CN109697480B - Data processing method, device and system - Google Patents

Abstract

The application provides a data processing method, a device and a system, wherein the method comprises the following steps: receiving state information sent by a state acquisition device linked with an article; wherein the state information includes: the state acquisition device acquires the state parameters of the article and the device identification of the state acquisition device; judging whether the state parameters change or not; and if the state parameter changes, updating the quantity corresponding to the object identifier bound with the device identifier. According to the method and the device, the sales data (the number of the object identifications) are not acquired manually by experience, but are automatically calculated by using the data processing system, so that the execution efficiency and the accuracy are high.

Description

Data processing method, device and system

Technical Field

The present application relates to the field of internet technologies, and in particular, to a data processing method, apparatus, and system.

Background

In the field of sales, a first type of user (seller) will typically place an item (goods to be sold) on a carrier, such as a store, display shelf, etc., so that a second type of user (buyer) will be interested in the item on the carrier.

Currently, the first type of users usually get some sales data through human subjective feeling to guide the actual operation. For example, the person subjectively perceives the number of articles of interest, and the person subjectively perceives the region of the carrier with a high exposure.

However, the sales data is known by human feelings, which is inefficient and inaccurate to perform.

Disclosure of Invention

The application provides a data processing system and a method thereof, which can automatically acquire the concerned quantity of articles and have higher execution efficiency and higher accuracy.

In order to achieve the above object, the present application provides the following technical features:

a data processing system comprising:

the terminal is used for acquiring a device identifier and an object identifier of the state acquisition device linked with the article, binding the device identifier and the object identifier to obtain a binding relationship, and sending the binding relationship to the server;

the state acquisition device is used for acquiring the state parameters of the articles and sending the state information of the articles to the server; the state information comprises the state parameters and a device identifier corresponding to the state acquisition device;

and the server is used for receiving and storing the binding relationship sent by the terminal, receiving state information sent by a state acquisition device linked with the article, judging whether the state parameters change or not, and updating the quantity corresponding to the object identification bound with the device identification based on the prestored binding relationship if the state parameters change.

Optionally, the state acquisition device linked with the article includes: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.

A method of data processing, comprising:

receiving state information sent by a state acquisition device linked with an article; wherein the state information includes: the state acquisition device acquires the state parameters of the article and the device identification of the state acquisition device;

judging whether the state parameters change or not;

and if the state parameter changes, updating the quantity corresponding to the object identifier bound with the device identifier.

Optionally, the object identifier includes an item identifier of an item;

before updating the number corresponding to the object identifier bound to the device identifier, the method further comprises: judging whether the state parameters accord with a focus judgment basis or not; updating the number corresponding to the object identifier bound to the device identifier comprises: and if the state parameters accord with the attention judgment basis, determining the article identification corresponding to the device identification, and updating the attention quantity corresponding to the article identification.

Optionally, after the updating the attention amount corresponding to the item identifier, the method further includes:

determining the attention amount corresponding to the article identification;

and determining the hot spot article identification according to the attention quantity corresponding to the article identification.

Optionally, the object identifier includes an area identifier of an area to which the article belongs;

before updating the number corresponding to the object identifier bound to the device identifier, the method further comprises: judging whether the state parameters accord with exposure judgment basis or not;

updating the number corresponding to the object identifier bound to the device identifier comprises: and if the state parameter accords with an exposure judgment basis, determining an area identifier bound with the device identifier, and updating the exposure quantity corresponding to the area identifier.

Optionally, after updating the exposure number corresponding to the area identifier, the method further includes:

determining the exposure number of the area identification;

and determining the hot spot area identifier according to the exposure quantity corresponding to the article identifier.

Optionally, the state acquisition device linked with the article includes: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.

Optionally, the status information further includes a type of the status acquisition device; wherein the type of the state acquisition device comprises: one or more of a velocity sensor type, a pressure sensor type, an acceleration sensor type, a brightness sensor type, and a temperature sensor type.

Optionally, the determining whether the state parameter changes includes:

determining a preset judgment basis corresponding to the type of the state acquisition device in the state information;

judging whether the state parameters accord with the preset judgment basis or not;

and if the state parameter accords with a preset judgment basis, determining that the state parameter changes.

