CN114090246A - Method and device for processing data of exhibition and display artwork based on big data - Google Patents

Abstract

The invention discloses a method and a device for processing exhibition artwork data based on big data.A structure of an exhibition hall edge computing platform is built, and the structure comprises a computing center, an edge computing layer and a terminal layer, wherein the terminal layer senses that a visitor enters a wireless coverage area of an exhibition hall, so that an edge equipment access interface is provided for the visitor; the visitor accesses the interface based on the edge device; after receiving the registration and login information, the computing center deploys nodes of an edge computing layer on the handheld computing equipment to complete access of the handheld computing equipment to an edge computing platform architecture, so that the handheld computing equipment serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform; finally, the edge computing layer provides peer-to-peer feedback to the user based on the amount of computing service provided by each handheld computing device that is accessed.

Description

Method and device for processing data of exhibition and display artwork based on big data

Technical Field

The application belongs to the technical field of exhibition halls and exhibition halls, and particularly relates to a data processing method and device for exhibition artwork based on big data.

Background

Exhibition halls and exhibition halls generally include city culture museum, enterprise culture museum, science and technology museum, memorial hall, cultural art museum and other cultural theme museums and so on, and in recent years, with the rapid development of computer multimedia technology, the new exhibition mode style of exhibition halls and exhibition halls is novel and endlessly, and the design of modern exhibition halls focuses on digital multimedia technology, and the exhibition hall design taking content display such as light effect, image, movie & TV as the theme brings modern science and technology experience, even super modern science and technology experience for the visitor, thereby makes it know the target exhibition item more deeply. In the prior art, multimedia exhibition technologies commonly used in exhibition halls include AR/VR technologies, holographic projection technologies, interactive wall curtain technologies, acousto-optic-electric sand table technologies, CAVE technologies, virtual game technologies, AI robot technologies and the like, and various types of multimedia exhibition technologies are integrated to bring good visiting experience to visitors, but face a plurality of problems at the same time, firstly, complex technologies such as VR image processing, big data processing, AI calculation and the like have extremely high requirements on the grate force of computing equipment, while high grate force equipment means high cost and high loss, the replacement frequency of exhibition projects in the exhibition halls is high, the software of the corresponding exhibition technologies is updated and iterated quickly, and relatively speaking, the expansion capability of fixed hardware facilities of the exhibition halls is insufficient, so that the hardware facilities cannot support new technical requirements over time; second, existing multimedia exhibition technologies still have great room for improvement in terms of interaction with users.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a method and a device for processing data of an exhibition artwork based on big data.

Specifically, the data processing method for the exhibition artwork based on big data claimed in the application comprises the following steps:

s100, building an exhibition hall edge computing platform architecture, which comprises a computing center, an edge computing layer and a terminal layer, wherein the computing center is used as a data processing center, and is used for analyzing, computing and permanently storing core data reported by the edge computing layer and dynamically adjusting node deployment, data deployment and algorithm deployment of the edge computing layer; the edge computing layer serves as an edge node to provide computing and storage services for data; the terminal layer finishes data collection, preprocessing and reporting to an edge computing layer task;

s200, sensing that a visitor enters a wireless coverage area of the exhibition hall by a terminal layer, and providing an edge device access interface for the visitor; the access interface is an edge node program, and the terminal layer displays a two-dimensional code corresponding to the edge node program to a user;

s300, the visitor accesses an interface based on the edge equipment; a visitor downloads an edge node program to handheld computing equipment based on a two-dimensional code, the edge node program is kept running in a background after a unique account is registered and logged in by visitor ID, and a computing center carries out node deployment of an edge computing layer on the handheld computing equipment after receiving registration and login information so as to complete access of the handheld computing equipment in an edge computing platform architecture, so that the handheld computing equipment is used as an edge computing node of the edge computing layer to provide edge computing service for an edge computing platform;

s400, the edge computing layer provides peer-to-peer feedback for the user based on the computing service amount provided by each accessed handheld computing device.

The exhibition hall wireless coverage area is an area from an exhibition hall entrance to an exhibition hall exit; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when a visitor is within the wireless coverage area and accesses a wireless network with an exhibition-unique SSID;

furthermore, the terminal layer also comprises a plurality of infrared sensing devices, and the infrared sensing devices are used for detecting the approximate position of the visitor in the venue so as to complete the visitor positioning; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network with the unique SSID of the exhibition hall;

further, the terminal layer further comprises a plurality of RFID sensing devices, the visitor wears a non-contact ID card which can be identified by the RFID sensing devices, when the non-contact ID card carried by the visitor is sensed and identified by the RFID sensing devices, the visitor is positioned based on the position of the RFID sensing devices, and the terminal layer senses that the visitor enters a wireless coverage area of the exhibition hall, specifically: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network of the unique SSID of the exhibition hall; the identification card can be for moulding card form, user bracelet form firmly, preferentially, and the exhibition room visitor wears the explanation earphone, and the identification card exists with explanation earphone form, and wherein the identification chip embedding is to explaining inside the earphone.

