success result, controlling the intelligent lock to be unlocked based on the safety verification success result;

if the safety verification result is a safety verification failure result, determining the verification failure times based on the safety verification failure result;

if the verification failure times reach a preset failure time threshold value, outputting early warning information;

and if the verification failure times are lower than a preset failure time threshold value, outputting failure reminding information.

Optionally, after obtaining the identification and verification result corresponding to the plaintext password information, the method further includes:

when the identification verification result is a verification failure result, generating an early warning instruction based on the verification failure result;

and sending early warning information to a buzzer of the intelligent lock and a target terminal corresponding to the intelligent lock based on the early warning instruction.

In a second aspect, the present application provides an information processing system based on a smart lock, including:

the plaintext password information detection module is used for detecting plaintext password information of the intelligent lock;

the encryption conversion processing module is used for carrying out encryption conversion processing according to the plaintext password information to obtain password ciphertext information;

and the ciphertext optical signal identification and verification module is used for carrying out identification and verification according to the ciphertext optical signal corresponding to the cipher ciphertext information to obtain an identification and verification result corresponding to the plaintext cipher information.

In a third aspect, the present application provides an intelligent lock device, including a processor, a communication interface, a memory and a communication bus, where the processor, the communication interface, and the memory complete mutual communication through the communication bus;

a memory for storing a computer program;

the processor is used for realizing the steps of the information processing method based on the intelligent lock according to any embodiment of the first aspect when executing the program stored in the memory.

In a fourth aspect, the present application provides a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the steps of the intelligent lock-based information processing method according to any one of the embodiments of the first aspect.

In summary, according to the method and the device, the plaintext password information of the intelligent lock is detected, the encryption conversion processing is performed according to the plaintext password information to obtain the password ciphertext information, the identification verification is performed according to the ciphertext optical signal corresponding to the password ciphertext information to obtain the identification verification result corresponding to the plaintext password information, so that the safety problem caused by the fact that the unlocking mode of the existing intelligent lock adopts the primary processing unlocking mode is solved, and the safety and the reliability of the intelligent lock are improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

Fig. 1 is a schematic flowchart of an information processing method based on an intelligent lock according to an embodiment of the present application;

FIG. 2 is a flowchart illustrating steps of a method for processing information based on an intelligent lock according to an alternative embodiment of the present application;

FIG. 3 is a flow chart of an optoelectronic cipher encryption transmission data provided by the present application;

FIG. 4 is a block diagram of an information processing system based on an intelligent lock according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an intelligent lock device provided in an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the related technology, the intelligent door locks are primary visible door locks, only primary processing is carried out on unlocking passwords input by users in the door locks, unlocking password recognition is carried out on primary password signals obtained through the primary processing, and the door locks are controlled to drive a motor to unlock the door locks after the unlocking passwords are successfully recognized, so that some lawbreakers can unlock and crack the door locks by utilizing the visible unlocking characteristics of the lawbreakers, so that the door locks are forced to be unlocked, and the theft phenomenon is caused. Therefore, the existing conventional unlocking mode of simply adopting an electric signal to control the unlocking of the intelligent lock motor has great potential safety hazard.

In view of the above, the present application provides an information processing method based on an intelligent lock, wherein when the intelligent lock detects plaintext password information, the plaintext password information is encrypted according to the plaintext password information, the plaintext password information is converted into a ciphertext optical signal password to serve as password ciphertext information, a ciphertext optical signal corresponding to the password ciphertext information is determined, and identification verification is performed according to the ciphertext optical signal to obtain an identification verification result corresponding to the plaintext password information.

For the purpose of facilitating understanding of the embodiments of the present application, the following description will be further explained with reference to the accompanying drawings and specific embodiments, which are not intended to limit the embodiments of the present application.

Fig. 1 is a schematic flowchart of an information processing method based on an intelligent lock according to an embodiment of the present application. As shown in fig. 1, the information processing method based on the smart lock provided by the present application may specifically include the following steps:

and step 110, detecting the plaintext password information of the intelligent lock.

Specifically, the intelligence lock can be the intelligence lock, if can be the intelligence lock of installing on the door, this application embodiment does not do the restriction to the intelligence lock. The plaintext password information can be a plaintext password input by a user aiming at the intelligent lock, the plaintext password can be used as an unlocking password for unlocking the intelligent lock, and the plaintext password information is not limited in the embodiment of the application.

It should be noted that, the intelligent lock in the embodiment of the present application may be an intelligent door lock of NB-IOT model, which is not limited in the embodiment of the present application.

And step 120, performing encryption conversion processing according to the plaintext password information to obtain password ciphertext information.

