CN111526221B - Domain name quality determining method, device and storage medium - Google Patents

Abstract

The application discloses a domain name quality determining method, a domain name quality determining device and a storage medium, and belongs to the field of information processing. The method comprises the following steps: according to the failure rate related data and the time delay related data of the access target domain name, counting a first failure rate, a second failure rate and a third failure rate, and a first time delay, a second time delay and a third time delay, wherein the first failure rate is the failure rate in the current counting period, the second failure rate is the average value of the failure rates during starting, the third failure rate is the average value of the failure rates during historical use, the first time delay is the time delay of the last access target domain name, the second time delay is the average value of the time delays during starting, and the third time delay is the average value of the time delays during historical use; and determining the domain name quality of the target domain name according to the first failure rate, the second failure rate and the third failure rate, and the first time delay, the second time delay and the third time delay. In this way, the determined domain name quality is more accurate and is adapted to a single terminal.

Description

Domain name quality determining method, device and storage medium

Technical Field

The present invention relates to the field of information processing, and in particular, to a method, an apparatus, and a storage medium for determining domain name quality.

Background

When the terminal accesses the domain name through the interface, in order to improve the domain name access success rate, the background can determine the domain name quality of each domain name in the plurality of domain names corresponding to the interface, then sort the plurality of domain names according to the domain name quality, select the domain name with better domain name quality from the plurality of domain names, and feed back the domain name with better domain name quality to the terminal so as to facilitate the terminal to access.

In the related art, when determining the domain name quality of a target domain name, generally, failure rate related data and delay related data of a large number of users accessing the target domain name are obtained first, then an average value of failure rates of the large number of users accessing the target domain name is counted according to the failure rate related data, an average value of delay of the large number of users accessing the target domain name is counted according to the delay related data, and then the domain name quality of the target domain name is calculated according to the average value of failure rates and the average value of delay.

However, the conventional domain name quality calculated according to the failure rate and the average value of the time delay of the domain name can only reflect the average quality condition of the domain name in a period of time, for example, when the original quality of a certain domain name is good and then suddenly worsens, the domain name quality determined according to the related technology may not change greatly, which may result in that the determined domain name quality cannot reflect the actual condition of the domain name, and further, the domain name fed back to the terminal may not be a domain name with better quality, which has a certain limitation.

Disclosure of Invention

The embodiment of the application provides a domain name quality determining method, a domain name quality determining device and a storage medium, which can be used for solving the problem that a domain name quality determining method in the related technology has limitation. The technical scheme is as follows:

in one aspect, a method for determining domain name quality is provided, the method comprising:

acquiring failure rate related data and time delay related data of a target terminal for accessing a target domain name;

according to the failure rate related data, counting a first failure rate, a second failure rate and a third failure rate; wherein the first failure rate is a failure rate of accessing the target domain name in a current statistical period, the second failure rate is an average value of failure rates of accessing the target domain name during startup, and the third failure rate is an average value of failure rates of accessing the target domain name during historical use;

counting a first time delay, a second time delay and a third time delay according to the time delay related data; wherein the first delay is the last time the target domain name was accessed, the second delay is the average of the delays in accessing the target domain name during startup, and the third delay is the average of the delays in accessing the target domain name during historical use;

And determining the domain name quality of the target domain name according to the first failure rate, the second failure rate and the third failure rate, and the first time delay, the second time delay and the third time delay.

Optionally, the determining the domain name quality of the target domain name according to the first failure rate, the second failure rate, the third failure rate, and the first delay, the second delay, and the third delay includes:

determining a first domain name quality component related to the failure rate according to the first failure rate, the second failure rate and the third failure rate;

determining a second domain name quality component related to the time delay according to the first time delay, the second time delay and the third time delay;

and determining the domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component.

Optionally, the determining the first domain name quality component related to the failure rate according to the first failure rate, the second failure rate and the third failure rate includes:

respectively determining weights of the first failure rate, the second failure rate and the third failure rate;

and weighting and summing the first failure rate, the second failure rate and the third failure rate according to the weights of the first failure rate, the second failure rate and the third failure rate to obtain the first domain name quality component.

Optionally, the determining the second domain name quality component related to the delay according to the first delay, the second delay and the third delay includes:

respectively determining weights of the first time delay, the second time delay and the third time delay;

and according to the weights of the first time delay, the second time delay and the third time delay, carrying out weighted summation on the first time delay, the second time delay and the third time delay to obtain the second domain name quality component.

Optionally, the determining the domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component includes:

adding the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name; or alternatively, the process may be performed,

determining weights of the first domain name quality component and the second domain name quality component respectively; and carrying out weighted summation on the first domain name quality component and the second domain name quality component according to the weights of the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name.

Optionally, the method further comprises:

When a service request of the target terminal is received, determining the domain name quality of at least one domain name corresponding to the service request, wherein the at least one domain name comprises the target domain name;

selecting N domain names which are ranked in front according to the domain name quality from the at least one domain name according to the domain name quality of the at least one domain name, wherein N is a positive integer;

and sending a service response to the target terminal, wherein the service response carries domain name identifiers of the N domain names.

In another aspect, there is provided a domain name quality determining apparatus, the apparatus comprising:

the acquisition module is used for acquiring failure rate related data and time delay related data of the target domain name accessed by the target terminal;

the first statistics module is used for counting a first failure rate, a second failure rate and a third failure rate according to the failure rate related data; wherein the first failure rate is a failure rate of accessing the target domain name in a current statistical period, the second failure rate is an average value of failure rates of accessing the target domain name during startup, and the third failure rate is an average value of failure rates of accessing the target domain name during historical use;

the second statistics module is used for counting the first time delay, the second time delay and the third time delay according to the time delay related data; wherein the first delay is the last time the target domain name was accessed, the second delay is the average of the delays in accessing the target domain name during startup, and the third delay is the average of the delays in accessing the target domain name during historical use;

And the first determining module is used for determining the domain name quality of the target domain name according to the first failure rate, the second failure rate and the third failure rate, and the first time delay, the second time delay and the third time delay.

