CN112882600A - Multi-point touch screen detection system and detection method thereof - Google Patents

Abstract

The application relates to a multi-point touch screen detection system and a detection method thereof, wherein the detection system comprises: the input module is used for responding to a detection request input from the outside, forming an operation instruction and sending the operation instruction; the detection module is connected with the multi-point touch screen and used for receiving the operation instruction and detecting the multi-point touch screen to generate a detection result; the analysis module is used for extracting and analyzing the detection result to generate analysis information; the judging module is used for receiving the analysis information and judging the analysis information as follows: if the analysis information shows that the analysis information is abnormal, generating abnormal information and sending the abnormal information; if the analysis information is displayed normally, generating and sending normal information; the processing module is used for receiving the abnormal information and the normal information; when receiving the abnormal information, forming a stopping instruction for stopping the detection of the multi-point touch screen and sending the stopping instruction to the detection module to position an abnormal area; and when the normal information is received, positioning the normal area. The method and the device have the effect of reducing the accumulation processing amount of the test data.

Description

Multi-point touch screen detection system and detection method thereof

Technical Field

The application relates to the technical field of multi-point touch screens, in particular to a multi-point touch screen detection system and a multi-point touch screen detection method.

Background

In the electronic industry at present, many notebook computers on the market are provided with a multi-touch screen, and the multi-touch screen technology refers to a technology that a user controls a graphical interface through a plurality of fingers at the same time, so that the user can perform operations such as amplification, reduction, stretching, editing and the like on common graphs, images or photos, and the multi-touch screen is very practical and convenient.

The related art can refer to the chinese invention patent with application publication No. CN103019468A, which discloses a multi-touch display screen, which includes a touch display panel; the light-emitting panel is arranged below the touch display panel, a three-primary-color LED array used for displaying patterns on the touch display panel is arranged on the light-emitting panel, and an infrared emitting head and an infrared receiving head which are electrically connected with a touch driving circuit and used for generating touch signals are integrated in each three-primary-color LED; the lens is arranged in a mounting hole of the lens plate arranged between the touch display panel and the light-emitting panel, and the lens and the tricolor LEDs are arranged in a one-to-one correspondence manner and are used for condensing the tricolor LEDs; and one end of the optical fiber is connected with the mounting hole, the other end of the optical fiber is connected with the touch display panel, and the optical fiber is used for transmitting visible light emitted by the tricolor LED and infrared rays emitted by the infrared emitting head to the touch display panel and transmitting the reflected infrared rays to the infrared receiving head.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: a tester usually needs to detect the multi-point touch function of the multi-point touch screen to ensure the normal use of the multi-point touch screen; generally, during testing, test data is summarized and fed back after all areas of the multi-point touch screen are tested, so that the test data processing amount is large, and inconvenience is brought to testers.

Disclosure of Invention

In order to realize real-time normalization of test data and reduce the accumulation processing amount of the test data, the application provides a multi-point touch screen detection system and a detection method thereof.

In a first aspect, the present application provides a multi-touch screen detection system, which adopts the following technical scheme:

a multi-touch screen detection system, comprising:

the input module is used for responding to a detection request input from the outside, forming an operation instruction and sending the operation instruction;

the detection module is connected with the multi-point touch screen and used for receiving the operation instruction and detecting the multi-point touch screen to generate a detection result;

the analysis module is used for extracting and analyzing the detection result to generate analysis information;

the judging module is used for receiving the analysis information and judging the analysis information as follows:

if the analysis information shows that the analysis information is abnormal, generating abnormal information and sending the abnormal information;

if the analysis information is displayed normally, generating and sending normal information;

the processing module is used for receiving the abnormal information and the normal information;

when receiving the abnormal information, forming a stopping instruction for stopping the detection of the multi-point touch screen and sending the stopping instruction to the detection module to position an abnormal area;

when the normal information is received, the normal area is located.

By adopting the technical scheme, after the detection request is received, the areas of the multi-point touch screen are sequentially detected, and the detection result is analyzed in real time; if the abnormality of a certain area of the multi-point touch screen is detected, stopping continuously detecting the multi-point touch screen, and positioning the abnormal area according to the detected abnormality, so that a detector can record the abnormal area in time and extract and maintain the abnormal information of the abnormal area; if the detection area is normal, the next area of the multi-point touch screen is continuously detected until the abnormality is detected, and the process is repeated, so that real-time normalization of test data is realized, and the accumulation processing amount of the test data is reduced.