Optionally, the status information further includes a type of the status acquisition device;

under the condition that the state acquisition device includes an acceleration sensor, the state information sent by the state acquisition device linked with the article is received, and the state information comprises: receiving state information sent by an acceleration sensor, wherein the state information comprises the acceleration of the article, the identification of the acceleration sensor and the type of the acceleration sensor;

under the condition that the state acquisition device includes a speed sensor, the receiving of the state information sent by the state acquisition device linked with the article comprises: receiving state information sent by a speed sensor, wherein the state information comprises the speed of an article, the identification of the speed sensor and the type of the speed sensor;

under the condition that the state acquisition device includes pressure sensor, then the state information that the state acquisition device that receives and article linkage sent includes: receiving state information sent by a pressure sensor, wherein the state information comprises a signal value for indicating that the article is subjected to pressure, an identifier of the pressure sensor and a type of the pressure sensor;

under the condition that the state acquisition device comprises a brightness sensor, the receiving of the state information sent by the state acquisition device linked with the article comprises the following steps: receiving state information sent by a brightness sensor, wherein the state information comprises a signal value used for representing the perceived brightness of the article, an identifier of the brightness sensor and a type of the brightness sensor;

under the condition that the state acquisition device includes temperature sensor, then the state information that the state acquisition device that the receipt linked with article sent includes: and receiving state information sent by the temperature sensor, wherein the state information comprises a temperature value used for representing the temperature sensed by the article, the identification of the temperature sensor and the type of the temperature sensor.

A data processing apparatus comprising:

the receiving state information unit is used for receiving state information sent by the state acquisition device linked with the article; wherein the state information includes: the state acquisition device acquires the state parameters of the article and the device identification of the state acquisition device;

the judging unit is used for judging whether the state parameters change or not;

and the quantity updating unit is used for updating the quantity corresponding to the object identifier bound with the device identifier if the state parameter changes.

A data processing method for a condition acquisition device in association with an article, the method comprising:

acquiring state parameters of an article;

sending the state information of the article to a server; and the state information comprises the state parameters and a device identifier corresponding to the state acquisition device.

A data processing apparatus for a condition acquisition device in association with an article, the apparatus comprising:

the acquiring state parameter unit is used for acquiring the state parameters of the articles;

the sending state information unit is used for sending the state information of the article to the server; and the state information comprises the state parameters and a device identifier corresponding to the state acquisition device.

A method of data processing, comprising:

acquiring a device identifier and an object identifier of a state acquisition device linked with an article;

binding the device identifier and the object identifier and obtaining a binding relationship;

and sending the binding relationship to a server so that the server stores the binding relationship.

Optionally, the method further includes:

sending a data acquisition instruction; wherein the data acquisition instruction comprises a device identifier or an object identifier;

and receiving and displaying data which is sent by the server and corresponds to the data acquisition instruction.

A data processing apparatus comprising:

the acquisition identification unit is used for acquiring a device identification and an object identification of the state acquisition device linked with the article;

the binding unit is used for binding the device identifier and the object identifier and acquiring a binding relationship;

and the sending binding relation unit is used for sending the binding relation to a server so that the server can store the binding relation. Through the technical means, the following beneficial effects can be realized:

the application provides a data processing system, and the system is provided with a state acquisition device linked with articles. The state parameters of the articles are collected through the state collecting device linked with the articles, whether the state parameters change or not is judged, if yes, the user is considered to pay attention to the articles, and the number of the object identifications bound with the device identifications is increased by one.

According to the method and the device, the sales data (the number of the object identifications) are not acquired manually by experience, but are automatically calculated by using the data processing system, so that the execution efficiency and the accuracy are high.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1a is a schematic diagram of a data processing system provided by an embodiment of the present application;

fig. 1b is a flowchart of a data processing method provided in an embodiment of the present application;

fig. 2 is a block diagram of a data processing apparatus according to an embodiment of the present application;

fig. 3 is a flowchart of a data processing method according to an embodiment of the present application;

fig. 4 is a structural diagram of a data processing apparatus according to an embodiment of the present application.

Detailed Description

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 a part of the embodiments of the present application, and not all of the 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.

Interpretation of terms:

article: goods to be sold in the sales field.

A first type of user: a seller selling an item in a sales area.

The second type of user: buyers purchasing items in the sales field.

Carrier: stores, display stands, cubicles, etc., for carrying and displaying items in the sales field.

Area: different parts, one part being called a region, in the carrier.

Exposure number: 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 out action while viewing or focusing on the item. Thus, when a second type of user views or focuses on an item, the status of the item may change.

In order to automatically sense whether the articles are concerned, the state acquisition device linked with the articles is arranged. The state acquisition device acquires the state parameters of the article, judges whether the state of the article changes or not based on whether the state parameters change or not, and then judges whether the article is concerned by the second type user or not.

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.

In this embodiment, the processing procedure of each carrier is consistent, so that an application scenario of the data processing system is exemplarily 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 placing different kinds of articles. For example, in FIG. 1a, the wall surface is an area on which a plurality of coats are disposed. The left table corresponds to an area on which a part of the upper garment is placed. The right table corresponds to an area on which shoes are placed.

Each article is linked to a state acquisition device (in the figure, a circle with oblique lines filled inside 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 as an example, the state acquisition device is directly buckled on the garment.