Specifically, after plaintext password information of the intelligent lock is detected, encryption conversion processing can be performed according to the plaintext password information to obtain password ciphertext information. For example, an encryption algorithm may be preset, after the plaintext cipher information is detected, the plaintext cipher information may be specifically encrypted by a symmetric encryption algorithm to obtain a ciphertext optical signal password corresponding to the plaintext cipher information, which is used as the cipher ciphertext information, and then identification and verification may be performed according to the cipher ciphertext information, so as to encrypt the unlock password input by the user by using the optical information, and then identification and verification may be performed according to the ciphertext optical signal corresponding to the cipher ciphertext information, that is, step 130 is performed.

And step 130, performing identification verification according to the ciphertext optical signal corresponding to the cipher ciphertext information to obtain an identification verification result corresponding to the plaintext cipher information.

Specifically, the ciphertext optical signal may be an optical signal corresponding to the cipher ciphertext information, which is not limited in this embodiment of the present application, and the identification verification result may include a verification pass result and a verification fail result. Specifically, after the cipher text information is determined, the cipher text optical signal corresponding to the cipher text information can be determined, and then the identification and verification can be performed according to the cipher text optical signal to determine whether the plaintext cipher information is the correct cipher required for unlocking the intelligent lock. If the plaintext password information is determined to be the correct password, the verification passing result can be determined to be the identification verification result corresponding to the plaintext password information, if the plaintext password information is determined not to be the correct password, the verification failure result can be determined to be the identification verification result corresponding to the plaintext password information, the plaintext password input by a user is converted into the optical signal password, and the intangible optical signal password is utilized for unlocking and verification.

For example, a user may preset an initial password for the smart lock, the smart lock may encrypt the initial password by using a symmetric encryption algorithm based on the initial password to obtain an encrypted initial password, and then the encrypted initial password may be stored in the database to serve as the original data password in the database. After plaintext password information of the intelligent lock is detected and a ciphertext optical signal corresponding to the plaintext password information is determined, the ciphertext optical signal can be converted into a digital password, the digital password and an initial password can be identified and verified, if so, whether the digital password is matched with the initial password is determined, the plaintext password information is determined to be a correct password under the condition that the digital password is matched with the initial password, and then, a verification passing result can be determined to be an identification and verification result corresponding to the plaintext password information; and under the condition that the digital password is not matched with the initial password, determining that the plaintext password information is not a correct password, then determining a verification failure result as an identification verification result corresponding to the plaintext password information, and comparing and verifying the encrypted password of the photoelectric password with the initial data password in the database to realize a safer and more reliable internal encryption mode.

Therefore, when plaintext password information of the intelligent lock is detected, encryption conversion processing is carried out according to the plaintext password information to obtain password ciphertext information, then ciphertext optical signals corresponding to the password ciphertext information can be determined, identification verification is carried out according to the ciphertext optical signals to obtain identification verification results corresponding to the plaintext password information, and therefore the safety problem caused by the fact that an unlocking mode of primary processing is adopted in an unlocking mode of the existing intelligent lock is solved, and the intelligent lock is safe and reliable.

Referring to fig. 2, a schematic flowchart illustrating steps of an information processing method based on an intelligent lock according to an alternative embodiment of the present application is shown. The information processing method based on the intelligent lock may specifically include the following steps:

and step 210, detecting the plaintext password information of the intelligent lock.

In a specific implementation, the intelligent lock in the embodiment of the present application may be an intelligent door lock, and the intelligent door lock may include two parts, namely an outer lock and an inner lock, and both the outer lock and the inner lock may include a plurality of modules. For example, referring to fig. 3, the intelligent door lock may specifically include a plurality of modules, such as a door lock key touch module, a door lock input identification recording module, a door lock photoelectric annunciator module, a door lock data protocol conversion module, a door lock control center module, a Light-Emitting Diode (LED) Light source, a database module, a door lock driving module, and a door lock danger warning module, which is not specifically limited in this example.

When a user unlocks, an unlocking password can be input through a door lock key touch module preset in the intelligent lock; the unlocking password may be a numeric password, such as a 6-12-bit digital plaintext password for unlocking the door lock, or may be another type of password, such as a fingerprint password, a character string, etc., and the present example does not limit the type of the unlocking password. The intelligent door lock can detect whether an unlocking password input by a user is received in real time through the door lock key touch module, and can transmit the unlocking password as plaintext password information to the door lock input identification recording module when the unlocking password is detected, so that identification verification processing can be carried out on a plurality of modules such as a door lock photoelectric annunciator module, an LED light source, a door lock data protocol conversion module, a door lock control center module and a database module in the intelligent door lock according to the plaintext password information, an identification verification result corresponding to the unlocking password is obtained, whether the door lock is unlocked can be determined according to the identification verification result, double protection is achieved, and the door lock unlocking safety factor grade is enhanced.

