CN117670438A - Intelligent processing method and system for image data - Google Patents

Abstract

The invention provides an intelligent image data processing method and system, which are used for responding to an interaction request of a user side and a scenic spot side, calling an interaction interface to send the interaction request, comprising scenic spot display information, receiving selected information to obtain first scenic spot and scenic spot positions, obtaining first-level display data and second-level display data based on advertisement data, generating a first tour path according to a starting position and the scenic spot positions, updating the first tour path to obtain a second tour path, acquiring a historical position and a current position, updating the second tour path to obtain the current tour path, determining the corresponding first scenic spot as the current scenic spot according to the current position, acquiring second-level display data corresponding to the current scenic spot as current second-level data, generating an information display interface to send the information display interface to the user side, wherein the information display interface comprises a first-level information display area and a second-level information display area, displaying the current second-level data according to the first-level information display area.

Description

Intelligent processing method and system for image data

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to an image data intelligent processing method and system.

Background

The scenic spot can attract tourists in all age groups due to the natural scenery and ornamental value, and is the best place for taking eyeballs. The characteristic of large people flow is favored by the enterprises of the broad merchants, so that a lot of advertisement image data are required to be put in scenic spots.

In the prior art, advertisement image data are often put in scenic spots through a display screen, and cannot be flexibly combined with the data of the scenic spots, so that the flexibility of putting in the scenic spots is low.

Therefore, how to flexibly combine the advertisement image data with the scenic spot data and improve the flexibility of advertisement image data delivery becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides an intelligent processing method and an intelligent processing system for image data, which can flexibly combine advertisement image data with scenic spot data and improve the flexibility of advertisement image data delivery.

In a first aspect of an embodiment of the present invention, an intelligent image data processing method is provided, including:

responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal, and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, and receiving selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions;

Obtaining primary display data and secondary display data of each first scenic spot based on advertisement data configured by an advertisement configuration end, generating a first tour path according to a starting position and a plurality of scenic spot positions, and updating the first tour path based on the primary display data to obtain a second tour path;

acquiring a historical position and a current position of the user side in real time, updating the second tour path according to the historical position and user data to obtain a current tour path, determining a corresponding first scenic spot as a current scenic spot according to the current position, and acquiring secondary display data corresponding to the current scenic spot as current secondary data;

the method comprises the steps of generating an information display interface and sending the information display interface to a user side, wherein the information display interface comprises a primary information display area and a secondary information display area, displaying the current tour path according to the primary information display area, and displaying the current secondary data according to the secondary information display area.

In one possible implementation manner of the first aspect, optionally,

responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal, and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, receiving selected information of the user terminal, and obtaining a plurality of first scenic spots and scenic spot positions, and the method comprises the following steps:

Responding to an interaction request of a preset two-dimensional code at a user terminal and a scenic spot terminal, acquiring a scenic spot name of the scenic spot terminal, and calling a preset scenic spot map according to the scenic spot name to update an initial interface to obtain an interaction interface;

analyzing the preset scenic spot map to obtain a plurality of scenic spot display information and position information corresponding to each scenic spot display information;

and sending the interactive interface to the user side, and receiving click information of the user side on the scenic spot display information in the initial interface to obtain a plurality of first scenic spots and scenic spot positions.

In one possible implementation manner of the first aspect, optionally,

the step of obtaining the primary display data and the secondary display data of each first scenic spot based on the advertisement data configured by the advertisement configuration end comprises the following steps:

receiving the advertisement data of the advertisement configuration terminal, and analyzing the advertisement data to obtain advertisement targets and advertisement display data;

determining advertisement display data of the corresponding first scenic spot according to the advertisement target;

analyzing the advertisement display data to obtain thumbnail display data and detailed display data, wherein the thumbnail display data is used as primary display data of the first scenic spot, and the detailed display data is used as secondary display data of the first scenic spot.

In one possible implementation manner of the first aspect, optionally,

the generating a first tour path according to a starting position and a plurality of scenic spot positions includes:

counting scenic spot positions of a plurality of first scenic spots to obtain a first set;

acquiring distance information of a plurality of scenic spot positions and the starting position in a first set, and determining a first scenic spot corresponding to the scenic spot position with the minimum distance information as a first connecting point;

deleting the scenic spot position corresponding to the first connection point in the first set to obtain a current set, and taking the scenic spot position of the first connection point as a current initial position;

obtaining distance information of a plurality of scenic spot positions in a current set and the current starting position, and determining a first scenic spot corresponding to the scenic spot position with the minimum distance information as a next first connecting point;

repeating the steps until the first set is empty, stopping repeating, and generating a connection sequence according to the sequence of the first connection points;

and sequentially connecting a plurality of first connection points by taking the starting position as a starting point according to the sequence of the connection sequences to obtain the first tour path.

