CN105548753A - Automatic testing method and system of standby and boot function of electric equipment - Google Patents

Abstract

The invention discloses an automatic testing method and system of the standby and boot function of electric equipment. The method includes the following steps that: the number N of times of testing of the standby and boot function of the electric equipment, and shooting delay time are set, wherein N is a positive integer; instructions are sent to the electrical equipment for N times, wherein the instructions are used for controlling the electrical equipment to make the same enter a boot state or a standby state; and every time the instructions are sent to the electrical equipment, and after the shooting delay time, the display interface of the electrical equipment is shot, and whether the boot or standby function of the electric equipment is normal is analyzed according to the obtained N display interfaces. With the automatic testing method and system adopted, automatic testing of the standby and boot function of the electric equipment can be realized, and the result of the standby and boot function can be verified, and therefore, testing results have high accuracy, the watching over of testing personnel is not required, and great conveniences can be brought for the testing personnel.

Description

The automatic test approach of the standby start of a kind of electric equipment and system

Technical field

The present invention relates to TV technology, the automatic test approach of the in particular standby start of a kind of electric equipment and system.

Background technology

Current electric equipment, such as the equipment such as televisor, air-conditioning and Set Top Box, be all equipped with the corresponding control of telepilot, and therefore whether the function such as remote control standby start of these electric equipments is reliable, and this is the link must tested before these electric equipments dispatch from the factory.And existing test mode is all by manually carrying out functional verification by telepilot.For manually carrying out functional test by telepilot, such efficiency is not high, and misses some Function detection than being easier to, and is very spended time, this also increases human cost by manual simulation.Part producer adopts software mode to send analogue-key and tests, but this just have sent analogue-key, other flow process still needs artificial multi-pass operations, omnidistance needs are manually on duty, thus, the method for testing robotization of the standby start of existing electric equipment is not high, accuracy rate is not high, efficiency is not high and result is not directly perceived.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

The technical problem to be solved in the present invention is, provides automatic test approach and the system of the standby start of a kind of electric equipment, is intended to solve existing electric equipment standby start test automation not high, the inaccurate problem of test result.

The technical scheme that technical solution problem of the present invention adopts is as follows:

An automatic test approach for the standby start of electric equipment, wherein, comprising:

A, arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer;

B, transmission N instruction are to electric equipment, and described instruction is used for control apparatus equipment and enters open state or holding state;

C, each send instruction to the described shooting delay time of electric equipment after, the display interface of shooting electric equipment, according to the start or standby whether normal of N the display interface analysis electric equipment obtained.

The automatic test approach of the standby start of described electric equipment, wherein, described step B comprises:

B1, transmission N instruction are to WIFI socket, and transmission time interval is the very first time, and described instruction is used for control apparatus equipment and enters open state or holding state;

B2, described WIFI socket receive described instruction and send to electric equipment.

The automatic test approach of the standby start of described electric equipment, wherein, described instruction is ultra-red order; The described very first time is greater than described shooting delay time.

The automatic test approach of the standby start of described electric equipment, wherein, described step C specifically comprises:

C1, each transmission instruction, to the current time of record correspondence during electric equipment, after delay time is taken described in time delay in the basis of described current time, control the display interface of camera shooting electric equipment;

C2, described display interface and the start standard interface that pre-sets or standby standard interface to be compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.

The automatic test approach of the standby start of described electric equipment, wherein, described step C2 also comprises:

C3, carry out statistical study to the comparison result of display interface of N shooting, draw corresponding test analysis report, described test analysis report comprises standby or that shutdown is corresponding detection number of times, detection time, successful operation number of times and operation failure number of times.

An Auto-Test System for the standby start of electric equipment, wherein, comprising:

Parameter setting module, for arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer;

Instruction sending module, for sending N instruction to electric equipment, described instruction is used for control apparatus equipment and enters open state or holding state;

Test judge module, for after each transmission instruction is to the described shooting delay time of electric equipment, the display interface of shooting electric equipment, analyzes the start or standby whether normal of electric equipment according to N the display interface obtained.

