CN111883231A - Intelligent camping method and device, storage medium and server - Google Patents

Abstract

The application discloses an intelligent camping method. The method comprises the following steps: receiving distribution information configured by a user in a background, wherein the distribution information at least comprises: schooling period information and single operation parameter information; referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first to-be-distributed pool; the entry records meeting second preset distribution conditions in the first pool to be distributed are classified into a first pool to be created; and dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule. The technical problems that the labor cost is too high and the efficiency is very low due to the fact that the administrator still needs to manually carry out overall planning and distribution on the registration records are solved.

Description

Intelligent camping method and device, storage medium and server

Technical Field

The application relates to the field of background management, in particular to an intelligent camping method, an intelligent camping device, a storage medium and a server.

Background

The postpartum body recovery and fat reduction both need to effectively control diet and exercise, so that good postpartum body recovery and fat reduction effects can be achieved.

The inventors found that in order to standardize diet and exercise, the person would turn to a professional trainer; or by means of APP (application program) and application processing software which can realize recipe recommendation for fat reduction, and matched background management software; however, the current background management software still needs the administrator to manually perform overall planning and distribution on the entry records, and in the process, the administrator needs to fully consider the continuity of the business hours names, coaches, personnel and the like, so that the labor cost is too high, and the efficiency is very low.

Aiming at the problems of overhigh labor cost and low efficiency caused by the fact that an administrator still needs to carry out overall planning and distribution on registration records manually in the related art, an effective solution is not provided at present.

Disclosure of Invention

The application mainly aims to provide an intelligent marketing method, an intelligent marketing device, a storage medium and a server, so as to solve the problems that the labor cost is too high and the efficiency is very low because an administrator is still required to manually perform overall planning and distribution on registration records.

In order to achieve the above object, according to one aspect of the present application, there is provided an intelligent camping method.

The intelligent division method comprises the following steps: receiving distribution information configured by a user in a background, wherein the distribution information at least comprises: schooling period information and single operation parameter information; referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first to-be-distributed pool; the entry records meeting second preset distribution conditions in the first pool to be distributed are classified into a first pool to be created; and dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule.

Further, after entering the entry record meeting the first preset allocation condition into the first to-be-allocated pool with reference to the scholarly term information, the method further includes: the entry records which do not accord with a second preset distribution condition in the first pool to be distributed are classified into a second pool to be distributed; the entry records containing the labels of the places in the second pool to be distributed are classified into a second pool to be created; and dividing the second pool to be created into a plurality of second target camps according to the single camp parameter information according to a preset camp creation rule.

Further, the allocation information may further include: first grouping information grouped by locality tags, and second grouping information grouped by attribution tags.

Further, after entering the entry record in the first pool to be allocated, which does not meet the second preset allocation condition, into the second pool to be allocated, the method further includes: the entry records which do not contain the location labels in the second pool to be distributed are classified into a third pool to be distributed; dividing the third pool to be distributed into a third pool to be created, a fourth pool to be distributed and a fifth pool to be distributed according to the staging labels; and dividing the third pool to be created into a plurality of third target camps according to the single camp parameter information according to a preset camp creation rule.

Further, dividing the third pool to be allocated into a third pool to be created, a fourth pool to be allocated and a fifth pool to be allocated according to the staging label, and then: when the distribution information is judged to contain second grouping information, the entry records in the fourth pool to be distributed are divided into a plurality of fourth pools to be created according to the operation attribute labels; and dividing the fourth pool to be created into a plurality of fourth target camps according to preset camp creation rules and the single camp parameter information.

Further, dividing the third pool to be allocated into a third pool to be created, a fourth pool to be allocated and a fifth pool to be allocated according to the staging label, and then: when the second grouping information is contained in the distribution information, dividing entry records in the fifth pool to be distributed into a plurality of fifth pools to be created according to the marketing attribute labels; and dividing the fifth pool to be created into a plurality of fifth target camps according to preset camp creation rules and the single camp parameter information.

Further, the method also comprises the following steps: receiving an operation creating request sent by a user in a background, and entering a creating interface; analyzing the camp name information input by the user in the creation interface according to a preset naming rule; calling a first registration record conforming to the analysis result; and creating the camp according to the called first entry record.

In order to achieve the above object, according to another aspect of the present application, an intelligent camping apparatus is provided.

The intelligence division device according to this application includes: a receiving module, configured to receive allocation information configured by a user in a background, where the allocation information at least includes: schooling period information and single operation parameter information; the first entry module is used for entering the entry records meeting the first preset distribution condition into a first pool to be distributed by referring to the schooling period information; the second entry module is used for entering the entry records meeting second preset allocation conditions in the first pool to be allocated into the first pool to be created; and the creating module is used for dividing the first pool to be created into a plurality of first target camps according to a preset camp creating rule.

In order to achieve the above object, according to another aspect of the present application, there is provided a storage medium.

The storage medium according to the present application includes: the intelligent division method.

To achieve the above object, according to another aspect of the present application, there is provided a server.