Optionally, the processing module further includes:

the rechecking unit is used for acquiring the abnormal area, rechecking the abnormal area and generating a rechecking result;

the analysis unit is used for extracting and analyzing the reinspection result to generate reinspection information;

the judging unit is used for receiving the reinspection information and making the following judgment on the reinspection information:

if the recheck information shows abnormality, generating error reporting information for qualifying the recheck area as an abnormal area;

if the retest information is displayed normally, generating modification information for re-qualifying the retest area;

the processing unit is used for receiving error reporting information and change information;

when receiving the error reporting information, acquiring the original abnormal area, generating feedback information and sending the feedback information;

and when the change information is received, acquiring the original abnormal area, re-qualifying the abnormal area into a normal area, forming a restart instruction for continuously detecting the multi-point touch screen, and sending the restart instruction to the detection module.

By adopting the technical scheme, when the abnormality of the multi-point touch screen is detected, the abnormal information of the abnormal area is extracted so as to perform recheck on the abnormal area and analyze the recheck result; if the retest shows that the region is still abnormal, the retest region is qualified as an abnormal region, and feedback information is generated for the region and fed back to the detection personnel; if the retest shows that the area is normal, the deviation exists in the preliminary detection, the area is qualitatively determined again, the area is changed into a normal area, and a restart instruction is formed to continue the detection of the multi-point touch screen. Therefore, the initial detection can be rechecked, so that the detection process is smoother while the accuracy of the detection result is improved, manual operation is reduced, and the detection convenience is improved.

Optionally, the processing module further includes:

the comparison unit is used for receiving the feedback information and comparing the feedback information with all information in the problem library; the problem library stores various problems and maintenance measures of the multi-point touch screen;

and the maintenance unit is used for extracting maintenance measures corresponding to the feedback information in the question bank, forming maintenance information and keeping files.

By adopting the technical scheme, the feedback information generated after the abnormal area is qualitatively determined is received, the feedback information comprises the abnormal problems occurring in the corresponding abnormal area, the abnormal problems in the abnormal area are compared with the problem library, the maintenance measures corresponding to the abnormal problems in the problem library are extracted after the comparison is successful, and the extracted maintenance measures are fed back to the detection personnel, so that the detection personnel can rapidly correct the abnormal problems according to the maintenance measures, and the convenience of maintaining the multi-point touch screen is improved.

Optionally, the processing module further includes:

the skipping unit is used for acquiring the maintenance information, forming skipping information for skipping the corresponding abnormal area and sending the skipping information to the detection module;

the cycle inspection unit is used for responding to the detection period set by the tester, forming period information and sending the period information;

the monitoring unit is used for receiving the period information, monitoring whether the detection module stops in a detection period according to the period information, forming a monitoring result and sending the monitoring result;

and the ending unit is used for receiving the monitoring result and making the following judgment:

if the monitoring result is yes, generating re-information for controlling the monitoring unit to re-monitor and sending the re-information to the monitoring unit;

and if the monitoring result is negative, generating end information for controlling the detection module to stop working and sending the end information to the detection module.

By adopting the technical scheme, after the abnormal area is recorded and the maintenance measures are extracted for the abnormal problems corresponding to the abnormal area, the abnormal area can be skipped so as to automatically detect the next area, thereby improving the detection continuity; in addition, a period is set in the detection process, the detection period is monitored in real time, so that whether the detection process is abnormal or not can be conveniently mastered, if the detection process is abnormal, the processes are repeated, the detection period is refreshed for monitoring again, if the detection process is not abnormal, the whole detection period is normal or all abnormal problems are maintained, the continuity of detection is improved, meanwhile, the abnormal problems can be extracted and maintained in real time in the detection process, and therefore the accumulation processing amount of test data is reduced.

In a second aspect, the present application provides a multi-touch screen detection method, which adopts the following technical scheme:

a multi-touch screen detection method comprises the following steps:

responding to a detection request input from the outside, forming an operation instruction and sending the operation instruction;

receiving an operation instruction, detecting the multi-point touch screen and generating a detection result;

extracting and analyzing the detection result to generate analysis information;

receiving analysis information, and judging the analysis information as follows:

if the analysis information shows that the analysis information is abnormal, generating abnormal information and sending the abnormal information;

if the analysis information is displayed normally, generating and sending normal information;

receiving abnormal information and normal information;

when receiving the abnormal information, forming and sending a stop instruction for stopping the detection of the multi-point touch screen, and positioning an abnormal area;

when the normal information is received, the normal area is located.