Further, before the two-dimensional code corresponding to the edge node program is displayed to the visitor, the rough function of the edge node program is clarified to the visitor in a multimedia mode, so that the visitor is attracted to download the edge node program; displaying a two-dimensional code corresponding to an edge node program to a visitor in a multimedia mode; preferably, the guest-greeting robot can explain the rough function of the edge node program to the visitor based on a voice mode, and the display device of the guest-greeting robot displays the two-dimensional code to the visitor.

Further, the handheld computing device providing edge computing services for the edge computing platform comprises: a management node in the computing center decomposes a complex computing task of an exhibition hall into a plurality of parallel subtasks, the plurality of subtasks are correspondingly deployed based on the software and hardware conditions of the accessed handheld computing equipment, the handheld computing equipment provides a computing result to the computing center after completing the subtasks, and then the computing center dynamically adjusts the subtasks to continuously realize the purpose of providing edge computing service by utilizing the handheld computing equipment;

further, the calculation service provided by each handheld computing device based on access by the edge calculation layer is specifically the following manner:

when the computing center finishes the node deployment of the edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall, the time stamp or the current time stamp is TE; calculating the running duration TB of the edge node program in the background, calculating the running duration TF of the edge node program in the foreground, and calculating the service quantity G1 to be 1 (TB/(TE-TS)) + W1 (TF/(TE-TS)), wherein W1 is a first weighted value which is more than 1.

The computing method embodies that the computing contribution amount provided by foreground running is larger than that provided by background running, and increases the support of the computing edge node program in the foreground running while encouraging the handheld computing equipment to run the computing edge node program.

When the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the time stamp or the current time stamp after the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall is TE, the flow Q consumed by the edge node program in the handheld computing equipment in the TE-TS time period is obtained; calculating service quantity G2 ═ W2 × Q; where W2 is a second weight value greater than 1.

The calculation method embodies the direct proportion relation between the flow consumed by the calculation edge node program during execution and the calculation service amount.

When the handheld computing equipment which is accessed by a computing center finishes node deployment of an edge computing layer, a time stamp TS is counted, when the time stamp after the handheld computing equipment is disconnected from a wireless network with a unique SSID of an exhibition hall or the current time stamp is TE, a Task sequence Task which is finished by an edge node program and a difficult coefficient sequence H { H1, H2, … hn } of each Task in the Task sequence are obtained in the handheld computing equipment in a TE-TS time period, wherein H1, H2 and … hn are 1 st Task to n th Task difficult coefficients which are finished by the edge node program, and the computing service quantity G3 is W3 sigma hn; wherein W3 is a third weight value greater than 1;

the computing method reflects the corresponding relation between the computing service quantity and the task completion degree on the basis of the task quantity and the task difficulty completed by each node.

Each type of computing equipment has different performances in all aspects, and equipment with weak computing and storage capacities can improve the service quantity by improving the online time of a service program; the equipment with strong computing power and weak storage power can reflect the service volume through the task completion degree; the device with weak computing power and strong storage power can embody the server by computing the traffic consumed by the edge node program, and in summary, the overall service quantity computing formula is G1+ G2+ G3;

further, the computing center allocates a corresponding point to each computing device based on the total service amount G, and the point can be used for exchanging a physical service, including: the charging time with the corresponding duration is exchanged, so that the service capability of the computing resources of the mobile phone is further improved; and/or the free internet surfing time or the free flow with the corresponding duration is exchanged, so that the user is encouraged to provide the service capability; and/or other entity services.

Correspondingly, in order to solve the problems in the prior art, the present application further provides a data processing apparatus for displaying and displaying artwork based on big data, including:

the edge computing platform comprises a computing center, an edge computing layer and a terminal layer, wherein the computing center is used as a data processing center, and is used for analyzing, computing and permanently storing the core data reported by the edge computing layer and dynamically adjusting the node deployment, the data deployment and the algorithm deployment of the edge computing layer; the edge computing layer serves as an edge node to provide computing and storage services for data; the terminal layer finishes data collection, preprocessing and reporting to an edge computing layer task;

the sensing module is used for sensing that a visitor enters a wireless coverage area of the exhibition hall by the terminal layer, so that an edge device access interface is provided for the visitor; the access interface is an edge node program, and the terminal layer displays a two-dimensional code corresponding to the edge node program to a user;

the access module is used for accessing the interface by the visitor based on the edge equipment; a visitor downloads an edge node program to a handheld computing device based on a two-dimensional code, the edge node program is kept running in a background after a unique account is registered and logged in by a visitor ID, and a computing center performs node deployment of an edge computing layer on the handheld computing device after receiving registration and login information so as to complete access of the handheld computing device to an edge computing platform framework, so that the handheld computing device serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform;

and the feedback module is used for providing peer-to-peer feedback for the user by the edge computing layer based on the computing service amount provided by each accessed handheld computing device.