The server according to the present application includes: the intelligent division method.

In this embodiment of the present application, an intelligent camping mode is adopted, and allocation information configured by a user in a background is received, where the allocation information at least includes: schooling period information and single operation parameter information; referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first to-be-distributed pool; the entry records meeting second preset distribution conditions in the first pool to be distributed are classified into a first pool to be created; dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule; in the process, the continuity of the camp names, coaches, personnel and the like is calculated by an organic machine, and the administrator only needs to simply input necessary information; the purpose that machine intelligence carries out overall planning and distribution of registration record has been reached to realized greatly reduced the human cost, and promoted the technological effect of efficiency, and then solved because still need the administrator manual to carry out overall planning and distribution to the registration record and the human cost that causes is too high, and the technical problem of inefficiency very much.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

fig. 1 is a schematic flow diagram of an intelligent camping method according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of an intelligent camping device according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a storage medium according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a server according to an embodiment of the present application;

FIG. 5 is a scholarly term selection interface diagram according to an embodiment of the present application;

FIG. 6 is an automated camping interface diagram according to an embodiment of the present application;

FIG. 7 is a naming convention interface diagram according to an embodiment of the present application;

FIG. 8 is an assignment mapping chart according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the present invention can be understood by those skilled in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

According to an embodiment of the present invention, there is provided an intelligent camping method, as shown in fig. 1, the method includes steps S101 to S104 as follows:

step S101, receiving distribution information configured by a user in a background, wherein the distribution information at least comprises: schooling period information and single operation parameter information;

the background can be a pc computer or a mobile phone, preferably the pc computer, and management software of the client APP is installed on the background; the administrator enters a management interface of management software through mouse operation, selects 'fat reduction management' or 'spicy mother management' and selects students to enter a schoolwork selection interface shown in figure 5 in groups; in the interface, the user can select the schooling date information according to the actual situation, and click the automatic camp sharing to enter the automatic camp sharing interface shown in fig. 6 after the selection is finished; in this embodiment, in the camping interface, the user fills single camping parameter information (must be filled) in the single camping maximum number column; after the server receives the two information of the schooling period information and the single operation parameter information, intelligent division operation can be carried out through the server.

According to the embodiment of the present invention, preferably, the allocation information may further include: first grouping information grouped by locality tags, and second grouping information grouped by attribution tags. In the automatic division interface, the user can select the overseas independent groups and/or the camp type attribute independent groups according to actual conditions, and guarantees are provided for subsequent overall planning and distribution (division) through the server according to different labels.

After the completion of the filling and checking, the user clicks a 'confirm' button and enters the server to execute the intelligent division operation. Only two pieces of information need to be filled in (or two pieces of information are filled in and selected), so that the operation difficulty of an administrator is greatly reduced, the labor cost is reduced, and the efficiency is improved.

In this embodiment, a "confirm" button is clicked, the server first checks whether the numbers are pure numbers 1-999, and if not, the server intercepts the submission.

Step S102, referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first pool to be distributed;

the first preset distribution condition is as follows:

1) screening special entry records for the same term information as the scholarly term information

2) All entry records in all unlocked camps in the current school period are changed into an non-camping state, namely, camp _ id is emptied

3) Delete all unlocked camps in current school date (marker delete)

4) Then all the entry records meeting the following conditions are put into a temporary 'total pool to be distributed', namely the first pool to be distributed

Run ID in entry record equal to 0, or null

Entry in entry record, TERM ID equal to TERM _ ID of TERM selected on page

Is _ quick _ group in entry record, equal to 2

Order ID in entry record, not null and not 0

Order ID in entry record, order status in order sheet (2,3,4,5)

APPLY _ STATUS in the entry record is 0

After the verification is successful, the server judges whether the above conditions are met, the unsatisfied entry records are eliminated, and the met entry records are all put into a first pool to be distributed; as a record to be allocated. Invalid entry records are screened out, and only valid entry records are left; the effectiveness of all records for intelligent division is guaranteed.

Step S103, registering the entry records meeting second preset distribution conditions in the first pool to be distributed into a first pool to be created;

the second preset allocation condition is a special entry record, that is, if a certain entry record is a component of a combined campaign (based on whether its package _ order _ id has a parent order x in the order table), and the school dates (term1, term2) where entry records (app 1, app 2) corresponding to all child orders of the parent order x (e.g. scenes currently having only 2 child orders, order1, order2) are located are discontinuous, then the entry record is regarded as a special entry record.

In this example, term1 and term2 are defined discontinuously:

when the property of the commodity in the parent order is "fat-reduction marching-class training camp": (marketing date of term1 + DAYS of term 1) < > marketing date of term2

When the property of the product in the parent order is "spicy mothers training camp": (marketing date of term1 + DAYS +2 of term 1) < > marketing date of term2

In order to perform individual division operation on the special entry records, the first pool to be allocated needs to be further subdivided, the special entry records are picked out, and the first pool to be created is set up and used for storing all the special entry records. Specifically, a second preset distribution condition is preset, and the server judges that all the records meeting the condition are considered to be special entry records; and the independent operation of division is provided for the special entry records, and the entry records in the first pool to be created are all special entry records.

