CN107393012B - Independent display module output method and service equipment of digital artistic landscape device - Google Patents

Abstract

An independent display module output method and service equipment of a digital artistic landscape device are provided, the method comprises the following steps: the digital artistic landscape device comprises a plurality of display module layers with 360-degree annular structures, wherein the display module layers are distributed at intervals along the same vertical axis, each display module layer is divided into a plurality of independent display modules with special-shaped structures, the independent communication connection is respectively established between service equipment and each independent display module, the service equipment acquires the expanded images of the three-dimensional models of the display module layers with the 360-degree annular structures, and the actual screen resolution of each independent display module is acquired from the expanded images of the three-dimensional models; and adjusting the actual output of any independent display module according to the expanded image of the three-dimensional model and the actual screen resolution of any independent display module. By implementing the embodiment of the invention, the time consumed by adjusting a large number of independent display modules can be shortened, and the output efficiency of the independent display modules can be improved.

Description

Independent display module output method and service equipment of digital artistic landscape device

Technical Field

The invention relates to the technical field of internet, in particular to an independent display module output method and service equipment of a digital art landscape device.

Background

At present, the construction of smart cities becomes a historical trend that the development of cities in the world is irreversible. The core of the smart city is to realize information sharing, and in order to realize information sharing and achieve the effect of gathering people, so as to be beneficial to building the smart city, more and more digital landscape devices are arranged in the urban environment. In practice, it is found that existing digital landscape devices are generally formed by splicing a large number of display modules, and in order to present a better artistic landscape effect, the display modules are generally required to have certain differences in shape, so that the actual resolution between the display modules which are spliced to form the digital landscape device also has certain differences, and an engineer is required to manually adjust the output of the display modules which are spliced to form the digital landscape device on site, and the manual adjustment is generally long in time consumption, which reduces the output efficiency of the display modules.

Disclosure of Invention

The embodiment of the invention discloses an independent display module output method and service equipment of a digital art landscape device, which can shorten the adjustment time consumption of a plurality of independent display modules and improve the output efficiency of the independent display modules.

The first aspect of the embodiment of the invention discloses an independent display module output method of a digital artistic landscape device, wherein the digital artistic landscape device comprises a plurality of display module layers with 360-degree annular structures which are distributed at intervals along the same vertical axis, each display module layer is divided into a plurality of independent display modules with special-shaped structures which are mutually spaced, service equipment is respectively connected with each independent display module in an independent communication way, and the method comprises the following steps:

the service equipment acquires the expanded view of the three-dimensional model of the display module layers with the 360-degree annular structures, and acquires the actual screen resolution of each independent display module from the expanded view of the three-dimensional model;

and the service equipment adjusts the actual output of any independent display module according to the expansion diagram of the three-dimensional model and the actual screen resolution of any independent display module.

As an alternative implementation manner, in the first aspect of the embodiment of the present invention, the acquiring, by the service device, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree ring structures includes:

the service equipment detects data content uploaded by engineering debugging personnel through the debugging equipment, wherein the data content comprises an expanded view of a three-dimensional model of the plurality of display module layers with 360-degree annular structures, which are included in the digital artistic landscape device;

the service equipment acquires an expanded view of the three-dimensional model of the plurality of display module layers with 360-degree annular structures included in the digital art landscape device from the data content.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, before the data content further includes identity information of the engineering debugger, and the service device acquires, from the data content, an expanded view of the three-dimensional model of the plurality of 360-degree ring-shaped structural display module layers included in the digital art landscape apparatus, the method further includes:

the service equipment checks whether the identity information of the engineering debugging personnel included in the data content belongs to the identity information of legal debugging personnel pre-stored by the service equipment, and if the identity information belongs to the legal debugging personnel, the expansion drawing of the three-dimensional model of the plurality of 360-degree annular structure display module layers included in the digital artistic landscape device is obtained from the data content.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, after the data content further includes identification information of the digital art landscape apparatus, and the service device verifies that the identity information of the engineering debugger included in the data content belongs to identity information of a legal debugger stored in advance by the service device, the method further includes:

the service equipment identifies whether the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service equipment, and if so, the expansion drawing of the three-dimensional model of the plurality of display module layers with 360-degree annular structures included in the digital art landscape device is acquired from the data content.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the adjusting, by the service device, an actual output of any independent display module according to the expanded view of the three-dimensional model and an actual screen resolution of the independent display module includes:

the service equipment detects an image uploading request initiated by user equipment;

the service equipment issues the development images of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital artistic landscape device, to the user equipment so as to respond to the information uploading request;

the service equipment detects an image to be output initiated by the user equipment and any independent display module selected by a user from an expansion diagram of the three-dimensional model;

and the service equipment calculates whether the resolution of the image to be output is matched with the actual screen resolution of any independent display module, and if not, the resolution of the image to be output is adjusted to be matched with the actual screen resolution of any independent display module and then is output to any independent display module.

