CN115002328A - Camera module data burning fool-proof detection method and system - Google Patents

Abstract

The invention relates to the technical field of digital data processing, in particular to a method and a system for burn-in fool-proofing detection of camera module data, wherein the method comprises the following steps: acquiring original data to be burned according to the camera module, and detecting the original data; if the detection is correct, burning the original data and storing the original data; acquiring burning data after the camera module is burnt, and detecting the burning data; if the detection is correct, calling the stored original data, and calibrating the burning data according to the original data; if the detection is wrong, calling the stored original data, and comparing and marking the difference between the original data and the burning data; and detecting the original data and the burning data, wherein the detection comprises one or more of high and low bit detection, data zone bit detection, check code checking and data segment detection. By adopting the scheme, automatic data detection can be performed on different burning data, and the burning error rate of the camera module is effectively reduced.

Description

Camera module data burning fool-proof detection method and system

Technical Field

The invention relates to the technical field of digital data processing, in particular to a method and a system for burn-in fool-proofing detection of camera module data.

Background

The camera module needs to be subjected to data burning before leaving a factory, and comprises module information, AWB automatic white balance data, LSC lens shadow correction data, AF automatic focusing data, PDAF gain mapping data, PDAF defocusing conversion coefficients, XTC pseudo-color interference correction data and the like. Along with the application scope of camera module is wider, higher to the requirement of camera module to and there is the difference between the different camera modules, make the camera module need adopt different burning record data to every customer or platform, increased the module factory and burned the check-up degree of difficulty of data to camera module. If the verification is simply carried out by manpower, the consumed manpower resource is large, and meanwhile, the condition that the verification burning is wrong still occurs, such as data high-low bit errors, burning abnormity caused by artificially deleting related test items by mistake and the like, so that very serious customer complaints are caused. Therefore, a method and a system for burn-in fool-proofing of camera module data capable of performing automatic data detection for different burn-in data are needed.

Disclosure of Invention

One of the objectives of the present invention is to provide a method for detecting foolproof burning of camera module data, which can perform automatic data detection for different burning data.

The invention provides a basic scheme I: a method for detecting the fool-proofing of camera module data burning comprises the following steps:

acquiring original data to be burned according to the camera module, and detecting the original data; if the detection is correct, burning the original data and storing the original data;

acquiring burning data after the camera module is burnt, and detecting the burning data; if the detection is correct, calling the stored original data, and calibrating the burning data according to the original data; if the detection is wrong, the stored original data is called, and the difference between the original data and the burning data is compared and marked.

The beneficial effects of the first basic scheme are as follows:

the original data to be burned is required to be acquired before burning, and the original data to be burned is detected before burning due to the fact that the original data can be damaged in the acquiring process, so that the accuracy of the data before burning is guaranteed, the mistaken data can be prevented from being burned, and the waste of burning resources is avoided. In the burning process, the burning data can be burned into the internal storage unit of the camera module in sections, and the abnormality can occur in the processes of sectional burning and integral burning, so that the detection is carried out again after the burning, and the accuracy of the data in the burning process is ensured.

The method includes the steps that original data are stored during burning, burning data and the original data are obtained after burning and are compared and analyzed, consistency of the data is checked through the data before and after burning, tracking of burning data of the camera module is achieved, and the fact that the camera module cannot analyze burning information of the camera module due to abnormal debugging of a client or variation of the burning data of the camera module is prevented.

By adopting the scheme, when the camera module is burned, the original data to be burned is obtained according to the camera module, the data limitation is not limited, and the burning of different burning data of different camera modules can be realized. Meanwhile, in the burning process, the data are automatically detected, the burning error rate of the camera module which leaves the factory is effectively reduced, the normal delivery of a module factory is ensured, and the burning data of the customer complaint module can be tracked.

Further, the original data and the burning data are detected, and the detection comprises one or more of high and low bit detection, data zone bit detection, check code checking and data segment detection.