Optionally, the first determining module includes:

a first determining unit, configured to determine a first domain name quality component related to a failure rate according to the first failure rate, the second failure rate, and the third failure rate;

a second determining unit, configured to determine a second domain name quality component related to the delay according to the first delay, the second delay, and the third delay;

and a third determining unit, configured to determine a domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component.

Optionally, the first determining unit is configured to:

respectively determining weights of the first failure rate, the second failure rate and the third failure rate;

and weighting and summing the first failure rate, the second failure rate and the third failure rate according to the weights of the first failure rate, the second failure rate and the third failure rate to obtain the first domain name quality component.

Optionally, the second determining unit is configured to:

respectively determining weights of the first time delay, the second time delay and the third time delay;

and according to the weights of the first time delay, the second time delay and the third time delay, carrying out weighted summation on the first time delay, the second time delay and the third time delay to obtain the second domain name quality component.

Optionally, the third determining unit is configured to:

adding the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name; or alternatively, the process may be performed,

determining weights of the first domain name quality component and the second domain name quality component respectively; and carrying out weighted summation on the first domain name quality component and the second domain name quality component according to the weights of the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name.

Optionally, the method further comprises:

the second determining module is used for determining the domain name quality of at least one domain name corresponding to the service request when the service request of the target terminal is received, wherein the at least one domain name comprises the target domain name;

The selecting module is used for selecting N domain names which are ranked in front according to the domain name quality from the at least one domain name according to the domain name quality of the at least one domain name, wherein N is a positive integer;

and the sending module is used for sending a service response to the target terminal, wherein the service response carries the domain name identifiers of the N domain names.

In another aspect, there is also provided a domain name quality determining apparatus, the apparatus including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to perform the steps of any of the domain name quality determining methods described above.

In another aspect, there is also provided a computer readable storage medium having instructions stored thereon for execution by a processor of any of the above-described domain name quality determining methods.

In another aspect, a computer program product is provided which, when executed, is adapted to carry out any of the above-mentioned domain name quality determining methods.

The beneficial effects that technical scheme that this application embodiment provided brought are:

according to the method and the device for determining the domain name quality of the target domain name, according to the failure rate related data of the target terminal for accessing the target domain name, the failure rate of the target domain name in the current latest statistics period, the average value of the failure rate of the target domain name in the starting period and the average value of the failure rate of the target domain name in the history period, according to the time delay related data of the target terminal for accessing the target domain name, the time delay of the target terminal for accessing the target domain name in the latest time, the average value of the time delay of the target domain name in the starting period and the average value of the time delay of the target domain name in the history period are counted, and then the domain name quality of the target domain name is comprehensively determined according to the counted data. Therefore, the counted domain name quality can reflect the average quality condition of the domain name in a period of time, and can timely reflect the real-time quality condition of the domain name, so that the determined domain name quality is more accurate, and the actual quality condition of the domain name can be reflected. And because the domain name quality is obtained by statistics according to the access data of the single terminal, the method is more suitable for the access condition of the single terminal, and the feedback result is more suitable for the use condition of each terminal user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a domain name quality determining system according to an embodiment of the present application;

fig. 2 is a flowchart of a domain name quality determining method provided in an embodiment of the present application;

FIG. 3 is a flow chart of another method for determining domain name quality provided in an embodiment of the present application;

fig. 4 is a logic schematic diagram of a domain name intelligent scheduling method provided in an embodiment of the present application;

fig. 5 is a block diagram of a domain name quality determining apparatus provided in an embodiment of the present application;

fig. 6 is a block diagram of a terminal according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a server according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Before explaining the embodiments of the present application in detail, an implementation environment of the embodiments of the present application is described.

Fig. 1 is a schematic diagram of a domain name quality determining system provided in an embodiment of the present application, and as shown in fig. 1, the system includes a terminal 101 and a server 102, where the terminal 101 and the server 102 may be connected through a wired network or a wireless network.

The terminal 101 may be an electronic device such as a mobile phone, a tablet computer, or a computer. The terminal 101 may send a service request to the server 102, the service request being for requesting service related data. After receiving the service request, the server 102 may determine a domain name corresponding to the service request, and return the determined domain name to the terminal 101. The domain name corresponding to the service request refers to a domain name capable of acquiring service related data.

In addition, the server 102 may also provide a service for determining the quality of the domain names and a service for sorting the domain names according to the quality of the domain names, so as to select a domain name with better domain name quality according to the sorting and feed back the domain name to the terminal 101. For example, after determining the domain name corresponding to the service request, the server may determine the domain name quality of each domain name corresponding to the service request according to the domain name quality determining method provided in the present application, then rank the domain names according to the domain name quality, and select a domain name with better domain name quality from the ranked domain names and feed the domain name to the terminal 101.

It should be noted that, the server 102 may also determine the domain name quality of each domain name corresponding to the service request through other servers, and obtain the domain name with better domain name quality from the domain name quality. For example, after determining the domain name corresponding to the service request, the server 102 may invoke a service interface, and select a domain name with better quality from the domain names corresponding to the service request through the service interface. The service interface is used for providing a domain name quality determining service, a service for sorting domain names according to domain name quality and the like.

Fig. 2 is a flowchart of a domain name quality determining method according to an embodiment of the present application, where the method is applied to an electronic device, and the electronic device may be a terminal or a server, for example, the server may be the server 102 shown in fig. 1. Referring to fig. 2, the method includes the steps of:

step 201: and acquiring failure rate related data and time delay related data of the target terminal for accessing the target domain name.