By adopting the technical scheme, after the detection request is received, the areas of the multi-point touch screen are sequentially detected, and the detection result is analyzed in real time; if the abnormality of a certain area of the multi-point touch screen is detected, stopping continuously detecting the multi-point touch screen, and positioning the abnormal area according to the detected abnormality, so that a detector can record the abnormal area in time and extract and maintain the abnormal information of the abnormal area; if the detection area is normal, the next area of the multi-point touch screen is continuously detected until the abnormality is detected, and the process is repeated, so that real-time normalization of test data is realized, and the accumulation processing amount of the test data is reduced.

Optionally, when receiving the abnormal information, forming and sending a stop instruction for stopping the detection of the multi-touch screen, and the step of locating the abnormal area further includes:

acquiring an abnormal area, and rechecking the abnormal area to generate a rechecking result;

extracting and analyzing a rechecking result to generate rechecking information;

receiving the reinspection information, and judging the reinspection information as follows:

if the recheck information shows abnormality, generating error reporting information for qualifying the recheck area as an abnormal area;

if the retest information is displayed normally, generating modification information for re-qualifying the retest area;

receiving error reporting information and change information;

when receiving the error reporting information, acquiring the original abnormal area, generating feedback information and sending the feedback information;

and when the change information is received, acquiring the original abnormal area, re-qualifying the abnormal area into a normal area, forming a restart instruction for continuously detecting the multi-point touch screen, and sending the restart instruction.

By adopting the technical scheme, when the abnormality of the multi-point touch screen is detected, the abnormal information of the abnormal area is extracted so as to perform recheck on the abnormal area and analyze the recheck result; if the retest shows that the region is still abnormal, the retest region is qualified as an abnormal region, and feedback information is generated for the region and fed back to the detection personnel; if the retest shows that the area is normal, the deviation exists in the preliminary detection, the area is qualitatively determined again, the area is changed into a normal area, and a restart instruction is formed to continue the detection of the multi-point touch screen. Therefore, the initial detection can be rechecked, so that the detection process is smoother while the accuracy of the detection result is improved, manual operation is reduced, and the detection convenience is improved.

Optionally, when receiving the abnormal information, forming and sending a stop instruction for stopping the detection of the multi-touch screen, and the step of locating the abnormal area further includes:

receiving feedback information, and comparing the feedback information with all information in the problem library; the problem library stores various problems and maintenance measures of the multi-point touch screen;

and extracting maintenance measures corresponding to the feedback information in the question bank, forming maintenance information and keeping files.

By adopting the technical scheme, the feedback information generated after the abnormal area is qualitatively determined is received, the feedback information comprises the abnormal problems occurring in the corresponding abnormal area, the abnormal problems in the abnormal area are compared with the problem library, the maintenance measures corresponding to the abnormal problems in the problem library are extracted after the comparison is successful, and the extracted maintenance measures are fed back to the detection personnel, so that the detection personnel can rapidly correct the abnormal problems according to the maintenance measures, and the convenience of maintaining the multi-point touch screen is improved.

Optionally, when receiving the abnormal information, forming and sending a stop instruction for stopping the detection of the multi-touch screen, and the step of locating the abnormal area further includes:

acquiring maintenance information, forming skipping information for skipping the corresponding abnormal area and sending the skipping information;

responding to a detection period set by a tester, forming period information and sending the period information;

receiving the period information, monitoring whether the detection module stops in a detection period according to the period information, forming a monitoring result and sending the monitoring result;

receiving the monitoring result and making the following judgment:

if the monitoring result is yes, generating and sending out re-information for controlling the monitoring unit to monitor again;

and if the monitoring result is negative, generating and sending end information for controlling the detection module to stop working.

By adopting the technical scheme, after the abnormal area is recorded and the maintenance measures are extracted for the abnormal problems corresponding to the abnormal area, the abnormal area can be skipped so as to automatically detect the next area, thereby improving the detection continuity; in addition, a period is set in the detection process, the detection period is monitored in real time, so that whether the detection process is abnormal or not can be conveniently mastered, if the detection process is abnormal, the processes are repeated, the detection period is refreshed for monitoring again, if the detection process is not abnormal, the whole detection period is normal or all abnormal problems are maintained, the continuity of detection is improved, meanwhile, the abnormal problems can be extracted and maintained in real time in the detection process, and therefore the accumulation processing amount of test data is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after receiving the detection request, sequentially detecting each area of the multi-point touch screen, and analyzing the detection result in real time; if the abnormality of a certain area of the multi-point touch screen is detected, stopping continuously detecting the multi-point touch screen, and positioning the abnormal area according to the detected abnormality, so that a detector can record the abnormal area in time and extract and maintain the abnormal information of the abnormal area; if the detection area is normal, the next area of the multi-point touch screen is continuously detected until the abnormality is detected, and the process is repeated, so that the real-time normalization of the test data is realized, and the accumulation processing amount of the test data is reduced;

