CN110209590B - Automatic testing method and system for intelligent robot - Google Patents
Automatic testing method and system for intelligent robot Download PDFInfo
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- CN110209590B CN110209590B CN201910486139.4A CN201910486139A CN110209590B CN 110209590 B CN110209590 B CN 110209590B CN 201910486139 A CN201910486139 A CN 201910486139A CN 110209590 B CN110209590 B CN 110209590B
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/36—Preventing errors by testing or debugging software
- G06F11/3668—Software testing
- G06F11/3672—Test management
- G06F11/3688—Test management for test execution, e.g. scheduling of test suites
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
Abstract
The invention discloses an intelligent robot-oriented automatic test system, which comprises a central test system and a man-machine interaction display unit, wherein the central test system is in bidirectional connection with the man-machine interaction display unit, the central test system is respectively in bidirectional connection with a network learning adding system, a network test deleting system and a robot function test system, and the central test system is in bidirectional connection with a network database security operation module. According to the intelligent robot-oriented automatic test method and system, the automation degree of the intelligent robot during testing is greatly improved, the system can automatically identify and add the latest test program through a network, and the test program can be automatically uploaded and stored in a database, so that a worker is prevented from manually uploading the test program, and the necessary functional detection of the intelligent robot can be still carried out through the database in the future under the condition of network disconnection.
Description
Technical Field
The invention relates to the technical field of robot testing, in particular to an intelligent robot-oriented automatic testing method and system.
Background
Robots are machine devices that automatically perform work. It can accept human command, run pre-programmed program and act according to the principle set by artificial intelligence technology. Its task is to assist or replace human work, such as in the industry, construction, or dangerous work. The concept of robots has gradually approached unity internationally. In general, it is accepted that robots are machines that perform various functions by their own power and control capabilities.
The existing intelligent robots are often tested according to the set working flow when in factory testing, but the update speed of the robots is too high, new batches of robots often have a plurality of new software functions on the basis of the prior hardware, technical staff are often required to upgrade instructions in a testing module when each new function is added, part of the geographic span of a testing factory is larger, and the upgrade speed is seriously influenced, so that a system capable of automatically upgrading the testing capability of the machine through a network is urgently needed.
Disclosure of Invention
(one) solving the technical problems
Aiming at the defects of the prior art, the invention provides an intelligent robot-oriented automatic testing method and system, which solve the problems that technical staff is often required to upgrade instructions in a testing module when a new function is added to a robot, and the geographic span of part of a testing factory is larger, so that the upgrading speed is seriously influenced.
(II) technical scheme
In order to achieve the above purpose, the invention is realized by the following technical scheme: the automatic test system for the intelligent robot comprises a central test system and a human-computer interaction display unit, wherein the central test system is in bidirectional connection with the human-computer interaction display unit, the central test system is respectively in bidirectional connection with a network learning adding system, a network test deleting system and a robot function test system, the central test system is in bidirectional connection with a network database security operation module, the input end of the central test system is electrically connected with the output end of a power supply module, the central test system is in bidirectional connection with a staff login unit, the network database security operation module is in bidirectional connection with a test program database and a human resource database, the network learning adding system comprises a test program network query unit, a network test program matching unit, a test program persistence unit and a test program log processing unit, the output end of the test program network query unit is connected with the input end of the test program persistence unit, the output end of the test program persistence unit is connected with the input end of the test program log processing unit, and the test program persistence unit is in bidirectional connection with the test program database.
Preferably, the network test deleting system comprises a network test updating unit, a test program eliminating marking unit, a test program manual eliminating unit and a test program eliminating prompting unit, wherein the output end of the network test updating unit is connected with the input end of the test program eliminating marking unit.
Preferably, the output end of the test program elimination marking unit is connected with the input end of the test program manual elimination unit, the output end of the test program manual elimination unit is connected with the input end of the test program elimination prompting unit, and the test program manual elimination unit is in bidirectional connection with the test program database.
Preferably, the robot function test system comprises a hardware interface connection confirmation unit, a test program matching query unit, a test program high-speed loading unit, a robot test feedback unit and a robot test result storage unit, wherein the output end of the hardware interface connection confirmation unit is connected with the input end of the test program matching query unit, and the output end of the test program matching query unit is connected with the input end of the test program high-speed loading unit.
