CN112800375A

CN112800375A - Work delivery method and device, electronic equipment and storage medium

Info

Publication number: CN112800375A
Application number: CN202110358581.6A
Authority: CN
Inventors: 张新星; 王广兴; 肜胜; 丁云平; 裴宇莹; 张鑫杨
Original assignee: Beijing Dajia Internet Information Technology Co Ltd
Current assignee: Beijing Dajia Internet Information Technology Co Ltd
Priority date: 2021-04-02
Filing date: 2021-04-02
Publication date: 2021-05-14
Anticipated expiration: 2041-04-02
Also published as: CN112800375B

Abstract

The disclosure relates to a work delivery method, a work delivery device, an electronic device and a storage medium. The method comprises the following steps: acquiring a work delivery plan, wherein the work delivery plan comprises an author identifier, a delivery limit value and a target evaluation value of a work to be delivered; inquiring to obtain the works to be delivered corresponding to the author identification according to the author identification; and releasing the works to be released, acquiring the actual evaluation value and the actual release progress of the works to be released in the release process, and completing release of the works to be released when the actual release progress reaches a release limit value under the condition that the actual evaluation value does not exceed the target evaluation value. By the method, full-automatic work delivery can be realized according to the preset judgment conditions and the data generated in the work delivery process, so that the work delivery efficiency is greatly improved.

Description

Work delivery method and device, electronic equipment and storage medium

Technical Field

The present disclosure relates to the field of internet technologies, and in particular, to a method and an apparatus for delivering works, an electronic device, a computer-readable storage medium, and a computer program product.

Background

In the technical field of internet, fans play an important role in continuously activating and continuously creating creators on a content platform, so that how to help the creators to increase the number of fans becomes an important problem and work of the content platform.

In the related technology, the operation of helping the creators to increase the number of the fans, increase the exposure of the works and the like can be completed through manual operation of operators of the content platform. For example, the operator manually screens to obtain works to be delivered of the creator; the works to be delivered are popularized on the operation platform at one time. After the promotion, the operator acquires effect data (for example, fan growth data and the like) after the promotion, analyzes the effect data, and repeats the above operations according to the analysis result.

However, with the continuous expansion of the flow of the content platform, the enrichment of the content set and the increase of the number of authors in the content platform, the work popularization by relying on manual operation has the problem of low efficiency.

Disclosure of Invention

The present disclosure provides a work delivery method, device, electronic device, computer-readable storage medium, and computer program product, to at least solve the problem of low work delivery efficiency in the related art. The technical scheme of the disclosure is as follows:

according to a first aspect of the embodiments of the present disclosure, there is provided a work delivery method, including:

acquiring a work delivery plan, wherein the work delivery plan comprises an author identifier, a delivery limit value and a target evaluation value of a work to be delivered;

inquiring to obtain the works to be delivered corresponding to the author identification according to the author identification;

and putting the works to be put in, acquiring the actual evaluation value and the actual putting progress of the works to be put in the putting process, and finishing the putting of the works to be put in when the actual putting progress reaches the putting limit value under the condition that the actual evaluation value does not exceed the target evaluation value.

In one embodiment, the delivering of the works to be delivered comprises a plurality of delivering stages; putting the works to be put in, in the putting process, acquiring the actual evaluation value and the actual putting progress of the works to be put in, wherein the actual evaluation value does not exceed the target evaluation value, the actual putting progress reaches the putting limit value, and the putting of the works to be put in is completed, and the putting method comprises the following steps:

aiming at a non-last release stage, in the release process of each work to be released, acquiring the actual release progress, the actual evaluation value and the actual exposure of the work to be released, and entering the next release stage when the actual exposure reaches the preset target exposure of each release stage and the actual evaluation value of the work to be released does not exceed the target evaluation value;

and completing the release of the works to be released when the accumulated actual release progress of the works to be released reaches the release limit value until the last release stage is reached.

In one embodiment, the method further comprises:

aiming at the non-last launching stage, acquiring a preset exposure proportion and a preset evaluation value range corresponding to each launching stage;

and in the releasing process of each releasing stage, when the actual exposure exceeds the preset exposure proportion of the target exposure but the actual evaluation value reaches the value within the preset evaluation value range of the target evaluation value, stopping releasing the work to be released.

In one embodiment, the delivery limit value comprises a target total resource budget; the method further comprises the following steps:

dividing the target total resource budget to obtain a target resource budget of each release stage;

aiming at a first release stage, when all works to be released entering the first release stage are released completely, but the accumulated actual resource consumption of the first release stage is less than the target resource budget, obtaining the works released in real time as new works to be released;

and releasing the new works to be released.

In one embodiment, the acquiring an actual delivery progress, an actual evaluation value, and an actual exposure of the work to be delivered includes:

acquiring the sum of the release schedules of the works to be released in a plurality of application program versions as the actual release schedule of the works to be released;

acquiring the sum of evaluation values of the works to be released in a plurality of application program versions, and taking the sum as an actual evaluation value of the works to be released;

and acquiring the sum of the exposure of the works to be released in a plurality of application program versions as the actual exposure of the works to be released.

In one embodiment, the method further comprises:

when a plurality of works to be delivered exist, determining the delivery level of each work to be delivered, wherein the delivery level is determined according to at least one of the delivery configuration state, the historical delivery record and the release time of the works to be delivered;

sequencing the works to be delivered according to the sequence of the levels from high to low;

the putting of the works to be put comprises:

and sequentially releasing each sequenced work to be released.

In one embodiment, the method further comprises:

when the number of the works to be delivered belonging to the same level is multiple, the following processing is executed for the works to be delivered under the same level:

acquiring the work association information of each work to be released;

and carrying out weighted sequencing on the plurality of works to be delivered under the same level according to the work association information of each work to be delivered.

In one embodiment, the composition delivery plan further comprises composition screening conditions;

the obtaining of the works to be delivered corresponding to the author identification according to the author identification query includes:

acquiring a full amount of works corresponding to the author identification;

and screening the whole works according to the work screening conditions to obtain the works to be delivered corresponding to the author identification.