In one possible implementation manner of the first aspect, optionally,

Updating the first tour path based on the first-level display data to obtain a second tour path, including:

calling a preset scene diagram of each first scenic spot, wherein the preset scene diagram is provided with a filling area for first-level display data;

and filling the filling area of each first scenic spot in the first tour path according to the first-level display data to obtain a second tour path.

In one possible implementation manner of the first aspect, optionally,

after the filling processing is performed on the filling area of each first scenic spot in the first tour path according to the first-level display data, the method further comprises:

extracting edge pixel points of the first-level display data to serve as first-level pixel points, and extracting edge pixel points of the filling area to serve as comparison pixel points;

counting the primary pixel points and the comparison pixel points adjacent to the primary pixel points as comparison groups;

and acquiring pixel value differences between the first-level pixel points in each comparison group and the comparison pixel points, and if the pixel value differences are smaller than a preset difference value, invoking an adjustment strategy to adjust the pixel values of the corresponding comparison pixel points.

In one possible implementation manner of the first aspect, optionally,

Acquiring pixel value differences between the first-level pixel points and the comparison pixel points in each comparison group, and if the pixel value differences are smaller than a preset difference value, invoking an adjustment strategy to adjust the pixel values of the corresponding comparison pixel points, wherein the method comprises the following steps:

obtaining a first pixel value of a first-level pixel point in each comparison group, a second pixel value of the comparison pixel point, and obtaining a pixel value difference value according to the first pixel value and the second pixel value;

if the pixel value difference value is smaller than a preset difference value, an adjustment strategy is called to compare the second pixel value with a preset middle pixel value;

when the second pixel value is smaller than the preset middle pixel value, the second pixel value of the comparison pixel point is adjusted to be a preset maximum pixel value;

and when the second pixel value is larger than or equal to the preset middle pixel value, adjusting the second pixel value of the comparison pixel point to be a preset minimum pixel value.

In one possible implementation manner of the first aspect, optionally,

the step of acquiring the historical position and the current position of the user terminal in real time, and updating the second tour path according to the historical position and the user data to obtain the current tour path, comprises the following steps:

Acquiring the historical position of the user side in real time;

comparing the historical position with the scenic spot position of the first scenic spot, and taking the first scenic spot which is repeated with the historical position as a second scenic spot;

and acquiring user data of the user terminal, analyzing the user data to obtain a user head portrait, and replacing the first-level display data in the filling area of the second scenic spot according to the user head portrait to obtain the current tour path.

In a second aspect of the embodiment of the present invention, an intelligent processing system for image data is provided, including:

the receiving unit is used for responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, and receiving selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions;

the updating unit is used for obtaining primary display data and secondary display data of each first scenic spot based on the advertisement data configured by the advertisement configuration end, generating a first tour path according to the initial position and the scenic spot positions, and updating the first tour path based on the primary display data to obtain a second tour path;

The acquisition unit acquires the historical position and the current position of the user side in real time, updates the second tour path according to the historical position and the user data to obtain a current tour path, determines the corresponding first scenic spot as the current scenic spot according to the current position, and acquires the secondary display data corresponding to the current scenic spot as current secondary data;

the information display interface comprises a primary information display area and a secondary information display area, the current tour path is displayed according to the primary information display area, and the current secondary data is displayed according to the secondary information display area.

According to the technical scheme provided by the invention, after the user scans the two-dimensional code corresponding to the scenic spot end, an interface for the user to check and select is correspondingly generated. And sending the interface to the mobile terminal of the user, wherein the interactive interface comprises display information of a plurality of scenic spots in the scenic spot, and if the scenic spot is large or the scenic spots are more to visit, the user can select the scenic spot to visit according to own visit requirement after viewing on the interactive interface, so that the selected information of the user is generated. And obtaining the corresponding scenic spots and positions according to the selected information of the user. According to the advertisement configuration terminal, the advertisement pictures and the advertisement characters of the selected scenic spots are configured, the positions corresponding to the scenic spots are planned to obtain a tour path, and the advertisement pictures on the scenic spots are updated to head portraits on the tourist terminal according to the scenic spots which the tourist has gone. Proving that the tourist at the scenic spot has visited. And planning the scenic spots which remain to be visited to obtain a new tour path and sending the new tour path to tourists. The advertisement image data and the scenic spot data are flexibly combined, and the flexibility of advertisement image data delivery is improved.