And step S104, dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule.

The first pool to be created is a special pool. As shown in fig. 8, after the special entry record is classified into the special pool, the server creates 1 camp according to the preset camp creation rule, the camp type code at the time of naming is 99 special, the installment code is 00 single camp, and the other is named by referring to the general naming rule; the naming rule refers to the naming rule diagram shown in fig. 7, which is not described herein in detail.

All entry records (special) in the first pool to be created are moved into the newly created pool; in the program, no matter how many special registration records exist, the maximum number of people (single-business parameter information) in a single business is ignored, and all the people are moved to the business, namely the first target business; and automatically assign coaches to all first-destination camps.

The condition judgment, the distribution and the marketing creation of the special registration records in the whole process are all completed by the server, and only two pieces of information need to be input by a person, so that the further division of the special registration records is realized, the labor cost is greatly reduced, and the management efficiency is improved.

According to the embodiment of the present invention, preferably, after entering the entry record meeting the first preset allocation condition into the first to-be-allocated pool with reference to the schooling date information, the method further includes:

the entry records which do not accord with a second preset distribution condition in the first pool to be distributed are classified into a second pool to be distributed;

the entry records containing the labels of the places in the second pool to be distributed are classified into a second pool to be created;

and dividing the second pool to be created into a plurality of second target camps according to the single camp parameter information according to a preset camp creation rule.

And the server judges that the records which do not meet the second preset distribution condition are not considered to be special entry records, and all the records are classified into a second pool to be distributed for further division and distribution.

As shown in fig. 8, the server first needs to determine whether the allocation information includes the first grouping information, that is, determine whether the user has chosen "overseas individual grouping", if so, extract the location tag in the second pool to be allocated, compare the location tag with the preset location tag (preset as overseas), and if so, classify the entry record into the second pool to be created, that is, ensure that the entry records in the second pool to be created are overseas.

If not, no separate distribution of overseas entry records is performed.

After the second pool to be created is generated, the server creates n camps according to rules (n values: number of registration records of overseas pools, modulo of the number of the highest number of single camps, quotient acquisition and 1 addition), the type code of the naming camp is 98 overseas, the number code of the past camps is 00 single camps, and the other refers to a general naming rule.

All entry records in the overseas pool are sorted, and then moved into the n newly created camps in a mode of x persons in each camps in sequence. x is the highest number of people in a single camp (single camp parameter information). Finally, n second target camps are obtained, and coaches are automatically distributed to all the second target camps.

For example: the highest number of 15 people in a single camp, 21 people in the overseas pool, should create 2 camps. When people are classified, the first 15 people are in the first camp in sequence, and the second 6 people are in the second camp in sequence.

The condition judgment of the whole process, the distribution of overseas registration records, the creation of the camp according to the single camp parameter information are all completed by the server, only two pieces of information need to be input by a person, and the overseas registration records are selected and grouped separately, so that the further division of the overseas registration records is realized, the labor cost is greatly reduced, and the management efficiency is improved.

According to the embodiment of the present invention, preferably, after the entry record in the first pool to be allocated, which does not meet the second preset allocation condition, is categorized into the second pool to be allocated, the method further includes:

the entry records which do not contain the location labels in the second pool to be distributed are classified into a third pool to be distributed;

dividing the third pool to be distributed into a third pool to be created, a fourth pool to be distributed and a fifth pool to be distributed according to the staging labels;

and dividing the third pool to be created into a plurality of third target camps according to the single camp parameter information according to a preset camp creation rule.

As shown in fig. 8, the server extracts the location tag in the second pool to be allocated, compares the location tag with a preset location tag (preset as overseas), and if the location tag is inconsistent with the preset location tag, puts the entry records into a third pool to be allocated, and waits for further allocation.

Then extracting the staging labels in the third pool to be distributed, wherein the staging labels are mainly divided into first-stage labels and other stage labels, the entry records in the third pool to be distributed are consistent with the first-stage labels and are classified into a fourth pool to be distributed, and the entry records in the third pool to be distributed are consistent with the other stage labels and are classified into a third pool to be created; and all other entry records in the third pool to be distributed are put into the fifth pool to be distributed.

Finally, the server locates the schooling period type of the last period of the combination of each name number in the combined pool 2 (i.e. the third pool to be created) according to the rule; positioning the last schooling period ID of each reporting name number; enumerating the student ID to which each entry number belongs, and the CAMP _ ID of the entry record of the last installment; in this study, CAMP of the same number as the number of the CAMP _ IDs is created; name these banks and copy their coaching information; all entry records in the "combination pool 2" are moved to the corresponding CAMPs according to the CAMP _ ID of the last entry record. This process is disregarded for the highest number of people per camp.