2. when the abnormality of the multi-point touch screen is detected, extracting the abnormal information of the abnormal area to perform recheck on the abnormal area and analyzing the recheck result; if the retest shows that the region is still abnormal, the retest region is qualified as an abnormal region, and feedback information is generated for the region and fed back to the detection personnel; if the retest shows that the area is normal, the deviation exists in the preliminary detection, the area is qualitatively determined again, the area is changed into a normal area, and a restart instruction is formed to continue the detection of the multi-point touch screen. Therefore, the primary detection can be rechecked, so that the accuracy of the detection result is improved, the detection process is smoother, manual operation is reduced, and the detection convenience is improved;

3. receiving feedback information generated after the abnormal area is qualitatively determined, wherein the feedback information comprises abnormal problems occurring in the corresponding abnormal area, comparing the abnormal problems in the abnormal area with a problem library, extracting maintenance measures corresponding to the abnormal problems in the problem library after the comparison is successful, and feeding the maintenance measures back to a detector, so that the detector can quickly correct the abnormal problems according to the maintenance measures, and the convenience of maintaining the multi-point touch screen is improved;

4. after recording the abnormal area and extracting the maintenance measures of the abnormal problems corresponding to the abnormal area, skipping the abnormal area so as to automatically detect the next area, thereby improving the detection continuity; in addition, a period is set in the detection process, the detection period is monitored in real time, so that whether the detection process is abnormal or not can be conveniently mastered, if the detection process is abnormal, the processes are repeated, the detection period is refreshed for monitoring again, if the detection process is not abnormal, the whole detection period is normal or all abnormal problems are maintained, the continuity of detection is improved, meanwhile, the abnormal problems can be extracted and maintained in real time in the detection process, and therefore the accumulation processing amount of test data is reduced.

Drawings

FIG. 1 is a block diagram of a highlight detection system according to an embodiment of the present application.

FIG. 2 is a block diagram of elements of a highlight processing module according to an embodiment.

FIG. 3 is a flowchart of a highlight detection method according to an embodiment of the present application.

FIG. 4 is a flowchart of highlighting judgment review information according to an embodiment.

FIG. 5 is a flow diagram of an embodiment highlighting obtaining maintenance information.

FIG. 6 is a flowchart of the embodiment for highlighting the monitoring result.

Description of reference numerals: 1. an input module; 2. a detection module; 3. an analysis module; 4. a judgment module; 5. a processing module; 501. a rechecking unit; 502. an analysis unit; 503. a judgment unit; 504. a processing unit; 505. a comparison unit; 506. a maintenance unit; 507. a skipping unit; 508. a cycle inspection unit; 509. a monitoring unit; 510. and an ending unit.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a multi-point touch screen detection system. Referring to fig. 1 and 2, the detection system includes:

the input module 1 is connected with a preset input terminal, and the input terminal can adopt touch electronic equipment such as a mobile phone, a tablet personal computer and a customization terminal, and can also adopt non-touch computer equipment consisting of a display screen, a keyboard, a mouse and other components; the input module 1 is used for responding to a detection request input by a detection person through the input terminal, and the input module 1 forms an operation instruction and sends the operation instruction after responding to the detection request.

The detection module 2, the detection module 2 is connected with the detection tool, and the detection module 2 is connected with the multipoint touch screen to be detected through the detection tool. The detection module 2 is used for receiving an operation instruction sent by the input module 1, when the detection module 2 receives the operation instruction, the detection tool is controlled to operate, the multi-point touch screen is detected, information detected by the detection tool is read in real time in the detection process, and a detection result is finally generated.

And the analysis module 3 is used for extracting the detection result generated by the detection module 2 and analyzing the detection result in real time, the analysis content mainly aims at whether each area has a dead pixel when the detection tool detects the multi-point touch screen, and the analysis module 3 generates analysis information according to the result obtained by analysis.