The target terminal may be any terminal accessing the target domain name. The target domain name is the domain name for which the domain name quality is to be determined. The failure rate related data and the time delay related data can be obtained from historical access data of the target domain name accessed by the target terminal or obtained from historical access data and current access data.

The failure rate of the target terminal accessing the target domain name can be obtained through statistics according to the failure rate related data, for example, the failure rate related data comprises whether each time of access to the target domain name is successful historically. The time delay of the target terminal accessing the target domain name can be obtained through statistics according to the time delay related data, for example, the time delay related data comprises time delay when the target domain name is accessed successfully in each time historically.

Step 202: according to the related data of the failure rate, counting a first failure rate, a second failure rate and a third failure rate; the first failure rate is the failure rate of accessing the target domain name in the current statistical period, the second failure rate is the average value of the failure rates of accessing the target domain name during starting, and the third failure rate is the average value of the failure rates of accessing the target domain name during historical use.

The statistical period is a statistical period of periodically counting the failure rate of the target terminal to access the target domain name. The statistical period may be preset, for example, the statistical period may be 10 minutes, half an hour, or 1 hour. The first failure rate is the failure rate of accessing the target domain name in the current statistical period, and can reflect the access condition of the target domain name in the current period of time.

The starting period refers to a period of time from the starting of the target terminal to the current time or a period of time from the starting of the target application to the current time. The target terminal can send a service request to the server through the target application. As one example, the startup period includes at least one statistical period, and the failure rate of accessing the target domain name in each of the at least one statistical period may be determined to obtain at least one failure rate, and then an average of the at least one failure rate is determined to obtain a second failure rate.

The historical use period is a preset historical time period, for example, a historical time period in a preset duration before the current time. The preset duration may be 1 day, 2 days, 3 days, or the like, which is not limited in the embodiment of the present application.

Step 203: counting the first time delay, the second time delay and the third time delay according to the time delay related data; the first time delay is the time delay of accessing the target domain name last time, the second time delay is the average value of the time delays of accessing the target domain name during starting, and the third time delay is the average value of the time delays of accessing the target domain name during historical use.

The time delay for accessing the target domain name refers to a time period from sending a request for accessing the target domain name to receiving feedback data, namely a waiting time period of the target terminal. The longer the delay, the worse the domain name quality.

The starting period refers to a period of time from the starting of the target terminal to the current time or a period of time from the starting of the target application to the current time. The target terminal can send a service request to the server through the target application. As an example, the time delay for each access to the target domain name during start-up may be obtained, and then an average of the time delays for each access to the target domain name during start-up may be determined, resulting in the second time delay.

The historical use period is a preset historical time period, for example, a historical time period in a preset duration before the current time. The preset duration may be 1 day, 2 days, 3 days, or the like, which is not limited in the embodiment of the present application. As one example, the time delay for each access to the target domain name during historical use may be obtained, and then an average of the time delays for each access to the target domain name during historical use may be determined, resulting in a third time delay.

Step 204: and determining the domain name quality of the target domain name according to the first failure rate, the second failure rate and the third failure rate, and the first time delay, the second time delay and the third time delay.

That is, the embodiment of the application can comprehensively analyze the domain name quality of the target domain name by combining the failure rate and the time delay in the current time period, the average value of the failure rate and the time delay in the starting period and the average value of the failure rate and the time delay in the historical use period, so that the counted domain name quality can reflect the average quality condition of the domain name in a period of time and can timely reflect the real-time quality condition of the domain name, and further the determined domain name quality can reflect the quality condition of the domain name more accurately.

As one example, determining the domain name quality of the target domain name based on the first failure rate, the second failure rate, and the third failure rate, and the first delay, the second delay, and the third delay may include:

1) A first domain name quality component associated with the failure rate is determined based on the first failure rate, the second failure rate, and the third failure rate.

In a first implementation, the first failure rate, the second failure rate, and the third failure rate may be added, or the first failure rate, the second failure rate, and the third failure rate may be multiplied to obtain the first domain name quality component.

In a second implementation, weights of the first failure rate, the second failure rate, and the third failure rate may be determined respectively, and then weighted summation is performed on the first failure rate, the second failure rate, and the third failure rate according to the weights of the first failure rate, the second failure rate, and the third failure rate, to obtain the first domain name quality component.

The weights of the first failure rate, the second failure rate and the third failure rate may be set according to the importance degree, may be preset by the server, or may be set by a technician according to actual needs, which is not limited in the embodiment of the present application.

And according to the weights of the first failure rate, the second failure rate and the third failure rate, carrying out weighted summation on the first failure rate, the second failure rate and the third failure rate, namely multiplying each failure rate by the corresponding weight, and then adding the multiplication results.

For example, the first domain name quality component may be determined according to the first failure rate, the second failure rate, and the third failure rate by the following equation (1):

y ₁ ＝failure ₁ *w ₁ +failure ₂ *w ₂ +failure ₃ *w ₃ (1)

wherein y is ₁ For the first domain name quality component, failure ₁ 、failure ₂ And failure ₃ A first failure rate, a second failure rate and a third failure rate, w ₁ 、w ₂ And w ₃ The first failure rate, the second failure rate, and the third failure rate, respectively.

In a third implementation, the first domain name quality component is determined based on a first preset parameter and a first weighted sum result. The first preset parameter is a preset parameter, such as a preset value. The first weighted summation result is obtained by weighted summation of the first failure rate, the second failure rate and the third failure rate according to weights of the first failure rate, the second failure rate and the third failure rate.

It should be noted that the first preset parameter may include 1 parameter, or may include multiple parameters, which is not limited in this embodiment of the present application. For example, the first preset parameters include a first parameter corresponding to a first failure rate, a second parameter corresponding to a second failure rate, and a third parameter corresponding to a third failure rate,

As one example, the sum of the first preset parameter and the first weighted sum result may be determined as the first domain name quality component.