The second aspect of the embodiment of the present invention discloses a service device, wherein the digital art landscape apparatus includes a plurality of display module layers with 360-degree annular structures, which are distributed along the same vertical axis at intervals, each display module layer is divided into a plurality of independent display modules with special-shaped structures, which are spaced from each other, the service device establishes independent communication connection with each independent display module, and the service device includes:

a first acquiring unit configured to acquire an expanded view of a three-dimensional model of the plurality of 360-degree annular structure display module layers;

the second acquisition unit is used for acquiring the actual screen resolution of each independent display module from the expansion image of the three-dimensional model;

and the adjusting unit is used for adjusting the actual output of any independent display module according to the expanded view of the three-dimensional model and the actual screen resolution of any independent display module.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the first obtaining unit includes:

the first detection subunit is used for detecting data content uploaded by engineering debugging personnel through debugging equipment, wherein the data content comprises an expanded view of a three-dimensional model of the plurality of display module layers with 360-degree annular structures, which are included in the digital artistic landscape device;

an acquiring subunit, configured to acquire, from the data content, an expanded view of a three-dimensional model of the plurality of display module layers of the 360-degree ring structures included in the digital art landscape apparatus.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the data content further includes identity information of the engineering debugger, and the first obtaining unit further includes:

the verifying subunit is used for verifying whether the identity information of the engineering debugging personnel included in the data content belongs to the identity information of legal debugging personnel stored in the service equipment in advance;

the acquiring subunit is configured to acquire, from the data content, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree annular structures included in the digital art landscape apparatus when the verification result of the verifying subunit is that the digital art landscape apparatus belongs to the display module layer.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the data content further includes identification information of the digital art landscape apparatus, and the first obtaining unit further includes:

the identification subunit is configured to identify whether the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service equipment after the verification subunit verifies that the identification information of the engineering debugger included in the data content belongs to the identification information of the legal debugger pre-stored in the service equipment;

the obtaining subunit is specifically configured to, when the verification result of the verifying subunit is that the digital art landscape device belongs to the service equipment, and when the identifying subunit identifies that the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service equipment, obtain, from the data content, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree annular structure included in the digital art landscape device.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the adjusting unit includes:

the second detection subunit is used for detecting an image uploading request initiated by the user equipment;

the sending subunit is configured to send the developed view of the three-dimensional model of the display module layers of the multiple 360-degree annular structures included in the digital art landscape apparatus to the user equipment, so as to respond to the information uploading request;

the second detection subunit is further configured to detect an image to be output initiated by the user equipment and any one of the independent display modules selected by the user from the expanded view of the three-dimensional model;

the calculating subunit is used for calculating whether the resolution of the image to be output is matched with the actual screen resolution of any independent display module;

and the adjusting subunit is configured to adjust the resolution of the image to be output to be matched with the actual screen resolution of any independent display module and then output the image to be output to any independent display module when the calculating subunit calculates that the resolution of the image to be output is not matched with the actual screen resolution of any independent display module.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, the digital artistic landscape device comprises a plurality of display module layers with 360-degree annular structures which are distributed at intervals along the same vertical axis, each display module layer is divided into a plurality of independent display modules with special-shaped structures which are mutually spaced, and the service equipment is respectively in independent communication connection with each independent display module; and the service equipment can adjust the actual output of any independent display module according to the expansion diagram of the three-dimensional model and the actual screen resolution of any independent display module. Therefore, by implementing the embodiment of the invention, the output of the display modules with a large number of digital art landscape devices does not need to be manually adjusted by engineering personnel on site, so that the time consumption for adjusting the independent display modules with a large number can be shortened, and the output efficiency of the independent display modules can be improved. In addition, the embodiment of the invention can carry out accurate positioning and realize point-to-point adjustment, and the pixel is taken as a reference adjustment unit; the central axis is taken as a reference point, and the debugging is carried out at a plurality of angles simultaneously, so that the online operation of a plurality of people can be supported. In addition, the embodiment of the invention can provide a more convenient and effective information sharing way to achieve the effect of gathering the popularity, thereby being beneficial to building a smart city.