The exhibition hall wireless coverage area is an area from an exhibition hall entrance to an exhibition hall exit; the terminal layer senses that visitors enter a wireless coverage area of the exhibition hall, namely: when a visitor is within the wireless coverage area and accesses a wireless network with an exhibition-unique SSID.

The terminal layer also comprises a plurality of infrared sensing devices, and the infrared sensing devices are used for detecting the approximate position of the visitor in the venue so as to complete visitor positioning; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network with the unique SSID of the exhibition hall;

further, the terminal layer further comprises a plurality of RFID sensing devices, the visitor wears a non-contact ID card which can be identified by the RFID sensing devices, when the non-contact ID card carried by the visitor is sensed and identified by the RFID sensing devices, the visitor is positioned based on the position of the RFID sensing devices, and the terminal layer senses that the visitor enters a wireless coverage area of the exhibition hall, preferably: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network of the unique SSID of the exhibition hall; the identity identification card can be for moulding card form, user bracelet form firmly, preferentially, and the exhibition room visitor wears the explanation earphone, and the earphone is explained in the integrated income of identity identification card, and wherein the identity identification chip embedding is to explaining inside the earphone.

Further, the system also comprises a task allocation module: a management node in the computing center decomposes a complex computing task of an exhibition hall into a plurality of parallel subtasks, the plurality of subtasks are correspondingly deployed based on the software and hardware conditions of the accessed handheld computing equipment, the handheld computing equipment provides a computing result to the computing center after completing the subtasks, then the computing center dynamically adjusts the subtasks, and edge computing service is continuously provided by the handheld computing equipment;

further, the method further comprises a feedback calculation module, wherein the calculation service amount provided by each accessed handheld computing device by the edge calculation layer is specifically in the following manner:

a, when a computing center finishes node deployment of an edge computing layer of accessed handheld computing equipment, a time stamp TS is counted, and when the handheld computing equipment is disconnected from a wireless network with a unique SSID of an exhibition hall, the time stamp or the current time stamp is TE; calculating the running duration TB of the edge node program in the background, calculating the running duration TF of the edge node program in the foreground, and calculating the service quantity G1 to be 1 (TB/(TE-TS)) + W1 (TF/(TE-TS)), wherein W1 is a first weight value which is larger than 1;

b, when the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the time stamp or the current time stamp after the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall is TE, the flow Q consumed by the handheld computing equipment for computing an edge node program in a TE-TS time period is obtained; calculating service quantity G2 ═ W2 × Q; wherein W2 is a second weight value greater than 1;

c, when the handheld computing device which is accessed by the computing center performs node deployment of an edge computing layer, a time stamp TS is counted, when the time stamp or the current time stamp after the handheld computing device is disconnected from a wireless network with the unique SSID of the exhibition hall is TE, a Task sequence Task which is completed by a computing edge node program in the handheld computing device in a TE-TS time period and a difficult coefficient sequence H { H1, H2, … hn } of each Task in the Task sequence are obtained, wherein H1, H2 and … hn are difficult coefficients of 1 st Task to n th Task which are completed by the computing edge node program, and the computing service amount G3 is W3 sigma hn; wherein W3 is a third weight value greater than 1;

the total service calculation formula is G1+ G2+ G3;

the incentive module is used for allocating corresponding points for each computing device by the computing center based on the total service quantity G after the total service quantity G is obtained through calculation, and the points are used for entity service, and the incentive module comprises: the charging time with the corresponding duration is exchanged, so that the service capability of the computing resources of the mobile phone is further improved; and/or the free internet surfing time or the free flow with the corresponding duration is exchanged, so that the user is encouraged to provide the service capability; and/or other entity services.

Based on the technical scheme, the exhibition hall edge computing platform architecture is built and comprises a computing center, an edge computing layer and a terminal layer, wherein the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, so that an edge equipment access interface is provided for the visitors; the visitor accesses the interface based on the edge device; after receiving the registration and login information, the computing center deploys nodes of an edge computing layer on the handheld computing equipment to complete access of the handheld computing equipment to an edge computing platform architecture, so that the handheld computing equipment serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform; finally, the edge computing layer provides peer-to-peer feedback to the user based on the amount of computing service provided by each handheld computing device that is accessed. The scheme has the following advantages: (1) based on the edge computing technology, the complex computing is deployed in the computing equipment carried by visitors, the computing capacity of the exhibition hall is expanded, and the complex computing capacity of the exhibition hall is improved; (2) based on measures such as service quantity calculation, feedback and the like, the method stimulates the user to participate in the calculation service of the exhibition hall, improves the user participation degree and the interaction force with the exhibition hall, and improves the user experience.