Or the state acquisition device can be linked with the article through a transfer component; for example, continuing with the example of articles as garments, the garments may be carried on hangers and the condition gathering devices may be positioned on the hangers to effect linkage of the articles through transfer of the hangers.

Of course, the article and the state acquisition device may be linked by other methods, which are not limited herein.

The status collecting device 100 of each item is connected to the server 300 through a wireless network so that the status collecting device can perform data interaction with the server 300. Specifically, the state acquisition device may establish data connection with the server 300 in a bluetooth, WIFI, local area network, or 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 data processing method is provided to describe a data interaction process between the terminal 100, the state collecting device 200 and the server 300 in fig. 1 a.

In the present embodiment, a data processing method will be described in detail by taking an article and a state acquisition device linked to the article as an example. The processing procedures of other articles and the state acquisition device linked with the articles can be seen in the embodiment.

Referring to fig. 1b, the data processing method specifically includes the following steps:

step S101: the terminal 100 acquires an article identifier, an area identifier, and a device identifier of a state acquisition device linked with the article, binds the article identifier, the area identifier, and the device identifier corresponding thereto, obtains a binding relationship, and sends the binding relationship to the server 300.

It will be appreciated that the change in state of different items as they are focused on by a user of the second type will be different due to the different characteristics of the items. Different state changes need to be acquired by different state acquisition devices. Therefore, the state acquisition means suitable for the article can be determined in advance based on the characteristics of the article.

Since an article may have one or more status changes, one or more status acquisition devices are provided for the article. 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 given in terms of a number of specific examples:

taking the article as an example of a garment, when the garment is focused on by the second type of user, the garment may be looked over or tried on, so the acceleration or speed of the garment may change. Therefore, an acceleration sensor or a speed sensor may be provided for the clothes to acquire acceleration or speed of the clothes through the acceleration sensor or the speed sensor.

Taking the article as a sofa, when the sofa is focused by the second type of user, the sofa will be tried to sit, so the pressure born by the sofa will change. Therefore, a pressure sensor may be provided for the sofa to acquire a signal value representing the pressure to which the sofa is subjected by the pressure sensor.

Taking the article as a shoe for example, when the shoe is concerned by the second type of user, the shoe can be picked up to be checked or put down to try on, so that the acceleration of the shoe can be changed and the pressure born by the shoe can be changed; therefore, an acceleration sensor and a pressure sensor may be provided for the shoe, so that the acceleration of the shoe is obtained by the acceleration sensor, and a signal value indicating the pressure applied to the shoe is obtained by the pressure sensor.

When the article is a personal ornament or garment, the heat of the human skin is felt or caused to change when the personal ornament or garment is concerned. Therefore, a brightness sensor or a temperature sensor can be arranged on the inner side of the personal ornament or the clothes, so that the brightness value sensed by the article can be acquired through the brightness sensor, or the temperature value sensed by the article can be acquired through the temperature sensor.

The above are merely four specific examples, and the condition acquiring device may be determined according to characteristics of an article in practical applications, and is not limited herein.

After determining the state acquisition device for the item, the first type of user may establish a linkage with the state acquisition device and the item. According to the embodiment that this application provided, state collection system can directly set up on article, perhaps, realizes the linkage through transit parts and article. The specific manner of linkage is not limited.

The first type user may operate the terminal 100, and after determining the status acquisition 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 acquisition device to the terminal 100 (if there are a plurality of status acquisition devices, a plurality of device identifiers are input).

According to one embodiment of the present application, an article identification and a device identification may be manually input to the terminal 100. According to another embodiment of the present application, the article identification and the device identification may be input to the terminal 100 by a scanner connected to the terminal by scanning the label of the article and the label of the status collection device.

After acquiring the article identifier, the area identifier, and the device identifier of the state acquisition device 300 linked with the article, the terminal 100 performs a binding operation on the article identifier, the area identifier, and the device identifier and obtains a binding relationship. The binding relationship is then sent to the server 300.

See table 1 for the relationship between the item identifier, the area identifier, and the device identifier.

Step S102: the server 300 receives and stores the binding relationship transmitted by the terminal 100.

The server 300 receives the binding relationship transmitted by the terminal 100 and then stores the binding relationship for subsequent use in calculating the noted quantity 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 includes the state parameter, a device identifier corresponding to the state acquisition device, and a 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 may include: 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 acquisition device. Types of state acquisition devices include: one or more of a velocity 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) under the condition that the state acquisition device comprises an acceleration sensor, the method comprises the following steps: the acceleration sensor collects acceleration of the article and transmits status information to the server 300. Wherein the status information comprises the acceleration of the item, the identity of the acceleration sensor and the type of acceleration sensor.