The condition judgment, the distinguishing and the distribution of the combined entry records and the marketing establishment in the whole process are automatically completed by the server, and only two pieces of information need to be input by a person, so that the further division of the combined entry records is realized, the labor cost is greatly reduced, and the management efficiency is improved.

Dividing the third pool to be allocated into a third pool to be created, a fourth pool to be allocated and a fifth pool to be allocated according to the staging labels, and then further comprising:

when it is judged that the second packet information is contained in the allocation information,

dividing entry records in the fourth pool to be distributed into a plurality of fourth pools to be created according to the operation attribute labels;

and dividing the fourth pool to be created into a plurality of fourth target camps according to preset camp creation rules and the single camp parameter information.

As shown in fig. 8, the server extracts the camp attribute tags in the fourth pool to be allocated, compares the camp attribute tags with preset camp attribute tags (classified as normal, honorable, thin, high-end, 14 days), and classifies the same tags into a fourth pool to be created, such as: all the common labels are classified into one fourth pool to be created; 5 fourth pools to be created are formed.

The server needs to determine whether the allocation information includes the second grouping information, that is, determine whether the user has selected "camp-type individual grouping".

If yes, then from the n pools split from the combined pool 1 (e.g., the 5 pools are camping type pool _ normal, camping type pool _ honoring, camping type pool _ thin, camping type pool _ high, and camping type pool _14 days), the division operation is performed respectively to obtain a plurality of fourth target camps, and coaches are automatically assigned to all the fourth target camps.

If not, directly carrying out the operation of division according to the rule. The operation of division operation is as follows:

and n camps are created (the value of n is the number of registration records in the combined pool 1, the mode is found by the highest number of single camps, the quotient is taken, then 1 is added), the type code of the naming camp is 00 common, the installment code is 01, and the other operation refers to a common naming rule.

All entry records in "pool 1" are sorted and then moved into the n newly created camps in order of x people per camp. x is the highest number of people per single camp.

Ranking was still in the descending BMI for fat-reducing camp/marching camp and in the ascending month-old for baby for spicy Ma camp, as described in Step2, supra.

The condition judgment of the whole process, the distinguishing and distribution of the combined entry records and the marketing creation are all completed by the server, only two pieces of information need to be input by a person, and the marketing attributes are independently grouped, so that the entry records are further divided according to the marketing attributes, the labor cost is greatly reduced, and the management efficiency is improved.

Dividing the third pool to be allocated into a third pool to be created, a fourth pool to be allocated and a fifth pool to be allocated according to the staging labels, and then further comprising:

when it is judged that the second packet information is contained in the allocation information,

dividing entry records in the fifth pool to be allocated into a plurality of fifth pools to be created according to the marketing attribute labels;

and dividing the fifth pool to be created into a plurality of fifth target camps according to preset camp creation rules and the single camp parameter information.

As shown in fig. 8, the server extracts the camp attribute tags in the fifth pool to be allocated, compares the camp attribute tags with preset camp attribute tags (classified as normal, honorable, thin, high-end, 14 days), and classifies the same tags into a fourth pool to be created, such as: all the common labels are classified into one fourth pool to be created; 5 fourth pools to be created are formed.

The server needs to determine whether the allocation information includes the second grouping information, that is, determine whether the user has selected "camp-type individual grouping".

If yes, then from the n pools split from the combined pool 1 (e.g., the 5 pools are camping type pool _ normal, camping type pool _ honoring, camping type pool _ thin, camping type pool _ high, and camping type pool _14 days), the division operation is performed respectively to obtain a plurality of fifth target camps, and coaches are automatically assigned to all the fifth target camps.

If not, directly carrying out the operation of division according to the rule. The operation of division operation is as follows:

and n camps are created (the value of n is the number of registration records in the combined pool 1, the mode is found by the highest number of single camps, the quotient is taken, then 1 is added), the type code of the naming camp is 00 common, the installment code is 01, and the other operation refers to a common naming rule.

All entry records in "pool 1" are sorted and then moved into the n newly created camps in order of x people per camp. x is the highest number of people per single camp.

Ranking was still in the descending BMI for fat-reducing camp/marching camp and in the ascending month-old for baby for spicy Ma camp, as described in Step2, supra.

The condition judgment of the whole process, the distinguishing and distribution of the combined entry records and the marketing creation are all completed by the server, only two pieces of information need to be input by a person, and the marketing attributes are independently grouped, so that the entry records are further divided according to the marketing attributes, the labor cost is greatly reduced, and the management efficiency is improved.

From the above description, it can be seen that the present invention achieves the following technical effects:

in this embodiment of the present application, an intelligent camping mode is adopted, and allocation information configured by a user in a background is received, where the allocation information at least includes: schooling period information and single operation parameter information; referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first to-be-distributed pool; the entry records meeting second preset distribution conditions in the first pool to be distributed are classified into a first pool to be created; dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule; in the process, the continuity of the camp names, coaches, personnel and the like is calculated by an organic machine, and the administrator only needs to simply input necessary information; the purpose that machine intelligence carries out overall planning and distribution of registration record has been reached to realized greatly reduced the human cost, and promoted the technological effect of efficiency, and then solved because still need the administrator manual to carry out overall planning and distribution to the registration record and the human cost that causes is too high, and the technical problem of inefficiency very much.