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 description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are only intended to illustrate some embodiments of the present application, and that technical features, connections and even method steps not mentioned in other drawings can be obtained from the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a data processing method for displaying and displaying artwork based on big data according to an embodiment of the present invention;

FIG. 2 is a block diagram of a data processing apparatus for displaying and displaying works of art based on big data according to an embodiment of the present invention;

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, 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 some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise, and "a" and "an" typically include at least two, but do not exclude the presence of at least one.

It should be understood that although the terms first, second, third, etc. may be used to describe XXX in the embodiments of the present application, these XXX should not be limited to these terms. These terms are only used to distinguish XXX from each other. For example, a first XXX may also be referred to as a second XXX, and similarly, a second XXX may also be referred to as a first XXX, without departing from the scope of embodiments of the present application.

The words "if", as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to a monitoring", depending on the context. Similarly, the phrase "if it is determined" or "if it is monitored (a stated condition or event)" may be interpreted as "when determining" or "in response to determining" or "when monitoring (a stated condition or event)" or "in response to monitoring (a stated condition or event)", depending on the context.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article of commerce or system in which the element is comprised.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The first embodiment is as follows: as shown in fig. 1, the present application claims a method for processing data of a big data-based exhibition artwork, which includes the following steps:

s100, building an exhibition hall edge computing platform architecture, which comprises a computing center, an edge computing layer and a terminal layer, wherein the computing center is used as a data processing center, and is used for analyzing, computing and permanently storing core data reported by the edge computing layer and dynamically adjusting node deployment, data deployment and algorithm deployment of the edge computing layer; the edge computing layer serves as an edge node to provide computing and storage services for data; the terminal layer finishes data collection, preprocessing and reporting to an edge computing layer task;

s200, sensing that a visitor enters a wireless coverage area of the exhibition hall by a terminal layer, and providing an edge device access interface for the visitor; the access interface is an edge node program, and the terminal layer displays a two-dimensional code corresponding to the edge node program to a user;

s300, the visitor accesses an interface based on the edge equipment; a visitor downloads an edge node program to handheld computing equipment based on a two-dimensional code, the edge node program is kept running in a background after a unique account is registered and logged in by visitor ID, and a computing center carries out node deployment of an edge computing layer on the handheld computing equipment after receiving registration and login information so as to complete access of the handheld computing equipment in an edge computing platform architecture, so that the handheld computing equipment is used as an edge computing node of the edge computing layer to provide edge computing service for an edge computing platform;

s400, the edge computing layer provides peer-to-peer feedback for the user based on the computing service amount provided by each accessed handheld computing device.

The exhibition hall wireless coverage area is an area from an exhibition hall entrance to an exhibition hall exit; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when a visitor is within the wireless coverage area and accesses a wireless network of an exhibition-unique SSID;

furthermore, the terminal layer also comprises a plurality of infrared sensing devices, and the infrared sensing devices are used for detecting the approximate position of the visitor in the venue so as to complete the visitor positioning; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network with the unique SSID of the exhibition hall;

further, the terminal layer further comprises a plurality of RFID sensing devices, the visitor wears a non-contact ID card which can be identified by the RFID sensing devices, when the non-contact ID card carried by the visitor is sensed and identified by the RFID sensing devices, the visitor is positioned based on the position of the RFID sensing devices, and the terminal layer senses that the visitor enters a wireless coverage area of the exhibition hall, specifically: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network of the unique SSID of the exhibition hall; the identification card can be for moulding card form, user bracelet form firmly, preferentially, and the exhibition room visitor wears the explanation earphone, and the identification card exists with explanation earphone form, and wherein the identification chip embedding is to explaining inside the earphone.

Further, before the two-dimensional code corresponding to the edge node program is displayed to the visitor, the rough function of the edge node program is clarified to the visitor in a multimedia mode, so that the visitor is attracted to download the edge node program; displaying a two-dimensional code corresponding to the edge node program to a visitor in a multimedia mode; preferably, the guest-greeting robot can necessarily explain the approximate functions of the edge node program to the visitor based on a voice mode, and the display device of the guest-greeting robot displays the two-dimensional code to the visitor;

further, the handheld computing device providing edge computing services for the edge computing platform comprises: a management node in the computing center decomposes a complex computing task of an exhibition hall into a plurality of parallel subtasks, the plurality of subtasks are correspondingly deployed based on the software and hardware conditions of the accessed handheld computing equipment, the handheld computing equipment provides a computing result to the computing center after completing the subtasks, and then the computing center dynamically adjusts the subtasks to continuously realize the purpose of providing edge computing service by utilizing the handheld computing equipment;

further, the calculation service provided by each handheld computing device based on access by the edge calculation layer is specifically the following manner:

when the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall, the time stamp or the current time stamp is TE; calculating the duration TB of the running of the edge node program in the background, calculating the duration TF of the running of the edge node program in the foreground, and calculating the service quantity G1 to be 1 (TB/(TE-TS)) + W1 (TF/(TE-TS)), wherein W1 is a first weighted value which is larger than 1.