Drawings

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

FIG. 1 is a flow chart of an independent display module output method of a digital art landscape apparatus according to an embodiment of the present invention;

FIG. 2 is an expanded view of a three-dimensional model of a plurality of 360-degree ring-shaped display module layers included in the digital art landscape apparatus according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a service device disclosed in the embodiment of the present invention;

fig. 4 is a network architecture diagram of a service device establishing independent communication connections with each independent display module according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another service device disclosed in the embodiment of the present invention.

Detailed Description

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

It should be noted that the terms "comprises" and "comprising," and any variations thereof, of embodiments of the present invention are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The embodiment of the invention discloses an independent display module output method and service equipment of a digital art landscape device, which can shorten the adjustment time consumption of a plurality of independent display modules and improve the output efficiency of the independent display modules. The following detailed description is made with reference to the accompanying drawings.

Example one

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating an independent display module output method of a digital art landscape apparatus according to an embodiment of the present invention. In the independent display module output method of the digital art landscape apparatus depicted in fig. 1, the digital art landscape apparatus may include a plurality of display module layers of 360-degree ring structures disposed at intervals along the same vertical axis, wherein each display module layer is divided into a plurality of independent display modules of special-shaped structures spaced from each other, and the service device establishes independent communication connection with each independent display module, respectively. In the embodiment of the present invention, the digital art landscape device may include a digital art landscape tree, an intelligent landscape tower, an intelligent interaction tower, etc. located in a public place.

As shown in fig. 1, the independent display module output method of the digital art landscape apparatus may include the steps of:

101. the service equipment acquires the expanded images of the three-dimensional models of the display module layers with the 360-degree annular structures, and acquires the actual screen resolution of each independent display module from the expanded images of the three-dimensional models.

In the embodiment of the present invention, the developed view of the three-dimensional model of the plurality of display module layers with 360-degree ring structures included in the digital art landscape apparatus may be as shown in fig. 2, that is, the digital art landscape apparatus may include a plurality of display module layers (such as LED display module layers) with 360-degree ring structures that are distributed at intervals along the same vertical axis, wherein the radii of the display screen layers with 360-degree ring structures decrease progressively from top to bottom, and each display screen block with 360-degree ring structures is formed by a plurality of independent display modules (such as independent LED display modules) with special-shaped structures at intervals, that is, a certain interval or gap exists between any two independent display modules with special-shaped structures on the same display screen block with 360-degree ring structures.

As an alternative implementation manner, in step 101, the manner that the service device obtains the expansion diagrams of the three-dimensional models of the plurality of display module layers with 360-degree ring structures may include:

the service equipment can detect data content uploaded by engineering debugging personnel through the debugging equipment, and the data content can contain expanded diagrams of three-dimensional models of a plurality of 360-degree annular structure display module layers included in the digital artistic landscape device;

accordingly, the service device may acquire an expanded view of the three-dimensional model of the plurality of 360-degree annular-structured display module layers included in the digital art landscape apparatus from the data content described above.

In the embodiment of the invention, the digital art landscape device can be provided with a fingerprint acquisition module, the digital art landscape device can acquire the fingerprint image of the engineering debugging personnel through the fingerprint acquisition module and transmit the fingerprint image of the engineering debugging personnel to the service equipment, the service equipment can check whether the fingerprint image of the engineering debugging personnel is matched with the fingerprint image of the registered engineering personnel corresponding to the digital art landscape device, if the fingerprint image of the engineering debugging personnel is matched with the fingerprint image of the registered engineering personnel, the service equipment can generate a coded image (such as a two-dimensional code) comprising an access address of an engineering personnel interaction interface provided by the service equipment and send the coded image (such as the two-dimensional code) to the digital art landscape device for display, correspondingly, the engineering debugging personnel can scan the coded image (such as the two-dimensional code) displayed by the digital art landscape device by utilizing the debugging equipment to obtain the access address of the engineering personnel interaction interface provided by the service equipment and access the engineering And the data content of the development diagram of the three-dimensional model of the display module layer with a plurality of 360-degree annular structures included in the digital artistic landscape device can be imported into the engineering personnel interactive interface provided by the service equipment displayed by the debugging equipment by engineering debugging personnel, and after the data content is imported, the debugging equipment can be controlled to send the imported data content to the service equipment, so that the service equipment can detect the data content uploaded by the engineering debugging personnel through the debugging equipment. By implementing the implementation mode, the communication link between the debugging equipment and the service equipment can be safely and quickly established, so that the data content can be safely and quickly uploaded to the service equipment, and the safety and the rapidness of data output are improved.