In one embodiment, the obtaining of the delivery plan of the work includes:

the method comprises the steps of obtaining a work delivery plan sent by a client, wherein the work delivery plan is generated through a creation page of the delivery plan displayed by the client, and the creation page of the delivery plan comprises an editing area of an author identifier, an editing area of a target evaluation value and an editing area of a delivery limit value.

According to a second aspect of the embodiments of the present disclosure, there is provided a work delivery device, including:

the system comprises a plan acquisition module, a plan acquisition module and a delivery management module, wherein the plan acquisition module is configured to execute acquisition of a work delivery plan, and the work delivery plan comprises at least one author identifier, a delivery limit value and a target evaluation value of a work to be delivered;

the query module is configured to execute query according to the author identifier to obtain the works to be delivered corresponding to the author identifier;

and the delivery module is configured to execute delivery of the works to be delivered, acquire the actual evaluation value and the actual delivery progress of the works to be delivered in the delivery process, and complete delivery of the works to be delivered when the actual delivery progress reaches the delivery limit value under the condition that the actual evaluation value does not exceed the target evaluation value.

In one embodiment, the delivering of the works to be delivered comprises a plurality of delivering stages; the delivery module is configured to execute the following processing for each to-be-delivered work entering each delivery stage, and the delivery module comprises:

a first acquisition unit configured to execute acquisition of an actual putting progress, an actual evaluation value and an actual exposure of the work to be put in during putting in each putting stage for a non-last putting stage;

and the first putting unit is configured to execute that when the actual exposure reaches the preset target exposure of each putting stage and the actual evaluation value of the works to be put in does not exceed the target evaluation value, the next putting stage is entered until the last putting stage is reached, and when the accumulated actual putting progress of the works to be put in reaches the putting limit value, the putting of the works to be put in is completed.

In one embodiment, the first delivery unit is further configured to execute, for the non-last delivery stage, acquiring a preset exposure proportion and a preset evaluation value range corresponding to each delivery stage; and in the release process of each release stage, when the actual exposure exceeds the preset exposure proportion of the target exposure, and if the actual evaluation value reaches the value within the preset evaluation value range of the target evaluation value, the release of the works to be released is stopped.

In one embodiment, the delivery limit value comprises a target total resource budget; the releasing module further comprises:

the dividing unit is configured to divide the target total resource budget to obtain a target resource budget of each release stage;

the second obtaining unit is configured to execute, for a first delivery phase, obtaining a work released in real time as a new work to be delivered when all works to be delivered entering the first delivery phase have been delivered, but the accumulated actual resource consumption of the first delivery phase is less than the target resource budget;

and the second delivery unit is configured to execute delivery of the new work to be delivered.

In one embodiment, the first obtaining unit is configured to perform obtaining, as actual delivery schedules of the works to be delivered, a sum of delivery schedules of the works to be delivered in a plurality of application versions respectively;

In one embodiment, the apparatus further comprises:

the level determining module is configured to determine the delivery level of each work to be delivered when a plurality of works to be delivered exist, and the delivery level is determined according to at least one of the delivery configuration state, the historical delivery record and the publication time of the work to be delivered;

the first sequencing module is configured to perform sequencing on the works to be delivered according to the sequence of the levels from high to low;

and the releasing module is configured to execute releasing the sequenced works to be released in turn.

In one embodiment, the apparatus further comprises:

the information acquisition module is configured to execute acquisition of the work related information of each to-be-released work;

a second sorting module configured to execute the following processing for the works to be delivered at the same level when the number of the works to be delivered at the same level is multiple: and carrying out weighted sequencing on the plurality of works to be delivered under the same level according to the work association information of each work to be delivered.

In one embodiment, the composition delivery plan further comprises composition screening conditions; the query module is configured to execute obtaining of a full amount of works corresponding to the author identification; and screening the whole works according to the work screening conditions to obtain the works to be delivered corresponding to the author identification.

In one embodiment, the composition delivery plan further comprises a delivery objective; and the delivery module is configured to deliver the works to be delivered through a processor corresponding to the delivery purpose.

In one embodiment, the plan obtaining module is configured to perform obtaining of the composition delivery plan sent by a client, where the composition delivery plan is generated through a delivery plan creation page displayed by the client, and the delivery plan creation page includes an author identifier editing area, a target evaluation value editing area, and a delivery limit value editing area.

According to a third aspect of the embodiments of the present disclosure, there is provided an electronic apparatus including:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the work delivery method as defined in any embodiment of the first aspect.

According to a fourth aspect of embodiments of the present disclosure, there is provided a computer-readable storage medium, wherein instructions, when executed by a processor of an electronic device, enable the electronic device to perform the work delivery method as set forth in any one of the embodiments of the first aspect.

According to a fifth aspect of embodiments of the present disclosure, there is provided a computer program product comprising a computer program which, when executed by a processor, implements the work delivery method of any of the embodiments of the first aspect.

The technical scheme provided by the embodiment of the disclosure at least brings the following beneficial effects:

and creating a work delivery plan in advance, wherein the work delivery plan comprises an author identifier, a delivery limit value and a target evaluation value of the work to be delivered. After the delivery server acquires the delivery plan of the works, the to-be-delivered works corresponding to the author marks are obtained through query according to the author marks, and therefore the to-be-delivered works can be rapidly screened; in the releasing process of the works to be released, the releasing server acquires the actual evaluation value and the actual releasing progress of the works to be released in real time, under the condition that the actual evaluation value is judged not to exceed the target evaluation value, releasing of the works to be released is completed when the actual releasing progress reaches a releasing limit value, so that the releasing server can release the fully-automatic works according to the judgment conditions configured in advance and data generated in the releasing process of the works, the working complexity and the repeatability of daily popularization of operators can be reduced, and the releasing efficiency of the works is greatly improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and, together with the description, serve to explain the principles of the disclosure and are not to be construed as limiting the disclosure.

