CN109697620B - Data processing method and system, and region adjustment method and device - Google Patents
Data processing method and system, and region adjustment method and device Download PDFInfo
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Abstract
The application provides a data processing method and system, and a region adjustment method and device, wherein the region adjustment method comprises the following steps: receiving state information sent by a state acquisition device linked with the article; if the state parameter accords with the exposure judgment basis, updating the exposure quantity corresponding to the area identifier bound with the device identifier, and if the state parameter accords with the attention judgment basis, updating the attention quantity corresponding to the object identifier bound with the device identifier; determining the sections of the object mark and the area mark according to the attention quantity of the object mark and the exposure quantity of the area mark; if the article identifier and the area identifier corresponding to the article identifier are not located in the same section, a prompt instruction for adjusting the area where the article is located is sent. According to the method and the device, whether the goods on the goods shelf need to be adjusted is judged automatically instead of manually according to the feeling, so that the accuracy of adjusting the goods shelf during display is improved.
Description
Technical Field
The present disclosure relates to the field of internet technologies, and in particular, to a data processing method and system, and a region adjustment method and device.
Background
In the field of sales, a first type of user (seller) typically places items (merchandise to be sold) on a carrier such as a store, a display rack, or the like, so that a second type of user (buyer) focuses on the items on the carrier.
Currently, the first type of user typically relies on human subjective feelings to determine whether items on shelves need to be adjusted in order to guide the actual operation.
However, the accuracy of determining whether an item on a shelf needs to be adjusted by means of human subjective feelings is not high.
Disclosure of Invention
The application provides a data processing method and system, and a region adjusting method and device, which can automatically judge whether the objects displayed on a carrier need to be adjusted so as to improve the accuracy of adjusting the carrier display.
In order to achieve the above object, the following technical features are provided:
a data processing system, comprising:
the terminal is used for acquiring the article identifier of the article, the area identifier of the area where the article belongs in the carrier and the device identifier of the state acquisition device linked with the article, establishing a binding relationship between the article identifier, the area identifier and the device identifier, and transmitting the binding relationship to the server;
the state acquisition device is used for acquiring state parameters of the article and sending state information of the article to the server; wherein, the state information comprises the state parameter and a device identifier of the state acquisition device;
The server is used for receiving and storing the binding relation; and the state information is also used for receiving the state information sent by the state acquisition device linked with the article, updating the exposure quantity corresponding to the area identifier bound with the device identifier if the state parameter accords with the exposure judgment basis, updating the attention quantity corresponding to the article identifier bound with the device identifier if the state parameter accords with the attention judgment basis, respectively determining the sections of the article identifier and the area identifier according to the attention quantity of the article identifier and the exposure quantity of the area identifier, and sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same section.
Optionally, the state acquisition device linked with the article comprises: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.
A method of region adjustment, comprising:
receiving state information sent by a state acquisition device linked with the article; the state information comprises state parameters of the object collected by the state collection device and device identifications of the state collection device;
updating the exposure quantity corresponding to the area identifier bound with the device identifier if the state parameter accords with the exposure judgment basis, and updating the attention quantity corresponding to the object identifier bound with the device identifier if the state parameter accords with the attention judgment basis;
Determining the sections of the object mark and the area mark according to the attention quantity of the object mark and the exposure quantity of the area mark;
if the article identifier and the area identifier corresponding to the article identifier are not located in the same section, a prompt instruction for adjusting the area where the article is located is sent.
Optionally, determining the sections of the object identifier and the area identifier according to the attention quantity of the object identifier and the exposure quantity of the area identifier respectively, including:
obtaining the arrangement sequence number of the object identifiers and the arrangement sequence number of the area identifiers according to the quantity of attention and the quantity of exposure respectively;
determining the interval to which the article identifier belongs based on the range of the arrangement sequence numbers of the interval with respect to the articles;
and determining the section to which the area identifier belongs based on the arrangement sequence number range of the section with respect to the area.
Optionally, determining the sections of the object identifier and the area identifier according to the attention quantity of the object identifier and the exposure quantity of the area identifier respectively, including:
determining a section to which the article identifier belongs based on a preset attention quantity range of the section with respect to the article;
and determining the section to which the area identifier belongs based on the preset exposure quantity range of the section relative to the area.
Optionally, the interval includes:
The first interval comprises an object mark and an area mark with higher exposure quantity or attention quantity;
a second interval including an item identifier and a region identifier with an exposure quantity or a focus quantity in the middle;
and a third interval comprising the object identification and the area identification with lower exposure quantity or attention quantity.
Optionally, sending a prompt instruction for adjusting an area where the article is located includes:
judging whether the attention quantity of the interval to which the article mark belongs is higher than the attention quantity of the interval to which the area mark belongs;
if the attention quantity of the section to which the article identifier belongs is higher than that of the section to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity higher than that of the area;
and sending a prompt instruction for adjusting the area where the article is located.
Optionally, sending a prompt instruction for adjusting an area where the article is located includes:
judging whether the attention quantity of the interval to which the article mark belongs is higher than the attention quantity of the interval to which the area mark belongs;
if the attention quantity of the section to which the article identifier belongs is lower than the attention quantity of the section to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity lower than that of the area;
And sending a prompt instruction for adjusting the area where the article is located.
An area adjustment apparatus comprising:
the receiving state information unit is used for receiving state information sent by the state acquisition device in linkage with the article; the state information comprises state parameters of the object collected by the state collection device and device identifications of the state collection device;
an updating quantity unit, configured to update the exposure quantity corresponding to the area identifier bound to the device identifier if the status parameter meets the exposure judgment criterion, and update the attention quantity corresponding to the item identifier bound to the device identifier if the status parameter meets the attention judgment criterion;
the interval determining unit is used for determining the intervals of the object mark and the area mark according to the attention quantity of the object mark and the exposure quantity of the area mark respectively;
and the sending adjustment instruction unit is used for sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same interval.
A data processing method, comprising:
acquiring an article identifier of an article, an area identifier of an area to which the article belongs in a carrier, and a device identifier of a state acquisition device linked with the article;
Establishing a binding relation between an article identifier, an area identifier and a device identifier;
and sending the binding relation to a server.
Optionally, the method further comprises: and receiving and displaying a prompt instruction for adjusting the area where the article is located, wherein the prompt instruction is sent by the server.