In the embodiment of the present invention, a manner for an engineering debugger to import, on an engineering human interaction interface provided by service equipment displayed by the debugging equipment, data content of an expansion diagram of a three-dimensional model of a display module layer including a plurality of 360-degree ring structures included in the digital art landscape apparatus may be:

the engineering debugging personnel click an import button provided by an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment to trigger the debugging equipment to pop up an engineering personnel selection interface, wherein the engineering personnel selection interface comprises a local option and a remote option; if the debugging equipment detects the clicking operation of the engineering debugging personnel on the local option included in the engineering personnel selection interface, the debugging equipment outputs the expansion diagram of the three-dimensional model of the display module layer with a plurality of 360-degree annular structures included in each digital art landscape device which is stored in advance by default; the debugging equipment can detect the expansion diagram of the three-dimensional model of the display module layers with the 360-degree annular structures in one digital artistic landscape device selected by engineering debugging personnel; and, the commissioning device may send the instant location of the commissioning device and the query message to the remote monitoring platform, the inquiry message is used for inquiring whether the remote monitoring platform allows to introduce an expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in a certain digital art landscape device selected by engineering debugging personnel on an engineering personnel interaction interface provided by the service equipment, the remote monitoring platform can distinguish whether the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the certain digital art landscape device selected by the engineering debugging personnel is consistent with the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the digital art landscape device which is pre-stored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, and if so, the remote monitoring platform can feed back an agreement response message to the debugging equipment; when the debugging equipment detects an agreement response message fed back by the remote monitoring platform, the debugging equipment can lead the data content of the expansion diagram of the three-dimensional model of the plurality of 360-degree annular structure display module layers included in a certain digital artistic landscape device selected by engineering debugging personnel into an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment. On the contrary, if the remote monitoring platform distinguishes that the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in one digital art landscape device selected by the engineering debugging personnel is different from the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in the digital art landscape device which is pre-stored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, the remote monitoring platform can distinguish the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment, and the remote monitoring platform can feed back the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment to the debugging equipment, and correspondingly, the debugging equipment can enable the digital art device including the digital landscape device corresponding to the instant position of the debugging equipment to include And importing the data content of the expansion diagram of the three-dimensional model of the display module layers with the 360-degree annular structures into an engineering personnel interactive interface provided by service equipment displayed by the debugging equipment. The implementation mode can remotely monitor and distinguish the development diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures on one digital art landscape device on the engineering personnel interaction interface provided by the import service device, and prevents the development diagrams of the three-dimensional models of the import service device of engineering debugging personnel from being mismatched with the display module layers with the 360-degree annular structures on the digital art landscape device, so that the output of the independent display modules of the digital art landscape device is influenced.

Or, if the debugging device detects the clicking operation of the engineering debugging personnel on the remote option included in the engineering personnel selection interface, the debugging device can directly send the instant position of the debugging device to the remote monitoring platform, the remote monitoring platform can distinguish the development picture of the three-dimensional model of the display module layers of a plurality of 360-degree annular structures which are included in the digital art landscape device corresponding to the instant position of the debugging equipment, and the remote monitoring platform can feed back the development diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital art landscape device corresponding to the instant position of the debugging equipment, to the debugging equipment, and accordingly, the debugging equipment can lead the data content of the development diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital art landscape device corresponding to the instant position of the debugging equipment, into an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment. The implementation mode can remotely lead the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures included in a certain digital art landscape device to an engineering personnel interactive interface provided by the service equipment, and the engineering debugging personnel can be saved from selecting the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures included in the digital art landscape device by themselves and leading the expansion diagrams to the interactive interface provided by the service equipment displayed by the debugging equipment, so that the requirement on the technical threshold of the engineering debugging personnel can be reduced.