According to the embodiment of the present invention, it is preferable that:

receiving an operation creating request sent by a user in a background, and entering a creating interface;

analyzing the camp name information input by the user in the creation interface according to a preset naming rule;

calling a first registration record conforming to the analysis result;

and creating the camp according to the called first entry record.

In the interface shown in fig. 6, a camp creation request may also be manually issued, and creation of camp is realized by inputting camp name information; the server analyzes the name, because the background presets a naming rule, all the entry records which should be classified into the camp, namely the first entry record, can be reversely pushed out according to the rule, and finally, a coach is manually selected, so that the camp can be created. A manual naming mode is provided, diversified requirements of administrators can be met, and registration records can be distributed and operated manually to create accounts when special conditions occur.

It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer-executable instructions and that, although a logical order is illustrated in the flowcharts, in some cases, the steps illustrated or described may be performed in an order different than presented herein.

According to an embodiment of the present invention, there is also provided an apparatus for implementing the intelligent camping method, as shown in fig. 2, the apparatus includes:

a receiving module 10, configured to receive distribution information configured by a user in a background, where the distribution information at least includes: schooling period information and single operation parameter information;

the background can be a pc computer or a mobile phone, preferably the pc computer, and management software of the client APP is installed on the background; the administrator enters a management interface of management software through mouse operation, selects 'fat reduction management' or 'spicy mother management' and selects students to enter a schoolwork selection interface shown in figure 5 in groups; in the interface, the user can select the schooling date information according to the actual situation, and click the automatic camp sharing to enter the automatic camp sharing interface shown in fig. 6 after the selection is finished; in this embodiment, in the camping interface, the user fills single camping parameter information (must be filled) in the single camping maximum number column; after the server receives the two information of the schooling period information and the single operation parameter information, intelligent division operation can be carried out through the server.

According to the embodiment of the present invention, preferably, the allocation information may further include: first grouping information grouped by locality tags, and second grouping information grouped by attribution tags. In the automatic division interface, the user can select the overseas independent groups and/or the camp type attribute independent groups according to actual conditions, and guarantees are provided for subsequent overall planning and distribution (division) through the server according to different labels.

After the completion of the filling and checking, the user clicks a 'confirm' button and enters the server to execute the intelligent division operation. Only two pieces of information need to be filled in (or two pieces of information are filled in and selected), so that the operation difficulty of an administrator is greatly reduced, the labor cost is reduced, and the efficiency is improved.

In this embodiment, a "confirm" button is clicked, the server first checks whether the numbers are pure numbers 1-999, and if not, the server intercepts the submission.

A first entry module 20, configured to enter the entry record meeting the first preset allocation condition into the first to-be-allocated pool with reference to the schooling period information;

the first preset distribution condition is as follows:

1) screening special entry records for the same term information as the scholarly term information

2) All entry records in all unlocked camps in the current school period are changed into an non-camping state, namely, camp _ id is emptied

3) Delete all unlocked camps in current school date (marker delete)

4) Then all the entry records meeting the following conditions are put into a temporary 'total pool to be distributed', namely the first pool to be distributed

Run ID in entry record equal to 0, or null

Entry in entry record, TERM ID equal to TERM _ ID of TERM selected on page

Is _ quick _ group in entry record, equal to 2

Order ID in entry record, not null and not 0

Order ID in entry record, order status in order sheet (2,3,4,5)

APPLY _ STATUS in the entry record is 0

After the verification is successful, the server judges whether the above conditions are met, the unsatisfied entry records are eliminated, and the met entry records are all put into a first pool to be distributed; as a record to be allocated. Invalid entry records are screened out, and only valid entry records are left; the effectiveness of all records for intelligent division is guaranteed.

A second entering module 30, configured to enter the entry record meeting a second preset allocation condition in the first pool to be allocated into the first pool to be created;

the second preset allocation condition is a special entry record, that is, if a certain entry record is a component of a combined campaign (based on whether its package _ order _ id has a parent order x in the order table), and the school dates (term1, term2) where entry records (app 1, app 2) corresponding to all child orders of the parent order x (e.g. scenes currently having only 2 child orders, order1, order2) are located are discontinuous, then the entry record is regarded as a special entry record.

In this example, term1 and term2 are defined discontinuously:

when the property of the commodity in the parent order is "fat-reduction marching-class training camp": (marketing date of term1 + DAYS of term 1) < > marketing date of term2

When the property of the product in the parent order is "spicy mothers training camp": (marketing date of term1 + DAYS +2 of term 1) < > marketing date of term2

In order to perform individual division operation on the special entry records, the first pool to be allocated needs to be further subdivided, the special entry records are picked out, and the first pool to be created is set up and used for storing all the special entry records. Specifically, a second preset distribution condition is preset, and the server judges that all the records meeting the condition are considered to be special entry records; and the independent operation of division is provided for the special entry records, and the entry records in the first pool to be created are all special entry records.