A data processing apparatus comprising:
the acquisition unit is used for acquiring an article identifier of the article, an area identifier of an area where the article belongs to in the carrier and a device identifier of a state acquisition device linked with the article;
the binding relation establishing unit is used for establishing a binding relation between the article identifier, the area identifier and the device identifier;
and the binding relation sending unit is used for sending the binding relation to the server.
A data processing method for a state acquisition device in linkage with an article, the method comprising:
acquiring state parameters of the article;
transmitting status information of the item to a server; the state information comprises the state parameters and device identifiers corresponding to the state acquisition devices.
A data processing apparatus for a state acquisition device for interlocking with an article, comprising:
the state parameter acquiring unit is used for acquiring state parameters of the article;
a sending status information unit for sending status information of the article to the server; the state information comprises the state parameters and device identifiers corresponding to the state acquisition devices.
A data processing system, comprising:
the terminal is used for acquiring the article identifier of the article, the area identifier of the area where the article belongs in the carrier and the device identifier of the state acquisition device linked with the article, establishing a binding relationship between the article identifier, the area identifier and the device identifier, and transmitting the binding relationship to the server; the transaction data comprises an article identifier and a transaction number;
the state acquisition device is used for acquiring state parameters of the article and sending state information of the article to the server; wherein, the state information comprises the state parameter and a device identifier of the state acquisition device;
the server is used for receiving and storing the binding relation; and the device is also used for receiving the state information sent by the state acquisition device linked with the article and the transaction data of the article, updating the exposure quantity corresponding to the area identifier bound with the device identifier if the state parameter accords with the exposure judgment basis, increasing the transaction quantity corresponding to the article identifier by the transaction quantity in the transaction data, respectively determining the sections of the article identifier and the area identifier according to the transaction quantity of the article identifier and the exposure quantity of the area identifier, and sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same section.
Optionally, the state acquisition device linked with the article comprises: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.
A method of region adjustment, comprising:
receiving state information sent by a state acquisition device linked with an article and transaction data of the article; the state acquisition device acquires state parameters of the object and device identifiers of the state acquisition device;
if the state parameter accords with the exposure judgment basis, updating the exposure quantity corresponding to the area identifier bound with the device identifier, and increasing the transaction quantity corresponding to the article identifier by the transaction quantity in the transaction data;
determining the sections of the article mark and the area mark according to the transaction quantity of the article mark and the exposure quantity of the area mark;
if the article identifier and the area identifier corresponding to the article identifier are not located in the same section, a prompt instruction for adjusting the area where the article is located is sent.
An area adjustment apparatus comprising:
the receiving state information unit is used for receiving state information sent by the state acquisition device in linkage with the article and transaction data of the article; the state acquisition device acquires state parameters of the object and device identifiers of the state acquisition device;
An updating quantity unit, configured to update an exposure quantity corresponding to the area identifier bound to the device identifier if the status parameter meets an exposure judgment criterion, and increase a transaction quantity corresponding to the item identifier by the transaction quantity in the transaction data;
the interval determining unit is used for determining the intervals of the article identifier and the area identifier according to the transaction quantity of the article identifier and the exposure quantity of the area identifier respectively;
and the sending adjustment instruction unit is used for sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same interval. Through the technical means, the following beneficial effects can be realized:
the application provides a data processing system, the system can count the quantity of attention of articles and the exposure quantity of an area where the articles are located, then respectively determine the sections where the article identification and the area identification belong, when the article identification and the area identification do not belong to the same section, judge that carrier display needs to be adjusted, and then send a prompt instruction for adjusting the area where the articles are located.
Compared with the prior art, the method and the device have the advantages that whether the articles on the carrier need to be adjusted is judged automatically instead of being judged manually by feeling, so that accuracy in adjusting the display of the carrier is improved.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1a is a schematic diagram of a data processing system according to an embodiment of the present application;
fig. 1b is a flowchart of a method for adjusting a region according to an embodiment of the present application;
FIG. 1c is a flowchart of another area adjustment method according to an embodiment of the present disclosure;
fig. 2 is a schematic structural diagram of an area adjusting device according to an embodiment of the present application;
FIG. 3 is a flow chart of a data processing method provided in the present application;
fig. 4 is a block diagram of a data processing apparatus provided in the present application.
Detailed Description
The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.
Term interpretation:
an article: goods to be sold in the sales field.
A first type of user: sellers selling items in the sales area.
A second type of user: buyers purchasing items in the sales area.
And (3) a carrier: stores, display shelves, check rooms, etc. where items are displayed in the sales area.
Area: different parts in the carrier, one part being called a region.
Exposure quantity: indicating the number of times the area was viewed by the user.
Typically, the second type of user will perform a touch, flip, try-on, or try-on action while looking at or focusing on the item. Thus, when a second type of user views or focuses on an item, the status of the item changes.
In order to automatically sense whether an article is concerned or not, the state acquisition device which is linked with the article is arranged. The state acquisition device acquires the state parameters of the article, judges whether the state of the article changes based on whether the state parameters change, and then judges whether the article is focused by the second type of user.
According to one embodiment of the present application, a data processing system is presented. Referring to fig. 1a, the data processing system includes a terminal 100, a state acquisition device 200, and a server 300.
The processing procedure of each carrier is consistent in this embodiment, so an application scenario of the data processing system is illustrated in fig. 1a by taking one carrier as an example.
It will be appreciated that the carrier comprises a plurality of regions, different regions being available for the placement of different kinds of articles. For example, in fig. 1a, the wall surface is an area on which a plurality of jackets are provided. The left table corresponds to an area on which a portion of the upper garment is disposed. The right desk corresponds to an area on which shoes are arranged.
Each article is linked with a state acquisition device (in the figure, a circle with oblique lines filled in the interior is taken as an example), and when the state of the article changes, the state of the state acquisition device also changes in a linked manner.
In order to realize the linkage of the article and the state acquisition device, the state acquisition device can be directly arranged on the article; for example, taking an article as a garment, the state acquisition device is directly fastened to the garment.
Or the state acquisition device can realize linkage with the article through the middle rotating part; for example, continuing to take the article as a clothing example, the clothing can be carried on the clothes hanger, and the state acquisition device can be arranged on the clothes hanger so as to realize the linkage of the article through the transmission of the clothes hanger.
Of course, the article and the state acquisition device may also be linked by other manners, which are not limited herein.