For example, the first domain name quality component may be determined according to the first failure rate, the second failure rate, and the third failure rate by the following equation (2):

y ₁ ＝(a ₁ +failure ₁ *w ₁ )+(a ₂ +failure ₂ *w ₂ )+(a ₃ +failure ₃ *w ₃ ) (2)

wherein y is ₁ A is the first domain name quality component, a ₁ 、a ₂ And a ₃ The first parameter, the second parameter and the third parameter are respectively failure ₁ 、failure ₂ And failure ₃ A first failure rate, a second failure rate and a third failure rate, w ₁ 、w ₂ And w ₃ The first failure rate, the second failure rate, and the third failure rate, respectively.

It should be noted that, in the embodiment of the present application, the determination of the first domain name quality component by the 3 manners described above is merely illustrated by taking the first failure rate, the second failure rate and the third failure rate as examples, and in other embodiments, the first failure rate, the second failure rate and the third failure rate may be processed in other manners to obtain the first domain name quality component.

2) And determining a second domain name quality component related to the time delay according to the first time delay, the second time delay and the third time delay.

In a first implementation, the first delay, the second delay, and the third delay may be added, or the first delay, the second delay, and the third delay may be multiplied to obtain the second domain name quality component.

In a second implementation, weights of the first delay, the second delay and the third delay may be determined respectively, and then the weights of the first delay, the second delay and the third delay are weighted and summed to obtain the second domain name quality component.

The weights of the first delay, the second delay and the third delay can be set according to the importance degree, can be preset by a server, and can also be set by a technician according to actual needs, and the embodiment of the application is not limited to the above.

And according to the weights of the first time delay, the second time delay and the third time delay, carrying out weighted summation on the first time delay, the second time delay and the third time delay, namely multiplying each time delay by the corresponding weight, and then adding the multiplication results.

In a third implementation, a second domain name quality component is determined based on a second preset parameter and a second weighted sum result. The second preset parameter is a preset parameter, such as a preset value. The second weighted summation result is obtained by weighted summation of the first time delay, the second time delay and the third time delay according to weights of the first time delay, the second time delay and the third time delay.

It should be noted that the second preset parameter may include 1 parameter, or may include multiple parameters, which is not limited in this embodiment of the present application. For example, the second preset parameters include a fourth parameter corresponding to the first delay, a fifth parameter corresponding to the second delay, and six parameters corresponding to the third delay,

as one example, the sum of the second preset parameter and the second weighted sum result may be determined as the second domain name quality component.

It should be noted that, in the embodiment of the present application, the determination of the second domain name quality component by the above 3 manners is merely illustrated by taking the first delay, the second delay and the third delay as examples, and in other embodiments, the first delay, the second delay and the third delay may be processed in other manners to obtain the second domain name quality component.

3) And determining the domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component.

In a first implementation, the first domain name quality component and the second domain name quality component are summed to obtain a domain name quality for the target domain name.

For example, the domain name quality of the target domain name is determined from the first domain name quality component and the second domain name quality component by the following equation (3):

y＝y ₁ +y ₂ (3)

Wherein y is the domain name quality of the target domain name, y ₁ For the first domain name quality component, y ₂ Is the second domain name quality component.

The second implementation mode: and respectively determining weights of the first domain name quality component and the second domain name quality component, and then carrying out weighted summation on the first domain name quality component and the second domain name quality component according to the weights of the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name.

It should be noted that, in the embodiment of the present application, only the determination of the final domain name quality according to the first domain name quality component and the second domain name quality component by the two modes is described as an example, and in other embodiments, the first domain name quality component and the second domain name quality component may be processed in other manners to obtain the final domain name quality.

It should be further noted that, in the embodiment of the present application, the weight and the preset parameter may be adjusted according to actual needs, for example, the related weight and the preset parameter may be adjusted according to the speed or the stability. For example, when the importance of the first failure rate is high, the weight of the first failure rate or the parameter corresponding to the first failure rate may be set to be high.

According to the method and the device for determining the domain name quality of the target domain name, according to the failure rate related data of the target terminal for accessing the target domain name, the failure rate of the target domain name in the current latest statistics period, the average value of the failure rate of the target domain name in the starting period and the average value of the failure rate of the target domain name in the history period, according to the time delay related data of the target terminal for accessing the target domain name, the time delay of the target terminal for accessing the target domain name in the latest time, the average value of the time delay of the target domain name in the starting period and the average value of the time delay of the target domain name in the history period are counted, and then the domain name quality of the target domain name is comprehensively determined according to the counted data. Therefore, the counted domain name quality can reflect the average quality condition of the domain name in a period of time, and can timely reflect the real-time quality condition of the domain name, so that the determined domain name quality is more accurate, and the actual quality condition of the domain name can be reflected. And because the domain name quality is obtained by statistics according to the access data of the single terminal, the method is more suitable for the access condition of the single terminal, and the feedback result is more suitable for the use condition of each terminal user.

Fig. 3 is a flowchart of another domain name quality determining method provided in an embodiment of the present application, where the method is implemented by interaction between a terminal and a server, and referring to fig. 3, the method includes the following steps:

step 301: the target terminal sends a service request to the server, the service request being for requesting service related data.

As one example, the service request carries a service identification.

As one example, the service request may be triggered according to a service operation of the user, which may be a click operation, a touch operation, a slide operation, a voice operation, or the like. For example, the user may trigger a service request by clicking on a service entry in the target application.

Step 302: when a service request sent by a target terminal is received, the server determines the domain name quality of at least one domain name corresponding to the service request.

At least one domain name corresponding to the service request refers to a domain name capable of acquiring service related data corresponding to the service request. The domain name quality for each of the at least one domain name may be determined in accordance with the domain name quality determination method provided by the embodiment of fig. 2.