In an optional embodiment, the detecting the plaintext password information of the smart lock in the embodiment of the present application may specifically include: monitoring a key touch module of the intelligent lock; and when the key touch module detects that the user inputs password information, determining the password information input by the user as the plaintext password information.

It should be noted that, the key touch module of the intelligent lock may be a door lock key touch module of an intelligent door lock, which is not limited in the embodiment of the present application.

Step 220, transmitting the plaintext password information to a preset light locking annunciator module.

Specifically, the light-locking annunciator module can be used as a preset photoelectric password converter in the intelligent lock, and the photoelectric password converter can be used for receiving plaintext password information, encrypting the plaintext password information and converting the plaintext password information into ciphertext light signal information.

As an example, referring to fig. 3, after detecting a digital password, a door lock input identification recording module in the intelligent door lock may identify and record the digital password, for example, may identify each numerical value included in the digital password, and may record the digital password, and then may transmit the digital password to a door lock photoelectric annunciator module, where the door lock photoelectric annunciator module may serve as a door lock main board photoelectric data converter module, and is configured to implement a light signal password that converts the digital password into a ciphertext. It should be noted that the door lock photoelectric annunciator module in this example can be used as a door lock photoelectric annunciator module, and this example does not limit this.

Step 230, converting the plaintext password information into the ciphertext optical signal information through the optical lock annunciator module.

Specifically, in the embodiment of the present application, plaintext password information may be converted into ciphertext optical signal information through the optical lock annunciator module. Specifically, the light-lock annunciator module may preset an encryption algorithm, and after receiving plaintext password information, may encrypt the plaintext password information by using the encryption algorithm, and convert the plaintext password information into ciphertext optical signal information.

In a specific implementation, the internal lock and the external lock of the intelligent door lock can be preset with a symmetric encryption algorithm. For example, referring to fig. 3, a door lock photoelectric annunciator module in the outer lock and a door lock data protocol conversion module in the inner lock may be respectively configured with a symmetric encryption algorithm, after the door lock photoelectric annunciator module acquires plaintext cipher information, the plaintext cipher information may be converted into ciphertext optical signal information through a built-in symmetric encryption algorithm, and then, after the door lock data protocol conversion module in the inner lock acquires ciphertext optical signal information, the ciphertext optical signal information may be converted into a digital signal through the built-in symmetric encryption algorithm, so that an optical signal cipher that encrypts a plaintext digital cipher into a ciphertext is realized, and an optical signal cipher that encrypts the ciphertext may be converted into a digital cipher.

Step 240, determining the ciphertext optical signal information as the password ciphertext information.

Specifically, after determining the ciphertext optical signal information, the embodiment of the present application may determine the ciphertext optical signal information as the cipher ciphertext information, and then may determine the ciphertext optical signal based on the cipher ciphertext information, that is, execute step 250.

And 250, generating a cipher text optical signal through a preset light source module in the intelligent lock based on the cipher text information.

Specifically, a light source module can be arranged in the intelligent lock, the light source module can be an LED light source, and certainly, other modules capable of generating light sources can be also arranged in the intelligent lock, and the embodiment of the application does not limit the light source module. Specifically, after the cipher text information is determined, the light signal corresponding to the cipher text information may be matched by the light source module based on the cipher text information, and then the cipher text light signal may be generated by the light source module.

For example, it may be a light source that emits light matching the cipher text information through an LED light source.

Optionally, the generating of the ciphertext optical signal through the preset light source module in the intelligent lock based on the cipher ciphertext information may specifically include the following substeps:

in sub-step 2501, the light source color corresponding to each password parameter in the password ciphertext information is determined.

Specifically, the password parameter may be a number, a character, or the like, and the embodiment of the present application does not limit the password parameter. Specifically, the color of the corresponding light signal may be set in advance for each cipher parameter as the light source color, after the cipher text information is determined, the light source color corresponding to each cipher parameter in the cipher text information may be determined based on the cipher text information, and then the light signal of the corresponding color may be generated according to the light source color.

In specific implementation, the light source colors corresponding to different password parameters may be different, so that a light signal of the light source color corresponding to the password parameter may be emitted by the light source module for different password parameters in the following, and a door lock data protocol conversion module preset in the intelligent lock may identify the light signal according to the light signal of different light source colors, so as to determine the password parameter corresponding to the received light signal, and convert the light signal password into a digital signal password.