The status collection device 100 of each item is connected to the server 300 through a wireless network so that the status collection device can interact with the server 300. Specifically, the state acquisition device may establish a data connection with the server 300 through bluetooth, WIFI, local area network, and the like.
The terminal 100 establishes a connection with the server 300 so that data interaction between the terminal 100 and the server 300 is possible.
According to an embodiment of the present application, a method for adjusting a region is provided to introduce the above-mentioned data interaction process between the terminal 100, the state acquisition device 200 and the server 300 in fig. 1 a.
In this embodiment, a method of adjusting a region will be described in detail by taking an article and a state acquisition device linked to the article as an example. Other articles and the processing procedure of the state acquisition device linked with the articles can be seen in the embodiment.
Referring to fig. 1b, the area adjustment method specifically includes the following steps:
step S101: the terminal 100 acquires the item identifier and the area identifier of the item and the device identifier of the state acquisition device linked with the item, binds the item identifier and the area identifier with the corresponding device identifier, obtains a binding relationship, and transmits the binding relationship to the server 300.
It will be appreciated that the change in state of the different items when they are of interest to the second type of user is not the same due to their different characteristics. Different state changes need to be acquired by different state acquisition devices. Thus, the state acquisition device suitable for the article may be determined in advance based on the characteristics of the article.
Since an item may have one or more state changes, one or more state acquisition devices are provided for the item. The number of the state acquisition devices can be determined according to specific situations, and is not limited.
For ease of understanding, the following detailed description is provided with a number of specific examples:
taking the article as a garment, when the garment is focused by a second type of user, the garment may be turned over or tried on, so that the acceleration or speed of the garment may change. Accordingly, an acceleration sensor or a speed sensor may be provided for the clothing to acquire acceleration or speed of the clothing through the acceleration sensor or the speed sensor.
Taking the article as an example, the sofa can be tested to sit when the sofa is concerned by a second type of user, so that the pressure born by the sofa can be changed. Thus, a pressure sensor may be provided for the sofa to obtain a signal value indicative of the pressure to which the sofa is subjected by the pressure sensor.
Taking the article as an example of a shoe, the shoe is taken up for viewing or put down for try-on when the shoe is concerned by a second type of user, so that the acceleration of the shoe is changed and the pressure born by the shoe is also changed; accordingly, an acceleration sensor and a pressure sensor may be provided for the shoe to acquire acceleration of the shoe through the acceleration sensor and a signal value indicating that the shoe is subjected to pressure through the pressure sensor.
When the article is a body fitting ornament or garment, the heat of the skin of the human body is felt or is caused to change when the body fitting ornament or garment is concerned. Therefore, a brightness sensor or a temperature sensor may be provided on the inside of the body fitting or the clothing to obtain a brightness value sensed by the article through the brightness sensor or to obtain a temperature value sensed by the article through the temperature sensor.
The foregoing is merely four specific examples, and the state acquisition device may be determined according to the characteristics of the article in practical application, and is not limited herein.
After determining the status collection device of the item, the first type of user may establish a linkage with the item. According to the embodiment provided by the application, the state acquisition device can be directly arranged on the article, or the state acquisition device can be linked with the article through the transfer component. The specific manner of linkage is not limited.
The first type of user may operate the terminal 100, and after determining the status collection device of the article, may input an article identifier indicating the article, an area identifier of an area to which the article belongs within the carrier, and a device identifier indicating the status collection device (if there are a plurality of status collection devices, a plurality of device identifiers are input) to the terminal 100.
According to one embodiment of the present application, the item identification and the device identification may be manually entered into the terminal 100. According to another embodiment of the present application, the item identification and the device identification may be input to the terminal 100 by means of a code scanner connected to the terminal by scanning the tag of the item and the tag of the status collection device.
After acquiring the item identifier and the area identifier of the item and the device identifier of the state acquisition device 300 linked with the item, the terminal 100 performs a binding operation on the item identifier, the area identifier and the device identifier and obtains a binding relationship. The binding relationship is then transmitted to the server 300.
See table 1 for the three relationships of item identification, area identification, and device identification.
Step S102: the server 300 receives and stores the binding relation transmitted from the terminal 100.
The server 300 receives the binding relationship transmitted from the terminal 100 and then stores the binding relationship for subsequent use in calculating the amount of attention of the item.
Step S103: the state acquisition device 200 acquires the state parameters of the article and sends the state information of the article to the server 300; the state information comprises the state parameters, a device identifier corresponding to the state acquisition device and the type of the state acquisition device.
In application, the state acquisition device linked with the article can acquire the state parameters of the article. The state acquisition device linked with the article can comprise: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.
In addition, the status parameters may also include the type of status collection device. The types of the state acquisition device include: one or more of a speed sensor type, a pressure sensor type, an acceleration sensor type, a brightness sensor type, and a temperature sensor type.
The following describes each state acquisition device:
(1) In the case that the state acquisition device comprises an acceleration sensor, the step comprises: the acceleration sensor collects acceleration of the article and transmits status information to the server 300. Wherein the status information includes acceleration of the item, identification of the acceleration sensor and type of acceleration sensor.
(2) In case the state acquisition device comprises a speed sensor, the step comprises: the speed sensor collects the speed of the item and sends status information to the server 300. Wherein the status information includes a speed of the item, an identification of the speed sensor, and a speed sensor type.
(3) In the case that the state acquisition device comprises a pressure sensor, the step comprises: the pressure sensor collects signal values of the pressure applied to the article and transmits status information to the server 300. Wherein the status information includes a signal value indicative of the pressure experienced by the article, an identification of the pressure sensor, and a type of pressure sensor.
(4) In the case that the state acquisition device comprises a brightness sensor, the step comprises: the brightness sensor collects signal values of the sensed brightness of the article and transmits status information to the server 300. Wherein the status information includes a signal value representing perceived brightness of the article, an identification of the brightness sensor and a type of the brightness sensor.
(5) In the case that the state acquisition device comprises a temperature sensor, the step comprises: the temperature sensor collects the temperature value of the temperature sensed by the article and sends state information to the server 300; wherein the status information includes a temperature value indicative of a sensed temperature of the article, an identification of the temperature sensor, and a type of the temperature sensor.
Step S104: the server 300 receives the status information sent by the status collection device, updates the exposure quantity corresponding to the area identifier bound to each device identifier if each status parameter meets the exposure judgment basis, and updates the attention quantity corresponding to the item identifier bound to each device identifier if each status parameter meets the attention judgment basis.