The computing method embodies that the computing contribution amount provided by foreground running is larger than that provided by background running, and increases the support of the computing edge node program in the foreground running while encouraging the handheld computing equipment to run the computing edge node program.

When the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the time stamp or the current time stamp after the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall is TE, the flow Q consumed by the edge node program in the handheld computing equipment in the TE-TS time period is obtained; calculating service amount G2 ═ W2 × Q; where W2 is a second weight value greater than 1.

The calculation method embodies the direct proportion relation between the flow consumed by the calculation edge node program during execution and the calculation service amount.

When the handheld computing equipment which is accessed by a computing center finishes node deployment of an edge computing layer, a time stamp TS is counted, when the time stamp after the handheld computing equipment is disconnected from a wireless network with a unique SSID of an exhibition hall or the current time stamp is TE, a Task sequence Task which is finished by an edge node program and a difficult coefficient sequence H { H1, H2, … hn } of each Task in the Task sequence are obtained in the handheld computing equipment in a TE-TS time period, wherein H1, H2 and … hn are 1 st Task to n th Task difficult coefficients which are finished by the edge node program, and the computing service quantity G3 is W3 sigma hn; wherein W3 is a third weight value greater than 1;

the computing method reflects the corresponding relation between the computing service quantity and the task completion degree on the basis of the task quantity and the task difficulty completed by each node.

Each type of computing equipment has different performances in all aspects, and equipment with weak computing and storage capacities can improve the service quantity by improving the online time of a service program; the equipment with strong computing power and weak storage power can reflect the service volume through the task completion degree; the device with weak computing power and strong storage power can embody the server by computing the traffic consumed by the edge node program, and in summary, the overall service quantity computing formula is G1+ G2+ G3;

further, the computing center allocates a corresponding point to each computing device based on the total service amount G, and the point can convert the physical service, including: the charging time with the corresponding duration is exchanged, so that the service capability of the computing resources of the mobile phone is further improved; and/or the free internet surfing time or the free flow with the corresponding duration is exchanged, so that the user is encouraged to provide the service capability; and/or other entity services.

Example two: as shown in fig. 2, fig. 2 is a corresponding big data based display artwork data processing device, comprising:

the edge computing platform comprises a computing center, an edge computing layer and a terminal layer, wherein the computing center is used as a data processing center, and is used for analyzing, computing and permanently storing the core data reported by the edge computing layer and dynamically adjusting the node deployment, the data deployment and the algorithm deployment of the edge computing layer; the edge computing layer serves as an edge node to provide computing and storage services for data; the terminal layer finishes data collection, preprocessing and reporting to an edge computing layer task;

the sensing module is used for sensing that the visitor enters a wireless coverage area of the exhibition hall by the terminal layer, so that an edge equipment access interface is provided for the visitor; the access interface is an edge node program, and the terminal layer displays a two-dimensional code corresponding to the edge node program to a user;

the access module is used for accessing the interface by the visitor based on the edge equipment; a visitor downloads an edge node program to a handheld computing device based on a two-dimensional code, the edge node program is kept running in a background after a unique account is registered and logged in by a visitor ID, and a computing center performs node deployment of an edge computing layer on the handheld computing device after receiving registration and login information so as to complete access of the handheld computing device to an edge computing platform framework, so that the handheld computing device serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform;

and the feedback module is used for providing peer-to-peer feedback for the user by the edge computing layer based on the computing service amount provided by each accessed handheld computing device.

The exhibition hall wireless coverage area is an area from an exhibition hall entrance to an exhibition hall exit; the terminal layer senses that a visitor enters a wireless coverage area of the exhibition hall, namely: when a visitor is within the wireless coverage area and accesses the wireless network of the exhibition's unique SSID.

The terminal layer also comprises a plurality of infrared sensing devices, and the infrared sensing devices are used for detecting the approximate position of the visitor in the venue so as to complete visitor positioning; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network with the unique SSID of the exhibition hall;

further, the terminal layer further comprises a plurality of RFID sensing devices, the visitor wears a non-contact ID card which can be identified by the RFID sensing devices, when the non-contact ID card carried by the visitor is sensed and identified by the RFID sensing devices, the visitor is positioned based on the position of the RFID sensing devices, and the terminal layer senses that the visitor enters a wireless coverage area of the exhibition hall, preferably: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network of the unique SSID of the exhibition hall; the identification card can be for moulding card form, user bracelet form firmly, preferentially, and the exhibition room visitor wears the explanation earphone, and the identification card integration goes into the explanation earphone, and wherein the identification chip embedding is inside to the explanation earphone.