According to the technical scheme provided by the invention, the advertisement configuration terminal is configured for the advertisement data of each tourist terminal, the advertisement data are analyzed to obtain advertisement pictures and advertisement characters, the advertisement pictures and scenic spots selected by each tourist are correspondingly matched, a filling area of the advertisement pictures is arranged in the middle of each scenic spot, an advertisement character frame corresponding to each scenic spot is arranged below a map, the corresponding advertisement pictures and advertisement characters are matched, and then the corresponding scenic spots are subjected to path planning to obtain a tour path. Therefore, advertisements can be reasonably fused into the tour map corresponding to each scenic spot, and the flexibility of advertisement data delivery is improved while the advertisements and the scenic spots are reasonably combined.

According to the technical scheme provided by the invention, the current tourist position and the historical tourist position are respectively acquired, if the tourist has already browsed the scenic spot which has already been selected, the advertisement picture on the scenic spot which has already been browsed is updated to the head portrait of the tourist terminal, so that the tourist can be proved to have browsed the scenic spot, when a new tourist path is planned, the scenic spot which has already been visited is not required to be planned, and the tourist browsing efficiency is improved without going back to the scenic spot. And finally, updating the updated tour path and the advertisement data of the corresponding scenic spots, and sending the updated tour path and the advertisement data of the corresponding scenic spots to a display area corresponding to the tourist terminal for display. On the other hand, if the pixel value of the advertisement picture is similar to and coincides with the pixel value of the filling area of the scenic spot, a pixel value difference is calculated from the edge pixel value corresponding to the advertisement picture and the edge pixel value of the filling area, and the preset pixel value difference is called according to the pixel value difference and is compared and then is changed, so that advertisement data can be clearly displayed in the filling area corresponding to the scenic spot. The method is beneficial to the flexible combination of advertisement data and scenic spot data, and improves the flexibility of advertisement data delivery.

Drawings

Fig. 1 is a flow chart of an intelligent processing method for image data according to an embodiment of the present invention.

Detailed Description

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

The invention provides an intelligent processing method of image data, as shown in figure 1, which specifically comprises the following steps:

step S1, responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal, and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, and receiving selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions;

according to the technical scheme provided by the invention, after a user enters a scenic spot, the two-dimensional code corresponding to the scenic spot terminal is scanned by the mobile terminal to interact with the scenic spot terminal, so that an interaction request is generated. The interaction interface corresponding to the scenic spot terminal is called, which can be understood as an interface for the user to check and select after the user scans the two-dimensional code corresponding to the scenic spot terminal. The interface is sent to the user's mobile terminal, and the interactive interface contains the information of the scenic spots in the scenic spot, and the picture or introduction of the scenic spot and the related tour guide and rule of each scenic spot are generally displayed on the interface. After the user usually looks at the interactive interface, the user selects the scenic spot to be visited according to his own tour requirement. Therefore, relevant selected information of the user can be generated to obtain a plurality of first scenic spots and scenic spot positions. The first scenic spot is the scenic spot that the user selected to want to visit, and the scenic spot position is the position of the first scenic spot.

In one possible implementation manner, the step S1, (responding to the interaction request of the user terminal and the scenic spot terminal, and calling the interaction interface corresponding to the scenic spot terminal to send to the user terminal, where the interaction interface includes a plurality of scenic spot display information, and receiving the selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions) specifically includes the following steps S11-S13, which specifically include:

step S11, responding to an interaction request of a preset two-dimensional code at a user end and a scenic spot end, obtaining a scenic spot name of the scenic spot end, and calling a preset scenic spot map according to the scenic spot name to update an initial interface to obtain an interaction interface;

according to the technical scheme provided by the invention, after a user enters a scenic spot, the two-dimensional code corresponding to the scenic spot terminal is scanned by the mobile terminal to interact with the scenic spot terminal, so that an interaction request is generated. The scenic spot end is provided with the corresponding scenic spot name, and after the user selects the scenic spot name, the user can call the corresponding preset scenic spot map according to the current scenic spot name, and the preset scenic spot map can be understood as a scenic spot tour map in the scenic spot preset according to different scenic spots. After the user scans the two-dimensional code corresponding to the scenic spot end, updating the interacted initial interface according to the preset scenic spot map to generate an interface for the user to check and select.

Step S12, analyzing the preset scenic spot map to obtain a plurality of scenic spot display information and position information corresponding to each scenic spot display information;

according to the technical scheme provided by the invention, after the preset scenic spot map is analyzed, a plurality of scenic spot display information is obtained, and the scenic spot display information can be understood as pictures or introduction of scenic spots, and related tour beard and knowledge and regulations of all the scenic spots. And then analyzing to obtain the position information corresponding to each scenic spot.

And step S13, the interactive interface is sent to the user side, click information of the user side on scenic spot display information in an initial interface is received, and a plurality of first scenic spots and scenic spot positions are obtained.