Optionally, the status information includes status parameters of the user turning the article at a time, so that the updating the exposure number correspondingly includes adding one to the exposure number corresponding to the area identifier bound to each device identifier; updating the number of interests includes adding one to the number of interests corresponding to the item identifications bound to the respective device identifications.
If the status information includes status parameters of the user turning over the article a plurality of times, a judgment process (whether the judgment meets the exposure judgment basis or not, whether the judgment meets the attention judgment basis or not) is performed for each status parameter.
If there are M of the plurality of state parameters, which are in accordance with the exposure judgment basis, and N of the plurality of state parameters, which are in accordance with the attention judgment basis, updating the more exposure number includes increasing the exposure number corresponding to the area identifier bound to each device identifier by M; updating the number of interests includes increasing the number of interests corresponding to the item identifications bound to the respective device identifications by N.
According to one embodiment of the present application, the introduction server 300 determines whether the status parameter meets some implementations of exposure determination basis/attention determination basis corresponding to the type of the status collection device.
The following describes attention judgment basis of each state acquisition device, and the server 300 judges whether the state parameters conform to the exposure judgment basis corresponding to the type of the state acquisition device, which are similar to the attention judgment basis, and will not be described in detail.
(1) Acceleration sensor
The display mode of the article is different from the use mode of the speed sensor, and the attention judgment basis is also different.
For most items, the item is typically in a stationary state when the second type of user is not paying attention to the item. When the second type of user is focused on the item, the item is in motion.
For example, in the case of clothing, the second type user may touch, flip, take off the article when focusing on the article, and therefore the acceleration of the article may be changed when focusing on the article.
Typically, when a second type of user focuses on an item, the acceleration of the item will change by more than a certain value, and the direction of the acceleration is not horizontal. If the acceleration does not change by more than a certain value, it means that the article may be blown by wind or may be touched carelessly, and in this case, the article is not considered to be concerned. If the direction of change of acceleration is horizontal, it is likely that the first type of user is sorting shelves (horizontally moving items).
Thus, for an acceleration sensor: judging whether the acceleration of the article is larger than a preset acceleration or not, and judging whether the acceleration direction of the article is a horizontal direction or not; if the acceleration of the object is larger than the preset acceleration and the acceleration direction of the object is not horizontal, determining that the state parameter accords with the attention judgment basis corresponding to the type of the state acquisition device; i.e. to determine that the item is of interest to the second type of user.
And for a portion of the items, the items may be in motion when the second type of user is not paying attention to the items. When the second type of user is focused on the item, the item may be in a stationary state.
At this time, the judgment basis for the acceleration sensor may include: judging whether the acceleration of the object is smaller than the preset acceleration, if the acceleration of the object is smaller than the preset acceleration, showing that the object is not displayed according to the preset acceleration, so that the state parameter is determined to be in accordance with the attention judgment basis corresponding to the type of the state acquisition device; i.e. to determine that the item is of interest to the second type of user.
(2) Speed sensor
The display mode of the article is different from the use mode of the speed sensor, and the attention judgment basis is also different.
For most items, the item is typically in a stationary state when the second type of user is not paying attention to the item. When the second type user pays attention to the article, the article can be touched, turned over, taken down and the like, so that the speed of the article can be changed when the second type user pays attention to the article, and the speed of the article can be changed to exceed a certain value under normal conditions.
If the change in speed does not exceed a certain value, this indicates that the article may be blown by wind or inadvertently touched, and in this case it is not considered that the article is concerned.
Thus, for a speed sensor: judging whether the speed of the object is greater than a preset speed, if so, determining that the state parameter accords with a concerned judgment basis corresponding to the type of the state acquisition device; i.e. determining that the item is of interest to the second type of user.
For a portion of the items, the items may be in motion when the second type of user is not paying attention to the items. When the second type of user is focused on the item, the item may be in a stationary state. Such as items located on a rotating device within a counter. When the second type of user is not concerned, the article is always in a motion state, and when the user picks up the article for trial use, the article can be in a static state.
At this time, when for the acceleration sensor: judging whether the speed of the object is smaller than a preset speed, if so, determining that the state parameter accords with a concerned judgment basis corresponding to the type of the state acquisition device; i.e. to determine that the item is of interest to the second type of user.
(3) Pressure sensor
The display mode of the article is different from the use mode of the pressure sensor, and the attention judgment basis is also different.
Taking shoes as an example, the pressure sensor is arranged at the bottom of the shoes. When the second type of user is not paying attention to the item, the item is not under pressure. When a user is concerned about an article, for example, when the user is trying on a shoe, the article is subjected to pressure.
In this case, for the pressure sensor: judging whether a signal value representing the bearing pressure of the article is larger than a first preset pressure value or not; if the signal value representing the bearing pressure of the article is larger than the preset pressure value, determining that the state parameter accords with the concerned judgment basis corresponding to the type of the state acquisition device; i.e. representing a second type of user attention item.
Taking a vase as an example, the pressure sensor is arranged on the counter, and when the second type of user does not pay attention to the vase, the pressure sensor can sense pressure; when the second type user picks up the vase focusing on the vase, the pressure sensor does not feel the pressure. In this case, the attention judgment basis of the pressure sensor is opposite to the attention judgment basis of the pressure sensor in the upper stage.
(4) Brightness sensor
The display mode of the article is different from the use mode of the brightness sensor, and the attention judgment basis is also different.
Taking clothes as an example, when the brightness sensor is arranged on the inner side of a clothes collar, the brightness sensor can sense external light when a second type user does not try on the article, and the brightness sensor can be shielded when the second type user tries on or tries on the article, so that the brightness sensor cannot sense external light.
In this case, for the luminance sensor: judging whether a signal value representing the perceived brightness of the article is larger than a second preset signal value or not; if the signal value representing the feeling brightness of the article is not greater than the preset signal value, determining that the state parameter accords with the attention judgment basis corresponding to the type of the state acquisition device; i.e. representing a second type of user attention item.
Taking clothes as an example, the brightness sensor is arranged on the wall at the back of the clothes, when the second type user does not try on the article, the brightness sensor cannot feel external light, and when the second type user tries on the article, the user can take off the clothes to try on, and at the moment, the brightness sensor can feel external light. In this case, the attention judgment basis of the luminance sensor is opposite to that of the luminance sensor in the upper stage.