And the creating module 40 is configured to divide the first pool to be created into a plurality of first target camps according to a preset camp creating rule.

The first pool to be created is a special pool. As shown in fig. 8, after the special entry record is classified into the special pool, the server creates 1 camp according to the preset camp creation rule, the camp type code at the time of naming is 99 special, the installment code is 00 single camp, and the other is named by referring to the general naming rule; the naming rule refers to the naming rule diagram shown in fig. 7, which is not described herein in detail.

All entry records (special) in the first pool to be created are moved into the newly created pool; in the program, no matter how many special registration records exist, the maximum number of people (single-business parameter information) in a single business is ignored, and all the people are moved to the business, namely the first target business; and automatically assign coaches to all first-destination camps.

The condition judgment, the distribution and the marketing creation of the special registration records in the whole process are all completed by the server, and only two pieces of information need to be input by a person, so that the further division of the special registration records is realized, the labor cost is greatly reduced, and the management efficiency is improved.

According to the embodiment of the present invention, preferably, after entering the entry record meeting the first preset allocation condition into the first to-be-allocated pool with reference to the schooling date information, the method further includes:

the entry records which do not accord with a second preset distribution condition in the first pool to be distributed are classified into a second pool to be distributed;

the entry records containing the labels of the places in the second pool to be distributed are classified into a second pool to be created;

and dividing the second pool to be created into a plurality of second target camps according to the single camp parameter information according to a preset camp creation rule.

And the server judges that the records which do not meet the second preset distribution condition are not considered to be special entry records, and all the records are classified into a second pool to be distributed for further division and distribution.

As shown in fig. 8, the server first needs to determine whether the allocation information includes the first grouping information, that is, determine whether the user has chosen "overseas individual grouping", if so, extract the location tag in the second pool to be allocated, compare the location tag with the preset location tag (preset as overseas), and if so, classify the entry record into the second pool to be created, that is, ensure that the entry records in the second pool to be created are overseas.

If not, no separate distribution of overseas entry records is performed.

After the second pool to be created is generated, the server creates n camps according to rules (n values: number of registration records of overseas pools, modulo of the number of the highest number of single camps, quotient acquisition and 1 addition), the type code of the naming camp is 98 overseas, the number code of the past camps is 00 single camps, and the other refers to a general naming rule.

All entry records in the overseas pool are sorted, and then moved into the n newly created camps in a mode of x persons in each camps in sequence. x is the highest number of people in a single camp (single camp parameter information). Finally, n second target camps are obtained, and coaches are automatically distributed to all the second target camps.

For example: the highest number of 15 people in a single camp, 21 people in the overseas pool, should create 2 camps. When people are classified, the first 15 people are in the first camp in sequence, and the second 6 people are in the second camp in sequence.

The condition judgment of the whole process, the distribution of overseas registration records, the creation of the camp according to the single camp parameter information are all completed by the server, only two pieces of information need to be input by a person, and the overseas registration records are selected and grouped separately, so that the further division of the overseas registration records is realized, the labor cost is greatly reduced, and the management efficiency is improved.

According to the embodiment of the present invention, preferably, after the entry record in the first pool to be allocated, which does not meet the second preset allocation condition, is categorized into the second pool to be allocated, the method further includes:

the entry records which do not contain the location labels in the second pool to be distributed are classified into a third pool to be distributed;

dividing the third pool to be distributed into a third pool to be created, a fourth pool to be distributed and a fifth pool to be distributed according to the staging labels;

and dividing the third pool to be created into a plurality of third target camps according to the single camp parameter information according to a preset camp creation rule.

As shown in fig. 8, the server extracts the location tag in the second pool to be allocated, compares the location tag with a preset location tag (preset as overseas), and if the location tag is inconsistent with the preset location tag, puts the entry records into a third pool to be allocated, and waits for further allocation.

Then extracting the staging labels in the third pool to be distributed, wherein the staging labels are mainly divided into first-stage labels and other stage labels, the entry records in the third pool to be distributed are consistent with the first-stage labels and are classified into a fourth pool to be distributed, and the entry records in the third pool to be distributed are consistent with the other stage labels and are classified into a third pool to be created; and all other entry records in the third pool to be distributed are put into the fifth pool to be distributed.

Finally, the server locates the schooling period type of the last period of the combination of each name number in the combined pool 2 (i.e. the third pool to be created) according to the rule; positioning the last schooling period ID of each reporting name number; enumerating the student ID to which each entry number belongs, and the CAMP _ ID of the entry record of the last installment; in this study, CAMP of the same number as the number of the CAMP _ IDs is created; name these banks and copy their coaching information; all entry records in the "combination pool 2" are moved to the corresponding CAMPs according to the CAMP _ ID of the last entry record. This process is disregarded for the highest number of people per camp.