(2) In the case where the state acquisition device includes a speed sensor, then this step includes: the speed sensor collects the speed of the item and transmits status information to the server 300 and transmits the status information to the server 300. Wherein the status information includes the speed of the item, the identity of the speed sensor and the speed sensor type.

(3) In the case where the state acquisition device includes a pressure sensor, then this step includes: the pressure sensor collects the signal value of the pressure applied to the article and sends status information to the server 300. Wherein the status information includes a signal value indicative of the pressure to which the article is subjected, an identification of the pressure sensor, and a type of the pressure sensor.

(4) In the case where the state acquisition device includes a brightness sensor, then this step includes: the brightness sensor collects the signal value of the perceived brightness of the item and sends status information to the server 300. Wherein the status information comprises a signal value representing the perceived brightness of the item, an identification of the brightness sensor and the brightness sensor type.

(5) In the case where the state acquisition device includes a temperature sensor, then this step includes: 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 comprises a temperature value representing a temperature experienced by the item, an identification of the temperature sensor and a type of the temperature sensor.

Step S104: the server 300 receives the state information sent by the state acquisition device, judges whether the state parameter changes, and if the state parameter changes, updates the number corresponding to the object identifier bound with the device identifier based on a preset binding relationship; the number of object identifications is transmitted to the terminal 100.

Optionally, the status information includes a status parameter of the article turned over by the user once, so that correspondingly, the updating of the exposure amount includes adding one to the exposure amount corresponding to the area identifier bound to each device identifier; updating the amount of interest includes incrementing the amount of interest corresponding to the item identifier bound to the respective device identifier by one.

If the state information includes the state parameters of the article turned by the user for multiple times, a judgment process (whether the judgment conforms to the exposure judgment basis or not and whether the judgment conforms to the attention judgment basis or not) is executed for each state parameter.

If there are M that are in accordance with the exposure judgment bases and N that are in accordance with the attention judgment bases in the plurality of state parameters, updating the exposure number includes increasing the exposure number corresponding to the area identifier bound with each device identifier by M; updating the attention amount includes increasing the attention amount corresponding to the item identifier bound to each device identifier by N.

Taking the case that the status information includes the status parameter of the article turned by the user once, this step may have two cases:

in the first case: and the object identifier comprises an article identifier, and if the state parameter changes, the concerned quantity of the article identifier bound with the device identifier is increased by one based on a preset binding relationship.

If the number of objects concerned by the user is large, the object can be reflected as a hot object to a certain extent, and actual operation can be guided. Therefore, the first case aims to automatically calculate the attention amount of each object.

It is understood that if an object is picked up, tried on, or tried on, it indicates that the user focuses on the object, and the state of the object changes. According to an embodiment of the present application, the method specifically includes:

and judging whether the state parameters accord with attention judgment bases corresponding to the types of the state acquisition devices, and if the state parameters accord with the attention judgment bases, adding one to the attention quantity corresponding to the article identification bound with the device identification.

The server 300 may also count the number of concerns of each item identifier; and comparing the attention quantity of each article identifier to determine hot spot articles. Then, the item identifier of the hot spot item is sent to the terminal 100, so that the terminal 100 displays hot spot item information corresponding to the item identifier, and the first type user is guided to guide actual operation. For example, after a garment is a hot spot item, the inventory of the garment may be increased.

In the second case: and the object identifier comprises an area identifier, and if the state parameter changes, the exposure number of the area identifier bound with the device identifier is increased by one based on a preset binding relationship.

There are multiple regions in the carrier, with different regions being of unequal amounts of interest to the user. The focus amount of a region may be represented by the sum of the focus amounts of the respective objects in the region. A large number of objects in a region being of interest indicates that the region has been exposed more often.

It can be understood that, if an area is often noticed by a user, that is, the exposure number of the area is large, the side face may reflect that the area belongs to a hot spot area, and actual operation may be guided. Therefore, the second case aims to automatically calculate the number of exposures for each area.

According to an embodiment of the present application, the method specifically includes:

and judging whether the state parameter accords with an exposure judgment basis corresponding to the type of the state acquisition device, and if the state parameter accords with the exposure judgment basis, adding one to the exposure quantity corresponding to the area identifier bound with the device identifier.

The server 300 may also count the exposure number of each area identifier, compare the exposure number of each area identifier, and determine the hot spot area. Then, the area identifier of the hot spot area is sent to the terminal 100, so that the terminal 100 displays hot spot area information corresponding to the area identifier, thereby guiding the first type user to guide actual operation. For example, after one area of clothing is a hot spot area, hot spot objects can be placed in the hot spot area, thereby increasing sales.

The attention judgment basis in the first case and the exposure judgment basis in the second case may be the same or different. The specific situation may be determined according to actual situations, and is not limited herein.