Further, the system also comprises a task allocation module: a management node in the computing center decomposes a complex computing task of an exhibition hall into a plurality of parallel subtasks, the plurality of subtasks are correspondingly deployed based on the software and hardware conditions of the accessed handheld computing equipment, the handheld computing equipment provides a computing result to the computing center after completing the subtasks, then the computing center dynamically adjusts the subtasks, and edge computing service is continuously provided by the handheld computing equipment;

further, the method further comprises a feedback calculation module, wherein the calculation service amount provided by each accessed handheld computing device by the edge calculation layer is specifically in the following manner:

a, when a computing center finishes node deployment of an edge computing layer of accessed handheld computing equipment, a time stamp TS is counted, and when the handheld computing equipment is disconnected from a wireless network with a unique SSID of an exhibition hall, the time stamp or the current time stamp is TE; calculating the running duration TB of the edge node program in the background, calculating the running duration TF of the edge node program in the foreground, and calculating the service quantity G1 to be 1 (TB/(TE-TS)) + W1 (TF/(TE-TS)), wherein v1 is a first weighted value which is larger than 1;

b, when the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the time stamp or the current time stamp after the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall is TE, the flow Q consumed by the handheld computing equipment for computing an edge node program in a TE-TS time period is obtained; calculating service quantity G2 ═ W2 × Q; wherein W2 is a second weight value greater than 1;

c, when the handheld computing device which is accessed by the computing center performs node deployment of an edge computing layer, a time stamp TS is counted, when the time stamp or the current time stamp after the handheld computing device is disconnected from a wireless network with the unique SSID of the exhibition hall is TE, a Task sequence Task which is completed by a computing edge node program in the handheld computing device in a TE-TS time period and a difficult coefficient sequence H { H1, H2, … hn } of each Task in the Task sequence are obtained, wherein H1, H2 and … hn are difficult coefficients of 1 st Task to n th Task which are completed by the computing edge node program, and the computing service amount G3 is W3 sigma hn; wherein W3 is a third weight value greater than 1;

the total service calculation formula is G1+ G2+ G3;

the incentive module is used for allocating corresponding points for each computing device by the computing center based on the total service quantity G after the total service quantity G is obtained through calculation, and the points are used for entity service, and the incentive module comprises: the charging time with the corresponding duration is exchanged, so that the service capability of the computing resources of the mobile phone is further improved; and/or the free internet surfing time or the free flow with the corresponding duration is exchanged, so that the user is encouraged to provide the service capability; and/or other entity services.

Based on the technical scheme, the exhibition hall edge computing platform architecture is built and comprises a computing center, an edge computing layer and a terminal layer, wherein the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, so that an edge equipment access interface is provided for the visitors; the visitor accesses the interface based on the edge device; after receiving the registration and login information, the computing center deploys nodes of an edge computing layer on the handheld computing equipment to complete access of the handheld computing equipment to an edge computing platform architecture, so that the handheld computing equipment serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform; finally, the edge computing layer provides peer-to-peer feedback to the user based on the amount of computing service provided by each handheld computing device that is accessed. The scheme has the following advantages: (1) based on the edge computing technology, the complex computing is deployed in the computing equipment carried by visitors, the computing capacity of the exhibition hall is expanded, and the complex computing capacity of the exhibition hall is improved; (2) based on measures such as service quantity calculation, feedback and the like, the method stimulates the user to participate in the calculation service of the exhibition hall, improves the user participation degree and the interaction force with the exhibition hall, and improves the user experience.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (12)

1. A data processing method for displaying and displaying artwork based on big data is characterized by comprising the following steps:

s100, building an exhibition hall edge computing platform architecture, which comprises a computing center, an edge computing layer and a terminal layer, wherein the computing center is used as a data processing center, and is used for analyzing, computing and permanently storing core data reported by the edge computing layer and dynamically adjusting node deployment, data deployment and algorithm deployment of the edge computing layer; the edge computing layer serves as an edge node to provide computing and storage services for data; the terminal layer finishes data collection, preprocessing and reporting to an edge computing layer task;

s200, sensing that a visitor enters a wireless coverage area of the exhibition hall by a terminal layer, and providing an edge device access interface for the visitor; the access interface is an edge node program, and the terminal layer displays a two-dimensional code corresponding to the edge node program to a user;

s300, the visitor accesses an interface based on the edge equipment; a visitor downloads an edge node program to a handheld computing device based on a two-dimensional code, the edge node program is kept running in a background after a unique account is registered and logged in by a visitor ID, and a computing center performs node deployment of an edge computing layer on the handheld computing device after receiving registration and login information so as to complete access of the handheld computing device to an edge computing platform framework, so that the handheld computing device serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform;

s400, the edge computing layer provides peer-to-peer feedback for the user based on the computing service amount provided by each accessed handheld computing device.

2. The big-data-based display artwork data processing method according to claim 1, wherein the exhibition hall wireless coverage area is an area from an entrance of the exhibition hall to an exit of the exhibition hall; the terminal layer senses that visitors enter a wireless coverage area of the exhibition hall, namely: when a visitor is within the wireless coverage area and accesses a wireless network with an exhibition-unique SSID.