Has the advantages that: the fool-proof detection of the data is realized through various detection mechanisms, for example, the mistaken burning condition of the reverse burning of the data is detected through high-low bit detection, whether each data segment is burned or not is verified through data zone bit detection, whether each data segment has the mistake or not is verified through check code verification, and the abnormal condition of the data caused by misoperation of an operator or some reasons is detected through data segment detection.

Further, the following contents are included: presetting a data mapping table, wherein identity information associated with the data mapping table is arranged on the camera module;

acquiring original data to be burned according to the camera module, wherein the original data to be burned specifically comprises the following contents: and acquiring the identity information of the camera module, and acquiring the original data to be burned according to a data mapping table associated with the identity information.

Has the advantages that: in the burning process of the camera module, one test box is connected with a plurality of modules, the burning condition of the module mixed material can occur, and once the module mixed material is burnt, serious accidents and customer complaints can be caused. Therefore, the identity information of the camera module is uniquely bound with the data mapping table, the corresponding original data to be burned is obtained through the identity information of the camera module, the data burned by the camera module is ensured to correspond to the original data, and the problem of mixed material burning between the modules is avoided.

Further, the original data and the burning data both comprise zone bits, and the data zone bits are detected by the following steps: and acquiring a zone bit and a data state of the data to be detected, and verifying the zone bit according to the data state to generate a verification result.

Has the advantages that: a data zone bit detection mechanism is established, a camera module usually has burning of a plurality of data, such as a module information data segment, an AWB data segment, an AF data segment and the like, whether the data of each data segment is burnt or not is detected and verified through the data zone bit, and the verification condition is reflected through the verification result, so that the burning omission of the data is avoided.

Further, the original data and the burning data both comprise a data segment and a check code corresponding to the data segment, and the check code check comprises the following contents: and acquiring a data section and a check code of the data to be checked, analyzing the data section to generate a data code, and checking the check code according to the data code to generate a check result.

Has the advantages that: and establishing a check code checking mechanism, wherein each data segment is used for producing corresponding data through each test module during burning, and then burning the corresponding data into the internal storage unit corresponding to the camera module in a segmented or integral manner, wherein each data segment possibly has abnormity in the process, whether the data of each data segment is wrong is judged through check of the check code, and the check condition of each data segment is reflected through the check result, so that wrong burning of the data is avoided. For example, the sum of each data segment is counted, a preset value is subjected to complementation to obtain a data code, the data code and the check code are compared, and if the data code and the check code are consistent, the detection is correct, otherwise, the detection is incorrect.

Further, the original data and the burning data both comprise data segments, and the data segments are detected, wherein the data segments comprise the following contents: and acquiring a data segment of the data to be detected, and analyzing and comparing the data segment according to a preset data standard to generate a comparison result.

Has the advantages that: and a data segment detection mechanism is established, the condition that the data is abnormal due to improper operation of an operator or some reasons is detected through data segment detection, and the comparison condition of the data is reflected through a comparison result, so that the correctness of the data is ensured. Taking the module information as an example, the module information is usually a fixed value, and the data standard is a preset value at this time, and directly comparing whether the data to be detected and the data standard are consistent, if so, detecting without error, otherwise, detecting with error.

The second objective of the present invention is to provide a fool-proof system for burning camera module data.

The invention provides a second basic scheme: a burning fool-proof detection system for camera module data comprises a server, a storage module and a control module, wherein the server is used for acquiring original data to be burned according to the camera module and detecting the original data;

the server is also used for burning the original data after the original data are detected to be correct, and storing the original data;

the server is also used for acquiring the burning data after the camera module is burned and detecting the burning data;

the server is also used for calling the stored original data after the detection of the burning data is correct, and calibrating the burning data according to the original data;

the server is also used for calling the stored original data after the burning data is detected to be wrong, and comparing and marking the difference between the original data and the burning data.