As an optional implementation manner, the data content may further include identity information of an engineering debugger, and accordingly, before the service device obtains an expanded view of the three-dimensional model of the display module layer of the plurality of 360-degree ring structures included in the digital art landscape apparatus from the data content, the service device may further perform the following operations:

the service equipment can check whether the identity information of the engineering debugging personnel included in the data content belongs to the identity information of legal debugging personnel pre-stored by the service equipment, and if the identity information belongs to the legal debugging personnel, the service equipment can obtain the development drawing of the three-dimensional model of the display module layers of the plurality of 360-degree annular structures included in the digital artistic landscape device from the data content.

As an optional implementation manner, the data content may further include identification information of the digital art landscape device, and accordingly, after the service device verifies that the identity information of the engineering debugger included in the data content belongs to the identity information of the legal debugger stored in the service device in advance, the service device may further perform the following operations:

the service device can identify whether the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service device, and if so, the service device can obtain the development drawing of the three-dimensional model of the plurality of display module layers with 360-degree annular structures included in the digital art landscape device from the data content.

102. And the service equipment adjusts the actual output of any independent display module according to the expansion diagram of the three-dimensional model and the actual screen resolution of any independent display module.

As an optional implementation manner, in step 102, the manner that the service device adjusts the actual output of any independent display module according to the expanded view of the three-dimensional model and the actual screen resolution of any independent display module may be:

the service equipment detects an image uploading request initiated by user equipment;

the service equipment issues the development images of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital artistic landscape device, to the user equipment so as to respond to the information uploading request;

the service equipment detects an image to be output initiated by the user equipment and any independent display module selected by a user from an expansion diagram of the three-dimensional model;

and the service equipment calculates whether the resolution of the image to be output is matched with the actual screen resolution of any independent display module, and if not, the resolution of the image to be output is adjusted to be matched with the actual screen resolution of any independent display module and then is output to any independent display module.

As an optional implementation manner, the manner in which the service device detects the image upload request initiated by the user equipment may specifically be:

the digital art landscape device can sense whether audience users exist around through sensing equipment (such as an infrared sensor, a ground surface pressure sensor and the like) arranged around the digital art landscape device, if the audience users exist, the digital art landscape device can request the service equipment for generating a two-dimensional code comprising an access address of a random user interaction interface provided by the service equipment, and the digital art landscape device can display the two-dimensional code comprising the access address of the random user interaction interface provided by the service equipment; accordingly, the audience user can scan the two-dimensional code displayed by the digital art landscape device by using user equipment (such as a mobile phone) to obtain an access address of the random user interaction interface provided by the service equipment and access the access address of the random user interaction interface provided by the service equipment according to the access address, and further, the audience user can initiate an image uploading request to the service equipment through the random user interaction interface provided by the service equipment displayed by the user equipment.

Correspondingly, the service equipment can issue the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures included in the digital artistic landscape device to a random user interaction interface provided by the service equipment displayed by the user equipment for display so as to respond to the information uploading request;

furthermore, the audience user can import the image to be output on a random user interaction interface provided by the service equipment displayed by the user equipment, and any independent display module is selected from the expansion diagram of the three-dimensional model; correspondingly, the user equipment can send the imported image to be output and any independent display module selected by the user from the expansion diagram of the three-dimensional model to the service equipment;

the service equipment can carry out validity check on the image to be output initiated by the user equipment, after the validity check is passed, whether the resolution of the image to be output is matched with the actual screen resolution of any independent display module or not is calculated, and if the resolution of the image to be output is not matched with the actual screen resolution of any independent display module, the resolution of the image to be output is adjusted to be matched with the actual screen resolution of any independent display module and then is output to any independent display module.

By implementing the implementation mode, a more convenient and more effective information sharing way can be provided for audience users so as to achieve the effect of gathering people, thereby being beneficial to building a smart city.

As an optional implementation manner, the manner in which the user device sends the imported image to be output and any independent display module selected by the user from the expanded view of the three-dimensional model to the service device may be:

the user equipment can scan whether an access node is preset in the surrounding environment or not, if the access node is preset, whether the access node is configured with an open access time period or not is detected, and if the access node is configured with the open access time period, whether the current system time of the user equipment is located in the open access time period configured by the access node or not is identified;

if the current system time of the user equipment is located in the configured open access period of the access node, detecting whether the number of the currently accessed terminals of the access node exceeds the maximum terminal access number specified by the access node;

if the number of the currently accessed terminals of the access node does not exceed the maximum terminal access number specified by the access node, the user equipment establishes wireless connection with the access node, sends the imported image to be output and any independent display module selected by the user from the development image of the three-dimensional model to the access node, and sends the imported image to be output and any independent display module selected by the user from the development image of the three-dimensional model to the service equipment by the access node.