The judging module 4 is configured to receive the analysis information generated by the analyzing module 3, and judge the analysis information as follows: if the analysis information shows that the display is abnormal, the condition that a dead pixel occurs in a real-time detection area of the multi-point touch screen is proved, and at the moment, the judgment module 4 generates abnormal information and sends the abnormal information; if the analysis information is displayed normally, the real-time detection area of the multi-point touch screen is proved not to have a dead pixel condition, and at the moment, the judgment module 4 generates normal information and sends the normal information.

And the processing module 5, the processing module 5 is used for receiving the abnormal information and the normal information sent by the judging module 4. When the processing module 5 receives the abnormal information sent by the judging module 4, the processing module 5 forms a stop instruction for stopping the detection of the multi-point touch screen, and sends the stop instruction to the detecting module 2, so that the detecting module 2 stops detecting the multi-point touch screen continuously, at this moment, the processing module 5 locates an abnormal area in the area and feeds the abnormal area back to a detector, so that the detector can master the abnormal area of the multi-point touch screen, and records and maintains the abnormal problem of the multi-point touch screen, thereby reducing the accumulation of problem handling capacity and realizing the effects of real-time detection and maintenance. When the processing module 5 receives the normal information sent by the judging module 4, the processing module 5 locates the normal area in the area and feeds the normal area back to the detecting personnel so that the detecting personnel can record the normal area in the multi-point touch screen.

Specifically, the processing module 5 further includes:

the review unit 501 is connected with the detection tool, the review unit 501 is used for acquiring the abnormal region and controlling the detection tool to review the abnormal region, and the review unit 501 summarizes information generated after the review of the detection tool and generates a review result. Through the retest to unusual region, realize promoting the accuracy of testing result, reduce measurement personnel's extra work load.

The analysis unit 502, the analysis unit 502 is used for extracting and analyzing the review result generated by the review unit 501, and the analysis content mainly includes confirming whether the problem such as dead pixel in the abnormal area is abnormal or not, and generating review information from the analysis result.

A judging unit 503, wherein the judging unit 503 is configured to receive the review information generated by the analyzing unit 502, and make the following judgment on the review information: if the review information shows an abnormality, it is verified that the defective pixel problem in the abnormal area exists, and at this time, the determining unit 503 generates error report information for qualifying the review area as the abnormal area. If the review information shows that the review area is normal, the failure point problem in the abnormal area is proved to be false alarm, and at this time, the judgment unit 503 generates the change information for re-qualifying the review area.

A processing unit 504, where the processing unit 504 is configured to receive the error information and the modification information generated by the determining unit 503. When the processing unit 504 receives the error report information, the processing unit 504 obtains the original abnormal area, locates that the abnormal area has the problem of dead pixel and the like, generates feedback information and sends the feedback information to the display terminal, wherein the display terminal is a mobile phone, a computer, a display and the like which can display the abnormal area and the problem to the detection personnel. When the processing unit 504 receives the change information, the processing unit 504 obtains the original abnormal area, re-characterizes the abnormal area as a normal area, and the processing unit 504 forms a restart instruction for continuously detecting the multi-touch screen and sends the restart instruction to the detection module 2, so that the detection module 2 continuously detects the next area of the multi-touch screen until the next abnormal information appears.

Furthermore, the processing module 5 further comprises:

a comparing unit 505, where the comparing unit 505 is configured to receive the feedback information sent by the processing unit 504, and the comparing unit 505 compares the feedback information with all information in the problem library. The problem library stores various problems and maintenance measures of the multi-point touch screen, and the problems and the maintenance measures stored in the problem library are edited and input by detection personnel according to self detection experience. And in the comparison process of the feedback information and all the problems in the problem library, if the problems in the feedback information are successfully compared with the problems in the problem library, positioning the problems in the problem library and positioning maintenance measures corresponding to the problems.

The maintenance unit 506 is used for extracting the maintenance measures positioned by the comparison unit 505, and the maintenance unit 506 forms maintenance information with the extracted maintenance measures and keeps the maintenance information for inspection by inspection personnel and maintenance personnel, so that the inspection personnel can realize quick error correction on abnormal problems according to the maintenance measures, and the convenience of maintenance of the multi-point touch screen is improved; and the problems of bad points and the like of the multi-point touch screen can be counted and sorted conveniently in the later period.

And the skipping unit 507 is used for acquiring the maintenance information formed by the maintenance unit 506, and after the skipping unit 507 acquires the maintenance information, skipping information for skipping the corresponding abnormal region is formed and sent to the detection module 2, so that the detection module 2 skips the abnormal region and detects the next region, thereby improving the continuity of detection and being capable of extracting and maintaining the abnormal region in real time.