According to the technical scheme provided by the invention, after the interactive interface is sent to the user side, the user can check on the interactive interface and select scenic spots needing to visit according to own visit requirements. Therefore, relevant selected information of the user, namely click information of the scenic spot display information, is generated, and a plurality of first scenic spots and scenic spot positions are obtained. The first scenic spot is the scenic spot that the user selected to want to visit, and the scenic spot position is the position of the first scenic spot.

For example, the user goes to the mountain area of south Beijing, sweeps a preset two-dimensional code of scenic spot when going into, and after having looked up the map of preset scenic spot, supposedly has ten scenic spots, and the server can show the information of these ten scenic spots to the user, if the user has some scenic spots to want to have some unwanted, the user has then selected three scenic spots according to the demand, and the user just can click the show information of these three scenic spots at this time, just obtains the information of three scenic spots that need to play and the position of scenic spot.

Step S2, obtaining primary display data and secondary display data of each first scenic spot based on advertisement data configured by an advertisement configuration end, generating a first tour path according to a starting position and a plurality of scenic spot positions, and updating the first tour path based on the primary display data to obtain a second tour path;

according to the technical scheme provided by the invention, the advertisement data is received based on the configuration of the advertisement configuration terminal, so that the primary display data and the secondary display data of each first scenic spot are obtained. The first level of presentation data is an advertisement thumbnail. The secondary presentation data is detailed data of the advertisement, such as text information of the advertisement or related propaganda data of the advertisement. The primary display data is abbreviated, the secondary display data is detailed, and the primary display data and the secondary display data are in contrast relation. A first tour path is generated according to the starting location and the plurality of sight locations. The initial position can be understood as the position of the sightseeing entrance of the user entering the scenic spot, and the generation of the first browsing path is to connect the initial position with the scenic spot positions of a plurality of first scenic spots. And generating the second tour path, namely adding the first-level display data to each first scenic spot, and obtaining the second tour path. The first tour path and the second tour path are different in that the first sight of the first tour path is not added with the first-level display data, and the first sight of the second tour path is added with the first-level display data.

In a possible implementation manner, the step S2, (obtaining the primary display data and the secondary display data of each first scenic spot based on the advertisement data configured by the advertisement configuration end) specifically includes the following steps S21 to S23, which are specifically as follows:

s21, receiving the advertisement data of the advertisement configuration terminal, and analyzing the advertisement data to obtain advertisement targets and advertisement display data;

according to the technical scheme provided by the invention, the advertisement data of the advertisement configuration terminal is received and then analyzed to obtain the advertisement target and the advertisement display data. The advertisement target is a specific advertisement product, and it can be known that each scenic spot may have a plurality of advertisements, and a plurality of different scenic spots in each scenic spot may be provided with different advertisements. The advertisement display data is the display data corresponding to the advertisement products.

Step S22, determining advertisement display data of the corresponding first scenic spot according to the advertisement target;

according to the technical scheme provided by the invention, the advertisement display data of each first scenic spot is determined according to the specific advertisement product, namely the advertisement target, of each first scenic spot. To ensure that the advertising and presentation data to be promoted are corresponding.

And S23, analyzing the advertisement display data to obtain thumbnail display data and detailed display data, wherein the thumbnail display data is used as primary display data of the first scenic spot, and the detailed display data is used as secondary display data of the first scenic spot.

According to the technical scheme provided by the invention, the advertisement display data is analyzed to obtain the thumbnail display data and the detailed display data. The thumbnail display data is advertisement thumbnail, and the detailed display data is advertisement detailed data, such as advertisement text information or advertisement related propaganda data. The thumbnail display data is used as primary display data of the first scenic spot, and the detailed display data is used as secondary display data of the first scenic spot. The primary display data is abbreviated, the secondary display data is detailed, and the primary display data and the secondary display data are in contrast relation.

In a possible implementation manner, the step S2 (generating the first tour path according to the starting position and the plurality of scenic spot positions) specifically includes the following steps S24 to S29, which are specifically as follows:

step S24, counting scenic spot positions of a plurality of first scenic spots to obtain a first set;

according to the technical scheme provided by the invention, the scenic spot positions of a plurality of first scenic spots are counted to obtain a first set. For example, three first scenic spots are arranged, a first set is obtained after statistics, and scenic spot positions of the three first scenic spots are arranged in the set.

Step S25, obtaining distance information of a plurality of scenic spot positions and the initial position in a first set, and determining a first scenic spot corresponding to the scenic spot position with the minimum distance information as a first connecting point;

according to the technical scheme provided by the invention, the distance information between the scenic spot position and the initial position of each first scenic spot in the first set is acquired. After comparing the distance information, selecting a first scenic spot corresponding to the scenic spot position with the shortest distance from the initial position as a first connecting point. The first connection point facilitates subsequent generation of the tour path.