In the embodiment of the invention, the access node sends the imported image to be output and any independent display module selected by the user from the expanded view of the three-dimensional model to the service equipment, so that the large power consumption caused by the direct data transmission between the user equipment and the service equipment can be avoided.

Therefore, by implementing the method described in fig. 1, it is not necessary for an engineer to manually adjust the output of the display modules with a large number of digital art landscape devices on site, so that the adjustment time consumption of the independent display modules with a large number can be shortened, and the output efficiency of the independent display modules can be improved. In addition, the method described in fig. 1 can be implemented to perform accurate positioning and realize point-to-point adjustment, and pixels are used as reference adjustment units; the central axis is taken as a reference point, and the debugging is carried out at a plurality of angles simultaneously, so that the online operation of a plurality of people can be supported. In addition, the implementation of the method described in fig. 1 can provide a more convenient and effective way for information sharing to achieve the effect of gathering people, thereby facilitating the construction of smart cities.

Example two

Referring to fig. 3, fig. 3 is a schematic structural diagram of a service device according to an embodiment of the present invention. In the application scenario of the service device shown in fig. 3, the digital art landscape may include a plurality of 360-degree annular display module layers distributed at intervals along the same vertical axis, and each display module layer may be divided into a plurality of separate display modules with special-shaped structures spaced from each other. Further, as shown in fig. 4, the service device shown in fig. 3 establishes independent communication connections with each of the independent display modules (e.g., a 1-F4). As shown in fig. 3, the service apparatus includes:

a first acquiring unit 301 configured to acquire expanded views of three-dimensional models of a plurality of 360-degree annular structure display module layers;

a second obtaining unit 302, configured to obtain an actual screen resolution of each individual display module from the expanded view of the three-dimensional model;

an adjusting unit 303, configured to adjust an actual output of any independent display module according to the expanded view of the three-dimensional model and an actual screen resolution of the independent display module.

It can be seen that, by implementing the service device described in fig. 3, it is not necessary for an engineer to manually adjust the output of the display modules with a large number of digital art landscape devices on site, so that the adjustment time of the independent display modules with a large number can be shortened, and the output efficiency of the independent display modules can be improved. In addition, the implementation of the service device described in fig. 3 can provide a more convenient and effective way for information sharing, so as to achieve the effect of gathering people, thereby being beneficial to building a smart city.

EXAMPLE III

Referring to fig. 5, fig. 5 is a schematic structural diagram of another service device according to an embodiment of the disclosure. The service device shown in fig. 5 is optimized by the service device shown in fig. 3. In the service apparatus shown in fig. 5, the first obtaining unit 301 may include:

the first detection subunit 3011 is configured to detect data content uploaded by an engineering debugging worker through the debugging device, where the data content includes an expanded view of a three-dimensional model of a plurality of display module layers with 360-degree annular structures included in the digital art landscape apparatus;

an acquiring subunit 3012, configured to acquire, from the data content, an expanded view of the three-dimensional model of the plurality of 360-degree ring-shaped display module layers included in the digital art landscape apparatus.

In the embodiment of the invention, the digital art landscape device can be provided with a fingerprint acquisition module, the digital art landscape device can acquire the fingerprint image of the engineering debugging personnel through the fingerprint acquisition module and transmit the fingerprint image of the engineering debugging personnel to the service equipment, the first detection subunit 3011 can check whether the fingerprint image of the engineering debugging personnel is matched with the fingerprint image of the registered engineering personnel corresponding to the digital art landscape device, if the fingerprint image of the engineering debugging personnel is matched with the fingerprint image of the registered engineering personnel, the first detection subunit 3011 can generate a coded image (such as a two-dimensional code) comprising the access address of the engineering personnel interaction interface provided by the service equipment and send the coded image (such as the two-dimensional code) to the digital art landscape device for display, correspondingly, the engineering debugging personnel can scan the coded image (such as the two-dimensional code) displayed by the digital art landscape device by using the debugging equipment to obtain the access address of the interaction interface provided by the service equipment and access (e.g., HTML5 interactive interface), further, the engineering debugger may import the data content of the development of the three-dimensional model of the display module layer including the plurality of 360-degree ring structures in the digital art landscape apparatus into the interactive interface provided by the service device displayed by the debugging device, and after the data content is completely imported, the debugging device may be controlled to transmit the imported data content to the service device, so that the first detecting subunit 3011 may detect the data content uploaded by the engineering debugger through the debugging device. By implementing the implementation mode, the communication link between the debugging equipment and the service equipment can be safely and quickly established, so that the data content can be safely and quickly uploaded to the service equipment, and the safety and the rapidness of data output are improved.