The cycle inspection unit 508 is connected with a preset input terminal, the cycle inspection unit 508 is used for responding to a detection period set by a tester, the tester inputs the preset detection period to the cycle inspection unit 508 through the input terminal, the detection period can be set to a period from the beginning of the period to the end of the period for a certain area in the multi-point touch screen, and the cycle inspection unit 508 forms period information and sends the period information.

The monitoring unit 509, the monitoring unit 509 is configured to receive the period information sent by the periodic detection unit 508, and the monitoring unit 509 monitors whether the detection module 2 stops in a detection period according to the period information, and the monitoring unit 509 forms and sends a monitoring result; if the detection module 2 detects the multi-touch screen, the multi-touch screen will be stopped when detecting the abnormal problem, and if the abnormal problem is not detected or is skipped, the multi-touch screen will be continuously detected in a detection period until the multi-touch screen is stopped.

An ending unit 510, wherein the ending unit 510 is configured to receive the monitoring result formed far away from the monitoring and make the following determination: if the monitoring result is yes, it indicates that the detection module 2 detects that there is an abnormal problem in the multi-touch screen, the ending unit 510 generates re-information for controlling the monitoring unit 509 to re-monitor and sends the re-information to the monitoring unit 509, so that the monitoring unit 509 refreshes the detection period, and the detection module 2 re-detects one detection period again to ensure the accuracy of detection; if the monitoring result is negative, it indicates that the detection module 2 does not detect that the multi-point touch screen has an abnormal problem in a detection period, and then end information for controlling the detection module 2 to stop working is generated and sent to the detection module 2, so that the detection module 2 stops working, the detection is completed, and the detection continuity is improved, and meanwhile, the abnormal problem can be extracted and maintained in real time in the detection process, and therefore the accumulation processing amount of test data is reduced.

The implementation principle of the multi-point touch screen detection system in the embodiment of the application is as follows: after receiving the detection request, sequentially detecting each area of the multi-point touch screen, and analyzing the detection result in real time; if the abnormality of a certain area of the multi-point touch screen is detected, stopping continuously detecting the multi-point touch screen, and positioning the abnormal area according to the detected abnormality, so that a detector can record the abnormal area in time and extract and maintain the abnormal information of the abnormal area; if the detection area is normal, the next area of the multi-point touch screen is continuously detected until the abnormality is detected, and the process is repeated, so that real-time normalization of test data is realized, and the accumulation processing amount of the test data is reduced.

The embodiment of the application also discloses a multi-point touch screen detection method. Referring to fig. 3, the detection method includes:

s100, responding to a detection request input from the outside, forming an operation instruction and sending the operation instruction;

s200, receiving an operation instruction, detecting the multi-point touch screen and generating a detection result;

s300, extracting and analyzing the detection result to generate analysis information;

s400, receiving analysis information, and judging the analysis information as follows: if the analysis information shows that the analysis information is abnormal, generating abnormal information and sending the abnormal information; if the analysis information is displayed normally, generating and sending normal information;

s500, receiving abnormal information and normal information; when receiving the abnormal information, forming and sending a stop instruction for stopping the detection of the multi-point touch screen, and positioning an abnormal area; when the normal information is received, the normal area is located.

After receiving the detection request, sequentially detecting each area of the multi-point touch screen, and analyzing the detection result in real time; if the abnormality of a certain area of the multi-point touch screen is detected, stopping continuously detecting the multi-point touch screen, and positioning the abnormal area according to the detected abnormality, so that a detector can record the abnormal area in time and extract and maintain the abnormal information of the abnormal area; if the detection area is normal, the next area of the multi-point touch screen is continuously detected until the abnormality is detected, and the process is repeated, so that real-time normalization of test data is realized, and the accumulation processing amount of the test data is reduced.

Referring to fig. 4, specifically, in step S500, the following steps are further included:

s501, obtaining an abnormal area, rechecking the abnormal area, and generating a rechecking result;

s502, extracting and analyzing a recheck result to generate recheck information;

s503, receiving the reinspection information, and judging the reinspection information as follows: if the recheck information shows abnormality, generating error reporting information for qualifying the recheck area as an abnormal area; if the retest information is displayed normally, generating modification information for re-qualifying the retest area;

s504, receiving error reporting information and changing information; when receiving the error reporting information, acquiring the original abnormal area, generating feedback information and sending the feedback information; and when the change information is received, acquiring the original abnormal area, re-qualifying the abnormal area into a normal area, forming a restart instruction for continuously detecting the multi-point touch screen, and sending the restart instruction.