The Auto-Test System of the standby start of described electric equipment, wherein, described instruction sending module comprises:

Instruction sending unit, for sending N instruction to WIFI socket, transmission time interval is the very first time, and described instruction is used for control apparatus equipment and enters open state or holding state;

Instruction retransmission unit, for being received described instruction by described WIFI socket and sent to electric equipment.

The Auto-Test System of the standby start of described electric equipment, wherein, described instruction is ultra-red order; The described very first time is greater than described shooting delay time.

The Auto-Test System of the standby start of described electric equipment, wherein, described test judge module comprises:

Shooting unit, for sending instruction to the current time of record correspondence during electric equipment at every turn, after delay time is taken described in time delay in the basis of described current time, controls the display interface of camera shooting electric equipment;

Comparing unit, for described display interface and the start standard interface pre-set or standby standard interface are compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.

The Auto-Test System of the standby start of described electric equipment, wherein, described comparing unit comprises:

Statistic unit, comparison result for the display interface to N shooting carries out statistical study, draw corresponding test analysis report, described test analysis report comprises standby or that shutdown is corresponding detection number of times, detection time, successful operation number of times and operation failure number of times.

The automatic test approach of the standby start of a kind of electric equipment provided by the present invention and system, efficiently solve existing electric equipment standby start test automation not high, the inaccurate problem of test result, by arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer; Send N instruction to electric equipment, described instruction is used for control apparatus equipment and enters open state or holding state; After each transmission instruction is to the described shooting delay time of electric equipment, the display interface of shooting electric equipment, analyzes the start or standby whether normal of electric equipment according to N the display interface obtained; Achieve the automatic test to the standby start of electric equipment, and can verify the result of standby start, make test result accuracy rate higher, on duty without the need to tester, bring to tester and facilitate greatly.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the automatic test approach preferred embodiment of the standby start of electric equipment provided by the invention.

Fig. 2 is the structured flowchart of the Auto-Test System preferred embodiment of the standby start of electric equipment provided by the invention.

Fig. 3 is the structural representation of the Auto-Test System Application Example of the standby start of electric equipment provided by the invention.

Embodiment

The invention provides automatic test approach and the system of the standby start of a kind of electric equipment, for making object of the present invention, technical scheme and advantage clearly, clearly, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1, Fig. 1 is the process flow diagram of the automatic test approach preferred embodiment of the standby start of electric equipment provided by the invention, as shown in the figure, said method comprising the steps of:

Step S100, arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer;

Step S200, transmission N instruction are to electric equipment, and described instruction is used for control apparatus equipment and enters open state or holding state;

Step S300, each send instruction to the described shooting delay time of electric equipment after, the display interface of shooting electric equipment, according to the start or standby whether normal of N the display interface analysis electric equipment obtained.

Below in conjunction with specific embodiment, above-mentioned steps is described in detail.

Described electric equipment comprises televisor, router and air-conditioning etc.Because televisor and air-conditioning all have display interface, about the detection of router, can to the display interface clapping the televisor associated with router, thus follow-up detection be facilitated to judge.For televisor, the present invention will be described below.In the step s 100, about the remote-controlled start-up of televisor and the reliability testing of remote control standby, obviously need the remote-controlled start-up or standby for televisor, test respectively repeatedly.Can arrange about concrete testing time, such as be N time, N is positive integer.And start and standby can different testing times be set respectively.And due to start and have standby start-up time grow have short, thus the shooting delay time that camera is set is needed, such as when sending start-up command to televisor, the display interface of camera televising machine after time delay 1 minute, or time delay 40 seconds, specifically can be arranged according to actual.And standby command, corresponding delay time can be shorter, such as 10 seconds etc.