FIG. 1 is a diagram illustrating an application environment for a method of delivering a work, according to an exemplary embodiment.

FIG. 2 is a flow chart illustrating a method of delivering a work according to an exemplary embodiment.

FIG. 3 is a flowchart illustrating a step of delivering a work according to an exemplary embodiment.

FIG. 4 is a flow chart illustrating a method of delivering a work according to an exemplary embodiment.

FIG. 5 is a block diagram illustrating a framework for a work delivery system in accordance with an exemplary embodiment.

FIG. 6 is a block diagram illustrating a work delivery apparatus, according to an exemplary embodiment.

FIG. 7 is a block diagram illustrating an electronic device in accordance with an example embodiment.

Detailed Description

In order to make the technical solutions of the present disclosure better understood by those of ordinary skill in the art, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are capable of operation in sequences other than those illustrated or otherwise described herein. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The work delivery method provided by the present disclosure may be applied to an application environment as shown in fig. 1. Wherein the terminal 110 interacts with the delivery server 120 via a network. A production delivery system is deployed in the terminal 110 and the delivery server 120. The terminal 110 is used to display a front-end display page of the work delivery system. The front-end display page may be, but is not limited to, a creation page/a browsing page/an editing page of a work delivery plan, a work delivery progress page, a delivery abnormality prompting page, a data display page during delivery, a data analysis page after delivery is completed, and the like. The delivery server 120 is configured to deliver the works according to the work delivery plan and a pre-configured work delivery policy. Specifically, the delivery server 120 obtains a delivery plan of a work sent by the terminal 110, where the delivery plan of the work includes an author identifier, a delivery limit value, and a target evaluation value of the work to be delivered. And the delivery server 120 obtains the works to be delivered corresponding to the author identification according to the author identification query. The delivery server 120 delivers the works to be delivered, acquires an actual evaluation value and an actual delivery progress of the works to be delivered in the delivery process, and completes delivery of the works to be delivered when the actual delivery progress reaches a delivery limit value under the condition that the actual evaluation value does not exceed the target evaluation value.

Among others, the terminal 110 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices. Delivery server 120 may be implemented as a stand-alone server or as a server cluster of multiple servers.

Fig. 2 is a flow chart illustrating a method of delivering a work, as shown in fig. 2, for use in a delivery server, according to an exemplary embodiment, including the following steps.

In step S210, a work delivery plan is obtained, where the work delivery plan includes an author identifier, a delivery limit value, and a target evaluation value of a work to be delivered.

The composition may be content, such as pictures, texts, voice, video, music, etc., distributed by an author through an application program.

A work delivery plan may refer to the goals for delivery of a work to be achieved over a period of time in the future and some conditions and ways to achieve the goals for delivery of a work. The work delivery plan can be a plan created by a user (such as an operator) according to the work promotion requirement after the work promotion requirement is generated, and then the work delivery plan is sent to a delivery server through a terminal; or the plan generated by the delivery server after analyzing some or all existing author accounts by itself, for example, the delivery server obtains newly registered author accounts in the last five days; and automatically generating a work delivery plan according to the author account in the last five days.

The author identification may be characterized using a unique ID (Identity Document), author name, and the like. One or more author identifications may be included in a work delivery plan.

The delivery limit value may be an upper limit value or a lower limit value on a specified index, and may be measured by one or more indexes, such as a time index, a vermicelli increase number (hereinafter, abbreviated as vermicelli expansion) index, a resource budget index, and the like. The delivery limit value can be configured independently according to actual promotion requirements of the works, for example, the duration of the delivery plan of the works is configured to be 3 months, 24 days 00:00 in 2021-3 months, 27 days 00:00 in 2021; a default condition configured in advance may also be adopted in the case where the duration is not configured separately, for example, in the case where the duration is not configured separately, the duration of the default composition delivery plan is 3 natural days after the composition delivery.

The target evaluation value may be used to evaluate whether an actually achieved effect of the work after delivery meets a user expectation, and may be measured by, but not limited to, resource consumption, a powder expansion cost (hereinafter referred to as a cost) of a single work, a powder expansion amount obtained by a single work, and the like.

In step S220, the works to be delivered corresponding to the author identifier are obtained according to the author identifier query.

Wherein, the number of the works to be delivered can be one or more.

Specifically, after the delivery server obtains the pre-created works delivery plan, the delivery server may query, according to the author identifier carried in the works delivery plan, to obtain the total amount of works corresponding to each author identifier as the works to be delivered. Further, a work screening condition, for example, a work (hereinafter referred to as a new work) released in real time, a work released in the latest month, and the like, may be configured in the work delivery plan, so that the delivery server screens the whole works corresponding to each author identifier according to the work screening condition to obtain the corresponding work to be delivered. By configuring the screening conditions of the works, the delivery of the works can be more targeted, and a better delivery effect of the works can be achieved under the condition of limited resources.

In step S230, the work to be delivered is delivered, in the delivery process, an actual evaluation value and an actual delivery progress of the work to be delivered are obtained, and when the actual delivery progress reaches a delivery limit value under the condition that the actual evaluation value does not exceed the target evaluation value, the delivery of the work to be delivered is completed.

The actual evaluation value may refer to a value actually reached by the to-be-released work after releasing, for example, actual resource consumption of the to-be-released work, actual powder expansion cost, actual powder expansion quantity obtained through the to-be-released work, and the like. It is to be understood that the actual evaluation value and the target evaluation value are the same property values, for example, when the target evaluation value is the target resource consumption time of the work to be delivered, then the actual evaluation value is the actual resource consumption.

The actual throwing progress may refer to a degree that a certain index value has been reached currently, for example, the current time has reached half, the current powder expansion amount has reached half of the target powder expansion amount, and the like. The actual evaluation value and the dosing limit value can adopt the same index, for example, a time index, a powder expansion amount index and the like are adopted.