According to an embodiment of the present application, the introduction server 300 determines whether the state parameter corresponds to some implementation of an exposure determination criterion/attention determination criterion corresponding to the type of the state acquisition apparatus.

The following describes the focus judgment criteria of each state acquisition device, and the server 300 judges whether the state parameter corresponds to the exposure judgment criteria corresponding to the type of the state acquisition device, which is similar to the focus judgment criteria, and is not described again.

(1) Acceleration sensor

The article exhibition mode is different from the use mode of the acceleration sensor, and the attention judgment basis is different.

For most items, it is common for the item to be in a quiescent state when the item is not of interest to the second type of user. When the second type of user is interested in the item, the item is in motion.

For example, taking clothing as an example, when the second type user pays attention to the item, the second type user may touch, turn, take down, etc. the acceleration of the item may change when the second type user pays attention to the item.

Generally, when a second type of user pays attention to an article, the acceleration of the article may change more than a certain value, and the direction of the acceleration is not a horizontal direction. If the change in acceleration does not exceed a certain value, this is an indication that the item may be blown by the wind or inadvertently touched, in which case the item is not considered to be of interest. If the direction of change of acceleration is horizontal, it is likely that the first type of user is on a sort shelf (moving items horizontally).

Thus, for an acceleration sensor: judging whether the acceleration of the article is greater 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 article is greater than the preset acceleration and the acceleration direction of the article is not in the horizontal direction, determining that the state parameters accord with the attention judgment basis corresponding to the type of the state acquisition device; i.e. it is determined that the item is of interest to the second type of user.

Whereas for a portion of the item, the item may be in motion when the second type of user is not paying attention to the item. When a second type of user is interested in an item, the item may be in a quiescent state.

At this time, the judgment criterion for the acceleration sensor may include: judging whether the acceleration of the article is smaller than a preset acceleration or not, if so, indicating that the article is not displayed according to the preset acceleration, and determining that the state parameters accord with a focus judgment basis corresponding to the type of the state acquisition device; i.e. it is determined that the item is of interest to the second type of user.

(2) Speed sensor

The object exhibition mode and the speed sensor use mode are different, and the attention judgment basis is different.

For most items, it is common for the item to be stationary when the second type of user is not concerned with the item. When the second type user pays attention to the object, the object can be touched, turned over, taken down and the like, so that when the second type user pays attention to the object, the speed of the object is changed, and in general, the speed of the object is changed beyond a certain value.

If the change in velocity does not exceed a certain value, this is an indication that the item may be blown by the wind or inadvertently touched, in which case the item is not considered to be of interest.

Thus, for a speed sensor: judging whether the speed of the article is greater than a preset speed, and if the speed of the article is greater than the preset speed, determining that the state parameter accords with a concern judgment basis corresponding to the type of the state acquisition device; i.e. it is determined that the item is of interest to the second type of user.

For a portion of the item, the item may be in motion when the second type of user is not paying attention to the item. When a second type of user is interested in an item, the item may be in a quiescent state. Such as items inside a counter on a rotating device. When the second type of user is not concerned, the item is in motion at all times, and when the user picks up the item for trial, the item may be in a stationary state.

At this time, when for the acceleration sensor: judging whether the speed of the article is less than a preset speed, and if the speed of the article is less than the preset speed, determining that the state parameter accords with a concern judgment basis corresponding to the type of the state acquisition device; i.e. it is determined that the item is of interest to the second type of user.

(3) Pressure sensor

The article display mode is different from the use mode of the pressure sensor, and the attention judgment basis is different.

Taking a shoe as an example, the pressure sensor is disposed at the bottom of the shoe. The article is not subjected to stress when the second type of user is not concerned with the article. When a user focuses on an item, for example, the user tries on a shoe, the item is subjected to stress.

In this case, for the pressure sensor: judging whether a signal value representing the pressure borne by the article is greater than a first preset pressure value or not; if the signal value representing the pressure borne by the article is larger than the preset pressure value, determining that the state parameter accords with a focus judgment basis corresponding to the type of the state acquisition device; i.e. indicating a second type of user attention item.

Taking a vase as an example, the pressure sensor is arranged on the counter, and when a second type of user does not pay attention to the vase, the pressure sensor can sense pressure; when the second type of user takes up the vase by paying attention to the vase, the pressure sensor does not sense the pressure. In this case, the basis of attention judgment of the pressure sensor is opposite to the basis of attention judgment of the pressure sensor at the upper stage.

(4) Brightness sensor

The object exhibition mode is different from the use mode of the brightness sensor, and the attention judgment basis is different.

Taking the clothes as an example, when luminance sensor sets up in clothes collarband inboard, when the article was not tried to the second type user, luminance sensor can feel external light, can shelter from luminance sensor when the second type user is tried to wear or is tried to wear the article, and luminance sensor can't feel external light this moment.