In step s 200, send N instruction to electric equipment, described instruction is used for control apparatus equipment and enters open state or holding state.Specifically, be exactly that user passes through handheld device, such as telepilot etc., send N instruction to electric equipment, described instruction may correspond to control apparatus device power-up or standby.About instruction, there is multiple implementation, such as a ultra-red order of Traditional remote controls, and control television boot-strap or standby etc. by network sending controling instruction correspondence, do not describe in detail herein.

Owing to carrying out reliability testing to the standby of televisor or start, therefore need start or standbyly repeatedly to test respectively, so just needing to send repeatedly corresponding instruction to televisor.When practical application, each time interval sending instruction can be arranged as required, such as 1 minute, 2 minutes etc.

Preferably, described step S200 comprises:

S201, transmission N instruction are to WIFI socket, and transmission time interval is the very first time, and described instruction is used for control apparatus equipment and enters open state or holding state;

S202, described WIFI socket receive described instruction and send to electric equipment.

Specifically, be exactly that user passes through handheld device, such as mobile phone or telepilot etc., Remote TV device, due to apart from restricted, so carries out relaying by WIFI socket.WIFI socket can receive WIFI data or the ultra-red order of the transmission of user's handheld device, and then relay forwarding is to televisor, thus achieves user by the Long-distance Control of handheld device to televisor.Each transmission instruction is to WIFI socket, and transmission interval time is the very first time, and the described very first time can be 1 minute, 2 minutes etc.About described instruction, handheld device is made automatically to send to WIFI socket every the very first time by software design patterns.

Preferably, described instruction is ultra-red order; The described very first time is greater than described shooting delay time.That is, when practical application, handheld device sends ultra-red order to WIFI socket, thus relay forwarding is to televisor.Owing to will test repeatedly, so correspondence also can be taken repeatedly, and can cause confusion if transmission interval is less than shooting delay time, it is good for being therefore greater than described shooting delay time with the very first time.

In step S300, after each transmission instruction is to the described shooting delay time of electric equipment, the display interface of shooting electric equipment, analyzes the start or standby whether normal of electric equipment according to N the display interface obtained.

Preferably, described step S300 specifically comprises:

S301, each transmission instruction, to the current time of record correspondence during electric equipment, after delay time is taken described in time delay in the basis of described current time, control the display interface of camera shooting electric equipment;

S302, described display interface and the start standard interface that pre-sets or standby standard interface to be compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.

Specifically, such as shooting delay time is 1 minute, and sending instruction is 13:00 to time during televisor, so starts the display interface of camera shooting electric equipment when 13:01.Just the start or standby whether normal of electric equipment can be analyzed according to the display interface obtained.Specifically, described display interface and the start standard interface pre-set or standby standard interface are compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.Start and the standby interface of electric equipment self software systems can be obtained, be set to corresponding start standard interface or standby standard interface.When the display interface of camera shooting and machine standard interface or standby standard interface do not meet, then think the start or standby abnormal of electric equipment, if meet, then normally.About start with standbyly can to test respectively.When practical application, by mobile terminal, the equipment that digital camera etc. have camera is taken.For example by the display interface of mobile phone shooting electric equipment, after shooting delay time, start the camera of mobile phone, then mobile phone camera carries out focusing time delay to electric equipment, then obtains picture of TV.

Preferably, described step S302 also comprises:

S303, carry out statistical study to the comparison result of display interface of N shooting, draw corresponding test analysis report, described test analysis report comprises standby or that shutdown is corresponding detection number of times, detection time, successful operation number of times and operation failure number of times.

Specifically, be exactly if desired detect start or standby, start is corresponding to be detected 100 times, treats machine testing 200 times, detects start and standby, start detection 100 times so respectively, records 100 corresponding operating results, the namely display interface of correspondence; And then detect and treat machine testing 200 times, record 200 corresponding operating results, i.e. corresponding display interface.Numeral is only for illustrating herein, does not limit.Statistical study is carried out to the test result of N time, draw corresponding test analysis report, described test analysis report comprises standby and that start is corresponding respectively detection number of times, detection time, successful operation number of times and operation failure number of times, then generates corresponding test analysis report.

