CN106603789A - Method and system to increase equipment testing efficiency - Google Patents

Method and system to increase equipment testing efficiency Download PDF

Info

Publication number
CN106603789A
CN106603789A CN201611140567.4A CN201611140567A CN106603789A CN 106603789 A CN106603789 A CN 106603789A CN 201611140567 A CN201611140567 A CN 201611140567A CN 106603789 A CN106603789 A CN 106603789A
Authority
CN
China
Prior art keywords
test
execution
resurveying
group
grade
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201611140567.4A
Other languages
Chinese (zh)
Inventor
常培文
贾冬晓
周忠选
邱保锦
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hisense Mobile Communications Technology Co Ltd
Original Assignee
Hisense Mobile Communications Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hisense Mobile Communications Technology Co Ltd filed Critical Hisense Mobile Communications Technology Co Ltd
Priority to CN201611140567.4A priority Critical patent/CN106603789A/en
Publication of CN106603789A publication Critical patent/CN106603789A/en
Pending legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/24Arrangements for testing

Landscapes

  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The invention discloses a method and system to increase equipment testing efficiency with the object of solving the technical problems of low testing efficiency incurred from repeated testing of some testing items in a one-stop testing mode. According to the invention, each testing item is assigned with an execution level; based on the execution levels, all the testing items are classified; based on the repeated measurement weight of each testing item, an execution order is set for all testing items in the classifications; targeted for one testing device and based on the execution order of all execution levels as well as the execution order of all the testing items in the execution level classifications, the testing of all testing items are executed. According to the invention, for a testing device, testing is performed generally according to the execution level order; and in the classification of the same execution level, the testing items with high repeated measurement rate are tested in advance; therefore, when there are cases where repeated measurement is needed, the testing time devoted on the repeated testing items is shortened and the testing efficiency is increased in general.