(5) Temperature sensor
The display mode of the article is different from the use mode of the temperature sensor, and the attention judgment basis is also different.
In most geographic locations, for intimate apparel: when the second type of user does not try out the article, the temperature sensor cannot be close to the skin of the user, and the temperature sensed by the temperature sensor is low; the item may be tried out when the second type of user is focused on the item. In the process of trying out the article, the temperature sensor can be close to human skin, and the temperature sensor can feel higher temperature at this moment.
In this case, for the temperature sensor: judging whether the temperature value representing the feeling of the article is larger than a preset temperature value or not; if the temperature value representing the feeling of the article is larger than a preset temperature value, determining that the state parameter accords with the attention judgment basis corresponding to the type of the state acquisition device; i.e. representing a second type of user attention item.
In tropical regions, in some extreme cases, the outside ambient temperature is higher than the human skin temperature. Under the condition, when the second type user does not try out the article, the temperature sensor cannot be close to the skin of the user, and at the moment, the temperature sensor senses the ambient temperature, and the temperature is slightly higher; the item may be tried out when the second type of user is focused on the item. In the process of trying out the article, the temperature sensor can be close to human skin, and the temperature sensor can feel skin temperature at this moment, and the temperature is slightly low. In this case, the attention judgment basis of the temperature sensor is opposite to the attention judgment basis of the temperature sensor in the upper stage.
It will be appreciated that the basis for attention determination may be different when the same type of state acquisition device is provided on different items due to the different characteristics of the items.
The attention judging basis of the 5 types of state acquisition devices is only applicable to partial scenes and not all scenes. In the actual application process, the attention judgment basis of the state acquisition device can be correspondingly set according to the specific application scene, and the detailed description is omitted.
When one article is provided with a linked state acquisition device, after the state parameter is determined to be in accordance with the attention judgment basis corresponding to the type of the state acquisition device, the second type of user attention article is indicated.
When one article is provided with a plurality of linked state acquisition devices, a judging process can be executed for each state acquisition device, and when the state parameters of at least one state acquisition device are determined to meet the attention judging basis, the second type user attention article is indicated.
When determining that the second type user pays attention to the item, the server 300 acquires the device identifier from the status information transmitted from the terminal 100, and acquires the item identifier and the area identifier bound to the device identifier based on the binding relationship of the prestored device identifier and the item identifier.
And then, adding one to the attention quantity corresponding to the object identifier, and adding one to the exposure quantity of the area identifier corresponding to the object identifier, so as to obtain the current attention quantity of the object and the exposure quantity of the area to which the object belongs.
The server 300 may count the number of interests of each item identification and the number of exposures of the area identification by a counting period, and the server 300 may obtain the number of interests of each item identification and the number of exposures of the area identification in one counting period. And then proceeds to step S105.
It will be appreciated that after the end of the present statistics period, the number of interest for each item may be cleared so that the next statistics period restarts counting the number of interest.
Step S105: the server 300 determines the sections to which the item identification and the area identification belong according to the attention number of the item identification and the exposure number of the area identification, respectively.
Alternatively, the server 300 may provide three intervals:
the first interval comprises an object mark and an area mark with higher exposure quantity or attention quantity;
a second interval including an item identifier and a region identifier with an exposure quantity or a focus quantity in the middle;
and a third interval comprising the object identification and the area identification with lower exposure quantity or attention quantity.
Of course, the article identifier and the area identifier may be divided into a plurality of sections, and the number of sections may be determined according to the specific situation, and is not limited.
The embodiment provides two implementation manners of the step, and the following implementation processes of the two implementation manners are performed:
the first implementation mode: the number of the object identifiers in each interval is consistent, and the number of the area identifiers in each interval is consistent.
In this embodiment, the arrangement number range of the items in each section is determined in advance based on the total number of items and the number of sections. For example, if the total number of articles is 60 and the number of sections is 3, the arrangement number of the first section is 1 to 20, the arrangement number of the second section is 21 to 40, and the arrangement number of the third section is 41 to 60. Each interval has 20 item identifications.
The arrangement sequence number range of each section with respect to the region is determined in advance based on the total number of the regions and the number of sections. For example, if the total number of areas is 6 and the number of sections is 3, the range of the arrangement number of the first section is 1-2, the range of the arrangement number of the second section is 2-4, and the range of the arrangement number of the third section is 4-6. Each interval has 2 zone identifications.
S1: and obtaining the arrangement sequence number of the object identifier and the arrangement sequence number of the area identifier.
The number of interest for the item identification may be ordered to obtain a current order number for the item identification. And sequencing the exposure quantity of the plurality of area identifiers so as to obtain the current arrangement sequence number of the area identifiers.
S2: determining the section to which the article identifier belongs by utilizing the arrangement sequence number range of each section about the article; and determining the interval to which each region identifier belongs by using the arrangement sequence number range of each interval relative to the region.
According to the preset arrangement sequence number range of the articles and the section of the current article mark determined in the step S1. For example, if the arrangement number of the current item is 40, the current item identifier belongs to the second section based on the example of the arrangement number range of each section.
According to the preset arrangement sequence number range of the area and the section of the current area mark determined in the step S1. For example, if the arrangement number of the current region is 5, it can be known that the current region identifier belongs to the third region based on the example of the arrangement number range of each region.
The second implementation mode:
in this implementation manner, the attention quantity range of each section about the article is preset, for example, the attention quantity range of the first section is 100-150 times; the number of interest in the second interval ranges from 50-100 times; the number of interest in the third interval ranges from 0 to 50 times.
Presetting exposure quantity ranges of the areas of each interval, for example, 300-500 times of exposure quantity ranges of the first interval; the exposure quantity of the second interval ranges from 100 to 300 times; the number of interest in the third interval ranges from 0 to 100 times.
S11: and determining the section to which the article identifier belongs by utilizing the preset attention quantity range of each section about the article.
And judging whether the item identifier belongs to a preset attention quantity range of the section directly according to the attention quantity of the item identifier, and taking the section as the section to which the item belongs.
S21: and determining the interval to which each area identifier belongs by utilizing the preset exposure quantity range of each interval relative to the area.
Similarly, the preset exposure number range of the section is judged directly according to the attention number of the area identifier, and the section is taken as the section of the area.
Step S106: when the server 300 determines that the item identifier and the area identifier corresponding to the item identifier are not located in the same section, it sends a prompt instruction for adjusting the area where the item is located to the terminal 100.