The second basic scheme has the beneficial effects that:

by adopting the scheme, when the camera module is burned, the original data to be burned is obtained according to the camera module, the data limitation is not limited, and the burning of different burning data of different camera modules can be realized. The original data to be burned is detected before burning, so that the accuracy of the data before burning is guaranteed, the mistaken data can be prevented from being burned, and the waste of burning resources is avoided. And detecting again after burning, thereby ensuring the accuracy of data in the burning process. Through carrying out automated inspection to data at the burn recording in-process, effectively reduce the burn recording error rate of the camera module that dispatches from the factory, guarantee the normal shipment of module factory, can realize telling the pursuit of burning record data to the visitor simultaneously.

The system further comprises a data acquisition end, wherein the data acquisition end is used for scanning and acquiring the identity information of the camera module;

the server is preset with a data mapping table associated with the identity information and is used for acquiring original data to be burned according to the data mapping table associated with the identity information.

Has the advantages that: the camera module is provided with an identifier for representing the identity information of the camera module, such as a two-dimensional code, a Fuse ID and the like, and the identity information of the camera module is uniquely bound with the data mapping table. The camera module is identified by the data acquisition end, original data are acquired through the identified identity information, and the one-to-one correspondence between the camera module and the data to be burned is ensured, so that the condition that a plurality of camera modules are placed by one device in the production process to cause cross burning is prevented.

Further, the server comprises a data fool-proof detection module, and the data fool-proof detection module is used for carrying out one or more of high-low bit detection, data zone bit detection, check code checking and data segment detection on the original data and the burning data.

Has the advantages that: the data fool-proof detection module is arranged to realize fool-proof detection of the data, and detection of different abnormal conditions is realized through a plurality of detection mechanisms, so that the burning error rate of the camera module leaving the factory is effectively reduced.

Furthermore, the original data and the burning data both comprise data segments, the data fool-proof detection module is used for acquiring the data segments of the data to be detected, and the data segments are analyzed and compared according to a preset data standard to generate a comparison result.

Has the beneficial effects that: the data segment detection is realized through the data fool-proof detection module, the abnormal condition of the data itself caused by improper operation of an operator or some reasons is detected through the data segment detection, and the comparison condition of the data is reflected through the comparison result, so that the correctness of the data is ensured. Taking the module information as an example, the module information is usually a fixed value, and the data standard is a preset value at this time, and directly comparing whether the data to be detected and the data standard are consistent, if so, detecting without error, otherwise, detecting with error.

Drawings

Fig. 1 is a flowchart of an embodiment of a method for burn-in fool-proofing detection of camera module data according to the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

examples

A method for detecting the burn-in fool-proofing of camera module data is disclosed, as shown in the attached figure 1, and comprises the following contents:

a data mapping table is preset, and the camera module is provided with identity information associated with the data mapping table.

And the burning station acquires original data to be burned according to the camera module and detects the original data.

If the original data is detected to be correct, the burning station burns the original data and stores the original data, otherwise, the burning station does not burn and stores the original data.

The burning detection station acquires burning data after the camera module is burnt and detects the burning data.

If the burning data is detected to be correct, calling the stored original data, and calibrating the burning data according to the original data; if the detection of the burning data is wrong, the stored original data is called, and the difference between the original data and the burning data is compared and marked.

Presetting a burning standard, and prestoring burning contents and a data mapping table thereof. The burning specification refers to the condition environment for burning various data, including color temperature, illumination, light source model, graph size, graph format, picture brightness, gain setting, data acquisition mode, etc., and the data mapping table refers to the register address corresponding to the burning content and the data written in by the register address corresponding to the burning content, including the flag bit of each data segment, the data segment, and the check code corresponding to the data segment.

Be equipped with the identity information associated with the data mapping table on the camera module, it is specific, radium-shine on the camera module has the two-dimensional code, and the identity information of camera module can be reflected to the two-dimensional code. The method comprises the steps of obtaining original data to be burned according to a camera module, specifically obtaining identity information of the camera module, and obtaining the original data to be burned according to a data mapping table associated with the identity information.

The original data and the burning data comprise zone bits, data segments and check codes corresponding to the data segments. And detecting the original data and the burning data, wherein the detection comprises one or more of high and low bit detection, data zone bit detection, check code checking and data segment detection. In this embodiment, the detection of the original data includes data flag bit detection and data segment detection, and the detection of the burning data includes high and low bit detection, data flag bit detection, check code check and data segment detection.