Specifically, the delivery server may be configured with a product delivery policy in advance. The work delivery strategy may include, but is not limited to, target exposure, delivery stop conditions, and the like. And after determining the works to be delivered, the delivery server delivers the works to be delivered to part or all of the existing users in the application program according to the work delivery strategy. In the delivery process, the delivery server can obtain the actual evaluation value and the actual delivery progress of each work to be delivered in real time. The actual evaluation value and the actual putting progress can be directly obtained numerical values, such as the actual powder expansion amount; or may be a value obtained by analyzing data, for example, the actual cost is obtained by analyzing the actual resource cost and the actual flour swelling amount. The release server compares the obtained actual evaluation value with the target evaluation value, and compares the obtained actual release progress with a release limit value. And under the condition that the actual evaluation value does not exceed the target evaluation value, if the actual putting progress reaches the putting limit value, putting the to-be-put works.

Further, an implementation in which the actual evaluation value does not exceed the target evaluation value will be described. Take the evaluation value as an example. The case where the actual cost is less than or equal to the target cost may be regarded as the case where the actual cost does not exceed the target cost, and the case where the actual cost is greater than the target cost may be regarded as the case where the actual cost exceeds the target cost.

Further, the delivery server may stop delivery of the work to be delivered in advance when it is determined that the actual delivery progress has not reached the delivery limit value but the actual evaluation value exceeds the target evaluation value.

Further, if there are multiple placement limit values, the placement server may obtain an actual placement progress corresponding to each placement limit value. And when any actual putting progress reaches the corresponding putting limit value, the putting of the works to be put can be finished.

Further, the composition delivery policy may include delivery targeting conditions (which may refer to which user accounts the composition is delivered to), for example, the composition to be delivered is delivered to other users who are in the same city as the author account to which the composition to be delivered belongs. By configuring the directional throwing condition, the powder rising speed is improved, and the finishing speed of the product throwing is accelerated.

Further, for the case that the work delivery plan corresponds to a plurality of works to be delivered, after the delivery server finishes delivering all the works to be delivered, the work delivery plan can be marked as a finished state. And storing the related data obtained in the work putting process and after the work putting is finished.

In the work delivery method, a work delivery plan is created in advance, and the work delivery plan comprises an author identifier, a delivery limit value and a target evaluation value of a work to be delivered. After the delivery server acquires the delivery plan of the works, the to-be-delivered works corresponding to the author marks are obtained through query according to the author marks, and therefore the to-be-delivered works can be rapidly screened; in the releasing process of the works to be released, the releasing server acquires the actual evaluation value and the actual releasing progress of the works to be released in real time, under the condition that the actual evaluation value is judged not to exceed the target evaluation value, releasing of the works to be released is completed when the actual releasing progress reaches a releasing limit value, so that the releasing server can release the fully-automatic works according to the judgment conditions configured in advance and data generated in the releasing process of the works, the working complexity and the repeatability of daily popularization of operators can be reduced, and the releasing efficiency of the works is greatly improved.

In an exemplary embodiment, a delivery of a work to be delivered includes a plurality of delivery phases, namely a first delivery phase through an nth delivery phase (N is an integer greater than 1). The multiple delivery phases may be performed simultaneously or sequentially. The work delivery strategy may include a target exposure amount, a delivery stop condition, and a delivery progress condition corresponding to each delivery stage. The release stopping condition refers to a condition for stopping the release of the works to be released. The delivery order condition refers to a condition for making the work to be delivered enter the next delivery stage. For the last launch stage, the launch stop condition and the launch advance condition may not be set. As shown in fig. 3, in step S230, a work to be delivered is delivered, in the delivery process, an actual evaluation value and an actual delivery progress of the work to be delivered are obtained, and when the actual delivery progress reaches a delivery limit value under the condition that the actual evaluation value does not exceed a target evaluation value, the delivery of the work to be delivered is completed, which may specifically be implemented by the following steps:

in step S310, for a non-last delivery phase, in the delivery process of each delivery phase, an actual delivery progress, an actual evaluation value, and an actual exposure amount of a work to be delivered are acquired.

In step S320, the actual exposure amount and the preset target exposure amount for each dosing stage are compared, and the actual evaluation and the target evaluation value are compared. If the condition 1 is met: when the actual exposure reaches the preset target exposure of each release stage and the actual evaluation value of the work to be released does not exceed the target evaluation value, continuing to step S330; if the condition 2 is met: when the actual exposure amount exceeds the preset exposure proportion of the target exposure amount but the actual evaluation value has reached a value within the preset evaluation value range of the target evaluation value, the step S340 is continued.

In step S330, the next delivery phase is entered until the last delivery phase is reached, and the delivery of the works to be delivered is completed when the accumulated actual delivery progress of the works to be delivered reaches the delivery limit value.

In step S340, the delivery of the work to be delivered is stopped.

The actual exposure amount may refer to the number of clients that the works to be delivered have been pushed to the clients in the current delivery stage. The value within the preset evaluation value range of the target evaluation value may be a value of a preset multiple of the target evaluation value, or a value of a preset proportion of the target evaluation value, depending on the actual delivery requirement. The preset exposure proportion and the preset evaluation value range can be the same or different for different delivery stages.

Specifically, for a non-last release stage, in the release process of each release stage, the release server acquires the actual release progress, the actual evaluation value and the actual exposure of the work to be released in each release stage in real time. The delivery server compares the actual evaluation value with the target evaluation value, and compares the actual exposure with a preset target exposure for each delivery stage. And when the actual exposure reaches the target exposure and the actual evaluation value does not exceed the target evaluation value, carrying out the next release stage release on the works to be released until the last release stage is reached, and finishing the release of the works to be released when the accumulated actual release progress of the works to be released reaches a release limit value.

Further, when the putting server determines that the actual exposure reaches the preset target exposure of each putting stage and the actual evaluation value of the works to be put exceeds the target evaluation value, the putting of the next putting stage is not performed after the putting of the current putting stage is completed.