In this case, for the luminance sensor: judging whether the signal value representing the perceived brightness of the article is greater than a second preset signal value or not; if the signal value representing the perceived brightness of the article is not larger than the preset signal value, determining that the state parameter accords with a focus judgment basis corresponding to the type of the state acquisition device; i.e. indicating a second type of user attention item.

Also take the clothes as an example, luminance sensor sets up on the wall at the clothes back, when article were not tried to the second type user, luminance sensor can't feel external light, can take off the clothes when article were tried to the second type user and try on, and luminance sensor can feel external light this moment. In this case, the criterion for attention of the luminance sensor is opposite to the criterion for attention of the luminance sensor in the upper stage.

(5) Temperature sensor

The article exhibition mode is different from the use mode of the temperature sensor, and the attention judgment basis is different.

In most geographical locations, for intimate apparel: when the second type of user does not try the articles, the temperature sensor cannot be close to the skin of the user, and the temperature sensed by the temperature sensor is lower at the moment; the item may be tried when the second type of user is interested in the item. In the process of trying the article, the temperature sensor can be close to the skin of the human body, and the temperature sensor can sense the higher temperature.

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 the preset temperature value, determining that the state parameter accords with a focus judgment basis corresponding to the type of the state acquisition device; i.e. indicating a second type of user attention item.

In tropical regions, the external ambient temperature is, in some extreme cases, higher than the human skin temperature. In this case, when the second type user does not try the article, the temperature sensor cannot be close to the skin of the user, and the temperature sensor senses the ambient temperature and the temperature is slightly higher; the item may be tried when the second type of user is interested in the item. In the process of trying the article, the temperature sensor can be close to the skin of the human body, and the temperature sensor can sense the skin temperature at the moment and is slightly lower. The basis of attention judgment of the temperature sensor in this case is opposite to that of the temperature sensor in the upper stage.

It can be understood that, due to different characteristics of the articles, the attention judgment bases may be different when the same type of state acquisition devices are provided on different articles.

The above-mentioned attention judgment basis of 5 types of state acquisition devices is applicable to only a part of scenes and is not applicable to all scenes. In the actual application process, the attention judgment basis of the state acquisition device can be set correspondingly according to a specific application scene, and details are not repeated here.

When one article is provided with a linked state acquisition device, after the state parameters are determined to accord with attention judgment bases corresponding to the types of the state acquisition devices, the article concerned by the second type user is indicated.

When one article is provided with a plurality of linked state acquisition devices, a judgment process can be executed on each state acquisition device, and when the state parameters of at least one state acquisition device meet the attention judgment basis, the article concerned by the second-type user is represented.

When determining that the second type user concerns the item, the server 300 acquires the device identifier from the status information sent by the terminal 100, and acquires the item identifier and the area identifier bound to the device identifier based on the binding relationship between the pre-stored device identifier and the item identifier.

Then, the attention quantity corresponding to the article identification is added by one, and the exposure quantity of the area identification corresponding to the article identification is added by one, so that the current attention quantity of the article and the exposure quantity of the area to which the article belongs are obtained.

The server 300 may transmit the attention amount of the item identification and the exposure amount of the area identification to the terminal 100.

Step S105: the terminal 100 receives and displays the number of object identifiers transmitted by the server 300.

From the above description of the embodiments it can be seen that:

the application provides a data processing system, and the system is added with a state acquisition device linked with articles. The state parameters of the articles are collected through the state collecting device linked with the articles, whether the state parameters change or not is judged, if yes, the user is considered to pay attention to the articles, and the number of the object identifications bound with the device identifications is increased by one.

According to the method and the device, the sales data (the number of the object identifications) are not acquired manually by experience, but are automatically calculated by using the data processing system, so that the execution efficiency and the accuracy are high.

Referring to fig. 2, there is provided a data processing apparatus including:

the receiving state information unit 21 is used for receiving state information sent by a state acquisition device linked with the article; wherein the status information includes: the state acquisition device acquires the state parameters of the article and the device identification of the state acquisition device;

a judging unit 22, configured to judge whether the state parameter changes;

an update quantity unit 23, configured to update a quantity corresponding to the object identifier bound to the device identifier if the status parameter changes.

For a specific implementation process of the data processing apparatus, reference may be made to specific contents shown in fig. 1b, which is not described herein again.

The application also provides a data processing method for the state acquisition device linked with the article, the method comprises the following steps:

acquiring state parameters of an article; sending the state information of the article to a server; and the state information comprises the state parameters and a device identifier corresponding to the state acquisition device.

Correspondingly, the present application provides a data processing apparatus for a state acquisition device in linkage with an article, the apparatus comprising:

the acquiring state parameter unit is used for acquiring the state parameters of the articles;

the sending state information unit is used for sending the state information of the article to the server; and the state information comprises the state parameters and a device identifier corresponding to the state acquisition device.