For example, when receiving a service request sent by a target terminal, the server may determine a domain name list configured by the service request, where the domain name list includes at least one domain name corresponding to the service request. Then, according to the domain name quality determining method provided in the embodiment of fig. 2, the domain name quality of each domain name in the domain name quality of the at least one domain name is determined.

Step 303: and the server selects N domain names which are ranked in front according to the domain name quality from the at least one domain name according to the domain name quality of the at least one domain name, wherein N is a positive integer.

The selected domain name is a domain name with better domain name quality in at least one domain name. N may be preset, for example, N may be set to 1 or 2, etc.

As an example, the at least one domain name may be ranked in order of increasing domain name quality, and then the top N domain names may be selected from the ranking result.

Step 404: and sending a service response to the target terminal, wherein the service response carries the domain name identifiers of the N domain names.

As one example, the business response may also include business related data obtained through the N domain names.

Referring to fig. 4, fig. 4 is a logic schematic diagram of a domain name intelligent scheduling method provided in an embodiment of the present application, and as shown in fig. 4, after a server receives a service request of a terminal, the server may select an optimal domain name through a data core layer, and then feed back the optimal domain name to the terminal. In the data core layer, a configured domain name list can be obtained, and failure rate related data and time delay related data of a terminal for accessing each domain name in the domain name list are obtained through a detection interface or a service interface. The failure rate related data and the time delay related data of each domain name can be processed according to the above manner, the quality of each domain name is determined, and the domain names in the domain name list are ranked according to the domain name quality, so that the domain names with the previous ranks can be selected from the ranking results for feedback.

According to the method and the device for determining the domain name quality of the target domain name, according to the failure rate related data of the target terminal for accessing the target domain name, the failure rate of the target domain name in the current latest statistics period, the average value of the failure rate of the target domain name in the starting period and the average value of the failure rate of the target domain name in the history period, according to the time delay related data of the target terminal for accessing the target domain name, the time delay of the target terminal for accessing the target domain name in the latest time, the average value of the time delay of the target domain name in the starting period and the average value of the time delay of the target domain name in the history period are counted, and then the domain name quality of the target domain name is comprehensively determined according to the counted data. Therefore, the counted domain name quality can reflect the average quality condition of the domain name in a period of time, and can timely reflect the real-time quality condition of the domain name, so that the determined domain name quality is more accurate, and the actual quality condition of the domain name can be reflected. And because the domain name quality is obtained by statistics according to the access data of the single terminal, the method is more suitable for the access condition of the single terminal, and the feedback result is more suitable for the use condition of each terminal user.

Fig. 5 is a block diagram of a domain name quality determining apparatus provided in an embodiment of the present application, where the apparatus may be integrated in a terminal or a server, as shown in fig. 5, and the apparatus includes:

an obtaining module 501, configured to obtain failure rate related data and delay related data of a target terminal accessing a target domain name;

a first statistics module 502, configured to count a first failure rate, a second failure rate, and a third failure rate according to the failure rate related data; wherein the first failure rate is a failure rate of accessing the target domain name in a current statistical period, the second failure rate is an average value of failure rates of accessing the target domain name during startup, and the third failure rate is an average value of failure rates of accessing the target domain name during historical use;

a second statistics module 503, configured to count a first delay, a second delay, and a third delay according to the delay related data; wherein the first delay is the last time the target domain name was accessed, the second delay is the average of the delays in accessing the target domain name during startup, and the third delay is the average of the delays in accessing the target domain name during historical use;

A first determining module 504, configured to determine a domain name quality of the target domain name according to the first failure rate, the second failure rate, and the third failure rate, and the first delay, the second delay, and the third delay.

Optionally, the first determining module 504 includes:

a first determining unit, configured to determine a first domain name quality component related to a failure rate according to the first failure rate, the second failure rate, and the third failure rate;

a second determining unit, configured to determine a second domain name quality component related to the delay according to the first delay, the second delay, and the third delay;

and a third determining unit, configured to determine a domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component.

Optionally, the first determining unit is configured to:

respectively determining weights of the first failure rate, the second failure rate and the third failure rate;

and weighting and summing the first failure rate, the second failure rate and the third failure rate according to the weights of the first failure rate, the second failure rate and the third failure rate to obtain the first domain name quality component.

Optionally, the second determining unit is configured to:

respectively determining weights of the first time delay, the second time delay and the third time delay;

and according to the weights of the first time delay, the second time delay and the third time delay, carrying out weighted summation on the first time delay, the second time delay and the third time delay to obtain the second domain name quality component.

Optionally, the third determining unit is configured to:

adding the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name; or alternatively, the process may be performed,

determining weights of the first domain name quality component and the second domain name quality component respectively; and carrying out weighted summation on the first domain name quality component and the second domain name quality component according to the weights of the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name.

Optionally, the method further comprises:

the second determining module is used for determining the domain name quality of at least one domain name corresponding to the service request when the service request of the target terminal is received, wherein the at least one domain name comprises the target domain name;

The selecting module is used for selecting N domain names which are ranked in front according to the domain name quality from the at least one domain name according to the domain name quality of the at least one domain name, wherein N is a positive integer;

and the sending module is used for sending a service response to the target terminal, wherein the service response carries the domain name identifiers of the N domain names.