Further, when the delivery server determines that the actual exposure exceeds the preset exposure proportion of the target exposure and the actual evaluation value reaches a value within the preset evaluation value range of the target evaluation value, it may be determined that the work to be delivered cannot meet the requirement of the target evaluation value, and the delivery of the work to be delivered is stopped in advance.

Further, the release frequency corresponding to each release stage can be included in the release strategy of the work. For example, each work to be delivered is configured to be delivered for a certain time per day (e.g., 4 hours), with a certain exposure (e.g., 5000) per delivery.

Further, the composition delivery strategy may further include a delivery duration corresponding to each delivery stage. The delivery duration may be obtained by dividing the total duration of the work delivery plan, for example, the total duration of the work delivery plan includes three working days, the first two working days initiate delivery of M (M is less than N) delivery phases, and the last two working days initiate delivery of N-M delivery phases.

For example, the delivery of a work to be delivered includes three phases: a first putting stage, a second putting stage and a third putting stage. The number of works to be delivered includes a plurality. Wherein:

the target exposure corresponding to the first putting stage is 20000; the dose stop condition is such that the actual evaluation value is higher than the target evaluation value by two times when the actual exposure amount reaches 50% of the target exposure amount. The input advanced condition is that when the actual exposure amount reaches the target exposure amount, the actual evaluation value is less than or equal to the target evaluation value.

The target exposure amount corresponding to the second putting stage is 30000; the dosing stop condition is such that when the actual exposure amount reaches 30% of the target exposure amount, the actual evaluation value is three times higher than the target evaluation value. The input advanced condition is that when the actual exposure amount reaches the target exposure amount, the actual evaluation value is less than or equal to the target evaluation value.

The release stop condition corresponding to the third release stage is that the accumulated actual release progress reaches a release limit value, for example, the accumulated release duration reaches the total duration of the release plan of the work.

And (3) putting a plurality of works to be put in a first putting stage, and the putting server acquires the actual exposure of each work to be put in real time. And if the actual exposure of a work to be delivered reaches 20000 and the actual evaluation value is less than or equal to the target evaluation value, delivering the work in the second delivery stage. Similarly, if the actual exposure shot size of the work in the second shooting stage reaches 30000 and the actual evaluation value is less than or equal to the target evaluation value, the work is shot in the third shooting stage. And in the releasing process of the third releasing stage, when the accumulated releasing time of the released works is judged to reach the total continuous time, releasing the works to be released is completed.

Correspondingly, if the actual exposure of another work to be delivered in the first delivery stage exceeds 10000 and the actual evaluation value is higher than the target evaluation value by two times, the delivery of the work to be delivered is stopped and the work to be delivered is deleted from the work delivery plan. Similarly, if the actual exposure amount in the second delivery stage exceeds 9000 and the actual evaluation value is three times higher than the target evaluation value, the delivery of the work to be delivered is stopped, and the work to be delivered is deleted from the work delivery plan.

In the embodiment, by configuring a plurality of delivery stages, the works to be delivered are screened layer by layer through the plurality of delivery stages, limited resources are used on the works to be delivered with better delivery effect, the increase speed of the vermicelli is promoted, and the completion efficiency of the project delivery plan can be promoted.

In an exemplary embodiment, the placement limit value comprises a target total resource budget; the method further comprises the following steps: dividing the target total resource budget to obtain the target resource budget of each release stage; aiming at a first release stage, when all works to be released entering the first release stage are released completely, but the accumulated actual resource consumption of the first release stage is less than a target resource budget, obtaining the works released in real time as new works to be released; and releasing a new work to be released.

The resource budget refers to a monetization expression of the traffic, and the traffic is used for reflecting the visit amount of the works to be delivered. After the works to be delivered are delivered to the client, a certain resource budget is consumed when each additional client accesses the works to be delivered.

Specifically, the launching server divides a preset target total resource budget according to a preset dividing mode to obtain a target resource budget of each launching phase. The preset dividing mode can be equal dividing, dividing according to a fixed proportion and the like. And aiming at the first release stage, the release server obtains the actual resource consumption of each work to be released in real time after releasing each work to be released. And after all the works to be released are released, acquiring the accumulated actual resource consumption of the first releasing stage. The accumulated actual resource consumption is compared to a target resource budget for the first delivery phase. If the actual resource consumption is smaller than the target resource budget in the first release stage, the new work is obtained as a new work to be released, and the new work to be released is released with reference to the above embodiment.

Further, the work delivery strategy may further include a target resource budget allocation frequency corresponding to each delivery phase. For example, each natural day is allocated a certain proportion, and if the target resource budget is not consumed on the day, the target resource budget is cleared. In this case, the new work may be added as a new work to be delivered when the cumulative actual resource consumption on the current day is smaller than the target resource budget on the current day, with the target resource budget on each natural day as a reference.

Further, for each delivery phase, if the work to be delivered entering a certain delivery phase is not delivered yet, but the target resource budget of the delivery phase is consumed, the delivery of the work to be delivered may be stopped.

In this embodiment, under the condition that all the works to be delivered in the first delivery stage are delivered and the residual resource budget is still available, new works to be delivered are allowed to be added as new works to be delivered, so that the existing resource budget can be fully utilized, and the promotion effect of the works can be improved.

In an exemplary embodiment, there may be multiple versions of an application, including, for example, a very fast version, a normal version. In this case, acquiring an actual delivery progress, an actual evaluation value, and an actual exposure amount of the work to be delivered includes: acquiring the sum of the release schedules of the works to be released in a plurality of application program versions as the actual release schedule of the works to be released; acquiring the sum of evaluation values of the works to be released in a plurality of application program versions as an actual evaluation value of the works to be released; and acquiring the sum of the exposure of the works to be released in the plurality of application program versions as the actual exposure of the works to be released.

Further, in this case, the target exposure amount for each delivery stage may be divided according to the actual delivery demand, resulting in a target exposure amount corresponding to each application version. For example, the target exposure of each putting stage is averaged; or determining the division ratio of each application program version according to the download amount of each application program version, and dividing the target exposure of each putting stage according to the division ratio of each application program version to obtain the target exposure corresponding to each application program version. And then the obtained target exposure and target evaluation value are used for judging the delivery effect of the works to be delivered.