Step S26, deleting the scenic spot position corresponding to the first connection point in the first set to obtain a current set, and taking the scenic spot position of the first connection point as a current initial position;

according to the technical scheme provided by the invention, the scenic spot positions corresponding to the first connection points in the first set are deleted, and the current set is obtained. For example, there are three spot positions in the first set, and after a first spot corresponding to one spot position is used as the first connection point, the spot position is deleted correspondingly, and a current set is generated, and two spot positions remain in the current set. And finally, taking the scenic spot position of the first scenic spot corresponding to the first connection point as the current initial position.

Step S27, obtaining distance information of a plurality of scenic spot positions in a current set and the current starting position, and determining a first scenic spot corresponding to the scenic spot position with the minimum distance information as a next first connecting point;

according to the technical scheme provided by the invention, the distance information between the scenic spot position of each first scenic spot in the current set and the current initial position is acquired. After comparing the distance information, selecting a first scenic spot corresponding to the scenic spot position with the shortest distance from the current initial position as the next first connecting point. The next connection point is continuously selected, so that the subsequent generation of the tour path is facilitated.

Step S28, repeating the steps until the first set is empty, stopping repeating, and generating a connection sequence according to the sequence of the first connection points;

according to the technical scheme provided by the invention, the steps are repeated until all the first scenic spots corresponding to all the scenic spot positions in the first set are marked as the first connecting points, and then the repetition is stopped. And generating a connection sequence for all the first scenic spots according to the sequence of marking the first connection spots in turn. Facilitating subsequent generation of the first tour path.

And step S29, sequentially connecting a plurality of first connection points by taking the initial position as a starting point according to the sequence of the connection sequences to obtain the first tour path.

According to the technical scheme provided by the invention, the starting position is taken as a starting point, and the first connection points corresponding to the first scenic spots are sequentially connected according to the connection sequence order, so that a first tour path is obtained. It can be understood that the user needs to visit according to the tour path generated by the scenic spot positions of the selected first scenic spot, so that a more reasonable tour route needs to be planned according to the distance between the scenic spot positions, the tour experience of the user is improved, and unnecessary repeated routes are avoided when the user visits.

In a possible implementation manner, the step S2 (updating the first tour path based on the first-level display data to obtain the second tour path) specifically includes the following steps S211 to S212, which are specifically as follows:

step S211, a preset scene diagram of each first scenery spot is called, wherein a filling area for primary display data is arranged in the preset scene diagram;

according to the technical scheme provided by the invention, the preset scenery spot diagram of each first scenery spot is called. The preset scene map may be understood as a preset landmark landscape image of each scenery spot, for example, the first scenery spot is a tower, and the preset scene map may be a thumbnail image of a tower. The preset scene diagram is provided with a filling area for first-level display data. The filling area is the area for filling the first-level display data. For example, the preset scene diagram is a thumbnail image of a tower, and an area specially filled with advertisement thumbnail images is arranged in the image, so that the advertisement is displayed after the primary display data is filled.

And step S212, filling the filling area of each first scenic spot in the first tour path according to the first-level display data to obtain a second tour path.

According to the technical scheme provided by the invention, filling areas of all the first scenic spots in the first tour path are filled according to the first-level display data, so that the second tour path is obtained. The first tour path and the second tour path are different in that the first sight of the first tour path is not added with the first-level display data, and the first sight of the second tour path is added with the first-level display data.

In one possible implementation manner, after step S212, the method further includes the following steps S213 to S215 (filling the filling area of each first scenic spot in the first tour path according to the first-level display data):

step S213, extracting edge pixel points of the first-level display data to serve as first-level pixel points, and extracting edge pixel points of the filling area to serve as comparison pixel points;

according to the technical scheme provided by the invention, the edge pixel points of the first-level display data are extracted, the edge pixel points of the first-level display data are marked as first-level pixel points, the edge pixel points of the filling area are extracted, and the edge pixel points of the filling area are marked as comparison pixel points. The effect of marking the first-level pixel points and comparing the pixel points is that if the first-level display data and the filling area of the preset scene point map are overlapped together, the difference of the pixel values is unfavorable for distinguishing and distinguishing, and the pixel values of the two edge pixel points are convenient to adjust.

Step S214, counting the primary pixel points and the comparison pixel points adjacent to the primary pixel points as comparison groups;

according to the technical scheme provided by the invention, all the first-level pixel points and all the adjacent comparison pixel points are counted in sequence to obtain a comparison group. The comparison group is convenient for calculating the pixel difference value of two edge pixel points.