The automatic test approach of the standby start of electric equipment provided by the invention, extend the stability and reliability evaluated and tested in remote control standby start greatly, and automatic sampling is carried out to the product that there is start process, coordinate serially printing daily record, by the convenient tracking to product exception and process, script is easy to maintenance, upgrades easily, can be used as file to preserve, follow-up use can directly be called.The very big saving running time, reusability is high, brings and facilitates greatly.

It is below the code of specific implementation in the automatic test approach of the standby start of electric equipment provided by the invention.It should be noted that, those skilled in the art can be out of shape according to following code, and these are all in thought protection domain of the present invention.

# is defaulted as TV start and is in holding state

foriinrange(0,10):

foriinrange(0,50):

print("------------------run"+str(i))

MonkeyRunner.sleep(3)

device.press('KEYCODE_HOME','DOWN_AND_UP'),MonkeyRunner.sleep(2)

device.touch(99,399,"DOWN_AND_UP"),MonkeyRunner.sleep(5)

#KONKA

#device.press('KEYCODE_BACK','DOWN_AND_UP'),MonkeyRunner.sleep(1)

device.touch(451,490,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.touch(97,231,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.touch(217,275,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.touch(217,275,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

print("--PowerOn->>")

MonkeyRunner.sleep(3)

device.press('KEYCODE_BACK','DOWN_AND_UP'),MonkeyRunner.sleep(1)

# go out screen standby

device.press('KEYCODE_POWER','DOWN_AND_UP'),MonkeyRunner.sleep(15)

device.press('KEYCODE_POWER','DOWN_AND_UP'),MonkeyRunner.sleep(2)

device.drag((345,1259),(353,546),1,10)

MonkeyRunner.sleep(3)

# display all over the screen

device.touch(97,231,"DOWN_AND_UP"),MonkeyRunner.sleep(3)

#device.touch(375,900,"DOWN_AND_UP"),MonkeyRunner.sleep(3)

device.touch(537,1069,"DOWN_AND_UP"),MonkeyRunner.sleep(5)

foriinrange(0,3):

device.touch(537,756,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.press('KEYCODE_BACK','DOWN_AND_UP'),MonkeyRunner.sleep(1)

device.press('KEYCODE_BACK','DOWN_AND_UP'),MonkeyRunner.sleep(1)

device.press('KEYCODE_HOME','DOWN_AND_UP'),MonkeyRunner.sleep(2)

device.touch(600,400,"DOWN_AND_UP"),MonkeyRunner.sleep(3)

device.touch(350,600,"DOWN_AND_UP"),MonkeyRunner.sleep(3)

device.touch(350,1199,"DOWN_AND_UP"),MonkeyRunner.sleep(4)

print("--TakeTVPicture->>")

MonkeyRunner.sleep(3)

device.press('KEYCODE_HOME','DOWN_AND_UP'),MonkeyRunner.sleep(1)

device.touch(99,399,"DOWN_AND_UP"),MonkeyRunner.sleep(5)

#KONKA

device.touch(451,490,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.touch(97,231,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.touch(217,275,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

device.touch(217,275,"DOWN_AND_UP"),MonkeyRunner.sleep(1)

print("--PowerOff->>")

MonkeyRunner.sleep(3)

device.press('KEYCODE_BACK','DOWN_AND_UP'),MonkeyRunner.sleep(1)

device.press('KEYCODE_BACK','DOWN_AND_UP'),MonkeyRunner.sleep(1)

Based on the automatic test approach of the standby start of above-mentioned electric equipment, the embodiment of the present invention additionally provides the Auto-Test System of the standby start of a kind of electric equipment, as shown in Figure 2, comprising:

Parameter setting module 10, for arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer; Specifically as described in step S100;

Instruction sending module 20, for sending N instruction to electric equipment, described instruction is used for control apparatus equipment and enters open state or holding state; Specifically as described in step S200;

Test judge module 30, for after each transmission instruction is to the described shooting delay time of electric equipment, the display interface of shooting electric equipment, analyzes the start or standby whether normal of electric equipment according to N the display interface obtained; Specifically as described in step S300.