In this embodiment, by simultaneously delivering the works to a plurality of application versions, users using different application versions are considered, which is helpful to improve the completion rate and completion speed of the delivery of the works.

In an exemplary embodiment, before delivering the work to be delivered in step S230, the method further comprises: when a plurality of works to be delivered exist, determining the delivery level of each work to be delivered, wherein the delivery level is determined according to at least one of the delivery configuration state, the historical delivery record and the release time of the works to be delivered; and sorting the works to be delivered according to the sequence of the levels from high to low.

And the delivery configuration state is used for indicating whether the product to be delivered is the product to be delivered specified by the user.

Specifically, after the delivery server obtains a plurality of works to be delivered, information such as delivery configuration state, historical delivery record, release time and the like of each work to be delivered is obtained, and the delivery level of each work to be delivered is determined according to at least one of the delivery configuration state, the historical delivery record and the release time. And sorting the works to be delivered according to the sequence of the levels from high to low. And the releasing server sequentially releases each work to be released according to the sequence of the levels from high to low.

For example, the following are configured in advance: the four levels of configuration works (i.e., works individually specified by the user), works for which there is a history of delivery records, works for which there is no history of delivery records, and new works are sequentially lowered. After obtaining the works to be delivered, sequencing the works to be delivered according to the delivery levels.

Further, when the number of the works to be delivered belonging to the same level includes a plurality of works, for example, a plurality of works to be delivered exist under the configuration works, in this case, the delivery server may obtain the association information of each work to be delivered, and perform weighted sorting on the works to be delivered under the same level according to the association information of each work to be delivered, thereby obtaining the accurate sorting of the plurality of works to be delivered. The associated information of the work includes, but is not limited to, historical performance data, audit status, quality marks and other data of the work. The weight of the weighted sequence is positively correlated with the associated information of the work.

In the embodiment, before the works are put in, a plurality of works to be put in are sequenced, high-quality works are put in preferentially, limited resources are used on the works to be put in with better quality, and the increase speed of the vermicelli is promoted, so that the completion efficiency of the work putting plan can be improved.

In an exemplary embodiment, the composition delivery plan further includes a delivery objective; step S230, delivering the works to be delivered, including: and delivering the works to be delivered through a processor corresponding to the delivery purpose.

The throwing purpose can be but is not limited to powder expansion, heating of works, exposure improvement and the like. In creating a delivery plan for a work, delivery objectives may be configured. After the delivery server obtains the work delivery plan, a processor corresponding to the delivery purpose can be searched, and the works to be delivered are delivered through the processor.

In this embodiment, a processor corresponding to a delivery destination is configured in advance for processing a to-be-delivered work of the delivery destination, and if a plurality of work delivery plans exist at the same time, a load balancing process is performed on delivery tasks of the works, so that the processing capability of the delivery server can be enhanced.

In an exemplary embodiment, step S210, obtaining a delivery plan for a work includes: the method comprises the steps of obtaining a work delivery plan sent by a client, wherein the work delivery plan is generated through a delivery plan creating page displayed by the client, and the delivery plan creating page comprises an author identifier editing area, a target evaluation value editing area and a delivery limit value editing area.

Specifically, the user can edit the delivery purpose, the author identifier, the work screening condition, the application version, the target evaluation value, the delivery limit value (for example, the delivery time, the upper limit of budget of a single author, the upper limit of the amount of work delivered by a single author), the notification reminding condition, and the like through each editing area in the creation page. And the client generates a work delivery plan according to the edited data and sends the work delivery plan to a delivery server for execution.

In the embodiment, clear information guidance is provided for the user by deploying the creation page of the delivery plan, the user is guided to rapidly and accurately make the delivery plan of the works, the difficulty of making the delivery plan by the user is simplified, and the automation degree of delivery of the works is improved.

FIG. 4 is a flowchart illustrating a method of delivering a particular work, according to an exemplary embodiment, as shown in FIG. 4, including the steps of:

in step S402, a work delivery plan is acquired. The work delivery plan includes at least one author identifier, a delivery limit value, a target evaluation value, a delivery objective, a work screening condition, and the like. The delivery limit value comprises the total duration of the work delivery plan, the target total resource budget, the target pollen expansion quantity and the like. In the present embodiment, a target powder expansion amount example with a target evaluation value as a target cost and a delivery limit value as an author is explained. The specific creation of the work delivery plan may refer to the above embodiments.

In step S404, a plurality of works to be delivered corresponding to the author identifier are obtained by screening according to the work screening conditions, and the plurality of works to be delivered are stored in the work library.

In step S406, a plurality of works to be delivered are sorted. The sorting can be divided into two steps of sorting according to the delivery level and sorting according to the association information of the works in the same level. Specific implementations may refer to the above-described embodiments, which are not specifically set forth herein.

In step S408, the status of each work to be delivered in the work library is marked as to be placed.

In step S410, a placement order corresponding to each work to be placed whose status is to be placed is generated, and the placement order is written in an order library.

Further, if it is found that a certain to-be-delivered work reaches the delivery limit value, the status of the to-be-delivered work may be updated to be terminated, and the order is not processed any more.

In step S412, information such as the delivery duration and the target resource budget for each delivery phase is determined.

In step S414, the processor corresponding to the delivery destination delivers the ordered delivery orders of each to-be-delivered work in sequence in multiple delivery stages according to the work delivery policy. The work delivery strategy includes a target exposure amount, a delivery stop condition, a delivery progress condition, and the like corresponding to each delivery stage.