Step S215, obtaining a pixel value difference value between a first-level pixel point and the comparison pixel point in each comparison group, and if the pixel value difference value is smaller than a preset difference value, invoking an adjustment strategy to adjust the pixel value of the corresponding comparison pixel point.

According to the technical scheme provided by the invention, the pixel value difference value between the first-level pixel point and the comparison pixel point in the comparison group is calculated. The preset difference is a preset pixel value difference. And if the pixel value difference is smaller than the preset difference, the pixel value of the pixel value point is adjusted by calling the adjustment strategy. The adjustment strategy is a preset pixel point adjustment strategy, so that the pixel values of the edge pixel points of the filling area can be adjusted conveniently, and the first-level display data can be displayed conveniently.

In one possible implementation manner, in step S215, (obtaining the pixel value difference between the first-level pixel point and the comparison pixel point in each comparison group, and if the pixel value difference is smaller than a preset difference, invoking an adjustment policy to adjust the pixel value of the corresponding comparison pixel point) specifically includes the following steps S216-S219, which specifically include:

Step S216, obtaining a first pixel value of a first-level pixel point in each comparison group, and a second pixel value of a pixel point in each comparison group, and obtaining a pixel value difference value according to the first pixel value and the second pixel value;

according to the technical scheme provided by the invention, the pixel value of the first-level pixel point in each comparison group is marked as the first pixel value. And marking the comparison pixel points in each comparison group as second pixel values. And calculating the first pixel value and the second pixel value to obtain a pixel value difference value.

Step S217, if the pixel value difference is smaller than a preset difference, an adjustment strategy is called to compare the second pixel value with a preset middle pixel value;

according to the technical scheme provided by the invention, if the pixel value difference value is smaller than the preset difference value, the second pixel value and the preset middle pixel value are compared by calling the adjustment strategy. It is known that the pixel value interval is 0 to 255. The middle pixel value is 127.5 and the integer is 128. Therefore, if the pixel value difference is smaller than the preset difference, the second pixel value is compared with the intermediate pixel value 128.

Step S218, when the second pixel value is smaller than the preset middle pixel value, adjusting the second pixel value of the comparison pixel point to be a preset maximum pixel value;

According to the technical scheme provided by the invention, when the second pixel value is smaller than the middle pixel value 128, the second pixel value of the comparison pixel point is adjusted to be the preset maximum pixel value. The preset maximum pixel value is a preset maximum pixel value, namely the maximum pixel value 255 in the pixel value interval 0-255. The pixel value of the edge pixel point of the filling area is adjusted to be the preset maximum pixel value 255, so that the primary display data can be highlighted, and the advertisement data and the scenic spot data can be flexibly combined.

Step S219, when the second pixel value is greater than or equal to the preset middle pixel value, adjusting the second pixel value of the comparison pixel point to be a preset minimum pixel value.

According to the technical scheme provided by the invention, when the second pixel value is larger than the middle pixel value 128, the second pixel value of the comparison pixel point is adjusted to be the preset minimum pixel value. The preset maximum pixel value is a preset minimum pixel value, namely the minimum pixel value 0 in the pixel value interval 0-255. The pixel value of the edge pixel point of the filling area is adjusted to be the preset minimum pixel value 0, and the first-level display data can be highlighted, so that the advertisement data and the scenic spot data can be combined flexibly.

Step S3, acquiring the historical position and the current position of the user side in real time, updating the second tour path according to the historical position and the user data to obtain a current tour path, determining the corresponding first scenic spot as the current scenic spot according to the current position, and acquiring secondary display data corresponding to the current scenic spot as current secondary data;

according to the technical scheme provided by the invention, the historical position and the current position of the user side are obtained in real time, wherein the historical position is the scenic spot position of the first scenic spot browsed by the user in a historical manner. The current position is the scenic spot position of the first scenic spot currently browsed by the user. And updating the second tour path according to the historical position and the user data to obtain the current tour path. The user data is the user related information corresponding to the user terminal, such as user ID, user head portrait, etc. And replacing advertisement data in the first scenic spot corresponding to the historical position with user data, and finishing updating the second tour path. The current tour path is the path planned when the user currently takes tour. And marking the first scenic spot where the current scenic spot is located as the current scenic spot according to the current position, and marking the second-level display data corresponding to the current scenic spot as the current second-level data.

In one possible implementation manner, the step S3, (obtaining the historical position and the current position of the user end in real time, and updating the second tour path according to the historical position and the user data to obtain the current tour path) specifically includes the following steps S31-S33, which are specifically as follows:

step S31, acquiring the historical position of the user side in real time.