When the abnormality of the multi-point touch screen is detected, extracting the abnormal information of the abnormal area to perform recheck on the abnormal area and analyzing the recheck result; if the retest shows that the region is still abnormal, the retest region is qualified as an abnormal region, and feedback information is generated for the region and fed back to the detection personnel; if the retest shows that the area is normal, the deviation exists in the preliminary detection, the area is qualitatively determined again, the area is changed into a normal area, and a restart instruction is formed to continue the detection of the multi-point touch screen. Therefore, the initial detection can be rechecked, so that the detection process is smoother while the accuracy of the detection result is improved, manual operation is reduced, and the detection convenience is improved.

Referring to fig. 5, in addition, in step S500, the following steps are further included:

s505, receiving feedback information, and comparing the feedback information with all information in the question bank; the problem library stores various problems and maintenance measures of the multi-point touch screen;

and S506, extracting maintenance measures corresponding to the feedback information in the question bank, forming maintenance information and keeping files.

The method comprises the steps of receiving feedback information generated after the abnormal area is qualitatively determined, comparing the abnormal problems in the abnormal area with a problem library, extracting maintenance measures corresponding to the abnormal problems in the problem library after the comparison is successful, and feeding the maintenance measures back to detection personnel, so that the detection personnel can rapidly correct the abnormal problems according to the maintenance measures, and convenience in maintenance of the multi-point touch screen is improved.

And S507, obtaining the maintenance information, forming skipping information for skipping the corresponding abnormal area and sending the skipping information.

Referring to fig. 4, S508, responding to the detection period set by the tester, forming period information and sending it;

s509, receiving the period information, monitoring whether the detection module stops in a detection period according to the period information, forming a monitoring result and sending the monitoring result;

s510, receiving a monitoring result and making a judgment as follows: if the monitoring result is yes, generating and sending out re-information for controlling the monitoring unit to monitor again; and if the monitoring result is negative, generating and sending end information for controlling the detection module to stop working.

After recording the abnormal area and extracting maintenance measures for the abnormal problems corresponding to the abnormal area, skipping the abnormal area so as to automatically detect the next area, thereby improving the detection continuity; in addition, a period is set in the detection process, the detection period is monitored in real time, so that whether the detection process is abnormal or not can be conveniently mastered, if the detection process is abnormal, the processes are repeated, the detection period is refreshed for monitoring again, if the detection process is not abnormal, the whole detection period is normal or all abnormal problems are maintained, the continuity of detection is improved, meanwhile, the abnormal problems can be extracted and maintained in real time in the detection process, and therefore the accumulation processing amount of test data is reduced.

The implementation principle of the multi-point touch screen detection method in the embodiment of the application is as follows: after receiving the detection request, sequentially detecting each area of the multi-point touch screen, and analyzing the detection result in real time; if the abnormality of a certain area of the multi-point touch screen is detected, stopping continuously detecting the multi-point touch screen, and positioning the abnormal area according to the detected abnormality, so that a detector can record the abnormal area in time and extract and maintain the abnormal information of the abnormal area; if the detection area is normal, the next area of the multi-point touch screen is continuously detected until the abnormality is detected, and the process is repeated, so that real-time normalization of test data is realized, and the accumulation processing amount of the test data is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A multi-touch screen detection system, comprising:

the input module (1) is used for responding to a detection request input from the outside, forming an operation instruction and sending the operation instruction;

the detection module (2) is connected with the multi-point touch screen and used for receiving the operation instruction and detecting the multi-point touch screen to generate a detection result;

the analysis module (3) is used for extracting and analyzing the detection result to generate analysis information;

the judging module (4) is used for receiving the analysis information and judging the analysis information as follows:

if the analysis information shows that the analysis information is abnormal, generating abnormal information and sending the abnormal information;

if the analysis information is displayed normally, generating and sending normal information;

the processing module (5) is used for receiving the abnormal information and the normal information;

when the abnormal information is received, a stopping instruction for stopping the detection of the multi-point touch screen is formed and sent to the detection module (2), and an abnormal area is positioned;

when the normal information is received, the normal area is located.