The server 300 determines whether the section to which the item identifier belongs and the section to which the area identifier belongs are the same, and if they are not the same, there are two cases of sections of both:
First case: the number of interests of the section to which the item identification belongs is greater than the number of interests of the section to which the area identification belongs.
In the first case, the number of concerns is higher in the zone where the item identifier is located, but the number of exposures is lower in the zone where the item is located, which means that the exposure of the zone where the item is currently located is lower and is not placed in a reasonable zone.
Thus, a prompt to adjust the area of the item may be sent: the article is adjusted to an area with a higher exposure than the area where the exposure number is located. Alternatively, the item identification and the area identification may be adjusted to be located in the same zone.
For example, referring to table 1, assuming that the number of interest of the item identification is located in the second zone and the number of exposure of the region identification is located in the third zone, the item may be adjusted to the region corresponding to the region identification within the second zone or the first zone.
TABLE 1
Second case: the number of concerns of the section to which the item identification belongs is smaller than the number of concerns of the section to which the area identification belongs.
In the second case, the number of concerns is lower in the zone where the item identification is located, but the number of exposures is higher in the zone where the item is located, indicating that the item does not belong to a hot spot item, but occupies a zone where the number of exposures is higher.
Thus, a prompt to adjust the area of the item may be sent: the article is adjusted to an area with a lower exposure than the area where the exposure number is located. Alternatively, the item identification and the area identification may be adjusted to be located in the same zone.
For example, referring to table 2, assuming that the number of interest of the item identification is located in the second zone and the number of exposure of the region identification is located in the first zone, the item may be adjusted to the region corresponding to the region identification within the second zone or the third zone.
TABLE 2
Step S107: the terminal 100 is configured to receive and display a prompt instruction for adjusting an area where an article is located.
The server 300 may transmit the amount of interest of the item identification to the terminal 100.
The embodiment provides a data processing system, which can count the quantity of attention of an article and the exposure quantity of an area where the article is located, then respectively determine the areas where the article identification and the area identification belong, judge that carrier display needs to be adjusted when the article identification and the area identification do not belong to the same area, and then send a prompt instruction for adjusting the area where the article is located.
Compared with the prior art, the method and the device have the advantages that whether the articles on the carrier need to be adjusted is judged automatically instead of being judged manually by feeling, so that accuracy in adjusting the display of the carrier is improved.
Based on the data processing system shown in fig. 1a, the present application further provides a region adjustment method. Referring to fig. 1c, the method specifically comprises the following steps:
step S201: the terminal 100 is configured to obtain an area identifier of an area to which an article belongs in the carrier and a device identifier of a state acquisition device that is linked with the article, establish a binding relationship between the area identifier and the device identifier, and send the binding relationship to the server 300.
Compared with step S101, the binding relationship in this embodiment may not bind the item identifier, and the rest of the content is consistent with step S101, which is not described here again.
Step S202: the server 300 receives and stores the binding relation transmitted from the terminal 100.
Step S203: the state acquisition device 200 acquires the state parameters of the article and sends the state information of the article to the server 300; the state information comprises the state parameters and device identifiers corresponding to the state acquisition devices.
The content of this step is identical to step S103 and will not be described here again.
Step S204: the terminal 100 acquires and transmits transaction data of the item, the transaction data including an item identification and a transaction number.
In contrast to fig. 1b, a cashier system may be installed on the terminal 100 to obtain transaction data of an item and transmit the transaction data to the server 300.
Step S205: the server 300 receives the status information sent by the status collection device, and if the status parameter meets the exposure judgment basis, updates the exposure quantity corresponding to the area identifier bound with the device identifier.
The specific implementation manner of this step may refer to the content in step S104, which is not described herein.
Step S206: the server 300 is configured to increase the transaction number corresponding to the item identifier by the transaction number in the transaction data.
The server 300 may count the transaction number of each item identifier and the exposure number of the area identifier according to a counting period, and the server 300 may obtain the transaction number of each item identifier and the exposure number of the area identifier in one counting period. And then proceeds to step S207.
It will be appreciated that after the end of the present statistics period, the transaction number of each item may be cleared so that the transaction number may be restarted for the next statistics period.
Step S207: the server 300 determines the sections to which the item identification and the area identification belong according to the attention number of the item identification and the exposure number of the area identification, respectively.
Step S208: if the server 300 determines that the item identifier and the area identifier corresponding to the item identifier are not located in the same section, it sends a prompt instruction for adjusting the area in which the item is located.
The number of transactions in step S207 and step S208 functions similarly to the number of attention in step S105 and step S106 to indicate the popularity of the item. Therefore, the execution of step S207 and step S208 may refer to the execution of step S106 and step S107, and will not be described herein.
Step S209: the terminal 100 is configured to receive and display a prompt instruction for adjusting an area where an article is located.
The embodiment can count the transaction quantity of the articles and the exposure quantity of the areas where the articles are located, then respectively determine the sections where the article identification and the area identification belong, judge that the carrier display needs to be adjusted when the article identification and the area identification do not belong to the same section, and then send a prompt instruction for adjusting the areas where the articles are located.
Compared with the prior art, the method and the device have the advantages that whether the articles on the carrier need to be adjusted is judged automatically instead of being judged manually by feeling, so that accuracy in adjusting the display of the carrier is improved.
Referring to fig. 2, the present application further provides a first embodiment of an area adjustment device, including:
a receiving status information unit 21 for receiving status information sent by a status acquisition device linked with the article; the state information comprises state parameters of the object collected by the state collection device and device identifications of the state collection device;
An updating number unit 22, configured to update the exposure number corresponding to the area identifier bound to the device identifier if the status parameter meets the exposure judgment criterion, and update the attention number corresponding to the item identifier bound to the device identifier if the status parameter meets the attention judgment criterion;
a determining section unit 23, configured to determine sections to which the article identifier and the area identifier belong according to the attention number of the article identifier and the exposure number of the area identifier, respectively;
and the sending adjustment instruction unit 24 is configured to send a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same section.
The determining section unit 23 specifically includes:
obtaining the arrangement sequence number of the object identifiers and the arrangement sequence number of the area identifiers according to the quantity of attention and the quantity of exposure respectively; determining the interval to which the article identifier belongs based on the range of the arrangement sequence numbers of the interval with respect to the articles; and determining the section to which the area identifier belongs based on the arrangement sequence number range of the section with respect to the area.