For example, in the case where the plaintext cipher information is composed of numbers, for numbers 0 to 9, different light source colors may be specified for each number, that is, each number may have a unique corresponding light source color, and the light source colors corresponding to different numbers may be different, and this example does not limit the light source colors corresponding to the numbers. Taking the plaintext password corresponding to the plaintext password information as 220323 for example, the light source color corresponding to each number in the plaintext password can be specified in advance, after the password ciphertext information is determined, the light source color corresponding to each password parameter in the password ciphertext information can be determined, and then, for each password parameter, the light source module corresponding to the light source color can be called to emit the light signal corresponding to the password parameter.

In an optional embodiment, determining the light source color corresponding to each cipher parameter in the cipher text information may specifically include: for each password parameter in the password ciphertext information, determining a color parameter value matched with the password parameter; and determining the preset color corresponding to the color parameter value as the light source color corresponding to the password parameter. Specifically, the color parameter may include any number from 0 to 9, and may also include other characters, and each color parameter value may have a corresponding preset color, which is not limited in the embodiment of the present application. The color parameter value matched with the password parameter can be determined for each password parameter in the password ciphertext information, and then the preset color corresponding to the color parameter value can be determined as the light source color corresponding to the password parameter.

Further, as an example, referring to fig. 3, after determining the encrypted optical signal (i.e., the cipher text information), the light signal cipher may be matched through the LED light source, for example, for each cipher parameter in the encrypted optical signal, the light signal corresponding to the cipher parameter may be matched through the LED light source, and then the light signal cipher may be transmitted to the door lock data protocol conversion module through the LED light source, for example, the cipher text optical signal may be transmitted to the door lock data protocol conversion module through the LED light source.

In sub-step 2502, for each cryptographic parameter, the light source module corresponding to the light source color is called, and the light signal corresponding to the cryptographic parameter is transmitted as the ciphertext light signal.

Specifically, there may be a corresponding relationship between the light source color and the light source module, for example, each light source color may correspond to one light source module, so as to emit an optical signal corresponding to the light source color through the light source module, or there may not be a corresponding relationship between the light source color and the light source module, for example, it may be that the same light source module emits optical signals of different light source colors, which is not limited in this embodiment of the application. Specifically, after the light source color corresponding to each cryptographic parameter is determined, the light source module corresponding to the light source color of the cryptographic parameter may be determined for each cryptographic parameter, and then the light signal corresponding to the cryptographic parameter may be transmitted by the light source module to serve as the ciphertext light signal.

Step 260, converting the ciphertext optical signal into a target digital signal.

Specifically, after the ciphertext optical signal is generated, the ciphertext optical signal may be converted into the target digital signal.

For example, lock light signal receiving module and lock data protocol conversion module can be preset to intelligent lock, and wherein, lock light signal receiving module can be photosensitive receiver, can receive the ciphertext light signal through photosensitive receiver, and photosensitive receiver can convey the data protocol conversion module on the inside mainboard of lock with the ciphertext light signal received afterwards. Specifically, referring to fig. 3, the door lock data protocol conversion module may receive the ciphertext optical signal transmitted by the photosensitive receiver, identify the ciphertext optical signal, and convert the ciphertext optical signal into a signal password as a target digital signal.

In specific implementation, the door lock data protocol conversion module may preset numbers corresponding to light signals of different light source colors, and after receiving a ciphertext light signal transmitted by the photosensitive receiver, may convert the ciphertext light signal into a target digital signal according to the light source color corresponding to the ciphertext light signal.

And 270, if the target digital signal is matched with preset unlocking password information corresponding to the intelligent lock, determining a verification passing result as the identification and verification result.

Specifically, after the target digital signal is determined, the target digital signal may be matched with preset unlocking password information corresponding to the smart lock to determine whether the target digital signal is matched with the unlocking password information, and if it is determined that the target digital signal is matched with the unlocking password information, the verification pass result may be determined as the identification verification result.