Preferably, the output end of the test program high-speed loading unit is connected with the input end of the robot test feedback unit, the output end of the robot test feedback unit is connected with the input end of the robot test result storage unit, and the test program high-speed loading unit is in bidirectional connection with the test program database.
Preferably, the staff login unit comprises a face mark acquisition module, a face mark confirmation module, a password input confirmation module, a staff authority matching module and a staff login log module, wherein the output end of the face mark acquisition module is connected with the input end of the face mark confirmation module.
Preferably, the output end of the face mark confirmation module is connected with the input end of the password input confirmation module, the output end of the password input confirmation module is connected with the input end of the staff permission matching module, and the output end of the staff permission matching module is connected with the input end of the staff login log module.
The invention also discloses an intelligent robot-oriented automatic test method, which specifically comprises the following steps:
s1, firstly, all staff members transmit own information into a human resource database, a central test system is electrified through a power module, the central test system inquires test programs on a network through a test program network inquiry unit in a network learning and adding system, all inquired test programs are compared with programs which can be operated by the system through a network test program matching unit, then applicable test programs are saved and uploaded to the test program database through a test program persistence unit, and finally the system generates a log through a test program log processing unit and saves the log for later maintenance;
s2, the central test system compares the outdated test programs through a network test updating unit in the network test deleting system, marks the outdated program through a test program eliminating marking unit, and starts a test program manual eliminating unit after marking, so that manual deletion of workers is facilitated, and finally the workers are reminded through a test program eliminating prompting unit according to the deletion condition;
s3, when a worker needs to test the robot, the system starts a face mark acquisition module, the system acquires face images of the worker, then the face mark confirmation module displays the results on the surface of the man-machine interaction display unit, after the worker confirms operation, the system starts a password input confirmation module, after the worker inputs a correct password, the system grants the authority matched with the job of the actual worker to the actual worker through a worker authority matching module, and finally a log is generated and is stored through a worker log module;
s4, after the intelligent robot interface is connected by the staff, the system confirms whether the unit interface is connected with the interface connection type through the hardware interface connection, then the test program to be called is matched through the test program matching inquiring unit, and after the staff confirms through the man-machine interaction display unit, the system downloads the test program in the test program database through the test program high-speed loading unit;
s5, formally starting the test, feeding back and pushing the result in the test to a man-machine interaction display unit through a robot test feedback unit, and finally pushing the feedback result to a network database safe operation module through a central test system through a robot test result storage unit and storing the feedback result into a test program database.
(III) beneficial effects
The invention provides an intelligent robot-oriented automatic test method and system. Compared with the prior art, the method has the following beneficial effects:
(1) According to the intelligent robot-oriented automatic test method and system, through the joint arrangement of the test program network query unit, the network test program matching unit, the test program persistence unit and the test program log processing unit, the automation degree of the intelligent robot during test is greatly improved, the system can automatically identify and add the latest test program through a network, the test program can be automatically uploaded and stored in the database, the manual uploading of the test program by a worker is avoided, the labor intensity is reduced, the necessary functional detection of the intelligent robot still can be carried out through the database under the condition of network disconnection in the future, and the joint arrangement of the network test updating unit, the test program elimination marking unit, the test program manual elimination marking unit and the test program elimination prompting unit enables the system to mark the completely eliminated test program in time under the condition of networking, so that the worker does not have the capability of automatically deleting the program, and the probability of false deletion of the test program is effectively avoided.
(2) According to the intelligent robot-oriented automatic test method and system, the confirmation unit, the test program matching query unit, the test program high-speed loading unit, the robot test feedback unit and the robot test result storage unit are connected through the hardware interface, the system can confirm the connection port of the intelligent robot and the system to further confirm the function to be tested, so that the test program is quickly called through the database, then the intelligent robot is gradually tested, the test process is timely fed back and stored, so that subsequent workers can find the test program, operation automation is realized in the whole process, excessive invalid labor of the workers is greatly avoided, and the test efficiency is improved.