According to the technical scheme provided by the invention, the historical position of the user side is obtained in real time, wherein the historical position is the scenic spot position of the first scenic spot browsed by the user in a historical manner.

S32, comparing the historical position with the scenic spot position of the first scenic spot, and taking the first scenic spot which is repeated with the historical position as a second scenic spot;

according to the technical scheme provided by the invention, the historical position of the user side is compared with the scenic spot position of the first scenic spot, and the first scenic spot corresponding to the scenic spot position with repeated historical positions is marked as the second scenic spot according to the comparison result.

And step S33, acquiring user data of the user terminal, analyzing the user data to obtain a user head portrait, and replacing the first-level display data in the filling area of the second scenic spot according to the user head portrait to obtain the current tour path.

According to the technical scheme provided by the invention, the user data of the user side is acquired, and the user head portrait is obtained after the user data is analyzed. And replacing the first-level display data in the second scenic spot filling area with the user head portrait to obtain the current tour path. It can be understood that if the user browses the first scenic spot, the advertisement thumbnail of the filling area in the browsed first scenic spot is replaced by the head portrait of the user, which indicates that the first scenic spot has completed the browsing, so that the user can conveniently view the browsing footprint and the browsing progress of the user on the interface.

And S4, generating an information display interface and sending the information display interface to a user terminal, wherein the information display interface comprises a primary information display area and a secondary information display area, the current tour path is displayed according to the primary information display area, and the current secondary data is displayed according to the secondary information display area.

According to the technical scheme provided by the invention, the information display interface is the display interface for the user to visit in real time. The information display interface comprises a primary information display area and a secondary information display area. The primary information display area mainly displays the current tour path of the user and corresponding primary display data. The secondary information display area mainly displays detailed display data corresponding to the current secondary data. It can be understood that the primary information display area displays the first scenic spots and the corresponding advertisement thumbnails of the current sights of the user, and the secondary information display area displays the advertisement text information and the advertisement related propaganda data corresponding to each advertisement thumbnail.

In order to implement the image data intelligent processing method provided by the invention, the invention also provides an image data intelligent processing system, which comprises the following steps:

the receiving unit is used for responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, and receiving selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions;

the updating unit is used for obtaining primary display data and secondary display data of each first scenic spot based on the advertisement data configured by the advertisement configuration end, generating a first tour path according to the initial position and the scenic spot positions, and updating the first tour path based on the primary display data to obtain a second tour path;

the acquisition unit acquires the historical position and the current position of the user side in real time, updates the second tour path according to the historical position and the user data to obtain a current tour path, determines the corresponding first scenic spot as the current scenic spot according to the current position, and acquires the secondary display data corresponding to the current scenic spot as current secondary data;

The information display interface comprises a primary information display area and a secondary information display area, the current tour path is displayed according to the primary information display area, and the current secondary data is displayed according to the secondary information display area.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. An intelligent processing method for image data is characterized by comprising the following steps:

responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal, and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, and receiving selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions;

Obtaining primary display data and secondary display data of each first scenic spot based on advertisement data configured by an advertisement configuration end, generating a first tour path according to a starting position and a plurality of scenic spot positions, and updating the first tour path based on the primary display data to obtain a second tour path;

acquiring a historical position and a current position of the user side in real time, updating the second tour path according to the historical position and user data to obtain a current tour path, determining a corresponding first scenic spot as a current scenic spot according to the current position, and acquiring secondary display data corresponding to the current scenic spot as current secondary data;

the method comprises the steps of generating an information display interface and sending the information display interface to a user side, wherein the information display interface comprises a primary information display area and a secondary information display area, displaying the current tour path according to the primary information display area, and displaying the current secondary data according to the secondary information display area.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal, and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, receiving selected information of the user terminal, and obtaining a plurality of first scenic spots and scenic spot positions, and the method comprises the following steps:

Responding to an interaction request of a preset two-dimensional code at a user terminal and a scenic spot terminal, acquiring a scenic spot name of the scenic spot terminal, and calling a preset scenic spot map according to the scenic spot name to update an initial interface to obtain an interaction interface;

analyzing the preset scenic spot map to obtain a plurality of scenic spot display information and position information corresponding to each scenic spot display information;

and sending the interactive interface to the user side, and receiving click information of the user side on the scenic spot display information in the initial interface to obtain a plurality of first scenic spots and scenic spot positions.

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

the step of obtaining the primary display data and the secondary display data of each first scenic spot based on the advertisement data configured by the advertisement configuration end comprises the following steps:

receiving the advertisement data of the advertisement configuration terminal, and analyzing the advertisement data to obtain advertisement targets and advertisement display data;

determining advertisement display data of the corresponding first scenic spot according to the advertisement target;

analyzing the advertisement display data to obtain thumbnail display data and detailed display data, wherein the thumbnail display data is used as primary display data of the first scenic spot, and the detailed display data is used as secondary display data of the first scenic spot.