For example, referring to fig. 3, after the ciphertext optical signal of the door lock data protocol conversion module is converted into the target digital signal, the target digital signal may be transmitted to the door lock control center module, the target digital signal can be encrypted information password, the door lock control center module can analyze the original password protocol of the target digital signal and send the target digital signal to the database module under the condition of correct analysis, the encrypted information password can be transmitted to the database module, the database module can compare and verify the encrypted signal password with password information stored in the database (namely, original data password stored in the database) to obtain a comparison and verification result, and feed back the comparison and verification result to the door lock control center module, the password information stored in the database may be unlocking password information preset corresponding to the smart lock. After receiving the comparison and verification result, the door lock control center module can determine the identification and verification result according to the comparison and verification result, for example, can determine that the information password encrypted as the comparison and verification result is matched with the password information stored in the database under the condition that the password verified as the correct password, and determine that the information password encrypted as the comparison and verification result is not matched with the password information stored in the database under the condition that the password verified as the incorrect password. Specifically, if the comparison verification result is that the encrypted information password is matched with the password information stored in the database, that is, the target digital signal is matched with the unlocking password information, the verification passing result can be determined as the identification verification result, if the comparison verification result is that the encrypted information password is not matched with the password information stored in the database, that is, the target digital signal is not matched with the unlocking password information, the verification failure result can be determined as the identification verification result, when the intelligent lock is unlocked, the password encryption is performed by using the optical signal, that is, the photoelectric password encryption is adopted, so as to further improve the safety and reliability of the intelligent door lock through data conversion, the ciphertext optical signal is obtained through further encryption conversion among the initial door lock touch digital password, the modules and the data, the ciphertext optical signal is converted into the target digital signal, and the target digital signal is specially identified through the analytic protocol, and then the target digital signal is correctly matched with the password information stored in the database to obtain an unlocking instruction, and then the door lock is unlocked, namely the conventional unlocking mode of controlling the unlocking of the motor by a simple electric signal in the traditional sense is distinguished, and the invisible optical password is matched with the data in the database in the unlocking process, so that the safety coefficient grade of the door lock is greatly improved.

Further, referring to fig. 3, after determining that the verified password result is the correct password, the door lock control center module may issue a verified correct information instruction to the drive motor module (i.e., the door lock driver module) of the door lock main board, and after the door lock main board motor drive module recognizes the correct instruction, the door lock motor may be controlled to unlock the door lock, and after the unlocking is successful, the door lock control center module may recover to the original state, wait for the next instruction to unlock the door lock, and when the NB-IOT door lock is unlocked, encrypt the password by using the optical information, transmit the encrypted data to the door lock for decryption, verify that the decrypted password is correct, and then execute the unlocking instruction, thereby unlocking the intelligent lock, and making the intelligent lock more safe and reliable.

Furthermore, after receiving the information instruction sent by the door lock control center module, the door lock driver module can also perform security verification on the information instruction to obtain a security verification result, and determine whether the security verification passes based on the security verification result, so as to determine whether to control the unlocking of the door lock motor. Specifically, after the safety verification result is determined to be a safety verification success result, the door lock motor can be controlled to be unlocked based on the safety verification success result, after the safety verification result is determined to be a safety verification failure result, the number of safety failures can be recorded, the number of safety failures can be compared with a preset safety failure number threshold value, whether the number of safety failures reaches a preset failure number threshold value or not is determined, and when the number of safety failures is lower than the preset failure number threshold value, failure reminding information is output through a touch panel screen of the intelligent door lock, or failure reminding information is sent to a terminal Application (Application) of a linked user owner to remind the user owner; when the safety failure times reach the preset failure time threshold value, outputting early warning information, if the early warning information can be sent through a preset buzzer of the intelligent door lock, triggering the buzzer to give an alarm, or sending an early warning instruction with a terminal App of a linkage householder to inform a user of the current intelligent door lock.

In an optional embodiment, after obtaining the identification verification result corresponding to the plaintext password information, the embodiment of the present application may further include: when the identification verification result is a verification passing result, an unlocking instruction is generated based on the verification passing result; sending the unlocking instruction to a main board driving motor module of the intelligent lock; the unlocking instruction is subjected to safety verification through the mainboard driving motor module, and a safety verification result is obtained; if the safety verification result is a safety verification success result, controlling the intelligent lock to be unlocked based on the safety verification success result; if the safety verification result is a safety verification failure result, determining the verification failure times based on the safety verification failure result; if the verification failure times reach a preset failure time threshold value, outputting early warning information; if the verification failure times are lower than the preset failure time threshold value, failure reminding information is output, wherein the main board driving motor module can be a door lock driver module, and the embodiment of the application does not limit the door lock driving module.

Step 280, if the target digital signal is not matched with the preset unlocking password information corresponding to the intelligent lock, determining a verification failure result as the identification verification result.

Specifically, when it is determined that the target digital signal is not matched with the preset unlocking password information corresponding to the intelligent lock, the verification failure result can be determined as the identification verification result.