(3) According to the intelligent robot-oriented automatic testing method and system, the staff in each test can be effectively confirmed by the face mark collecting module, the face mark confirming module, the password input confirming module, the staff authority matching module and the staff logging module, proper authorities are distributed according to the levels of staff, the working efficiency can be guaranteed, the privacy of the working properties of the staff at the upper level can be effectively guaranteed, and the working records can be saved through the logs so as to facilitate subsequent follow-up.
Drawings
FIG. 1 is a schematic block diagram of a system of the present invention;
FIG. 2 is a schematic block diagram of the network learning addition system of the present invention;
FIG. 3 is a schematic block diagram of a network test deletion system according to the present invention;
FIG. 4 is a schematic block diagram of a robot functional test system of the present invention;
fig. 5 is a schematic block diagram of a worker registration unit according to the present invention.
In the figure, a 1-central test system, a 2-man-machine interaction display unit, a 3-network learning addition system, a 31-test program network query unit, a 32-network test program matching unit, a 33-test program persistence unit, a 34-test program log processing unit, a 4-network test deletion system, a 41-network test update unit, a 42-test program elimination marking unit, a 43-test program manual elimination unit, a 44-test program elimination prompting unit, a 5-robot function test system, a 51-hardware interface connection confirmation unit, a 52-test program matching query unit, a 53-test program high-speed loading unit, a 54-robot test feedback unit, a 55-robot test result storage unit, a 6-network database security operation module, a 7-power module, an 8-staff login unit, an 81-face mark acquisition module, an 82-face mark confirmation module, an 83-password input confirmation module, an 84-staff authority matching module, an 85-staff login log module, a 9-resource manual database and a 10-test program database are shown.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-5, the embodiment of the present invention provides a technical solution: an intelligent robot-oriented automatic test system comprises a central test system 1 and a man-machine interaction display unit 2, wherein the central test system 1 is in bidirectional connection with the man-machine interaction display unit 2, the central test system 1 is respectively in bidirectional connection with a network learning adding system 3, a network test deleting system 4 and a robot function test system 5, the central test system 1 is in bidirectional connection with a network database security operation module 6, the input end of the central test system 1 is electrically connected with the output end of a power module 7, the central test system 1 is in bidirectional connection with a staff login unit 8, the network database security operation module 6 is in bidirectional connection with a test program database 10 and a human resource database 9, the network learning adding system 3 comprises a test program network query unit 31, a network test program matching unit 32, a test program persistence unit 33 and a test program log processing unit 34, the output end of the test program network query unit 31 is connected with the input end of the network test program matching unit 32, the output end of the network test program matching unit 32 is connected with the input end of the test program persistence unit 33, the output end of the test program persistence unit 33 is connected with the test program elimination unit 43, the network program elimination unit 4 is connected with the network program elimination unit 41, the network program elimination unit is connected with the network program elimination unit 41, the network program is updated by the manual update unit 42, the output end of the test program eliminating marking unit 42 is connected with the input end of the test program manual eliminating unit 43, the output end of the test program manual eliminating unit 43 is connected with the input end of the test program eliminating prompting unit 44, the test program manual eliminating unit 43 is connected with the test program database 10 in a bidirectional way, the joint arrangement of the confirmation unit 51, the test program matching inquiry unit 52, the test program high-speed loading unit 53, the robot test feedback unit 54 and the robot test result storage unit 55 is realized through the hardware interface connection, the system can confirm the function required to be tested by confirming the connection port of the intelligent robot and the system, so that the test program is quickly acquired through the database, then the intelligent robot is gradually tested, the test process is timely fed back and stored, the subsequent worker searches, the whole process realizes the operation automation, the robot function test system 5 includes a hardware interface connection confirming unit 51, a test program matching inquiring unit 52, a test program high-speed loading unit 53, a robot test feedback unit 54 and a robot test result saving unit 55, the output end of the hardware interface connection confirming unit 51 is connected with the input end of the test program matching inquiring unit 52, the output end of the test program matching inquiring unit 52 is connected with the input end of the test program high-speed loading unit 53, the output end of the test program high-speed loading unit 53 is connected with the input end of the robot test feedback unit 54, the output end of the robot test feedback unit 54 is connected with the input end of the robot test result saving unit 55, the test program high-speed loading unit 53 is connected with the test program database 10 in two directions, the staff login unit 8 comprises a face mark acquisition module 81, a face mark confirmation module 82, a password input confirmation module 83, a staff permission matching module 84 and a staff login log module 85, wherein the output end of the face mark acquisition module 81 is connected with the input end of the face mark confirmation module 82, the output end of the face mark confirmation module 82 is connected with the input end of the password input confirmation module 83, the output end of the password input confirmation module 83 is connected with the input end of the staff permission matching module 84, and the output end of the staff permission matching module 84 is connected with the input end of the staff login log module 85.