In the high-low bit detection, one piece of burning data is usually stored in two high-low bit registers, and the writing and reading sequences of the burning data are different, so that data abnormality is easily caused, and fool-proofing is realized through the high-low bit detection.

Data flag bit detection, comprising the following steps: and acquiring the zone bit and the data state of the data to be detected, and verifying the zone bit according to the data state to generate a verification result. The data state is used for reflecting the current state of the data segment, for example, after burning, the data zone bit detection is carried out, and the data state is that the data segment is burnt. And verifying the zone bit through the data state to generate a verification result, and generating a verification result without error in detection when the zone bit and the zone bit are consistent, otherwise generating a verification result with error in detection. And a data zone bit detection mechanism is established, and whether data of each data segment is burned or not is verified, so that the situations of burning by mistake and burning missing are avoided.

Checking the check code, which comprises the following steps: and acquiring a data section and a check code of the data to be checked, analyzing the data section to generate a data code, and checking the check code according to the data code to generate a check result. Specifically, the sum of each data segment is counted, a preset certain value is subjected to remainder to obtain a data code, the data code and the check code are compared, a check result without error detection is generated when the data code and the check code are consistent, and otherwise, a check result with error detection is generated. Taking the AWB data as an example, the sum of the data segments is 5215, the preset value is 255, the remainder is obtained to obtain the data code 115, and the check code is checked according to the data code. And establishing a check code checking mechanism to check whether the data of each data segment is wrong or not, so that the data is prevented from being burnt by mistake.

Data segment detection, including the following: and acquiring a data segment of the data to be detected, and analyzing and comparing the data segment according to a preset data standard to generate a comparison result. Taking module information as an example, the module information is usually a fixed value, and the data standard is a preset value at this time, and the module information directly compares whether the data to be detected and the data standard are consistent, if so, generates a comparison result without error detection, otherwise, generates a comparison result with error detection. Taking the AWB data as an example, the data standard is a corresponding card control range at this time, and whether a difference between each channel or ratio of the data segment and the gold value is within the card control range is analyzed, if so, a comparison result without error detection is generated, otherwise, a comparison result with error detection is generated. Taking AF data as an example, taking the data standard as a corresponding card control range at the moment, analyzing whether the difference value of the far, middle and near focal values is in the card control range or not, and whether the focal value is in the card control range or not, if the focal value is in the card control range, generating a comparison result without error detection, otherwise, generating a comparison result with error detection. Taking the LSC data as an example, analyzing whether the data arrangement rule is consistent with the data rule by taking the data standard as a corresponding data rule, if so, generating a comparison result without error detection, otherwise, generating a comparison result with error detection. And a data segment detection mechanism is established, and the abnormal condition of the data is detected through data segment detection, so that the correctness of the data is ensured.

The original data is stored, specifically, the original data before burning is stored, and specifically, the original data can be stored in a server and also can be uploaded to a cloud for storage.

And calibrating the burning data according to the original data, specifically, comparing the original data with the burning data, if the original data and the burning data are completely consistent, the burning data is correct, otherwise, the burning data has a problem, and marking the position where the original data and the burning data are inconsistent.

And comparing and marking the difference between the original data and the burning data, specifically, indicating that the burning of the camera module is wrong at the moment, and comparing the original data and the burning data and marking the position where the original data and the burning data are inconsistent.

A program encryption mechanism is arranged, and the station program is ensured not to be illegally modified by a data signature gathering safety access authentication mode, so that abnormal data burning is avoided. In this embodiment, the MD5 algorithm is used for management and control, and after completing bitwise supplementary data by data padding with parameter data generated by each test item added by the program and extending the length, a 128-bit hash value is finally generated. The completeness of the program test items and parameters is detected when the program runs, if the program is abnormal due to misoperation or private modification of an operator or the program itself, the program is prompted to be abnormal and production line production cannot be carried out, and therefore data burning abnormity caused by deletion of related test items by the operator is avoided.