Further, described instruction sending module 20 comprises:

Instruction sending unit, for sending N instruction to WIFI socket, transmission time interval is the very first time, and described instruction is used for control apparatus equipment and enters open state or holding state;

Instruction retransmission unit, for being received described instruction by described WIFI socket and sent to electric equipment.

Further, described test judge module 30 comprises:

Shooting unit, for sending instruction to the current time of record correspondence during electric equipment at every turn, after delay time is taken described in time delay in the basis of described current time, controls the display interface of camera shooting electric equipment;

Comparing unit, for described display interface and the start standard interface pre-set or standby standard interface are compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.

Further, described comparing unit comprises:

Statistic unit, comparison result for the display interface to N shooting carries out statistical study, draw corresponding test analysis report, described test analysis report comprises standby or that shutdown is corresponding detection number of times, detection time, successful operation number of times and operation failure number of times.

With concrete Application Example, that the present invention is described in detail is as follows below.

Refer to Fig. 3, Fig. 3 is the structural representation of the automatic test approach Application Example of the standby start of electric equipment provided by the invention.When practical application, the test macro of the standby start of described electric equipment comprises: by the equipment test, i.e. televisor 110, for controlling testing process and carrying out testing the computer 130 judged, for carrying out the serial ports plate 120 communicated between televisor with computer, for sending the handheld device 140 of ultra-red order, for receiving the WIFI socket 150 of ultra-red order and WIFI data, for the video recording equipment 160 of televising machine picture, and the power supply 170 for powering; Described televisor 110 connects computer 130 by serial ports plate 120; Described televisor 110 connects WIFI socket 150; Described computer 130 is wired connection or wireless connections handheld device 140 and video recording equipment 160 respectively; Described power supply 170 connects WIFI socket 150 and computer 130 respectively, thus power supply.WIFI socket 150 is also for controlling the break-make that televisor 110 is powered.

When practical application, handheld device sends infrared signal to WIFI socket, and WIFI socket receives infrared signal and is transmitted to televisor, by WIFI socket relaying, thus achieves user's Remote TV.Take handheld device as mobile phone be example.By WIFI, mobile phone is connected with WIFI socket and infrared assembly, and then by data line, mobile phone is connected with computer, this completes building of hardware.Computer needs to carry out Android environment configurations, and installs mobile phone adb and drive, and is write want execution script program by python.Script is performed by Monkeyrunner, thus control linkage mobile phone on computers performs WIFI socket APK application program, automatically program is opened, find the socket of connection, perform the operation realizing the remote control Power key succeeded in school, start duration controls to be arranged by action delay in script, and in process, computer script can control mobile phone camera and carries out timing sampling and take pictures, and all operations flow process all can be set by script.

For the electric equipment of straighforward operation, remote control standby, start are the important test events of test and appraisal product stability, reliability, realize infrared remote control by WIFI remote mode.This cover system mainly realizes unmanned, and is able to programme, and exports testing time in computer end, and can coordinate in test process and carry out automatic camera sampling, thus implementation procedure automatic synchronous tracking, omnidistance unmanned.After test terminates, only need to screen sample photographs, by computer end, sample photographs is judged, thus achieve automatic test.The present invention by expand greatly Products remote control standby start evaluation and test stability and reliability, and automatic sampling is carried out to the product that there is start process, coordinate serially printing daily record, by the convenient tracking to product exception and process, script is easy to maintenance, upgrade easily, can be used as file and preserve, follow-up use can directly be called.The very big saving running time, reusability is high

In sum, the automatic test approach of the standby start of a kind of electric equipment provided by the invention and system, by arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer; Send N instruction to electric equipment, described instruction is used for control apparatus equipment and enters open state or holding state; After each transmission instruction is to the described shooting delay time of electric equipment, the display interface of shooting electric equipment, analyzes the start or standby whether normal of electric equipment according to N the display interface obtained; Achieve the automatic test to the standby start of electric equipment, and can verify the result of standby start, make test result accuracy rate higher, on duty without the need to tester, bring to tester and facilitate greatly.