For specific implementation processes of the data processing method and apparatus, reference may be made to specific contents shown in fig. 1b, which are not described herein again.

The present application further provides a data processing method applied to a terminal, see fig. 3, including:

step S301: acquiring a device identifier and an object identifier of a state acquisition device linked with an article;

step S302: binding the device identifier and the object identifier and obtaining a binding relationship;

step S303: and sending the binding relationship to a server so that the server stores the binding relationship.

Optionally, the method further includes:

sending a data acquisition instruction; wherein the data acquisition instruction comprises a device identifier or an object identifier;

and receiving and displaying data which is sent by the server and corresponds to the data acquisition instruction.

Correspondingly, a data processing device is also provided and integrated in the terminal. Referring to fig. 4, it includes:

an acquisition identification unit 41 for acquiring a device identification and an object identification of the state acquisition device linked with the article;

a binding unit 42, configured to bind the device identifier and the object identifier, and obtain a binding relationship;

a sending binding relation unit 43, configured to send the binding relation to the server, so that the server stores the binding relation.

For a specific implementation process of the data processing apparatus, reference may be made to specific contents shown in fig. 1b, which are not described herein again.

The functions described in the method of the present embodiment, if implemented in the form of software functional units and sold or used as independent products, may be stored in a storage medium readable by a computing device. Based on such understanding, part of the contribution to the prior art of the embodiments of the present application or part of the technical solution may be embodied in the form of a software product stored in a storage medium and including several instructions for causing a computing device (which may be a personal computer, a server, a mobile computing device or a network device) to execute all or part of the steps of the method 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), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among 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 (17)

1. A data processing system, comprising:

the terminal is used for acquiring a device identifier and an object identifier of the state acquisition device linked with the article, binding the device identifier and the object identifier to obtain a binding relationship, and sending the binding relationship to the server;

the state acquisition device is used for acquiring the state parameters of the articles and sending the state information of the articles to the server; the state information comprises the state parameters and a device identifier corresponding to the state acquisition device;

and the server is used for receiving and storing the binding relationship sent by the terminal, receiving state information sent by a state acquisition device linked with the article, judging whether the state parameters change or not, and updating the quantity corresponding to the object identification bound with the device identification based on the prestored binding relationship if the state parameters change.

2. The system of claim 1, wherein the condition-gathering device associated with the item comprises: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.

3. A data processing method is applied to a server, wherein a binding relationship sent by a terminal is stored in the server, the binding relationship comprises a binding relationship between a device identifier and an object identifier of a state acquisition device linked with an article, and the method comprises the following steps:

receiving the state information sent by the state acquisition device; wherein the state information includes: the state acquisition device acquires the state parameters of the article and the device identification of the state acquisition device;

judging whether the state parameters change or not;

and if the state parameters change, updating the quantity corresponding to the object identifiers bound with the device identifiers based on the pre-stored binding relationship.

4. The method of claim 3,

the object identifier comprises an item identifier of an item;

before updating the number corresponding to the object identifier bound to the device identifier, the method further comprises: judging whether the state parameters accord with a focus judgment basis or not; updating the number corresponding to the object identifier bound to the device identifier comprises: and if the state parameters accord with the attention judgment basis, determining the article identification corresponding to the device identification, and updating the attention quantity corresponding to the article identification.

5. The method of claim 4, further comprising, after said updating the amount of interest corresponding to the item identification:

determining the attention amount corresponding to the article identification;

and determining the hot spot article identification according to the attention quantity corresponding to the article identification.

6. The method of claim 3,

the object identification comprises an area identification of an area to which the article belongs;

before updating the number corresponding to the object identifier bound to the device identifier, the method further comprises: judging whether the state parameters accord with exposure judgment basis or not;

updating the number corresponding to the object identifier bound to the device identifier comprises: and if the state parameter accords with an exposure judgment basis, determining an area identifier bound with the device identifier, and updating the exposure quantity corresponding to the area identifier.

7. The method of claim 6, wherein the object identification comprises an item identification of an item; after updating the exposure number corresponding to the area identification, the method further comprises the following steps:

determining the exposure number of the area identification;

and determining the hot spot area identifier according to the exposure quantity corresponding to the article identifier.

8. The method of claim 3, wherein the state acquisition device associated with the item comprises: one or more of a speed sensor, a pressure sensor, an acceleration sensor, a brightness sensor, and a temperature sensor.

9. The method of claim 3, wherein the status information further comprises a type of status acquisition device; wherein the type of the state acquisition device comprises: one or more of a velocity sensor type, a pressure sensor type, an acceleration sensor type, a brightness sensor type, and a temperature sensor type.