A burning fool-proof detection system for camera module data uses the method for burning fool-proof detection of camera module data, and comprises a server and a data acquisition terminal.

The camera module is provided with an identity label representing identity information, and in the embodiment, the identity label is a laser two-dimensional code.

The data acquisition end is used for scanning the identity, acquiring the identity information of the camera module and uploading the identity information.

The server is preset with a data mapping table associated with the identity information and used for acquiring original data to be burned according to the data mapping table associated with the identity information and detecting the original data; the server is also used for burning the original data and storing the original data after the original data are detected to be correct; the server is also used for acquiring the burning data after the camera module is burned and detecting the burning data; the server is also used for calling the stored original data after the detection of the burning data is correct, and calibrating the burning data according to the original data; the server is also used for calling the stored original data after the burning data is detected to be wrong, and comparing and marking the difference between the original data and the burning data.

The original data and the burning data comprise zone bits, data segments and check codes corresponding to the data segments. The server comprises a data fool-proof detection module, and the data fool-proof detection module is used for performing one or more of high-low bit detection, data zone bit detection, check code checking and data segment detection on the original data and the burning data. In this embodiment, the detection of the original data includes data flag bit detection and data segment detection, and the detection of the burning data includes high-low bit detection, data flag bit detection, check code check and data segment detection.

The data fool-proof detection module is used for acquiring the zone bit and the data state of the data to be detected, and verifying the zone bit according to the data state to generate a verification result. And verifying the zone bit through the data state to generate a verification result, and generating a verification result without error in detection when the zone bit and the zone bit are consistent, otherwise generating a verification result with error in detection. And a data zone bit detection mechanism is established, and whether data of each data segment is burned or not is verified, so that the situations of burning by mistake and burning missing are avoided.

The data fool-proof detection module is also used for acquiring a data section and a check code of the data to be checked, analyzing the data section to generate a data code, and checking the check code according to the data code to generate a check result. Specifically, the sum of each data segment is counted, a preset value is subjected to complementation to obtain a data code, the data code and the check code are compared, if the data code and the check code are consistent, a check result without errors in detection is generated, and if the check result with errors in detection is not generated. And establishing a check code checking mechanism to check whether the data of each data segment is wrong or not, so that the data is prevented from being burnt by mistake.

The data fool-proof detection module is further used for acquiring a data segment of the data to be detected, and analyzing and comparing the data segment according to a preset data standard to generate a comparison result. Specifically, taking module information as an example, the module information is usually a fixed value, and at this time, the data standard is a preset certain value, and the data to be detected and the data standard are directly compared to determine whether they are consistent, if so, a comparison result without error in detection is generated, otherwise, a comparison result with error in detection is generated. Taking the AWB data as an example, the data standard is a corresponding card control range at this time, and whether a difference between each channel or ratio of the data segment and the gold value is within the card control range is analyzed, if so, a comparison result without error detection is generated, otherwise, a comparison result with error detection is generated. Taking AF data as an example, taking the data standard as a corresponding card control range at the moment, analyzing whether the difference value of the far, middle and near focal values is in the card control range or not, and whether the focal value is in the card control range or not, if the focal value is in the card control range, generating a comparison result without error detection, otherwise, generating a comparison result with error detection. Taking the LSC data as an example, analyzing whether the data arrangement rule is consistent with the data rule by taking the data standard as a corresponding data rule, if so, generating a comparison result without error detection, otherwise, generating a comparison result with error detection. And a data segment detection mechanism is established, and the abnormal condition of the data is detected through data segment detection, so that the correctness of the data is ensured.

The server also comprises a calibration module, the calibration module is used for calling the stored original data after the burning data is detected to be correct, comparing the original data with the burning data, if the original data is completely consistent with the burning data, the burning data is correct, otherwise, the burning data has a problem, and the calibration module marks the position where the original data is inconsistent with the burning data. The calibration module is also used for calling the stored original data after the burning data is detected to be wrong, comparing the original data with the burning data and marking the position where the original data is inconsistent with the burning data.