The invention also discloses an intelligent robot-oriented automatic test method, which specifically comprises the following steps:
s1, firstly, all staff members transmit own information into a human resource database 9, the central test system 1 is electrified through a power module 7, the central test system 1 inquires test programs on a network through a test program network inquiry unit 31 in a network learning and adding system 3, all inquired test programs are compared with programs which can be operated by the system through a network test program matching unit 32, then the applicable test programs are saved and uploaded to a test program database 10 through a test program persistence unit 33, and finally the system generates a log through a test program log processing unit 34 and saves the log for later maintenance;
s2, the central test system 1 compares outdated test programs through a network test updating unit 41 in the network test deleting system 4, then marks the outdated programs through a test program elimination marking unit 42, and after marking, the system starts a test program manual elimination unit 43, so that manual deletion of workers is facilitated, and finally, the workers are reminded according to the deletion condition through a test program elimination prompting unit 44;
s3, when a worker needs to test the robot, the system starts a face mark acquisition module 81, the system acquires face images of the worker, then the face mark confirmation module 82 displays the results on the surface of the man-machine interaction display unit 2, after the worker confirms operation, the system starts a password input confirmation module 83, after the worker inputs a correct password, the system grants the authority matched with the job of the worker to the actual worker through a worker authority matching module 84, and finally a log is generated and stored through a worker log-in module 85;
s4, after the intelligent robot interface is connected by the staff, the system confirms whether the interface is connected with the interface connection type through the hardware interface connection confirming unit 51, then the test program to be called is matched through the test program matching inquiring unit 52, and after the staff confirms through the man-machine interaction display unit 2, the system downloads the test program in the test program database 10 through the test program high-speed loading unit 53;
and S5, formally starting the test, feeding back and pushing the result during the test to the man-machine interaction display unit 2 through the robot test feedback unit 54, and finally pushing the feedback result to the network database security operation module 6 through the central test system 1 through the robot test result storage unit 55, and storing the feedback result in the test program database 10.
It is noted that 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. Moreover, 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.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides an automatic test system towards intelligent robot, includes central test system (1) and human-computer interaction display element (2), central test system (1) realizes two-way connection with human-computer interaction display element (2), its characterized in that: the central test system (1) is respectively connected with the network learning adding system (3), the network test deleting system (4) and the robot function test system (5) in a bidirectional manner, the central test system (1) compares outdated test programs through a network test updating unit (41) in the network test deleting system (4), then marks outdated programs through a test program elimination marking unit (42), the system starts a test program manual elimination unit (43) after marking, manual deletion is convenient for workers, finally the workers are reminded according to the deletion condition through a test program elimination prompting unit (44), the input end of the central test system (1) is electrically connected with the output end of a power module (7), the central test system (1) is connected with a worker login unit (8) in a bidirectional manner, the network database security operation module (6) is connected with a test program database (10) and a manpower database (9), the network learning adding system (3) comprises a test program adding unit (31), a network database security operation module (34) and a persistent query program (32), the output end of the test program network query unit (31) is connected with the input end of the network test program matching unit (32), the output end of the network test program matching unit (32) is connected with the input end of the test program persistence unit (33), the output end of the test program persistence unit (33) is connected with the input end of the test program log processing unit (34), the test program persistence unit (33) is in bidirectional connection with the test program database (10), the central test system (1) queries the test program on the network through the test program network query unit (31) in the network learning addition system (3), all the queried test programs are compared with programs which can be operated by the system through the network test program matching unit (32), then the applicable test program is saved and uploaded to the test program database (10) through the test program persistence unit (33), and finally the system generates a log through the test program log processing unit (34) and saves the log so as to be convenient for later maintenance.