Specifically, the putting server puts a plurality of works to be put in a first putting stage, and the putting server acquires the actual exposure of each work to be put in real time. And if the actual exposure of a certain work to be released reaches the target exposure of the first release stage and the actual cost is less than or equal to the target cost, releasing the work in the second release stage. By analogy, the release of the works to be released and the release of other works to be released corresponding to the author identification are completed until the actual powder expansion quantity corresponding to the author identification reaches the target powder expansion quantity; or the release duration of the works to be released reaches the total duration, the release of the works to be released is stopped.

Accordingly, the preset exposure proportion and the preset cost multiple corresponding to the current putting stage (not the last putting stage) can also be obtained. And if the actual exposure of another work to be released in the current releasing stage exceeds the preset exposure proportion of the target exposure and the actual cost is higher than the preset cost multiple of the target cost, stopping releasing the work to be released and deleting the work to be released from the work library.

Further, if the work delivery plan includes a plurality of application program versions, the actual delivery schedule may be the sum of the delivery schedules of the plurality of application program versions; the actual cost may be the sum of the costs of the multiple application versions; the actual exposure may be the sum of the exposures of the multiple application versions.

FIG. 5 illustrates an overall block diagram of a work delivery system. Referring to fig. 5, a delivery server is deployed with a synchronization task, an author service, a new work consumer, an author library, a work library, an effect data consumer, a ranking module, and a delivery module. Wherein:

after the delivery server obtains the delivery plan of the work, at least one author identification can be synchronized to the author library through a synchronization task. If the configuration works exist in the work delivery plan, the configuration works can be synchronized to the work library through a synchronization task.

And under the condition that the author screening condition comprises historical works, obtaining the works of the latest month through the author service according to the work identification screening, using the works as the works to be delivered, and synchronizing the works to be delivered to a work library. Under the condition that the author screening condition comprises new works, monitoring the real-time uploaded works corresponding to the author identification by new work consumers, and synchronizing the real-time uploaded works to a work library.

And the sequencing module sequences the works to be delivered in the work library. And marking the works to be delivered as the orders to be delivered.

And the release module generates release orders corresponding to each to-be-released work with the state of to-be-released, and writes the release orders into an order library. And sequentially releasing the ordered release orders of the works to be released through a processor corresponding to the release purpose according to the work release strategy. In the releasing process, the data analysis module analyzes the generated data (for example, the actual cost, the actual powder rising amount and the like), so as to screen orders to judge which orders can enter the next releasing stage, which orders cannot enter the next releasing stage, which orders need to stop releasing continuously and the like.

After the delivery is finished, the effect data consumer obtains data obtained by analyzing the data generated in the delivery process, and updates the data to the work library and the author library.

It should be understood that, although the steps in the above-described flowcharts are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the above-mentioned flowcharts may include a plurality of steps or a plurality of stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or the stages is not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a part of the steps or the stages in other steps.

FIG. 6 is a block diagram illustrating a work delivery apparatus 600, according to an exemplary embodiment. Referring to fig. 6, the apparatus includes a plan acquisition module 602, a query module 604, and a delivery module 606.

A plan obtaining module 602 configured to execute obtaining of a work delivery plan, where the work delivery plan includes at least one author identifier, a delivery limit value, and a target evaluation value of a work to be delivered; a query module 604 configured to perform query according to the author identifier to obtain a to-be-delivered work corresponding to the author identifier; and the delivery module 606 is configured to perform delivery of the works to be delivered, acquire an actual evaluation value and an actual delivery progress of the works to be delivered in a delivery process, and complete delivery of the works to be delivered when the actual delivery progress reaches a delivery limit value under the condition that the actual evaluation value does not exceed the target evaluation value.

In an exemplary embodiment, the delivery of a work to be delivered includes a plurality of delivery phases; a placement module 606 comprising: a first acquisition unit configured to execute acquisition of an actual putting progress, an actual evaluation value and an actual exposure of a work to be put in a putting process of each putting stage for a non-last putting stage; a first putting unit configured to perform entering a next putting stage when the actual exposure reaches a preset target exposure of each putting stage and the actual evaluation value of the work to be put does not exceed the target evaluation value; and completing the release of the works to be released when the actual release progress of the works to be released reaches a release limit value until the last release stage is reached.

In an exemplary embodiment, the first delivery unit is further configured to execute, for the non-last delivery stage, acquiring a preset exposure proportion and a preset evaluation value range corresponding to each delivery stage; and in the release process of each release stage, when the actual exposure exceeds the preset exposure proportion of the target exposure but the actual evaluation value reaches the value within the preset evaluation value range of the target evaluation value, the release of the works to be released is stopped.

In an exemplary embodiment, the placement limit value comprises a target total resource budget; the releasing module 606 further includes: the dividing unit is configured to divide the target total resource budget to obtain a target resource budget of each release stage; the second obtaining unit is configured to execute, aiming at the first delivery stage, obtaining the works released in real time as new works to be delivered when all the works to be delivered entering the first delivery stage have been delivered and the accumulated actual resource consumption of the first delivery stage is smaller than the target resource budget; and the second delivery unit is configured to execute delivery of the new work to be delivered.

In an exemplary embodiment, the first obtaining unit is configured to perform obtaining a sum of delivery schedules of the works to be delivered in the plurality of application versions as an actual delivery schedule of the works to be delivered; acquiring the sum of evaluation values of the works to be released in a plurality of application program versions as an actual evaluation value of the works to be released; and acquiring the sum of the exposure of the works to be released in the plurality of application program versions as the actual exposure of the works to be released.

In an exemplary embodiment, the apparatus 600 further comprises: the level determining module is configured to determine the delivery level of each work to be delivered when a plurality of works to be delivered exist, and the delivery level is determined according to at least one of the delivery configuration state, the historical delivery record and the release time of the works to be delivered; the first sequencing module is configured to perform sequencing on the works to be delivered from high level to low level; and a delivery module 606 configured to deliver each of the ordered works to be delivered in turn.

In an exemplary embodiment, the apparatus 600 further comprises: the information acquisition module is configured to execute acquisition of the work related information of each work to be released; a second sorting module configured to execute the following processing for the works to be delivered at the same level when the number of the works to be delivered at the same level is multiple: and carrying out weighted sequencing on a plurality of works to be delivered under the same level according to the work association information of each work to be delivered.