The condition judgment, the distinguishing and the distribution of the combined entry records and the marketing establishment in the whole process are automatically completed by the server, and only two pieces of information need to be input by a person, so that the further division of the combined entry records is realized, the labor cost is greatly reduced, and the management efficiency is improved.

Dividing the third pool to be allocated into a third pool to be created, a fourth pool to be allocated and a fifth pool to be allocated according to the staging labels, and then further comprising:

when it is judged that the second packet information is contained in the allocation information,

dividing entry records in the fourth pool to be distributed into a plurality of fourth pools to be created according to the operation attribute labels;

and dividing the fourth pool to be created into a plurality of fourth target camps according to preset camp creation rules and the single camp parameter information.

As shown in fig. 8, the server extracts the camp attribute tags in the fourth pool to be allocated, compares the camp attribute tags with preset camp attribute tags (classified as normal, honorable, thin, high-end, 14 days), and classifies the same tags into a fourth pool to be created, such as: all the common labels are classified into one fourth pool to be created; 5 fourth pools to be created are formed.

The server needs to determine whether the allocation information includes the second grouping information, that is, determine whether the user has selected "camp-type individual grouping".

If yes, then from the n pools split from the combined pool 1 (e.g., the 5 pools are camping type pool _ normal, camping type pool _ honoring, camping type pool _ thin, camping type pool _ high, and camping type pool _14 days), the division operation is performed respectively to obtain a plurality of fourth target camps, and coaches are automatically assigned to all the fourth target camps.

If not, directly carrying out the operation of division according to the rule. The operation of division operation is as follows:

and n camps are created (the value of n is the number of registration records in the combined pool 1, the mode is found by the highest number of single camps, the quotient is taken, then 1 is added), the type code of the naming camp is 00 common, the installment code is 01, and the other operation refers to a common naming rule.

All entry records in "pool 1" are sorted and then moved into the n newly created camps in order of x people per camp. x is the highest number of people per single camp.

Ranking was still in the descending BMI for fat-reducing camp/marching camp and in the ascending month-old for baby for spicy Ma camp, as described in Step2, supra.

The condition judgment of the whole process, the distinguishing and distribution of the combined entry records and the marketing creation are all completed by the server, only two pieces of information need to be input by a person, and the marketing attributes are independently grouped, so that the entry records are further divided according to the marketing attributes, the labor cost is greatly reduced, and the management efficiency is improved.

Dividing the third pool to be allocated into a third pool to be created, a fourth pool to be allocated and a fifth pool to be allocated according to the staging labels, and then further comprising:

when it is judged that the second packet information is contained in the allocation information,

dividing entry records in the fifth pool to be allocated into a plurality of fifth pools to be created according to the marketing attribute labels;

and dividing the fifth pool to be created into a plurality of fifth target camps according to preset camp creation rules and the single camp parameter information.

As shown in fig. 8, the server extracts the camp attribute tags in the fifth pool to be allocated, compares the camp attribute tags with preset camp attribute tags (classified as normal, honorable, thin, high-end, 14 days), and classifies the same tags into a fourth pool to be created, such as: all the common labels are classified into one fourth pool to be created; 5 fourth pools to be created are formed.

The server needs to determine whether the allocation information includes the second grouping information, that is, determine whether the user has selected "camp-type individual grouping".

If yes, then from the n pools split from the combined pool 1 (e.g., the 5 pools are camping type pool _ normal, camping type pool _ honoring, camping type pool _ thin, camping type pool _ high, and camping type pool _14 days), the division operation is performed respectively to obtain a plurality of fifth target camps, and coaches are automatically assigned to all the fifth target camps.

If not, directly carrying out the operation of division according to the rule. The operation of division operation is as follows:

and n camps are created (the value of n is the number of registration records in the combined pool 1, the mode is found by the highest number of single camps, the quotient is taken, then 1 is added), the type code of the naming camp is 00 common, the installment code is 01, and the other operation refers to a common naming rule.

All entry records in "pool 1" are sorted and then moved into the n newly created camps in order of x people per camp. x is the highest number of people per single camp.

Ranking was still in the descending BMI for fat-reducing camp/marching camp and in the ascending month-old for baby for spicy Ma camp, as described in Step2, supra.

The condition judgment of the whole process, the distinguishing and distribution of the combined entry records and the marketing creation are all completed by the server, only two pieces of information need to be input by a person, and the marketing attributes are independently grouped, so that the entry records are further divided according to the marketing attributes, the labor cost is greatly reduced, and the management efficiency is improved.

From the above description, it can be seen that the present invention achieves the following technical effects:

in this embodiment of the present application, an intelligent camping mode is adopted, and allocation information configured by a user in a background is received, where the allocation information at least includes: schooling period information and single operation parameter information; referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first to-be-distributed pool; the entry records meeting second preset distribution conditions in the first pool to be distributed are classified into a first pool to be created; dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule; in the process, the continuity of the camp names, coaches, personnel and the like is calculated by an organic machine, and the administrator only needs to simply input necessary information; the purpose that machine intelligence carries out overall planning and distribution of registration record has been reached to realized greatly reduced the human cost, and promoted the technological effect of efficiency, and then solved because still need the administrator manual to carry out overall planning and distribution to the registration record and the human cost that causes is too high, and the technical problem of inefficiency very much.