Should be understood that, application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (10)

1. an automatic test approach for the standby start of electric equipment, is characterized in that, comprising:

A, arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer;

B, transmission N instruction are to electric equipment, and described instruction is used for control apparatus equipment and enters open state or holding state;

C, each send instruction to the described shooting delay time of electric equipment after, the display interface of shooting electric equipment, according to the start or standby whether normal of N the display interface analysis electric equipment obtained.

2. the automatic test approach of the standby start of electric equipment according to claim 1, is characterized in that, described step B comprises:

B1, transmission N instruction are to WIFI socket, and transmission time interval is the very first time, and described instruction is used for control apparatus equipment and enters open state or holding state;

B2, described WIFI socket receive described instruction and send to electric equipment.

3. the automatic test approach of the standby start of electric equipment according to claim 2, is characterized in that, described instruction is ultra-red order; The described very first time is greater than described shooting delay time.

4. the automatic test approach of the standby start of electric equipment according to claim 1, is characterized in that, described step C specifically comprises:

C1, each transmission instruction, to the current time of record correspondence during electric equipment, after delay time is taken described in time delay in the basis of described current time, control the display interface of camera shooting electric equipment;

C2, described display interface and the start standard interface that pre-sets or standby standard interface to be compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.

5. the automatic test approach of the standby start of electric equipment according to claim 4, is characterized in that, described step C2 also comprises:

C3, carry out statistical study to the comparison result of display interface of N shooting, draw corresponding test analysis report, described test analysis report comprises standby or that shutdown is corresponding detection number of times, detection time, successful operation number of times and operation failure number of times.

6. an Auto-Test System for the standby start of electric equipment, is characterized in that, comprising:

Parameter setting module, for arrange electric equipment standby or start testing time N and shooting delay time, wherein, N is positive integer;

Instruction sending module, for sending N instruction to electric equipment, described instruction is used for control apparatus equipment and enters open state or holding state;

Test judge module, for after each transmission instruction is to the described shooting delay time of electric equipment, the display interface of shooting electric equipment, analyzes the start or standby whether normal of electric equipment according to N the display interface obtained.

7. the Auto-Test System of the standby start of electric equipment according to claim 6, is characterized in that, described instruction sending module comprises:

Instruction sending unit, for sending N instruction to WIFI socket, transmission time interval is the very first time, and described instruction is used for control apparatus equipment and enters open state or holding state;

Instruction retransmission unit, for being received described instruction by described WIFI socket and sent to electric equipment.

8. the Auto-Test System of the standby start of electric equipment according to claim 7, is characterized in that, described instruction is ultra-red order; The described very first time is greater than described shooting delay time.

9. the Auto-Test System of the standby start of electric equipment according to claim 6, is characterized in that, described test judge module comprises:

Shooting unit, for sending instruction to the current time of record correspondence during electric equipment at every turn, after delay time is taken described in time delay in the basis of described current time, controls the display interface of camera shooting electric equipment;

Comparing unit, for described display interface and the start standard interface pre-set or standby standard interface are compared, if unanimously, then the start or normally standby of electric equipment; If inconsistent, then the start or standby abnormal of electric equipment.

10. the Auto-Test System of the standby start of electric equipment according to claim 9, is characterized in that, described comparing unit comprises:

Statistic unit, comparison result for the display interface to N shooting carries out statistical study, draw corresponding test analysis report, described test analysis report comprises standby or that shutdown is corresponding detection number of times, detection time, successful operation number of times and operation failure number of times.