In an exemplary embodiment, the composition delivery plan further includes composition screening conditions; a query module 604 configured to perform obtaining a full-size work corresponding to the author identification; and screening the whole works according to the work screening conditions to obtain the works to be delivered corresponding to the author identification.

In an exemplary embodiment, the composition delivery plan further includes a delivery objective; and a delivery module 606 configured to perform delivery of the work to be delivered by a processor corresponding to the delivery objective.

In an exemplary embodiment, the plan obtaining module 602 is configured to perform obtaining of a composition delivery plan sent by a client, where the composition delivery plan is generated through a delivery plan creation page displayed by the client, and the delivery plan creation page includes an author identification edit area, a target evaluation value edit area, and a delivery limit value edit area.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

FIG. 7 is a block diagram illustrating an electronic device S00 for delivery of a work, according to an example embodiment. For example, the electronic device S00 may be a server. Referring to FIG. 7, electronic device S00 includes a processing component S20 that further includes one or more processors and memory resources represented by memory S22 for storing instructions, such as applications, that are executable by processing component S20. The application program stored in the memory S22 may include one or more modules each corresponding to a set of instructions. Further, the processing component S20 is configured to execute the instructions to perform the method of work delivery described above.

The electronic device S00 may also include a power supply assembly S24 configured to perform power management of the electronic device S00, a wired or wireless network interface S26 configured to connect the electronic device S00 to a network, and an input-output (I/O) interface S28. The electronic device S00 may operate based on an operating system stored in the memory S22, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, or the like.

In an exemplary embodiment, a computer-readable storage medium comprising instructions, such as the memory S22 comprising instructions, executable by the processor of the electronic device S00 to perform the above method is also provided. The storage medium may be a computer-readable storage medium, which may be, for example, a ROM, a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

In an exemplary embodiment, there is also provided a computer program product comprising a computer program which, when executed by a processor, implements the work delivery method of any of the above embodiments.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims

1. A method of delivering a work, comprising:

2. The work delivery method of claim 1, wherein the delivery of the work to be delivered comprises a plurality of delivery phases;

putting the works to be put in, in the putting process, acquiring the actual evaluation value and the actual putting progress of the works to be put in, wherein the actual evaluation value does not exceed the target evaluation value, the actual putting progress reaches the putting limit value, and the putting of the works to be put in is completed, and the putting method comprises the following steps:

aiming at the non-last release stage, in the release process of each release stage, acquiring the actual release progress, the actual evaluation value and the actual exposure of the work to be released, and entering the next release stage when the actual exposure reaches the target exposure of each release stage and the actual evaluation value of the work to be released does not exceed the target evaluation value;

3. The work delivery method of claim 2, further comprising:

4. The work delivery method of claim 2, wherein the delivery limit value comprises a target total resource budget; the method further comprises the following steps:

and releasing the new works to be released.

5. The work delivery method according to any one of claims 2 to 4, wherein the acquiring of the actual delivery progress, the actual evaluation value and the actual exposure of the work to be delivered comprises:

6. The work delivery method of claim 1, further comprising:

sequencing the works to be released according to the sequence of the releasing levels from high to low;

the putting of the works to be put comprises:

and sequentially releasing each sequenced work to be released.

7. The work delivery method of claim 6, further comprising:

acquiring the work association information of each work to be released;

8. The work delivery method of claim 1, wherein the work delivery plan further comprises work screening conditions;

acquiring a full amount of works corresponding to the author identification;

9. The work delivery method of claim 1, wherein obtaining the work delivery plan comprises:

10. A work delivery apparatus, comprising:

the system comprises a plan acquisition module, a plan acquisition module and a plan delivery module, wherein the plan acquisition module is configured to execute acquisition of a work delivery plan, and the work delivery plan comprises an author identifier, a delivery limit value and a target evaluation value of a work to be delivered;

11. The work delivery apparatus of claim 10, wherein the delivery of the work to be delivered comprises a plurality of delivery stages; the delivery module comprises:

a first putting unit configured to execute entering a next putting stage when the actual exposure reaches a preset target exposure of each putting stage and an actual evaluation value of the work to be put does not exceed the target evaluation value; and completing the release of the works to be released when the accumulated actual release progress of the works to be released reaches the release limit value until the last release stage is reached.

12. The work delivery apparatus according to claim 11, wherein the first delivery unit is further configured to perform acquiring, for the non-last delivery stage, a preset exposure ratio and a preset evaluation value range corresponding to each delivery stage; and in the releasing process of each releasing stage, when the actual exposure exceeds the preset exposure proportion of the target exposure but the actual evaluation value reaches the value within the preset evaluation value range of the target evaluation value, stopping releasing the work to be released.

13. The work delivery apparatus of claim 11, wherein the delivery limit value comprises a target total resource budget; the releasing module further comprises:

14. The work delivery apparatus according to any one of claims 11 to 13, wherein the first acquisition unit is configured to perform:

15. The work delivery device of claim 10, further comprising:

16. The work delivery device of claim 15, further comprising:

17. The work delivery apparatus of claim 10, wherein the work delivery plan further comprises work screening conditions; the query module is configured to execute obtaining of a full amount of works corresponding to the author identification; and screening the whole works according to the work screening conditions to obtain the works to be delivered corresponding to the author identification.

18. The work delivery apparatus according to claim 10, wherein the plan acquisition module is configured to execute acquisition of the work delivery plan transmitted by the client, the work delivery plan is generated through a creation page of the delivery plan displayed by the client, and the creation page of the delivery plan includes an edit area of an author identifier, an edit area of a target evaluation value, and an edit area of a delivery limit value.

19. An electronic device, comprising:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the work delivery method of any of claims 1 to 9.

20. A computer-readable storage medium having instructions thereon that, when executed by a processor of an electronic device, enable the electronic device to perform a work delivery method as recited in any one of claims 1-9.