According to the embodiment of the present invention, it is preferable that:

receiving an operation creating request sent by a user in a background, and entering a creating interface;

analyzing the camp name information input by the user in the creation interface according to a preset naming rule;

calling a first registration record conforming to the analysis result;

and creating the camp according to the called first entry record.

In the interface shown in fig. 6, a camp creation request may also be manually issued, and creation of camp is realized by inputting camp name information; the server analyzes the name, because the background presets a naming rule, all the entry records which should be classified into the camp, namely the first entry record, can be reversely pushed out according to the rule, and finally, a coach is manually selected, so that the camp can be created. A manual naming mode is provided, diversified requirements of administrators can be met, and registration records can be distributed and operated manually to create accounts when special conditions occur.

According to an embodiment of the present invention, there is also provided an apparatus for implementing the intelligent camping method, as shown in fig. 3, where the storage medium includes: the intelligent division method.

According to an embodiment of the present invention, there is also provided an apparatus for implementing the intelligent camping method, where as shown in fig. 4, the server includes: the intelligent division method.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and they may alternatively be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, or fabricated separately as individual integrated circuit modules, or fabricated as a single integrated circuit module from multiple modules or steps. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. An intelligent camping method, comprising:

receiving distribution information configured by a user in a background, wherein the distribution information at least comprises: schooling period information and single operation parameter information;

referring to the schooling period information, recording entry records meeting a first preset distribution condition into a first to-be-distributed pool;

the entry records meeting second preset distribution conditions in the first pool to be distributed are classified into a first pool to be created;

and dividing the first pool to be created into a plurality of first target camps according to a preset camp creation rule.

2. The intelligent marketing method according to claim 1, wherein the entering of the entry record meeting the first preset allocation condition into the first to-be-allocated pool with reference to the schooling period information further comprises:

the entry records which do not accord with a second preset distribution condition in the first pool to be distributed are classified into a second pool to be distributed;

the entry records containing the labels of the places in the second pool to be distributed are classified into a second pool to be created;

and dividing the second pool to be created into a plurality of second target camps according to the single camp parameter information according to a preset camp creation rule.

3. The intelligent camping method of claim 1, wherein the assignment information further comprises: first grouping information grouped by locality tags, and second grouping information grouped by attribution tags.

4. The intelligent marketing method according to claim 2, wherein after entering the entry record that does not meet the second preset allocation condition in the first pool to be allocated into the second pool to be allocated, the method further comprises:

the entry records which do not contain the location labels in the second pool to be distributed are classified into a third pool to be distributed;

dividing the third pool to be distributed into a third pool to be created, a fourth pool to be distributed and a fifth pool to be distributed according to the staging labels;

and dividing the third pool to be created into a plurality of third target camps according to the single camp parameter information according to a preset camp creation rule.

5. The intelligent camping method of claim 4, wherein the dividing the third to-be-allocated pool into a third to-be-created pool, a fourth to-be-allocated pool, and a fifth to-be-allocated pool according to staging labels further comprises:

when it is judged that the second packet information is contained in the allocation information,

dividing entry records in the fourth pool to be distributed into a plurality of fourth pools to be created according to the operation attribute labels;

and dividing the fourth pool to be created into a plurality of fourth target camps according to preset camp creation rules and the single camp parameter information.

6. The intelligent camping method of claim 4, wherein the dividing the third to-be-allocated pool into a third to-be-created pool, a fourth to-be-allocated pool, and a fifth to-be-allocated pool according to staging labels further comprises:

when it is judged that the second packet information is contained in the allocation information,

dividing entry records in the fifth pool to be allocated into a plurality of fifth pools to be created according to the marketing attribute labels;

and dividing the fifth pool to be created into a plurality of fifth target camps according to preset camp creation rules and the single camp parameter information.

7. The intelligent camping method of claim 1, further comprising:

receiving an operation creating request sent by a user in a background, and entering a creating interface;

analyzing the camp name information input by the user in the creation interface according to a preset naming rule;

calling a first registration record conforming to the analysis result;

and creating the camp according to the called first entry record.

8. The utility model provides an intelligence division device which characterized in that includes:

a receiving module, configured to receive allocation information configured by a user in a background, where the allocation information at least includes: schooling period information and single operation parameter information;

the first entry module is used for entering the entry records meeting the first preset distribution condition into a first pool to be distributed by referring to the schooling period information;

the second entry module is used for entering the entry records meeting second preset allocation conditions in the first pool to be allocated into the first pool to be created;

and the creating module is used for dividing the first pool to be created into a plurality of first target camps according to the single camp parameter information according to a preset camp creating rule.

9. A storage medium, comprising: the intelligent camping method of any one of claims 1-7.

10. A server, characterized by the intelligent camping method of any one of claims 1 to 7.

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