Description

The method and system of raising equipment testing efficiency
Technical field
The invention belongs to mobile phone test technical field, is to be related to a kind of method of raising equipment testing efficiency specifically And system.
Background technology
At present, 4G smart mobile phones support multiple types:CDMA、GSM、TD-SCDMA、WCDMA、LTE TDD、LTE FDD、 WIFI, GPS etc..
4G smart mobile phones in process of production, for multiple types, need to test the PCB main board of mobile phone, at present Testing scheme be typically:It is divided into multiple stations according to standard to be tested, each station is responsible for carrying out a kind of test of standard, This test is advantageous in that, when the test of certain standard error occurs and needs to resurvey, the height of rate of resurveying can only affect list Individual station, the test without affecting other stations, but this test the disadvantage is that, multiple stations take instrument, frock and The resources such as test manpower are relatively more, cause complicated test and management, high cost and very flexible, testing efficiency and artificial production capacity all to compare It is relatively low.
Compared to the test mode that multistation is divided according to standard, by detected PCB according to test plan in a station Upper order carries out the calibration of multi-standard and non-signaling test, is streamlining management and the ideal style for reducing testing cost, this side The test executive sequence of formula is usually:After the completion of test equipment opening initialization, it is directed in test station according to test plan Multiple test items of multiple types perform in order test;But there are the following problems for the mode of this one-stop test:In order In test process, when some test items of certain standard need to resurvey, need to turn back on initialization for an equipment, and According to test plan test is performed again after the completion of initialization, this explanation, for the front sequence in the test item resurveyed is performed Test item there is a problem of testing repeatedly, and the test of this part is unnecessary, especially in the rate of resurveying of some test items When higher, the technical problem that test instrumentation testing efficiency can be caused low.
The content of the invention
This application provides a kind of method and system of raising equipment testing efficiency, solves existing one-stop test mode In resurveyed the technical problem for causing testing efficiency low due to some test events.
To solve above-mentioned technical problem, the application is employed the following technical solutions and is achieved:
A kind of method of raising equipment testing efficiency is proposed, including:Grade is performed for each test event distribution, and is pressed All test events are grouped according to grade is performed;It is each test event distribution in group for the packet of each execution grade Execution sequence in group;Wherein, resurvey rate weight setting of the execution sequence according to each test event in described group;For a survey Examination equipment, the execution sequence and execution in the group of each test event in the packet of each execution grade based on each execution grade Sequentially, the test of all test events is performed.
A kind of system of raising equipment testing efficiency is proposed, including performs grade distribute module, grouping module, test event Execution sequence setting module and testing execution module in group;The execution grade distribute module, for for each test event Distribution performs grade;The grouping module, for matching somebody with somebody the execution grade of module assignment according to the execution ranking score, will be all of Test event is grouped;Execution sequence setting module in the test event group, is group for performing the packet of grade for each Execution sequence in each interior test event distribution group, wherein, execution sequence resurveying according to each test event in described group Rate weight setting;The testing execution module, for for a test equipment, execution sequence based on each execution grade and Execution sequence in the group of each test event, performs the test of all test events in the packet of each execution grade.
Compared with prior art, the advantage and good effect of the application is:The raising equipment testing efficiency that the application is proposed Method and system in, perform grade to the distribution of all of test event, and according to performing grade by all of test event point Group, each is performed in the packet of grade, is included with the multiple test events for performing grade;Performing for a test equipment During test, firstly for the packet of multiple execution grades, each packet is performed in order according to the execution sequence for performing grade Test event, and for the multiple test events in a packet, based on execution sequence in rate weight setting group of resurveying, performing During to this group, each test event in the group performs test according to execution sequence in group;Under this mode for performing test, respectively Individual packet is sequentially carried out according to grade is performed, and in being grouped, is performed according to execution sequence in the group based on rate weight setting of resurveying Test so that the execution to test event is carried out based on the rate of resurveying of test event, the test event high for the rate of resurveying Test is first carried out, the low test event of rate of resurveying then is performed, the advantage that the high test event of rate of resurveying is first carried out is, if needing Resurvey, come and perform the relatively low test event of rate of resurveying of test thereafter and be also not carried out test, when provide further relative savings test Between, and after test equipment opening initialization is completed when retesting, still first carry out the high test event of the rate of resurveying, The testing time spent in the test event that need not be resurveyed is reduced, when this can reduce the integrated testability for completing test equipment Between, so improve testing efficiency on the whole, solve in existing one-stop test mode because some test events are resurveyed Cause the technical problem that testing efficiency is low.