2. The multi-touch screen detection system according to claim 1, wherein the processing module (5) further comprises:

the rechecking unit (501) is used for acquiring the abnormal area, rechecking the abnormal area and generating a rechecking result;

an analysis unit (502) for extracting and analyzing the reinspection result to generate reinspection information;

a judging unit (503) for receiving the review information and making the following judgment on the review information:

if the recheck information shows abnormality, generating error reporting information for qualifying the recheck area as an abnormal area;

if the retest information is displayed normally, generating modification information for re-qualifying the retest area;

a processing unit (504) for receiving error information and change information;

when receiving the error reporting information, acquiring the original abnormal area, generating feedback information and sending the feedback information;

and when the change information is received, acquiring the original abnormal area, re-qualifying the abnormal area into a normal area, forming a restart instruction for continuously detecting the multi-point touch screen, and sending the restart instruction to the detection module (2).

3. The multi-touch screen detection system according to claim 2, wherein the processing module (5) further comprises:

a comparison unit (505) for receiving the feedback information and comparing the feedback information with all information in the question bank; the problem library stores various problems and maintenance measures of the multi-point touch screen;

and the maintenance unit (506) is used for extracting maintenance measures corresponding to the feedback information in the question bank, forming maintenance information and keeping files.

4. A multi-touch screen detection system according to claim 3, wherein the processing module (5) further comprises:

a skipping unit (507) for acquiring the maintenance information, forming skipping information for skipping the corresponding abnormal area and sending the skipping information to the detection module (2);

the cycle inspection unit (508) is used for responding to the detection period set by the tester, forming period information and sending the period information;

the monitoring unit (509) is used for receiving the period information, monitoring whether the detection module (2) stops in a detection period according to the period information, forming a monitoring result and sending the monitoring result;

an ending unit (510) for receiving the monitoring result and making the following judgment:

if the monitoring result is yes, generating re-information for controlling the monitoring unit (509) to re-monitor and sending the re-information to the monitoring unit (509);

and if the monitoring result is negative, generating end information for controlling the detection module (2) to stop working and sending the end information to the detection module (2).

5. A multi-point touch screen detection method is characterized by comprising the following steps:

responding to a detection request input from the outside, forming an operation instruction and sending the operation instruction;

receiving an operation instruction, detecting the multi-point touch screen and generating a detection result;

extracting and analyzing the detection result to generate analysis information;

receiving analysis information, and judging the analysis information as follows:

if the analysis information shows that the analysis information is abnormal, generating abnormal information and sending the abnormal information;

if the analysis information is displayed normally, generating and sending normal information;

receiving abnormal information and normal information;

when receiving the abnormal information, forming and sending a stop instruction for stopping the detection of the multi-point touch screen, and positioning an abnormal area;

when the normal information is received, the normal area is located.

6. The method as claimed in claim 5, wherein when receiving the abnormal information, a stop instruction for stopping the multi-touch screen detection is formed and issued, and the step of locating the abnormal area further comprises:

acquiring an abnormal area, and rechecking the abnormal area to generate a rechecking result;

extracting and analyzing a rechecking result to generate rechecking information;

receiving the reinspection information, and judging the reinspection information as follows:

if the recheck information shows abnormality, generating error reporting information for qualifying the recheck area as an abnormal area;

if the retest information is displayed normally, generating modification information for re-qualifying the retest area;

receiving error reporting information and change information;

when receiving the error reporting information, acquiring the original abnormal area, generating feedback information and sending the feedback information;

and when the change information is received, acquiring the original abnormal area, re-qualifying the abnormal area into a normal area, forming a restart instruction for continuously detecting the multi-point touch screen, and sending the restart instruction.

7. The method as claimed in claim 6, wherein when receiving the abnormal information, a stop instruction for stopping the multi-touch screen detection is formed and issued, and the step of locating the abnormal area further comprises:

receiving feedback information, and comparing the feedback information with all information in the problem library; the problem library stores various problems and maintenance measures of the multi-point touch screen;

and extracting maintenance measures corresponding to the feedback information in the question bank, forming maintenance information and keeping files.

8. The multi-touch screen detection system according to claim 7, wherein when receiving the abnormal information, a stop instruction for stopping the multi-touch screen detection is formed and issued, and the step of locating the abnormal area further comprises:

acquiring maintenance information, forming skipping information for skipping the corresponding abnormal area and sending the skipping information;

responding to a detection period set by a tester, forming period information and sending the period information;

receiving the period information, monitoring whether the detection module stops in a detection period according to the period information, forming a monitoring result and sending the monitoring result;

receiving the monitoring result and making the following judgment:

if the monitoring result is yes, generating and sending out re-information for controlling the monitoring unit to monitor again;

and if the monitoring result is negative, generating and sending end information for controlling the detection module to stop working.

Images