The determining section unit 23 specifically includes:
determining a section to which the article identifier belongs based on a preset attention quantity range of the section with respect to the article; and determining the section to which the area identifier belongs based on the preset exposure quantity range of the section relative to the area.
The interval includes:
the first interval comprises an object mark and an area mark with higher exposure quantity or attention quantity; a second interval including an item identifier and a region identifier with an exposure quantity or a focus quantity in the middle; and a third interval comprising the object identification and the area identification with lower exposure quantity or attention quantity.
Wherein the transmission adjustment instruction unit 24 includes:
judging whether the attention quantity of the interval to which the article mark belongs is higher than the attention quantity of the interval to which the area mark belongs; if the attention quantity of the section to which the article identifier belongs is higher than that of the section to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity higher than that of the area; and sending a prompt instruction for adjusting the area where the article is located.
Wherein the transmission adjustment instruction unit 24 includes:
judging whether the attention quantity of the interval to which the article mark belongs is higher than the attention quantity of the interval to which the area mark belongs; if the attention quantity of the section to which the article identifier belongs is lower than the attention quantity of the section to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity lower than that of the area; and sending a prompt instruction for adjusting the area where the article is located.
For the specific implementation of the area adjusting apparatus, reference may be made to the embodiment shown in fig. 1b, which is not described herein.
Referring to fig. 2, the present application further provides a second embodiment of an area adjustment device, including:
a receiving status information unit 21 for receiving status information sent by a status acquisition device linked with the article and transaction data of the article; the state acquisition device acquires state parameters of the object and device identifiers of the state acquisition device;
an update number unit 22, configured to update an exposure number corresponding to the area identifier bound to the device identifier if the status parameter meets the exposure judgment criterion, and increase a transaction number corresponding to the item identifier by the transaction number in the transaction data;
a determining section unit 23, configured to determine sections to which the article identifier and the area identifier belong according to the transaction number of the article identifier and the exposure number of the area identifier, respectively;
and the sending adjustment instruction unit 24 is configured to send a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same section.
The determining section unit 23 specifically includes:
obtaining the arrangement sequence number of the object identifiers and the arrangement sequence number of the area identifiers according to the transaction quantity and the exposure quantity respectively; determining the interval to which the article identifier belongs based on the range of the arrangement sequence numbers of the interval with respect to the articles; and determining the section to which the area identifier belongs based on the arrangement sequence number range of the section with respect to the area.
The determining section unit 23 specifically includes:
determining an interval to which an article identifier belongs based on a preset transaction quantity range of the interval with respect to the article; and determining the section to which the area identifier belongs based on the preset exposure quantity range of the section relative to the area.
The interval includes:
the first interval comprises an article mark and a region mark with higher exposure quantity or transaction quantity; a second interval comprising an article identifier and a region identifier with the exposure quantity or the transaction quantity in the middle; and a third interval comprising an article identifier and an area identifier with lower exposure quantity or transaction quantity.
Wherein the transmission adjustment instruction unit 24 includes:
judging whether the transaction quantity of the interval to which the article identifier belongs is higher than the transaction quantity of the interval to which the area identifier belongs; if the transaction number of the interval to which the article identifier belongs is higher than the transaction number of the interval to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity higher than that of the area; and sending a prompt instruction for adjusting the area where the article is located.
Wherein the transmission adjustment instruction unit 24 includes:
judging whether the transaction quantity of the interval to which the article identifier belongs is higher than the transaction quantity of the interval to which the area identifier belongs; if the transaction number of the interval to which the article identifier belongs is lower than the transaction number of the interval to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity lower than that of the area; and sending a prompt instruction for adjusting the area where the article is located.
For the specific implementation of the area adjusting apparatus, reference may be made to the embodiment shown in fig. 1c, which is not described herein.
Referring to fig. 3, the present application further provides a data processing method, which is applied to a terminal, and specifically includes:
step S301: acquiring an article identifier of an article, an area identifier of an area to which the article belongs in a carrier, and a device identifier of a state acquisition device linked with the article;
step S302: establishing a binding relation between an article identifier, an area identifier and a device identifier;
step S303: and sending the binding relation to a server.
Step S304: and receiving and displaying a prompt instruction for adjusting the area where the article is located, wherein the prompt instruction is sent by the server.
Corresponding to the data processing method, a data processing device integrated in the terminal is also provided. Referring to fig. 4, the method specifically includes:
an acquiring unit 41, configured to acquire an article identifier of an article, an area identifier of an area to which the article belongs in the carrier, and a device identifier of a state acquisition device that is linked with the article;
a binding relationship establishing unit 42, configured to establish a binding relationship between the item identifier and the area identifier;
and a sending binding relationship unit 43, configured to send the binding relationship to the server.
The processing procedure of the terminal is shown in fig. 1b and 1c, and will not be described in detail herein.
The application also discloses a data processing method for a state acquisition device linked with an article, the method comprising: acquiring state parameters of the article; transmitting status information of the item to a server; the state information comprises the state parameters and device identifiers corresponding to the state acquisition devices.
Correspondingly, the application also provides a data processing device, which is used for a state acquisition device linked with an article, and comprises:
the state parameter acquiring unit is used for acquiring state parameters of the article; a sending status information unit for sending status information of the article to the server; the state information comprises the state parameters and device identifiers corresponding to the state acquisition devices.
The processing procedure of the terminal is shown in fig. 1b and 1c, and will not be described in detail herein.
The functions described in the method of this embodiment, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computing device readable storage medium. Based on such understanding, a portion of the embodiments of the present application that contributes to the prior art or a portion of the technical solution may be embodied in the form of a software product stored in a storage medium, comprising several instructions for causing a computing device (which may be a personal computer, a server, a mobile computing device or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.
In this specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, so that the same or similar parts between the embodiments are referred to each other.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (13)
1. A data processing system, comprising:
the terminal is used for acquiring the article identifier of the article, the area identifier of the area where the article belongs in the carrier and the device identifier of the state acquisition device linked with the article, establishing a binding relationship between the article identifier, the area identifier and the device identifier, and transmitting the binding relationship to the server;
the state acquisition device is used for acquiring state parameters of the article and sending state information of the article to the server; wherein, the state information comprises the state parameter and a device identifier of the state acquisition device;
The server is used for receiving and storing the binding relation; and the state information is also used for receiving the state information sent by the state acquisition device linked with the article, updating the exposure quantity corresponding to the area identifier bound with the device identifier if the state parameter accords with the exposure judgment basis, updating the attention quantity corresponding to the article identifier bound with the device identifier if the state parameter accords with the attention judgment basis, respectively determining the sections of the article identifier and the area identifier according to the attention quantity of the article identifier and the exposure quantity of the area identifier, and sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same section.