After the detailed description of the application embodiment is read in conjunction with the accompanying, other features of the application and advantage will become more Plus it is clear.
Description of the drawings
Fig. 1 is the flow chart of the method for the raising equipment testing efficiency that the application is proposed;
Fig. 2 is the system block diagram of the system of the raising equipment testing efficiency that the application is proposed.
Specific embodiment
The specific embodiment of the application is described in more detail below in conjunction with the accompanying drawings.
The method of the raising equipment testing efficiency that the application is proposed, as shown in figure 1, comprising the steps:
Step S11:Grade is performed for each test event distribution, and divides all test events according to grade is performed Group.
In the embodiment of the present application, each step is explained as a example by testing one and there is the smart mobile phone of multi-standard. The smart mobile phone multiple types such as including CDMA, GSM, TD-SCDMA, LTE, the test of each standard corresponds to a test item Mesh, removes the test event for standard, for the test event of a smart mobile phone also includes the public initialization of mobile phone, mobile phone Update various test events such as BNO numbers and release.
When grade is performed for each test event distribution, according to following policy setting:1st, from performing grade one to holding Row grade N, performing grade reduces successively, namely the test event of execution grade one is performed at first, performs the test item of grade two Mesh is carried out after the test event for performing grade one is completed ... ..., by that analogy;2nd, grade N-1 is performed than performing grade N Test event first carries out and will not bypass the immediate leadership execution.
The actual motion of the basic of distribution actual test demand and smart mobile phone that perform grade requires setting, the application reality Apply example not to limit.If following table is so that in shown embodiment, start detection, the public initialization of mobile phone and mobile phone update No. BNO Code and release are assigned to perform grade one, and these test events perform at first test;CDMA calibrations, LTE are calibrated, TD is calibrated, And GSM calibrations are assigned to perform grade two, these test events perform survey after the completion of the test event for performing grade one Examination;TD NS (non-signaling), LTE NS, CDMA NS and GSM NS are assigned to perform grade three, and these test events are being held Test is performed after the completion of the test event of row grade two.
After grade is performed for the distribution of all of test event, the test event for being assigned as identical execution grade is classified as One group, as a example by following table:
Table one:
As shown in Table 1, all test events for performing grade one are divided into one group, perform all test events of grade two It is divided into one group, all test events for performing grade three are divided into one group.
Step S12:It is execution sequence in each test event distribution group in group for the packet of each execution grade; Wherein, resurvey rate weight setting of the execution sequence according to each test event in organizing.
Step S13:For a test equipment, the execution sequence based on each execution grade divides with each execution grade Execution sequence in the group of each test event in group, performs the test of all test events.
When testing a test equipment on a station, according to the packet for performing grade, detection first performs grade one The test event of packet, after the completion of the test event detection for performing the packet of grade one, detection performs the test of the packet of grade two Project, after the completion of the test event detection for performing the packet of grade two, detection performs the test event of the packet of grade three.
When the test event that performs hierarchal grouping is detected, with each test event in packet according to execution in group Sequence detection.Resurvey rate weight setting of the execution sequence according to each test event in the group.The rate weight of resurveying is according to setting What the detection data of individual several test equipment samples came out, characterization test project is resurveyed the parameter of rate height;Detection data Include number of times that each test event resurveyed in a test equipment sample or in probability, a test can be characterized Resurvey rate of the project in numerous test samples, rate of resurveying is higher, and the rate weight of resurveying of its accounting is higher, and corresponding weighted value is got over Height, vice versa.
By taking the test data using 100 test equipments as an example, in each test event for performing grade two, to CDMA The rate weighted value of resurveying for calibrating statistics is 10, and the rate weighted value of resurveying that statistics is calibrated to LTE is 4.5, and to TD the weight for counting is calibrated Survey rate weighted value is 3.8, and that statistics is calibrated to GSM resurveys rate weighted value for 8.2;In each test event for performing grade three In, it is 2.1 to the rate weighted value of resurveying of TD NS performance statisticses, it is 2.4 to the rate weighted value of resurveying of LTE NS performance statisticses, it is right The rate weighted value of resurveying of CDMA NS performance statisticses is 0.9, and rate weighted value is resurveyed for 1.8 to GSM NS performance statisticses.According to weight The execution sequence of each test event in same group is waken up with a start sequence by the size of survey rate weighted value, and the execution sequence after sequence is as follows Shown in the numeral of the right column of table two:
Table two:
As shown in Table 2, in for the test execution of a test equipment, on big execution direction, according to execution grade Sequence successively detection perform grade one test event, perform grade two test event and perform grade three test item Mesh, and in the packet of same execution grade, each test event is performed successively according to a group build-in test order.Among these, in organizing Execution sequence is the rate weight setting of resurveying according to test event, and the high test event of rate of resurveying weight preferentially performs test, The low test event of rate of resurveying weight is placed on after the high test event of rate weight of resurveying has been performed and performs test.
Certainly, in multiple execution hierarchal groupings, the execution sequence of the multiple test events in each packet is not limited Setting, or permanent order, such as in the packet of the execution grade one in table two, namely perform excellent according to from survey rate weight First level highest is performed in the packet of grade, and each test item performs in a fixed order test.
In practical application, a test event also then when statistics resurveys rate weight, can be adopted comprising many sub- test events Carry out with the following methods:For each test event, the rate of resurveying of its each sub- test event is counted;With each self-test project Rate sum of resurveying as the rate weight of resurveying of the test event.Then, then by all test events according to the rate weight row that resurveys Sequence, and execution sequence in group of each test event in group is set based on sequence.Each sub- test event is in its test event In detection ordering not limit.
By taking 11 test events that table one is given as an example, using a station one mobile phone is surveyed according to prior art During examination, the time that whole machine completes to test in the case of hypothesis testing is RT11+RT12+RT1+TR21+ ...+RT24+RT31+ ... + RT34, hypothesis testing situation here refers to that none of test event needs to resurvey, and RT11, RT12, RT13 are respectively Three test events test consuming time of grade one is performed, RT21, RT22, RT23, RT24 respectively perform the four of grade two Individual test event is tested the consuming time, and RT31, RT32, RT33, RT34 respectively perform four test events test of grade three The consuming time.
Among these, if the test event 4 for performing grade two has been resurveyed twice, according to prior art, when test execution is arrived Error termination is tested out during the test event 4 for performing grade two, then needs to restart mobile phone from the test item for performing grade one Mesh 1 starts to test one by one, if all of test event of second test process is all completed, for the mobile phone, completes to survey The time that examination is used is 2*RT11+2*RT12+2*RT1+2*TR21+ ...+2*RT24+RT31+ ...+RT34.
Example is performed as described above, after the method for raising equipment detection efficiency for employing the application proposition, grade two is performed Execution sequence is ordered as 2 in group of the test event 4 in group, then for the mobile phone, it is 2* to complete to test the time for using RT11+2*RT12+2*RT1+2*TR21+2*TR24+TR22+TR23+……+RT31+……+RT34。
Compare using prior art complete test time and using the present processes complete test time, the application Testing time saves the time of RT22+RT23.
It can be seen that, the method for the raising equipment testing efficiency that the application is proposed, using resurveying, the high test event of rate is first carried out Advantage be if desired to resurvey, come and perform the relatively low test event of rate of resurveying of test thereafter and be also not carried out test, phase To saving the testing time, and after test equipment opening initialization is completed when retesting, still first carry out the rate of resurveying High test event, the testing time spent in the test event that need not be resurveyed is reduced, and this can reduce and complete a test The integrated testability time of equipment, so improve testing efficiency on the whole, solve in existing one-stop test mode due to Some test events are resurveyed the technical problem for causing testing efficiency low.
In above-mentioned the application, the rate weight of resurveying is come out according to the test data of the several test equipment samples of setting , therefore in test process, a test equipment is not tested, all test datas related to test are recorded in memory So that statistics is used, or, test data can also be uploaded to cloud platform, server etc., when statistics is needed, from storage Device, cloud platform or server read test data are used to count, or have cloud platform or server statistics etc., and the application is implemented It will not go into details for example.
With the continuous accumulation of test equipment sample, can adopt real-time update resurvey rate weight method with reality of fitting Test case is improving motility and the accuracy of test.For example, 100 test equipment samples are set once to count node, After the test data of 100 test equipments of every accumulation, the test data of 100 test equipments of state-of-the-art record is obtained, be based on The test data of this 100 test equipments counts the statistics of each test event and resurveys rate weight, and is resurveyed rate using the statistics Weight is accomplished that to be updated according to practical situation Auto-matching and performs each test item in hierarchal grouping updating rate weight of resurveying Purpose group build-in test order, can not only so improve the testing time of test equipment, moreover it is possible to reduce resurveying for test equipment entirety Rate, so as to play the technique effect for promoting to improve production capacity.
Come to using this with overall equipment efficiency.comprehensive efficiency of equipment (Overall Equipment Effectiveness, abbreviation OEE) below The method testing effect of the raising equipment testing efficiency that application is proposed makes assessment.
Typically, each production equipment has the theoretical production capacity of oneself, to realize that this theoretical production capacity must assure that do not have Any interference and mass loss, OEE is exactly the ratio for the actual production capacity of graticule relative to theoretical production capacity.OEE be by Availability, three key element compositions of expression power and performance figure:OEE=availabilitys * show index * performance figures.