In specific implementation, after the identification verification result is determined to be the verification failure result, a buzzer in the intelligent door lock can give an alarm, and the intelligent door lock can send early warning information to a terminal App of a linked householder to remind the householder that potential safety hazards can exist in the current intelligent door lock and whether remote locking needs to be performed on the intelligent door lock.

For example, referring to fig. 3, after the door lock control center module determines that the verified password is the wrong password, can send a message instruction for checking errors to a danger early warning and broadcasting module (namely a danger early warning module) of the door lock mainboard, after the danger early warning and broadcasting module receives and identifies the message instruction, can respectively send information instructions to the buzzer and the linked householder terminal App, after the buzzer receives the information instructions, can buzz to alarm, the terminal App can remotely control the starting of the door lock camera after receiving the information instruction, the image information shot by the door lock camera can be displayed to the householder in real time, the householder can check the specific conditions of the periphery of the door lock through the intelligent door lock camera linked with the mobile phone terminal App, and when the situation that the password is illegally cracked is found, the door lock is remotely locked again, for example, the intelligent door lock can be remotely controlled to be locked.

In an optional embodiment, after obtaining the identification verification result corresponding to the plaintext password information, the embodiment of the present application may further include: when the identification verification result is a verification failure result, generating an early warning instruction based on the verification failure result; and sending early warning information to a buzzer of the intelligent lock and a target terminal corresponding to the intelligent lock based on the early warning instruction.

To sum up, the embodiment of the present application transmits the plaintext password information to a preset lock light annunciator module when the plaintext password information is detected, converts the plaintext password information into ciphertext light signal information through the lock light annunciator module, determines the ciphertext light signal information as password ciphertext information, generates a ciphertext light signal through a preset light source module in the intelligent lock based on the password ciphertext information, converts the ciphertext light signal into a target digital signal, determines the verification passing result as the identification verification result when the target digital signal matches with the preset unlock password information corresponding to the intelligent lock, determines the verification failing result as the identification verification result when the target digital signal does not match with the preset unlock password information corresponding to the intelligent lock, thereby solving the security problem caused by the unlocking mode of the existing intelligent lock adopting the primary processing unlocking mode, the intelligent door lock is safer and more reliable.

It should be noted that for simplicity of description, the method embodiments are described as a series of acts, but those skilled in the art should understand that the embodiments are not limited by the described order of acts, as some steps can be performed in other orders or simultaneously according to the embodiments.

In specific implementation, the information processing method based on the intelligent lock provided by the embodiment of the application can be utilized to realize an information processing system based on the intelligent lock, so that the information processing system based on the intelligent lock can perform encryption conversion processing based on detected plaintext password information to obtain password ciphertext information, and perform identification verification according to a ciphertext optical signal corresponding to the password ciphertext information to obtain an identification verification result corresponding to the plaintext password information, thereby solving the problem caused by the fact that the existing intelligent lock only controls the motor of the intelligent lock to unlock through a simple electric signal, and preventing the password of the door lock from being illegally cracked.

As shown in fig. 4, an embodiment of the present application further provides an information processing system 400 based on an intelligent lock, including:

a plaintext password information detection module 410, configured to detect plaintext password information of the smart lock;

an encryption conversion processing module 420, configured to perform encryption conversion processing according to the plaintext password information to obtain password ciphertext information;

and the ciphertext optical signal identification and verification module 430 is configured to perform identification and verification according to the ciphertext optical signal corresponding to the password ciphertext information, so as to obtain an identification and verification result corresponding to the plaintext password information.

Optionally, the ciphertext optical signal identification and verification module includes:

the cipher text optical signal generating submodule is used for generating cipher text optical signals through a light source module preset in the intelligent lock based on the cipher text information;

the conversion submodule is used for converting the ciphertext optical signal into a target digital signal;

the first identification and verification result determining submodule is used for determining a verification passing result as the identification and verification result when the target digital signal is matched with unlocking password information correspondingly preset by the intelligent lock;

and the second identification and verification result determining submodule is used for determining a verification failure result as the identification and verification result when the target digital signal is not matched with the unlocking password information corresponding to the intelligent lock and preset.

Optionally, the ciphertext optical signal generating sub-module includes:

the light source color determining unit is used for determining the light source color corresponding to each password parameter in the password ciphertext information;

an optical signal transmitting unit, configured to call, for each cryptographic parameter, the light source module corresponding to the light source color, and transmit an optical signal corresponding to the cryptographic parameter as the ciphertext optical signal

Optionally, the encryption conversion processing module may be specifically configured to transmit the plaintext password information to a preset light-locking annunciator module; converting the plaintext password information into the ciphertext optical signal information through the optical lock annunciator module; and determining the cipher text optical signal information as the cipher text information.