2. The system of claim 1, wherein the status collection device in linkage with the article comprises: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.
3. A method of region adjustment, comprising:
receiving state information sent by a state acquisition device linked with the article; the state information comprises state parameters of the object collected by the state collection device and device identifications of the state collection device;
Updating the exposure quantity corresponding to the area identifier bound with the device identifier if the state parameter accords with the exposure judgment basis, and updating the attention quantity corresponding to the object identifier bound with the device identifier if the state parameter accords with the attention judgment basis;
determining the sections of the object mark and the area mark according to the attention quantity of the object mark and the exposure quantity of the area mark;
if the article identifier and the area identifier corresponding to the article identifier are not located in the same section, a prompt instruction for adjusting the area where the article is located is sent.
4. A method according to claim 3, wherein determining the belonging interval of the item identification and the area identification according to the attention amount of the item identification and the exposure amount of the area identification, respectively, comprises:
obtaining the arrangement sequence number of the object identifiers and the arrangement sequence number of the area identifiers according to the quantity of attention and the quantity of exposure respectively;
determining the interval to which the article identifier belongs based on the range of the arrangement sequence numbers of the interval with respect to the articles;
and determining the section to which the area identifier belongs based on the arrangement sequence number range of the section with respect to the area.
5. A method according to claim 3, wherein determining the belonging interval of the item identification and the area identification according to the attention amount of the item identification and the exposure amount of the area identification, respectively, comprises:
Determining a section to which the article identifier belongs based on a preset attention quantity range of the section with respect to the article;
and determining the section to which the area identifier belongs based on the preset exposure quantity range of the section relative to the area.
6. The method of claim 4 or 5, wherein the interval comprises:
the first interval comprises an object mark and an area mark with higher exposure quantity or attention quantity;
a second interval including an item identifier and a region identifier with an exposure quantity or a focus quantity in the middle;
and a third interval comprising the object identification and the area identification with lower exposure quantity or attention quantity.
7. The method of any one of claims 3-5, wherein sending a prompt to adjust an area in which the item is located comprises:
judging whether the attention quantity of the interval to which the article mark belongs is higher than the attention quantity of the interval to which the area mark belongs;
if the attention quantity of the section to which the article identifier belongs is higher than that of the section to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity higher than that of the area;
and sending a prompt instruction for adjusting the area where the article is located.
8. The method of any one of claims 3-5, wherein sending a prompt to adjust an area in which the item is located comprises:
judging whether the attention quantity of the interval to which the article mark belongs is higher than the attention quantity of the interval to which the area mark belongs;
if the attention quantity of the section to which the article identifier belongs is lower than the attention quantity of the section to which the area identifier belongs, determining a prompting instruction for adjusting the area to which the article belongs as follows: adjusting the article to an area with the exposure quantity lower than that of the area;
and sending a prompt instruction for adjusting the area where the article is located.
9. An area adjustment device, comprising:
the receiving state information unit is used for receiving state information sent by the state acquisition device in linkage with the article; the state information comprises state parameters of the object collected by the state collection device and device identifications of the state collection device;
an updating quantity unit, configured to update the exposure quantity corresponding to the area identifier bound to the device identifier if the status parameter meets the exposure judgment criterion, and update the attention quantity corresponding to the item identifier bound to the device identifier if the status parameter meets the attention judgment criterion;
The interval determining unit is used for determining the intervals of the object mark and the area mark according to the attention quantity of the object mark and the exposure quantity of the area mark respectively;
and the sending adjustment instruction unit is used for sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same interval.
10. A data processing system, comprising:
the terminal is used for acquiring the article identifier of the article, the area identifier of the area where the article belongs in the carrier and the device identifier of the state acquisition device linked with the article, establishing a binding relationship between the article identifier, the area identifier and the device identifier, and transmitting the binding relationship to the server; the transaction data comprises an article identifier and a transaction number;
the state acquisition device is used for acquiring state parameters of the article and sending state information of the article to the server; wherein, the state information comprises the state parameter and a device identifier of the state acquisition device;
the server is used for receiving and storing the binding relation; and the device is also used for receiving the state information sent by the state acquisition device linked with the article and the transaction data of the article, updating the exposure quantity corresponding to the area identifier bound with the device identifier if the state parameter accords with the exposure judgment basis, increasing the transaction quantity corresponding to the article identifier by the transaction quantity in the transaction data, respectively determining the sections of the article identifier and the area identifier according to the transaction quantity of the article identifier and the exposure quantity of the area identifier, and sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same section.
11. The system of claim 10, wherein the status collection device in linkage with the article comprises: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.
12. A method of region adjustment, comprising:
receiving state information sent by a state acquisition device linked with an article and transaction data of the article; the state acquisition device acquires state parameters of the object and device identifiers of the state acquisition device;
if the state parameter accords with the exposure judgment basis, updating the exposure quantity corresponding to the area identifier bound with the device identifier, and increasing the transaction quantity corresponding to the article identifier by the transaction quantity in the transaction data;
determining the sections of the article mark and the area mark according to the transaction quantity of the article mark and the exposure quantity of the area mark;
if the article identifier and the area identifier corresponding to the article identifier are not located in the same section, a prompt instruction for adjusting the area where the article is located is sent.
13. An area adjustment device, comprising:
the receiving state information unit is used for receiving state information sent by the state acquisition device in linkage with the article and transaction data of the article; the state acquisition device acquires state parameters of the object and device identifiers of the state acquisition device;
An updating quantity unit, configured to update an exposure quantity corresponding to the area identifier bound to the device identifier if the status parameter meets an exposure judgment criterion, and increase a transaction quantity corresponding to the item identifier by the transaction quantity in the transaction data;
the interval determining unit is used for determining the intervals of the article identifier and the area identifier according to the transaction quantity of the article identifier and the exposure quantity of the area identifier respectively;
and the sending adjustment instruction unit is used for sending a prompt instruction for adjusting the area where the article is located if the article identifier and the area identifier corresponding to the article identifier are not located in the same interval.
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