For this case, each one-stop test station is equivalent to a production equipment.Assume one-stop test station Working time be 24 hours because relief plan shut down 2 hours, the same day, this station completed altogether the detection of 600 test equipments, It is pre- to need to resurvey because of a certain test event in respect of 15 test equipments.This one-stop test station is needed for a test equipment The test of 8 test events is carried out, distribution situation statistics obtains rate weight of resurveying, the test of each test event according to resurveying Time average is 15 seconds.Under extreme case, it is assumed that 15 resurveying for test equipment all appear in last test event.
Then, under the test mode using prior art, the time loss caused by resurveying is the 15*7*15=1575 seconds; The scenario test time is (24-2) * 60=1320 minutes, and actual run time is 1320+1575/60=1346.25 minutes, can It is 1320/1346.25=0.981 with rate, performance index is 600*15*8/60/1346.25=0.891, performance figure is (600-15)/600=0.975;Then OEE=0.981*0.891*0.975=0.852.
Using under the method for testing that this case is proposed, the high test event of rate of resurveying can be reordered as first test item Mesh is performed, and now, the time loss caused by resurveying is the 15*1*15=255 seconds, it is seen then that drawn by resurveying after adjustment execution sequence The time loss for rising is substantially reduction, so as to cause the raising of actual run time and availability:Actual run time is 1320+ 225/60=1323.75 minutes, availability is 1320/1323.75=0.997, and performance index is 600*15*8/60/1323.75 =0.907, performance figure is (600-15)/600=0.975;Then OEE=0.997*0.907*0.975=0.882.
Above-mentioned visible, after the method for the raising equipment testing efficiency proposed using the application, OEE is significantly improved, it was demonstrated that made The method of testing proposed with the application realizes the technique effect of raising equipment testing efficiency.
Based on the method for raising equipment testing efficiency set forth above, the application also proposes a kind of raising equipment testing efficiency System, as shown in Fig. 2 the system include performing grade distribute module 21, grouping module 22, execution sequence in test event group Setting module 23 and testing execution module 24.
Performing grade distribute module 21 is used to perform grade for each test event distribution;Grouping module 22 be used for according to Execution grade of the ranking score with module assignment is performed, by the packet of all of test event;Execution sequence setting in test event group Module 23 is used for the packet for each execution grade, is execution sequence in each test event distribution group in group, wherein, group Resurvey rate weight setting of the interior execution sequence according to each test event;Testing execution module 24 is used to be set for a test It is standby, perform in group of each test event in performing the execution sequence of grade and the packet of each execution grade based on each suitable Sequence, performs the test of all test events.
Execution sequence setting module 23 specifically includes rate statistic unit 231, test event of resurveying and resurveys in test event group Execution sequence setup unit 234 and the interior execution sequence of group in rate weight calculation unit 232, rate of resurveying weight sequencing unit 233, group Second setup unit 235;Rate of resurveying statistic unit 231 is used to be directed to each test event, counts its each sub- test event Resurvey rate;Test event resurveys rate weight calculation unit 232 for using the rate sum of resurveying of each sub- test event as test The rate weight of resurveying of project;Rate of resurveying weight sequencing unit 233 is used for all test events according to rate weight sequencing of resurveying;Group Interior execution sequence setup unit 234 is used for based on execution sequence in rate weight sequencing setting group of resurveying;Execution sequence second in group Each test item that setup unit 235 is used to set in the packet of execution priority highest execution grade is held in a fixed order Row test.
The system also includes memory module 25 and/or cloud platform 26;Memory module 25 is used to record the test of test equipment Data;Cloud platform 26 is used to receiving and storing the test data of the test equipment uploaded by testing execution module 24.
The system also includes rate weight update module 27 of resurveying;Rate of resurveying weight update module 27 is used for from memory module 25 And/or cloud platform 26 obtains the test data of the several test equipments of setting, and based on test data each test event is counted Statistics is resurveyed rate weight, and updates rate weight of resurveying using statistics rate weight of resurveying.
The test mode of the system of above-mentioned raising equipment testing efficiency is in the method for aforementioned raising equipment testing efficiency Middle detailed description, herein it will not go into details.
The method and system of the raising equipment testing efficiency that the application is proposed, the test to a test equipment, on the whole Test is performed according to hierarchal order is performed, in the packet of same execution grade, each test event is according to execution sequence in group Test is performed successively, and based on rate weight setting of resurveying, the test event high for the rate of resurveying is first carried out execution sequence in group Test, then performs the low test event of rate of resurveying, if there is the test event for needing to resurvey, comes the weight for performing test thereafter The relatively low test event of survey rate be also not carried out test, after test equipment opening initialization is completed when retesting, The testing time spent in the test event that need not be resurveyed is reduced, when this can reduce the integrated testability for completing test equipment Between, so testing efficiency is improve on the whole.
It should be noted that described above is not limitation of the present invention, the present invention is also not limited to the example above, Change, remodeling, addition or replacement that those skilled in the art are made in the essential scope of the present invention, also should Belong to protection scope of the present invention.