4. The method of claim 3, wherein the step of,

the generating a first tour path according to a starting position and a plurality of scenic spot positions includes:

counting scenic spot positions of a plurality of first scenic spots to obtain a first set;

acquiring distance information of a plurality of scenic spot positions and the starting position in a first set, and determining a first scenic spot corresponding to the scenic spot position with the minimum distance information as a first connecting point;

deleting the scenic spot position corresponding to the first connection point in the first set to obtain a current set, and taking the scenic spot position of the first connection point as a current initial position;

obtaining distance information of a plurality of scenic spot positions in a current set and the current starting position, and determining a first scenic spot corresponding to the scenic spot position with the minimum distance information as a next first connecting point;

repeating the steps until the first set is empty, stopping repeating, and generating a connection sequence according to the sequence of the first connection points;

and sequentially connecting a plurality of first connection points by taking the starting position as a starting point according to the sequence of the connection sequences to obtain the first tour path.

5. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

Updating the first tour path based on the first-level display data to obtain a second tour path, including:

calling a preset scene diagram of each first scenic spot, wherein the preset scene diagram is provided with a filling area for first-level display data;

and filling the filling area of each first scenic spot in the first tour path according to the first-level display data to obtain a second tour path.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

after the filling processing is performed on the filling area of each first scenic spot in the first tour path according to the first-level display data, the method further comprises:

extracting edge pixel points of the first-level display data to serve as first-level pixel points, and extracting edge pixel points of the filling area to serve as comparison pixel points;

counting the primary pixel points and the comparison pixel points adjacent to the primary pixel points as comparison groups;

and acquiring pixel value differences between the first-level pixel points in each comparison group and the comparison pixel points, and if the pixel value differences are smaller than a preset difference value, invoking an adjustment strategy to adjust the pixel values of the corresponding comparison pixel points.

7. The method of claim 6, wherein the step of providing the first layer comprises,

Acquiring pixel value differences between the first-level pixel points and the comparison pixel points in each comparison group, and if the pixel value differences are smaller than a preset difference value, invoking an adjustment strategy to adjust the pixel values of the corresponding comparison pixel points, wherein the method comprises the following steps:

obtaining a first pixel value of a first-level pixel point in each comparison group, a second pixel value of the comparison pixel point, and obtaining a pixel value difference value according to the first pixel value and the second pixel value;

if the pixel value difference value is smaller than a preset difference value, an adjustment strategy is called to compare the second pixel value with a preset middle pixel value;

when the second pixel value is smaller than the preset middle pixel value, the second pixel value of the comparison pixel point is adjusted to be a preset maximum pixel value;

and when the second pixel value is larger than or equal to the preset middle pixel value, adjusting the second pixel value of the comparison pixel point to be a preset minimum pixel value.

8. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the step of acquiring the historical position and the current position of the user terminal in real time, and updating the second tour path according to the historical position and the user data to obtain the current tour path, comprises the following steps:

Acquiring the historical position of the user side in real time;

comparing the historical position with the scenic spot position of the first scenic spot, and taking the first scenic spot which is repeated with the historical position as a second scenic spot;

and acquiring user data of the user terminal, analyzing the user data to obtain a user head portrait, and replacing the first-level display data in the filling area of the second scenic spot according to the user head portrait to obtain the current tour path.

9. An intelligent processing system for image data, comprising:

the receiving unit is used for responding to an interaction request of a user terminal and a scenic spot terminal, calling an interaction interface corresponding to the scenic spot terminal and sending the interaction interface to the user terminal, wherein the interaction interface comprises a plurality of scenic spot display information, and receiving selected information of the user terminal to obtain a plurality of first scenic spots and scenic spot positions;

the updating unit is used for obtaining primary display data and secondary display data of each first scenic spot based on the advertisement data configured by the advertisement configuration end, generating a first tour path according to the initial position and the scenic spot positions, and updating the first tour path based on the primary display data to obtain a second tour path;

The acquisition unit acquires the historical position and the current position of the user side in real time, updates the second tour path according to the historical position and the user data to obtain a current tour path, determines the corresponding first scenic spot as the current scenic spot according to the current position, and acquires the secondary display data corresponding to the current scenic spot as current secondary data;

the information display interface comprises a primary information display area and a secondary information display area, the current tour path is displayed according to the primary information display area, and the current secondary data is displayed according to the secondary information display area.

10. A storage medium having stored therein a computer program for implementing the method of any of claims 1 to 8 when executed by a processor.