3. The big-data based display artwork data processing method of claim 1, wherein the terminal layer further comprises a plurality of infrared sensing devices for detecting the approximate position of the visitor in the venue, thereby completing visitor location; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when a visitor is located in the area between the entrance to the exit of the exhibition hall and a computing device carried by the visitor accesses the wireless network of the unique SSID of the exhibition hall.

4. The big data based display artwork data processing method of claim 1, wherein the terminal layer further comprises a plurality of RFID sensing devices, the visitor wears a non-contact ID card capable of being identified by the RFID sensing devices, when the non-contact ID card carried by the visitor is sensed and identified by the RFID sensing devices, the visitor location is completed based on the positions of the RFID sensing devices, and the terminal layer senses that the visitor enters the exhibition hall wireless coverage area, preferably: when the visitor is positioned in the area between the entrance of the exhibition hall and the exit of the exhibition hall and the computing equipment carried by the visitor is accessed to the wireless network of the unique SSID of the exhibition hall; the identification card can be for moulding card form, user bracelet form firmly, preferentially, and the exhibition room visitor wears the explanation earphone, and the identification card integration goes into the explanation earphone, and wherein the identification chip embedding is inside to the explanation earphone.

5. The big-data based display artwork data processing method of claim 1, wherein providing edge computing services to the edge computing platform by the handheld computing device comprises: a management node in the computing center decomposes a complex computing task of an exhibition hall into a plurality of parallel subtasks, the plurality of subtasks are correspondingly deployed based on the software and hardware conditions of the accessed handheld computing equipment, the handheld computing equipment provides a computing result to the computing center after completing the subtasks, then the computing center dynamically adjusts the subtasks, and edge computing service is continuously provided by the handheld computing equipment;

6. the big-data-based display artwork data processing method of any one of claims 1-5, wherein the edge computing layer is based on the following specific way of computing service provided by each accessed handheld computing device:

a, when a computing center finishes node deployment of an edge computing layer of accessed handheld computing equipment, a time stamp TS is counted, and when the handheld computing equipment is disconnected from a wireless network with a unique SSID of an exhibition hall, the time stamp or the current time stamp is TE; calculating the running duration TB of the edge node program in the background, calculating the running duration TF of the edge node program in the foreground, and calculating the service capacity G1 to be 1 (TB/(TE-TS)) + W1 (TF/(TE-TS)), wherein W1 is a first weighted value which is more than 1;

b, when the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the time stamp or the current time stamp after the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall is TE, the flow Q consumed by the handheld computing equipment for computing an edge node program in a TE-TS time period is obtained; calculating service quantity G2 ═ W2 × Q; where W2 is a second weight value greater than 1.

C, when the handheld computing device which is accessed by the computing center performs node deployment of an edge computing layer, a time stamp TS is counted, when the time stamp or the current time stamp after the handheld computing device is disconnected from a wireless network with the unique SSID of the exhibition hall is TE, a Task sequence Task which is completed by a computing edge node program in the handheld computing device in a TE-TS time period and a difficult coefficient sequence H { H1, H2, … hn } of each Task in the Task sequence are obtained, wherein H1, H2 and … hn are difficult coefficients of 1 st Task to n th Task which are completed by the computing edge node program, and the computing service amount G3 is W3 sigma hn; wherein W3 is a third weight value greater than 1;

the total service calculation formula is G1+ G2+ G3.

After the total service quantity G is obtained through calculation, the calculation center allocates corresponding points for each calculation device based on the total service quantity G, and the points are used for entity service and comprise the following steps: the charging time with the corresponding duration is exchanged, so that the service capability of the computing resources of the mobile phone is further improved; and/or the free internet surfing time or the free flow with the corresponding duration is exchanged, so that the user is encouraged to provide the service capability; and/or other entity services.

7. A big data-based display artwork data processing device is characterized by comprising:

the edge computing platform comprises a computing center, an edge computing layer and a terminal layer, wherein the computing center is used as a data processing center, and is used for analyzing, computing and permanently storing the core data reported by the edge computing layer and dynamically adjusting the node deployment, the data deployment and the algorithm deployment of the edge computing layer; the edge computing layer serves as an edge node to provide computing and storage services for data; the terminal layer finishes data collection, preprocessing and reporting to an edge computing layer task;

the sensing module is used for sensing that the visitor enters a wireless coverage area of the exhibition hall by the terminal layer, so that an edge equipment access interface is provided for the visitor; the access interface is an edge node program, and the terminal layer displays a two-dimensional code corresponding to the edge node program to a user;

the access module is used for accessing the interface by the visitor based on the edge equipment; a visitor downloads an edge node program to a handheld computing device based on a two-dimensional code, the edge node program is kept running in a background after a unique account is registered and logged in by a visitor ID, and a computing center performs node deployment of an edge computing layer on the handheld computing device after receiving registration and login information so as to complete access of the handheld computing device to an edge computing platform framework, so that the handheld computing device serves as an edge computing node of the edge computing layer to provide edge computing service for the edge computing platform;

and the feedback module is used for providing peer-to-peer feedback for the user by the edge computing layer based on the computing service amount provided by each accessed handheld computing device.