Claims (10)

1. the method for improving equipment testing efficiency, it is characterised in that include:
Grade is performed for each test event distribution, and is grouped all test events according to grade is performed;
It is execution sequence in each test event distribution group in group for the packet of each execution grade;Wherein, in described group Resurvey rate weight setting of the execution sequence according to each test event;
For a test equipment, the execution sequence and each test in the packet of each execution grade based on each execution grade Execution sequence in the group of project, performs the test of all test events.
2. the method for raising equipment testing efficiency according to claim 1, it is characterised in that described for each execution etc. The packet of level, is execution sequence in each test event distribution group in group, specially:
For each test event, the rate of resurveying of its each sub- test event is counted;
Rate sum of resurveying using each sub- test event is used as the rate weight of resurveying of the test event;
By all test events according to rate weight sequencing of resurveying;
Execution sequence in described group is set based on the rate weight sequencing of resurveying.
3. the method for raising equipment testing efficiency according to claim 1 and 2, it is characterised in that performing all tests After the test of project, methods described also includes:
Record and/or upload the test data of the test equipment.
4. the method for raising equipment testing efficiency according to claim 3, it is characterised in that each test in for group In allocation of items group before execution sequence, methods described also includes:
Obtain the test data of the several test equipments of setting;
Based on the test data, the statistics for counting each test event is resurveyed rate weight;
Rate weight of resurveying described in the renewal of rate weight of resurveying is counted using described.
5. the method for raising equipment testing efficiency according to claim 1 and 2, it is characterised in that for each execution etc. The packet of level, is execution sequence in each test event distribution group in group, is specifically also included:
Each test item that setting execution priority highest is performed in the packet of grade performs in a fixed order test.
6. the system for improving equipment testing efficiency, it is characterised in that including execution grade distribute module, grouping module, test item Execution sequence setting module and testing execution module in mesh group;
The execution grade distribute module, for performing grade for each test event distribution;
The grouping module, for according to the execution grade of the execution ranking score with module assignment, by all of test event Packet;
Execution sequence setting module in the test event group, for being each in group for packet of each execution grade Execution sequence in test event distribution group, wherein, execution sequence sets according to the rate weight of resurveying of each test event in described group It is fixed;
The testing execution module, for for a test equipment, being held with each based on the execution sequence of each execution grade Execution sequence in the group of each test event in the packet of row grade, performs the test of all test events.
7. the system of raising equipment testing efficiency according to claim 6, it is characterised in that hold in the test event group Row order setting module, specifically include resurvey rate statistic unit, test event resurvey rate weight calculation unit, rate of resurveying weight row Execution sequence setup unit in sequence unit and group;
The rate statistic unit of resurveying, for for each test event, counting the rate of resurveying of its each sub- test event;
The test event is resurveyed rate weight calculation unit, for using the rate sum of resurveying of each sub- test event as the survey The rate weight of resurveying of examination project;
The rate weight sequencing unit of resurveying, for by all test events according to rate weight sequencing of resurveying;
Execution sequence setup unit in described group, for setting execution sequence in described group based on the rate weight sequencing of resurveying.
8. according to claim 6 or 7 raising equipment testing efficiency system, it is characterised in that the system also includes Memory module and/or cloud platform;
The memory module, for recording the test data of the test equipment;
The cloud platform, for receiving and storing the test data of the test equipment of upload.
9. the system of raising equipment testing efficiency according to claim 8, it is characterised in that the system also includes resurveying Rate weight update module;The rate weight update module of resurveying, sets for obtaining from the memory module and/or the cloud platform The test data of fixed several test equipments, the statistics for counting each test event based on the test data is resurveyed rate weight, And count rate weight of resurveying described in the renewal of rate weight of resurveying using described.
10. according to claim 6 or 7 raising equipment testing efficiency system, it is characterised in that the test event group Interior execution sequence setting module also includes the setup unit of execution sequence second in group;
The setup unit of execution sequence second in described group, performs each in the packet of grade for setting execution priority highest Individual test item performs in a fixed order test.
CN201611140567.4A 2016-12-12 2016-12-12 Method and system to increase equipment testing efficiency Pending CN106603789A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201611140567.4A CN106603789A (en) 2016-12-12 2016-12-12 Method and system to increase equipment testing efficiency