2. An intelligent robot-oriented automated test system of claim 1, wherein: the network test deleting system (4) comprises a network test updating unit (41), a test program elimination marking unit (42), a test program manual elimination unit (43) and a test program elimination prompting unit (44), wherein the output end of the network test updating unit (41) is connected with the input end of the test program elimination marking unit (42).
3. An intelligent robot-oriented automated test system according to claim 2, wherein: the output end of the test program elimination marking unit (42) is connected with the input end of the test program manual elimination unit (43), the output end of the test program manual elimination unit (43) is connected with the input end of the test program elimination prompting unit (44), and the test program manual elimination unit (43) is in bidirectional connection with the test program database (10).
4. An intelligent robot-oriented automated test system of claim 1, wherein: the robot function test system (5) comprises a hardware interface connection confirmation unit (51), a test program matching query unit (52), a test program high-speed loading unit (53), a robot test feedback unit (54) and a robot test result storage unit (55), wherein the output end of the hardware interface connection confirmation unit (51) is connected with the input end of the test program matching query unit (52), and the output end of the test program matching query unit (52) is connected with the input end of the test program high-speed loading unit (53).
5. An intelligent robot-oriented automated test system according to claim 4, wherein: the output end of the test program high-speed loading unit (53) is connected with the input end of the robot test feedback unit (54), the output end of the robot test feedback unit (54) is connected with the input end of the robot test result storage unit (55), and the test program high-speed loading unit (53) is in bidirectional connection with the test program database (10).
6. An intelligent robot-oriented automated test system of claim 1, wherein: the staff login unit (8) comprises a face mark acquisition module (81), a face mark confirmation module (82), a password input confirmation module (83), a staff permission matching module (84) and a staff login log module (85), and the output end of the face mark acquisition module (81) is connected with the input end of the face mark confirmation module (82).
7. An intelligent robot-oriented automated test system according to claim 6, wherein: the output end of the face mark confirmation module (82) is connected with the input end of the password input confirmation module (83), the output end of the password input confirmation module (83) is connected with the input end of the staff permission matching module (84), and the output end of the staff permission matching module (84) is connected with the input end of the staff login log module (85).
8. An intelligent robot-oriented automated testing method of the system of any of claims 1-7, wherein: the testing method specifically comprises the following steps:
s1, firstly, all staff transmit own information into a human resource database (9), power on a central test system (1) through a power module (7), the central test system (1) inquires test programs on a network through a test program network inquiry unit (31) in a network learning and adding system (3), the inquired test programs are compared with programs which can be operated by the system through a network test program matching unit (32), then applicable test program storage is uploaded to a test program database (10) through a test program persistence unit (33), and finally the system generates a log through a test program log processing unit (34) and stores the log for later maintenance;
s2, the central test system (1) compares outdated test programs through a network test updating unit (41) in the network test deleting system (4), then marks the outdated test programs through a test program elimination marking unit (42), the system starts a test program manual elimination unit (43) after marking, manual deletion of workers is facilitated, and finally a prompt unit (44) reminds the workers according to the deletion condition;
s3, when a worker needs to test the robot, the system starts a face mark acquisition module (81), the system acquires face images of the worker, then the face mark confirmation module (82) displays the results on a panel of the man-machine interaction display unit (2), after the worker confirms operation, the system starts a password input confirmation module (83), after the worker inputs a correct password, the system grants the authority matched with the job of the worker to the actual worker through a worker authority matching module (84), and finally a log is generated and stored through a worker log-in module (85);
s4, after the intelligent robot interface is connected by a worker, the system is connected with a confirmation unit (51) through a hardware interface to confirm whether the interface is connected with the interface connection type, then the test program to be called is matched through a test program matching inquiry unit (52), and after the worker is confirmed through a man-machine interaction display unit (2), the system downloads the test program in a test program database (10) through a test program high-speed loading unit (53);
s5, formally starting a test, feeding back and pushing a result during the test to a man-machine interaction display unit (2) through a robot test feedback unit (54), and finally pushing the feedback result to a network database security operation module (6) through a central test system (1) through a robot test result storage unit (55) and storing the feedback result into a test program database (10).
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