By adopting the scheme, when the camera module is burned, the original data to be burned is obtained according to the camera module, the data limitation is not limited, and the burning of different burning data of different camera modules can be realized. The original data to be burned is detected before burning, so that the accuracy of the data before burning is ensured, wrong data can be prevented from being burned, and the waste of burning resources is avoided. And detecting again after burning, thereby ensuring the accuracy of data in the burning process. Through carrying out automated inspection to data at the burn recording in-process, effectively reduce the burn recording error rate of the camera module that dispatches from the factory, guarantee the normal shipment of module factory, can realize telling the pursuit of burning record data to the visitor simultaneously.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. A burning fool-proof detection method for camera module data is characterized by comprising the following contents:

acquiring original data to be burned according to the camera module, and detecting the original data; if the detection is correct, burning the original data and storing the original data;

acquiring burning data after the camera module is burnt, and detecting the burning data; if the detection is correct, calling the stored original data, and calibrating the burning data according to the original data; if the detection is wrong, the stored original data is called, and the difference between the original data and the burning data is compared and marked.

2. The method for detecting the fool-proofing of the burning of the camera module data according to claim 1, characterized in that: and detecting the original data and the burning data, wherein the detection comprises one or more of high and low bit detection, data zone bit detection, check code checking and data segment detection.

3. The method for detecting fool-proofing during burning of camera module data according to claim 1, further comprising the following steps: presetting a data mapping table, wherein the camera module is provided with identity information associated with the data mapping table;

acquiring original data to be burned according to the camera module, wherein the original data specifically comprises the following contents: and acquiring the identity information of the camera module, and acquiring the original data to be burned according to a data mapping table associated with the identity information.

4. The method as claimed in claim 2, wherein the original data and the recording data both include flag bits, and the data flag bit detection includes the following steps: and acquiring a zone bit and a data state of the data to be detected, and verifying the zone bit according to the data state to generate a verification result.

5. The method for detecting the fool-proofing of the burning of the camera module data according to claim 2, characterized in that: the original data and the burning data both comprise a data segment and a check code corresponding to the data segment, and the check code check comprises the following contents: and acquiring a data section and a check code of the data to be checked, analyzing the data section to generate a data code, and checking the check code according to the data code to generate a check result.

6. The method for detecting fool-proofing during burning of camera module data according to claim 2, characterized in that: the original data and the burning data comprise data segments, and the data segment detection comprises the following contents: and acquiring a data segment of the data to be detected, and analyzing and comparing the data segment according to a preset data standard to generate a comparison result.

7. The utility model provides a slow-witted detecting system is prevented in burning of camera module data which characterized in that: the device comprises a server, a recording module and a control module, wherein the server is used for acquiring original data to be burned according to a camera module and detecting the original data;

the server is also used for burning the original data after the original data are detected to be correct, and storing the original data;

the server is also used for acquiring the burning data after the camera module is burned and detecting the burning data;

the server is also used for calling the stored original data after the detection of the burning data is correct, and calibrating the burning data according to the original data;

the server is also used for calling the stored original data after the burning data is detected to be wrong, and comparing and marking the difference between the original data and the burning data.

8. The system of claim 7, wherein the camera module data burning fool-proofing detection system comprises: the data acquisition end is used for scanning and acquiring the identity information of the camera module;

the server is preset with a data mapping table associated with the identity information and is used for acquiring original data to be burned according to the data mapping table associated with the identity information.

9. The system of claim 7, wherein the camera module data burning fool-proofing detection system comprises: the server comprises a data fool-proof detection module, and the data fool-proof detection module is used for carrying out one or more of high-low bit detection, data zone bit detection, check code checking and data segment detection on the original data and the burning data.

10. The system of claim 9, wherein the camera module data burning fool-proof detection system comprises: the original data and the burning data both comprise data segments, and the data fool-proof detection module is used for acquiring the data segments of the data to be detected, analyzing and comparing the data segments according to a preset data standard and generating a comparison result.

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