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201611140567.4A CN106603789A (en) 2016-12-12 2016-12-12 Method and system to increase equipment testing efficiency

Publications (1)

Publication Number Publication Date
CN106603789A true CN106603789A (en) 2017-04-26

Family

ID=58597558

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201611140567.4A Pending CN106603789A (en) 2016-12-12 2016-12-12 Method and system to increase equipment testing efficiency

Country Status (1)

Country Link
CN (1) CN106603789A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112559265A (en) * 2020-12-07 2021-03-26 深圳市鼎峰智能技术有限公司 Testing method based on big data intelligent optimization

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102214139A (en) * 2011-06-01 2011-10-12 北京航空航天大学 Automatic test performance control and debugging method facing distributed system
US20120095718A1 (en) * 2010-10-18 2012-04-19 Delta Electronics, Inc. Automatic testing system and method
CN102495804A (en) * 2011-12-27 2012-06-13 创新科存储技术(深圳)有限公司 Automatic software testing method
CN104346243A (en) * 2013-07-30 2015-02-11 旭达电脑(昆山)有限公司 System for automatic adjustment of main board testing process and implement method thereof
CN104363324A (en) * 2014-11-20 2015-02-18 惠州Tcl移动通信有限公司 Method and system for carrying out automatic test on mobile phone mainboard

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20120095718A1 (en) * 2010-10-18 2012-04-19 Delta Electronics, Inc. Automatic testing system and method
CN102214139A (en) * 2011-06-01 2011-10-12 北京航空航天大学 Automatic test performance control and debugging method facing distributed system
CN102495804A (en) * 2011-12-27 2012-06-13 创新科存储技术(深圳)有限公司 Automatic software testing method
CN104346243A (en) * 2013-07-30 2015-02-11 旭达电脑(昆山)有限公司 System for automatic adjustment of main board testing process and implement method thereof
CN104363324A (en) * 2014-11-20 2015-02-18 惠州Tcl移动通信有限公司 Method and system for carrying out automatic test on mobile phone mainboard

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112559265A (en) * 2020-12-07 2021-03-26 深圳市鼎峰智能技术有限公司 Testing method based on big data intelligent optimization

Similar Documents

Publication Publication Date Title
CN106055464B (en) Data buffer storage testing schooling pressure device and method
CN109982361B (en) Signal interference analysis method, device, equipment and medium
CN110147367B (en) Temperature missing data filling method and system and electronic equipment
EP2889750B1 (en) Method and apparatus for managing data
CN110413512A (en) AB test method, device, computer equipment and storage medium
CN105228243A (en) Determine the method and apparatus of the position of mobile device users
CN105337796A (en) WIFI router performance test method and system
CN106776165A (en) Server performance method of testing and system
TWI412237B (en) Data collector, computer readable medium, data collection method, and method of performing simulation
CN106603789A (en) Method and system to increase equipment testing efficiency
CN101277504A (en) Method, system and apparatus for testing wireless performance
CN104598351B (en) The method of testing of 3D engine compatibility and device
CN101414934A (en) Method for testing hardware module
CN109308162B (en) Flash memory optimization device, optimization method and equipment
CN105808612B (en) The method and apparatus of data for migrating data library
CN106202374A (en) A kind of data processing method and device
CN112630627B (en) Extraction and measurement method and system based on multi-station serial measurement
CN114125864B (en) Neighbor cell detection method and device based on MDT
CN115967906A (en) User resident position identification method, terminal, electronic device and storage medium
CN111737119A (en) System for automatically distributing test and collecting test result
CN105897495A (en) Method for determining KQI and KPI correlation in communication network and equipment
CN112187568B (en) Message transmission method, device and system
CN109768845A (en) Data processing method, device and storage medium
CN117615407B (en) Automatic test method and device for WiFi performance and terminal equipment
CN117706255B (en) Coaxial cable testing method, device and system

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
RJ01 Rejection of invention patent application after publication
RJ01 Rejection of invention patent application after publication

Application publication date: 20170426