According to the method and the device for determining the domain name quality of the target domain name, according to the failure rate related data of the target terminal for accessing the target domain name, the failure rate of the target domain name in the current latest statistics period, the average value of the failure rate of the target domain name in the starting period and the average value of the failure rate of the target domain name in the history period, according to the time delay related data of the target terminal for accessing the target domain name, the time delay of the target terminal for accessing the target domain name in the latest time, the average value of the time delay of the target domain name in the starting period and the average value of the time delay of the target domain name in the history period are counted, and then the domain name quality of the target domain name is comprehensively determined according to the counted data. Therefore, the counted domain name quality can reflect the average quality condition of the domain name in a period of time, and can timely reflect the real-time quality condition of the domain name, so that the determined domain name quality is more accurate, and the actual quality condition of the domain name can be reflected. And because the domain name quality is obtained by statistics according to the access data of the single terminal, the method is more suitable for the access condition of the single terminal, and the feedback result is more suitable for the use condition of each terminal user.

It should be noted that: in determining the domain name quality, the domain name quality determining device provided in the above embodiment is only exemplified by the division of the above functional modules, and in practical application, the above functional allocation may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules, so as to complete all or part of the functions described above. In addition, the domain name quality determining device provided in the above embodiment and the domain name quality determining method embodiment belong to the same concept, and the specific implementation process is detailed in the method embodiment, which is not repeated here.

Fig. 6 is a block diagram of a terminal 600 according to an embodiment of the present application. The terminal 600 may be: a smart phone, a tablet computer, an MP3 player (Moving Picture Experts Group Audio Layer III, motion picture expert compression standard audio plane 3), an MP4 (Moving Picture Experts Group Audio Layer IV, motion picture expert compression standard audio plane 4) player, a notebook computer, or a desktop computer. Terminal 600 may also be referred to by other names of user devices, portable terminals, laptop terminals, desktop terminals, etc.

In general, the terminal 600 includes: a processor 601 and a memory 602.

Processor 601 may include one or more processing cores, such as a 4-core processor, an 8-core processor, and the like. The processor 601 may be implemented in at least one hardware form of DSP (Digital Signal Processing ), FPGA (Field-Programmable Gate Array, field programmable gate array), PLA (Programmable Logic Array ). The processor 601 may also include a main processor, which is a processor for processing data in an awake state, also called a CPU (Central Processing Unit ), and a coprocessor; a coprocessor is a low-power processor for processing data in a standby state. In some embodiments, the processor 601 may integrate a GPU (Graphics Processing Unit, image processor) for rendering and drawing of content required to be displayed by the display screen. In some embodiments, the processor 601 may also include an AI (Artificial Intelligence ) processor for processing computing operations related to machine learning.

The memory 602 may include one or more computer-readable storage media, which may be non-transitory. The memory 602 may also include high-speed random access memory, as well as non-volatile memory, such as one or more magnetic disk storage devices, flash memory storage devices. In some embodiments, a non-transitory computer readable storage medium in memory 602 is used to store at least one instruction for execution by processor 601 to implement the domain name quality determination method provided by the method embodiments herein.

In some embodiments, the terminal 600 may further optionally include: a peripheral interface 603, and at least one peripheral. The processor 601, memory 602, and peripheral interface 603 may be connected by a bus or signal line. The individual peripheral devices may be connected to the peripheral device interface 603 via buses, signal lines or a circuit board. Specifically, the peripheral device includes: at least one of radio frequency circuitry 604, a touch display 605, a camera 606, audio circuitry 607, a positioning component 608, and a power supply 609.

Peripheral interface 603 may be used to connect at least one Input/Output (I/O) related peripheral to processor 601 and memory 602. In some embodiments, the processor 601, memory 602, and peripheral interface 603 are integrated on the same chip or circuit board; in some other embodiments, either or both of the processor 601, memory 602, and peripheral interface 603 may be implemented on separate chips or circuit boards, which is not limited in this embodiment.

The Radio Frequency circuit 604 is configured to receive and transmit RF (Radio Frequency) signals, also known as electromagnetic signals. The radio frequency circuit 604 communicates with a communication network and other communication devices via electromagnetic signals. The radio frequency circuit 604 converts an electrical signal into an electromagnetic signal for transmission, or converts a received electromagnetic signal into an electrical signal. Optionally, the radio frequency circuit 604 includes: antenna systems, RF transceivers, one or more amplifiers, tuners, oscillators, digital signal processors, codec chipsets, subscriber identity module cards, and so forth. The radio frequency circuit 604 may communicate with other terminals via at least one wireless communication protocol. The wireless communication protocol includes, but is not limited to: metropolitan area networks, various generations of mobile communication networks (2G, 3G, 4G, and 5G), wireless local area networks, and/or WiFi (Wireless Fidelity ) networks. In some embodiments, the radio frequency circuitry 604 may also include NFC (Near Field Communication, short range wireless communication) related circuitry, which is not limited in this application.

The display screen 605 is used to display a UI (User Interface). The UI may include graphics, text, icons, video, and any combination thereof. When the display 605 is a touch display, the display 605 also has the ability to collect touch signals at or above the surface of the display 605. The touch signal may be input as a control signal to the processor 601 for processing. At this point, the display 605 may also be used to provide virtual buttons and/or virtual keyboards, also referred to as soft buttons and/or soft keyboards. In some embodiments, the display 605 may be one, providing a front panel of the terminal 600; in other embodiments, the display 605 may be at least two, respectively disposed on different surfaces of the terminal 600 or in a folded design; in still other embodiments, the display 605 may be a flexible display, disposed on a curved surface or a folded surface of the terminal 600. Even more, the display 605 may be arranged in a non-rectangular irregular pattern, i.e., a shaped screen. The display 605 may be made of LCD (Liquid Crystal Display ), OLED (Organic Light-Emitting Diode) or other materials.