Optionally, the light source color determining unit is specifically configured to determine, for each cipher parameter in the cipher text information, a color parameter value that matches the cipher parameter; and determining the preset color corresponding to the color parameter value as the light source color corresponding to the password parameter.

Optionally, the plaintext password information detection module is specifically configured to monitor a key touch module of the intelligent lock; and when the key touch module detects that the user inputs password information, determining the password information input by the user as the plaintext password information.

Optionally, the information processing system based on an intelligent lock further includes:

the unlocking instruction generating module is used for generating an unlocking instruction based on the verification passing result when the identification verification result is the verification passing result;

the unlocking instruction sending module is used for sending the unlocking instruction to a main board driving motor module of the intelligent lock;

the safety verification result determining module is used for performing safety verification on the unlocking instruction through the mainboard driving motor module to obtain a safety verification result;

the unlocking module is used for controlling the intelligent lock to be unlocked based on the successful safety verification result when the successful safety verification result is the successful safety verification result;

the verification failure frequency determining module is used for determining the verification failure frequency based on the safety verification failure result when the safety verification result is the safety verification failure result;

the early warning information output module is used for outputting early warning information when the verification failure times reach a preset failure time threshold;

and the failure reminding information output module is used for outputting failure reminding information when the verification failure times are lower than a preset failure time threshold value.

Optionally, the information processing system based on an intelligent lock further includes:

the early warning instruction generating module is used for generating an early warning instruction based on the verification failure result when the identification and verification result is the verification failure result;

and the early warning information sending module is used for sending early warning information to the buzzer of the intelligent lock and the target terminal corresponding to the intelligent lock based on the early warning instruction.

It should be noted that the information processing system based on the smart lock provided in the embodiment of the present application can execute the method provided in any embodiment of the present application, and has corresponding functions and beneficial effects of the execution method.

Further, the information processing system based on the intelligent lock can be integrated in the intelligent lock device, so that the intelligent lock device can perform encryption conversion according to the detected plaintext password information, perform identification verification based on a ciphertext optical signal corresponding to the password ciphertext information obtained through the encryption conversion, obtain an identification verification result, and use the identification verification result as the intelligent lock device to realize information processing based on the intelligent lock. The intelligent lock device may be composed of two or more physical entities, or may be composed of one physical entity, for example, the intelligent lock device may be a Personal Computer (PC), an intelligent door lock, a server, or the like, which is not specifically limited in this embodiment of the present application.

The plaintext password information detecting module 410 may be used as a door lock key touch module and a door lock input identification recording module in the intelligent lock device, and specifically may be configured to detect a digital password input by a user, and transmit the detected digital password as plaintext password information to the encryption conversion processing module, so that the encryption conversion processing module may perform encryption conversion processing according to the plaintext password information.

The encryption conversion processing module can be used as a door lock photoelectric annunciator module in intelligent lock equipment, after plaintext password information is received, photoelectric conversion can be carried out based on the plaintext password information so as to convert a digital password into an optical signal password of a ciphertext to generate an encrypted optical signal password, the optical signal password can be used as password ciphertext information, and an LED light source in the intelligent lock is used for emitting a light source matched with the optical signal password, so that the ciphertext optical signal identification and verification module can carry out identification and verification according to the received optical signal password.

Specifically, the ciphertext optical signal identification and verification module can be used as a door lock optical signal receiving module in the intelligent lock device, a data protocol conversion module on a door lock internal main board and a door lock control center module, can match and receive the encrypted optical signal password, and take the optical signal password as a ciphertext optical signal to convert the optical signal password according to a data protocol on a main board inside the door lock, so as to convert the ciphertext optical signal into a target digital signal for identification and verification to obtain an identification and verification result, thereby the identification and verification result can be fed back to the door lock control center module, so that the door lock control center module can issue an unlocking instruction to the driving motor module of the door lock main board according to the identification and verification result, therefore, the door lock mainboard motor driving module controls the door lock motor to unlock the door lock after recognizing the correct unlocking instruction.

As shown in fig. 5, an embodiment of the present application provides an intelligent lock device, which includes a processor 111, a communication interface 112, a memory 113, and a communication bus 114, where the processor 111, the communication interface 112, and the memory 113 complete communication with each other through the communication bus 114; a memory 113 for storing a computer program; the processor 111 is configured to implement the steps of the information processing method based on smart lock provided in any one of the foregoing method embodiments when executing the program stored in the memory 113. Illustratively, the steps of the information processing method based on the intelligent lock may include the following steps: detecting plaintext password information of the intelligent lock; carrying out encryption conversion processing according to the plaintext password information to obtain password ciphertext information; and performing identification verification according to the ciphertext optical signal corresponding to the cipher ciphertext information to obtain an identification verification result corresponding to the plaintext cipher information.