8. The big-data-based displaying and displaying artwork data processing apparatus of claim 7, further comprising: the exhibition hall wireless coverage area is an area from an exhibition hall entrance to an exhibition hall exit; the terminal layer senses that a visitor enters a wireless coverage area of the exhibition hall, namely: when a visitor is within the wireless coverage area and accesses a wireless network with an exhibition-unique SSID.

9. The big-data based display artwork data processing apparatus of claim 7, wherein the terminal layer further comprises a plurality of infrared sensing devices for detecting the approximate position of the visitor in the venue, thereby completing visitor location; the terminal layer senses that visitors enter a wireless coverage area of an exhibition hall, and specifically comprises the following steps: when a visitor is located in the area between the entrance to the exit of the exhibition hall and a computing device carried by the visitor accesses the wireless network of the unique SSID of the exhibition hall.

10. The big-data based display artwork data processing device according to claim 7, wherein the terminal layer further comprises a plurality of RFID sensing devices, the visitor wears a non-contact ID card capable of being identified by the RFID sensing devices, and when the non-contact ID card carried by the visitor is sensed and identified by the RFID sensing devices, the visitor location is completed based on the positions of the RFID sensing devices, and the terminal layer senses the visitor's entrance into the exhibition hall wireless coverage area, preferably: when the visitor is positioned in the area from the entrance of the exhibition hall to the exit of the exhibition hall and the computing equipment carried by the visitor accesses the wireless network with the unique SSID of the exhibition hall; the identity identification card can be for moulding card form, user bracelet form firmly, preferentially, and the exhibition room visitor wears the explanation earphone, and the earphone is explained in the integrated income of identity identification card, and wherein the identity identification chip embedding is to explaining inside the earphone.

11. The big-data based display artwork data processing device of claim 7, further comprising a task assignment module: a management node in the computing center decomposes a complex computing task of an exhibition hall into a plurality of parallel subtasks, the plurality of subtasks are correspondingly deployed based on the software and hardware conditions of the accessed handheld computing equipment, the handheld computing equipment provides a computing result to the computing center after completing the subtasks, then the computing center dynamically adjusts the subtasks, and edge computing service is continuously provided by utilizing the handheld computing equipment;

12. the big-data based display artwork data processing apparatus of any one of claims 7-11, further comprising a feedback calculation module, wherein the edge calculation layer is based on the amount of calculation services provided by each handheld computing device accessed in the following manner:

a, when a computing center finishes node deployment of an edge computing layer of accessed handheld computing equipment, a time stamp TS is counted, and when the handheld computing equipment is disconnected from a wireless network with a unique SSID of an exhibition hall, the time stamp or the current time stamp is TE; calculating the running duration TB of the edge node program in the background, calculating the running duration TF of the edge node program in the foreground, and calculating the service quantity G1 to be 1 (TB/(TE-TS)) + W1 (TF/(TE-TS)), wherein W1 is a first weight value which is larger than 1;

b, when the computing center finishes node deployment of an edge computing layer of the accessed handheld computing equipment, a time stamp TS is counted, and when the time stamp or the current time stamp after the handheld computing equipment is disconnected from the wireless network with the unique SSID of the exhibition hall is TE, the flow Q consumed by the handheld computing equipment for computing an edge node program in a TE-TS time period is obtained; calculating service quantity G2 ═ W2 × Q; wherein W2 is a second weight value greater than 1;

c, when the handheld computing device which is accessed by the computing center performs node deployment of an edge computing layer, a time stamp TS is counted, when the time stamp or the current time stamp after the handheld computing device is disconnected from a wireless network with the unique SSID of the exhibition hall is TE, a Task sequence Task which is completed by a computing edge node program in the handheld computing device in a TE-TS time period and a difficult coefficient sequence H { H1, H2, … hn } of each Task in the Task sequence are obtained, wherein H1, H2 and … hn are difficult coefficients of 1 st Task to n th Task which are completed by the computing edge node program, and the computing service amount G3 is W3 sigma hn; wherein W3 is a third weight value greater than 1;

the total service calculation formula is G1+ G2+ G3;

the incentive module is used for allocating corresponding points for each computing device by the computing center based on the total service quantity G after the total service quantity G is obtained through calculation, and the points are used for entity service, and the incentive module comprises: the charging time with the corresponding duration is exchanged, so that the service capability of the computing resources of the mobile phone is further improved; and/or the free internet surfing time or the free flow with the corresponding duration is exchanged, so that the user is encouraged to provide the service capability; and/or other entity services.

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