The camera assembly 606 is used to capture images or video. Optionally, the camera assembly 606 includes a front camera and a rear camera. Typically, the front camera is disposed on the front panel of the terminal and the rear camera is disposed on the rear surface of the terminal. In some embodiments, the at least two rear cameras are any one of a main camera, a depth camera, a wide-angle camera and a tele camera, so as to realize that the main camera and the depth camera are fused to realize a background blurring function, and the main camera and the wide-angle camera are fused to realize a panoramic shooting and Virtual Reality (VR) shooting function or other fusion shooting functions. In some embodiments, camera assembly 606 may also include a flash. The flash lamp can be a single-color temperature flash lamp or a double-color temperature flash lamp. The dual-color temperature flash lamp refers to a combination of a warm light flash lamp and a cold light flash lamp, and can be used for light compensation under different color temperatures.

The audio circuit 607 may include a microphone and a speaker. The microphone is used for collecting sound waves of users and environments, converting the sound waves into electric signals, and inputting the electric signals to the processor 601 for processing, or inputting the electric signals to the radio frequency circuit 604 for voice communication. For the purpose of stereo acquisition or noise reduction, a plurality of microphones may be respectively disposed at different portions of the terminal 600. The microphone may also be an array microphone or an omni-directional pickup microphone. The speaker is used to convert electrical signals from the processor 601 or the radio frequency circuit 604 into sound waves. The speaker may be a conventional thin film speaker or a piezoelectric ceramic speaker. When the speaker is a piezoelectric ceramic speaker, not only the electric signal can be converted into a sound wave audible to humans, but also the electric signal can be converted into a sound wave inaudible to humans for ranging and other purposes. In some embodiments, the audio circuit 607 may also include a headphone jack.

The location component 608 is used to locate the current geographic location of the terminal 600 to enable navigation or LBS (Location Based Service, location based services). The positioning component 608 may be a positioning component based on the United states GPS (Global Positioning System ), the Beidou system of China, the Granati system of Russia, or the Galileo system of the European Union.

A power supply 609 is used to power the various components in the terminal 600. The power source 609 may be alternating current, direct current, disposable battery or rechargeable battery. When the power source 609 includes a rechargeable battery, the rechargeable battery may support wired or wireless charging. The rechargeable battery may also be used to support fast charge technology.

In some embodiments, the terminal 600 further includes one or more sensors 610. The one or more sensors 610 include, but are not limited to: acceleration sensor 611, gyroscope sensor 612, pressure sensor 613, fingerprint sensor 614, optical sensor 615, and proximity sensor 616.

The acceleration sensor 611 can detect the magnitudes of accelerations on three coordinate axes of the coordinate system established with the terminal 600. For example, the acceleration sensor 611 may be used to detect components of gravitational acceleration in three coordinate axes. The processor 601 may control the touch display screen 605 to display a user interface in a landscape view or a portrait view according to the gravitational acceleration signal acquired by the acceleration sensor 611. The acceleration sensor 611 may also be used for the acquisition of motion data of a game or a user.

The gyro sensor 612 may detect a body direction and a rotation angle of the terminal 600, and the gyro sensor 612 may collect a 3D motion of the user on the terminal 600 in cooperation with the acceleration sensor 611. The processor 601 may implement the following functions based on the data collected by the gyro sensor 612: motion sensing (e.g., changing UI according to a tilting operation by a user), image stabilization at shooting, game control, and inertial navigation.

The pressure sensor 613 may be disposed at a side frame of the terminal 600 and/or at a lower layer of the touch screen 605. When the pressure sensor 613 is disposed at a side frame of the terminal 600, a grip signal of the terminal 600 by a user may be detected, and a left-right hand recognition or a shortcut operation may be performed by the processor 601 according to the grip signal collected by the pressure sensor 613. When the pressure sensor 613 is disposed at the lower layer of the touch display screen 605, the processor 601 controls the operability control on the UI interface according to the pressure operation of the user on the touch display screen 605. The operability controls include at least one of a button control, a scroll bar control, an icon control, and a menu control.

The fingerprint sensor 614 is used for collecting the fingerprint of the user, and the processor 601 identifies the identity of the user according to the fingerprint collected by the fingerprint sensor 614, or the fingerprint sensor 614 identifies the identity of the user according to the collected fingerprint. Upon recognizing that the user's identity is a trusted identity, the processor 601 authorizes the user to perform relevant sensitive operations including unlocking the screen, viewing encrypted information, downloading software, paying for and changing settings, etc. The fingerprint sensor 614 may be provided on the front, back, or side of the terminal 600. When a physical key or vendor Logo is provided on the terminal 600, the fingerprint sensor 614 may be integrated with the physical key or vendor Logo.

The optical sensor 615 is used to collect ambient light intensity. In one embodiment, processor 601 may control the display brightness of touch display 605 based on the intensity of ambient light collected by optical sensor 615. Specifically, when the intensity of the ambient light is high, the display brightness of the touch display screen 605 is turned up; when the ambient light intensity is low, the display brightness of the touch display screen 605 is turned down. In another embodiment, the processor 601 may also dynamically adjust the shooting parameters of the camera assembly 606 based on the ambient light intensity collected by the optical sensor 615.

A proximity sensor 616, also referred to as a distance sensor, is typically provided on the front panel of the terminal 600. The proximity sensor 616 is used to collect the distance between the user and the front of the terminal 600. In one embodiment, when the proximity sensor 616 detects a gradual decrease in the distance between the user and the front face of the terminal 600, the processor 601 controls the touch display 605 to switch from the bright screen state to the off screen state; when the proximity sensor 616 detects that the distance between the user and the front surface of the terminal 600 gradually increases, the processor 601 controls the touch display screen 605 to switch from the off-screen state to the on-screen state.

Those skilled in the art will appreciate that the structure shown in fig. 6 is not limiting of the terminal 600 and may include more or fewer components than shown, or may combine certain components, or may employ a different arrangement of components.

In an exemplary embodiment, a computer readable storage medium having instructions stored thereon, which when executed by a processor, implement the domain name quality determination method described above, is also provided.

In an exemplary embodiment, a computer program product is also provided, which, when executed, is adapted to carry out the above-described domain name quality determining method.