The present application further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the steps of the information processing method based on an intelligent lock as provided in any one of the foregoing method embodiments.

It is noted that, in this document, relational terms such as "first" and "second," and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the element.

The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. An information processing method based on an intelligent lock is characterized by comprising the following steps:

detecting plaintext password information of the intelligent lock;

carrying out encryption conversion processing according to the plaintext password information to obtain password ciphertext information;

and performing identification verification according to the ciphertext optical signal corresponding to the cipher ciphertext information to obtain an identification verification result corresponding to the plaintext cipher information.

2. The method according to claim 1, wherein performing identification verification according to the ciphertext optical signal corresponding to the cipher text information to obtain an identification verification result corresponding to the plaintext cipher information comprises:

generating a cipher text light signal through a light source module preset in the intelligent lock based on the cipher text information;

converting the ciphertext optical signal into a target digital signal;

if the target digital signal is matched with unlocking password information correspondingly preset by the intelligent lock, determining a verification passing result as the identification and verification result;

and if the target digital signal is not matched with the corresponding preset unlocking password information of the intelligent lock, determining a verification failure result as the identification verification result.

3. The method according to claim 2, wherein the generating the ciphertext optical signal through a preset light source module in the smart lock based on the password ciphertext information comprises:

determining the light source color corresponding to each password parameter in the password ciphertext information;

and calling a light source module corresponding to the light source color for each password parameter, and transmitting an optical signal corresponding to the password parameter to serve as the ciphertext optical signal.

4. The method according to claim 1, wherein said performing encryption transformation processing according to the plaintext cipher information to obtain cipher text information comprises:

transmitting the plaintext password information to a preset light-locking annunciator module;

converting the plaintext password information into the ciphertext optical signal information through the optical lock annunciator module;

and determining the cipher text optical signal information as the cipher text information.

5. The method of claim 3, wherein the determining the color of the light source corresponding to each cryptographic parameter in the cipher text information comprises:

for each password parameter in the password ciphertext information, determining a color parameter value matched with the password parameter;

and determining the preset color corresponding to the color parameter value as the light source color corresponding to the password parameter.

6. The method according to any one of claims 1 to 5, wherein the detecting the plaintext password information of the smart lock comprises:

monitoring a key touch module of the intelligent lock;

and when the key touch module detects that the user inputs password information, determining the password information input by the user as the plaintext password information.

7. The method according to claim 6, wherein after obtaining the identification verification result corresponding to the plaintext password information, the method further comprises:

when the identification verification result is a verification passing result, an unlocking instruction is generated based on the verification passing result;

sending the unlocking instruction to a main board driving motor module of the intelligent lock;

the unlocking instruction is subjected to safety verification through the mainboard driving motor module, and a safety verification result is obtained;

if the safety verification result is a safety verification success result, controlling the intelligent lock to be unlocked based on the safety verification success result;

if the safety verification result is a safety verification failure result, determining the verification failure times based on the safety verification failure result;

if the verification failure times reach a preset failure time threshold value, outputting early warning information;

and if the verification failure times are lower than a preset failure time threshold value, outputting failure reminding information.

8. The method according to claim 6, wherein after obtaining the identification verification result corresponding to the plaintext password information, the method further comprises:

when the identification verification result is a verification failure result, generating an early warning instruction based on the verification failure result;

and sending early warning information to a buzzer of the intelligent lock and a target terminal corresponding to the intelligent lock based on the early warning instruction.

9. An information processing system based on an intelligent lock, comprising:

the plaintext password information detection module is used for detecting plaintext password information of the intelligent lock;

the encryption conversion processing module is used for carrying out encryption conversion processing according to the plaintext password information to obtain password ciphertext information;

and the ciphertext optical signal identification and verification module is used for carrying out identification and verification according to the ciphertext optical signal corresponding to the cipher ciphertext information to obtain an identification and verification result corresponding to the plaintext cipher information.

10. The intelligent lock equipment is characterized by comprising a processor, a communication interface, a memory and a communication bus, wherein the processor and the communication interface are used for realizing mutual communication by the memory through the communication bus;

a memory for storing a computer program;

a processor for implementing the steps of the intelligent lock based information processing method according to any one of claims 1 to 8 when executing the program stored in the memory.

11. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of smart lock-based information processing according to any one of claims 1 to 8.

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