10. The method of claim 9, wherein said determining whether the state parameter has changed comprises:

determining a preset judgment basis corresponding to the type of the state acquisition device in the state information;

judging whether the state parameters accord with the preset judgment basis or not;

and if the state parameter accords with a preset judgment basis, determining that the state parameter changes.

11. The method of claim 8, wherein the status information further includes a type of status acquisition device;

under the condition that the state acquisition device includes an acceleration sensor, the state information sent by the state acquisition device linked with the article is received, and the state information comprises: receiving state information sent by an acceleration sensor, wherein the state information comprises the acceleration of the article, the identification of the acceleration sensor and the type of the acceleration sensor;

under the condition that the state acquisition device includes a speed sensor, the receiving of the state information sent by the state acquisition device linked with the article comprises: receiving state information sent by a speed sensor, wherein the state information comprises the speed of an article, the identification of the speed sensor and the type of the speed sensor;

under the condition that the state acquisition device includes pressure sensor, then the state information that the state acquisition device that the receipt linked with article sent includes: receiving state information sent by a pressure sensor, wherein the state information comprises a signal value for indicating that the article is subjected to pressure, an identifier of the pressure sensor and a type of the pressure sensor;

under the condition that the state acquisition device comprises a brightness sensor, the receiving of the state information sent by the state acquisition device linked with the article comprises the following steps: receiving state information sent by a brightness sensor, wherein the state information comprises a signal value used for representing the perceived brightness of the article, an identifier of the brightness sensor and a type of the brightness sensor;

under the condition that the state acquisition device includes temperature sensor, then the state information that the state acquisition device that the receipt linked with article sent includes: and receiving state information sent by the temperature sensor, wherein the state information comprises a temperature value used for representing the temperature sensed by the article, the identification of the temperature sensor and the type of the temperature sensor.

12. The utility model provides a data processing device which characterized in that is applied to the server, the binding relation that the terminal station sent is stored in the server, binding relation includes the binding relation between the device sign and the object sign of the state collection device that links with article, the device includes:

the receiving state information unit is used for receiving the state information sent by the state acquisition device; wherein the state information includes: the state acquisition device acquires the state parameters of the article and the device identification of the state acquisition device;

the judging unit is used for judging whether the state parameters change or not;

and the quantity updating unit is used for updating the quantity corresponding to the object identifier bound with the device identifier based on the pre-stored binding relation if the state parameter changes.

13. A data processing method for a state acquisition device in linkage with an article, the method comprising:

acquiring state parameters of an article;

sending the state information of the article to a server, so that the server judges whether the state parameter changes, and if the state parameter changes, updating the quantity corresponding to the object identifier bound with the device identifier based on the pre-stored binding relationship; the state information comprises the state parameters and a device identifier corresponding to the state acquisition device; the binding relationship comprises a binding relationship between a device identifier and an object identifier of the state acquisition device linked with the article.

14. A data processing apparatus for use with a condition acquisition device associated with an article, the apparatus comprising:

the acquiring state parameter unit is used for acquiring the state parameters of the articles;

a sending state information unit, configured to send state information of an article to a server, so that the server determines whether the state parameter changes, and if the state parameter changes, the number corresponding to the object identifier bound to the device identifier is updated based on a pre-stored binding relationship; the state information comprises the state parameters and a device identifier corresponding to the state acquisition device; the binding relationship comprises a binding relationship between a device identifier and an object identifier of the state acquisition device linked with the article.

15. A data processing method, comprising:

acquiring a device identifier and an object identifier of a state acquisition device linked with an article;

binding the device identifier and the object identifier and obtaining a binding relationship;

and sending the binding relationship to a server so that the server can store the binding relationship and judge whether the received state parameters sent by the state acquisition device change, and if the state parameters change, updating the quantity corresponding to the object identifiers bound with the device identifiers of the state acquisition device based on the prestored binding relationship, wherein the state parameters are the state parameters of the articles acquired by the state acquisition device.

16. The method of claim 15, further comprising:

sending a data acquisition instruction; wherein the data acquisition instruction comprises a device identifier or an object identifier;

and receiving and displaying data which is sent by the server and corresponds to the data acquisition instruction.

17. A data processing apparatus, comprising:

the acquisition identification unit is used for acquiring a device identification and an object identification of the state acquisition device linked with the article;

the binding unit is used for binding the device identifier and the object identifier and acquiring a binding relationship;

and the binding relation sending unit is used for sending the binding relation to a server so that the server can store the binding relation and judge whether the received state parameters sent by the state acquisition device change or not, and if the state parameters change, updating the quantity corresponding to the object identifiers bound with the device identifiers of the state acquisition device based on the prestored binding relation, wherein the state parameters are the state parameters of the articles acquired by the state acquisition device.

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