Fig. 7 is a schematic structural diagram of a server 700 provided in the embodiment of the present application, where the server 700 may have a relatively large difference due to different configurations or performances, and may include one or more processors (Central Processing Units, CPU) 701 and one or more memories 702, where at least one instruction is stored in the memories 702, and the at least one instruction is loaded and executed by the processors 701 to implement the domain name quality determining method provided in each of the method embodiments described above. Of course, the server 700 may also have a wired or wireless network interface, a keyboard, an input/output interface, and other components for implementing the functions of the device, which are not described herein.

In an exemplary embodiment, a computer readable storage medium having instructions stored thereon, which when executed by a processor, implement the domain name quality determination method described above, is also provided.

In an exemplary embodiment, a computer program product is also provided, which, when executed, is adapted to carry out the above-described domain name quality determining method.

It should be understood that references herein to "a plurality" are to two or more. "and/or", describes an association relationship of an association object, and indicates that there may be three relationships, for example, a and/or B, and may indicate: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program for instructing relevant hardware, where the program may be stored in a computer readable storage medium, and the storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The foregoing description of the preferred embodiments is merely exemplary in nature and is in no way intended to limit the invention, since it is intended that all modifications, equivalents, improvements, etc. that fall within the spirit and scope of the invention.

Claims (7)

1. A method for determining the quality of a domain name, the method comprising:

acquiring failure rate related data and time delay related data of a target terminal for accessing a target domain name;

according to the failure rate related data, counting a first failure rate, a second failure rate and a third failure rate; wherein the first failure rate is a failure rate of accessing the target domain name in a current statistical period, the second failure rate is an average value of failure rates of accessing the target domain name during startup, and the third failure rate is an average value of failure rates of accessing the target domain name during historical use;

counting a first time delay, a second time delay and a third time delay according to the time delay related data; wherein the first delay is the delay of accessing the target domain name last time, the second delay is the average value of the delays of accessing the target domain name during starting, the third delay is the average value of the delays of accessing the target domain name during historical use, and the delay of accessing the target domain name is the time period from sending a request for accessing the target domain name to receiving feedback data;

determining a first domain name quality component related to the failure rate according to the first failure rate, the second failure rate and the third failure rate;

Determining a second domain name quality component related to the time delay according to the first time delay, the second time delay and the third time delay;

determining the domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component;

the determining the domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component comprises:

adding the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name; or alternatively, the process may be performed,

determining weights of the first domain name quality component and the second domain name quality component respectively; and carrying out weighted summation on the first domain name quality component and the second domain name quality component according to the weights of the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name.

2. The method of claim 1, wherein the determining a first domain name quality component associated with a failure rate based on the first failure rate, the second failure rate, and the third failure rate comprises:

respectively determining weights of the first failure rate, the second failure rate and the third failure rate;

And weighting and summing the first failure rate, the second failure rate and the third failure rate according to the weights of the first failure rate, the second failure rate and the third failure rate to obtain the first domain name quality component.

3. The method of claim 1, wherein determining a second domain name quality component associated with a delay from the first delay, the second delay, and the third delay comprises:

respectively determining weights of the first time delay, the second time delay and the third time delay;

and according to the weights of the first time delay, the second time delay and the third time delay, carrying out weighted summation on the first time delay, the second time delay and the third time delay to obtain the second domain name quality component.

4. A method according to any one of claims 1-3, wherein the method further comprises:

when a service request sent by the target terminal is received, determining the domain name quality of at least one domain name corresponding to the service request, wherein the at least one domain name comprises the target domain name;

selecting N domain names which are ranked in front according to the domain name quality from the at least one domain name according to the domain name quality of the at least one domain name, wherein N is a positive integer;

And sending a service response to the target terminal, wherein the service response carries domain name identifiers of the N domain names.

5. A domain name quality determining apparatus, the apparatus comprising:

the acquisition module is used for acquiring failure rate related data and time delay related data of the target domain name accessed by the target terminal;

the first statistics module is used for counting a first failure rate, a second failure rate and a third failure rate according to the failure rate related data; wherein the first failure rate is a failure rate of accessing the target domain name in a current statistical period, the second failure rate is an average value of failure rates of accessing the target domain name during startup, and the third failure rate is an average value of failure rates of accessing the target domain name during historical use;

the second statistics module is used for counting the first time delay, the second time delay and the third time delay according to the time delay related data; wherein the first delay is the delay of accessing the target domain name last time, the second delay is the average value of the delays of accessing the target domain name during starting, the third delay is the average value of the delays of accessing the target domain name during historical use, and the delay of accessing the target domain name is the time period from sending a request for accessing the target domain name to receiving feedback data;

The first determining module is used for determining the domain name quality of the target domain name according to the first failure rate, the second failure rate and the third failure rate, and the first time delay, the second time delay and the third time delay;

the first determining module includes:

a first determining unit, configured to determine a first domain name quality component related to a failure rate according to the first failure rate, the second failure rate, and the third failure rate;

a second determining unit, configured to determine a second domain name quality component related to the delay according to the first delay, the second delay, and the third delay;

a third determining unit configured to determine a domain name quality of the target domain name according to the first domain name quality component and the second domain name quality component;

the third determining unit is configured to add the first domain name quality component and the second domain name quality component to obtain a domain name quality of the target domain name; or respectively determining weights of the first domain name quality component and the second domain name quality component; and carrying out weighted summation on the first domain name quality component and the second domain name quality component according to the weights of the first domain name quality component and the second domain name quality component to obtain the domain name quality of the target domain name.

6. A domain name quality determining apparatus, the apparatus comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to perform the steps of any of the methods of claims 1-4.

7. A computer readable storage medium having instructions stored thereon, which when executed by a processor, implement the steps of the method of any of claims 1-4.