In the embodiment of the present invention, a manner for an engineering debugger to import, on an engineering human interaction interface provided by service equipment displayed by the debugging equipment, data content of an expansion diagram of a three-dimensional model of a display module layer including a plurality of 360-degree ring structures included in the digital art landscape apparatus may be:

the engineering debugging personnel click an import button provided by an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment to trigger the debugging equipment to pop up an engineering personnel selection interface, wherein the engineering personnel selection interface comprises a local option and a remote option; if the debugging equipment detects the clicking operation of the engineering debugging personnel on the local option included in the engineering personnel selection interface, the debugging equipment outputs the expansion diagram of the three-dimensional model of the display module layer with a plurality of 360-degree annular structures included in each digital art landscape device which is stored in advance by default; the debugging equipment can detect the expansion diagram of the three-dimensional model of the display module layers with the 360-degree annular structures in one digital artistic landscape device selected by engineering debugging personnel; and, the commissioning device may send the instant location of the commissioning device and the query message to the remote monitoring platform, the inquiry message is used for inquiring whether the remote monitoring platform allows to introduce an expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in a certain digital art landscape device selected by engineering debugging personnel on an engineering personnel interaction interface provided by the service equipment, the remote monitoring platform can distinguish whether the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the certain digital art landscape device selected by the engineering debugging personnel is consistent with the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the digital art landscape device which is pre-stored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, and if so, the remote monitoring platform can feed back an agreement response message to the debugging equipment; when the debugging equipment detects an agreement response message fed back by the remote monitoring platform, the debugging equipment can lead the data content of the expansion diagram of the three-dimensional model of the plurality of 360-degree annular structure display module layers included in a certain digital artistic landscape device selected by engineering debugging personnel into an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment. On the contrary, if the remote monitoring platform distinguishes that the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in one digital art landscape device selected by the engineering debugging personnel is different from the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in the digital art landscape device which is pre-stored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, the remote monitoring platform can distinguish the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment, and the remote monitoring platform can feed back the expansion diagram of the three-dimensional model of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment to the debugging equipment, and correspondingly, the debugging equipment can enable the digital art device including the digital landscape device corresponding to the instant position of the debugging equipment to include And importing the data content of the expansion diagram of the three-dimensional model of the display module layers with the 360-degree annular structures into an engineering personnel interactive interface provided by service equipment displayed by the debugging equipment. The implementation mode can remotely monitor and distinguish the development diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures on one digital art landscape device on the engineering personnel interaction interface provided by the import service device, and prevents the development diagrams of the three-dimensional models of the import service device of engineering debugging personnel from being mismatched with the display module layers with the 360-degree annular structures on the digital art landscape device, so that the output of the independent display modules of the digital art landscape device is influenced.

Or, if the debugging device detects the clicking operation of the engineering debugging personnel on the remote option included in the engineering personnel selection interface, the debugging device can directly send the instant position of the debugging device to the remote monitoring platform, the remote monitoring platform can distinguish the development picture of the three-dimensional model of the display module layers of a plurality of 360-degree annular structures which are included in the digital art landscape device corresponding to the instant position of the debugging equipment, and the remote monitoring platform can feed back the development diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital art landscape device corresponding to the instant position of the debugging equipment, to the debugging equipment, and accordingly, the debugging equipment can lead the data content of the development diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital art landscape device corresponding to the instant position of the debugging equipment, into an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment. The implementation mode can remotely lead the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures included in a certain digital art landscape device to an engineering personnel interactive interface provided by the service equipment, and the engineering debugging personnel can be saved from selecting the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree annular structures included in the digital art landscape device by themselves and leading the expansion diagrams to the interactive interface provided by the service equipment displayed by the debugging equipment, so that the requirement on the technical threshold of the engineering debugging personnel can be reduced.

As an optional implementation manner, the data content further includes identity information of engineering debugging personnel, and accordingly, in the service device shown in fig. 5, the first obtaining unit 301 may further include:

a checking subunit 3013, configured to check whether the identity information of the engineering debugger included in the data content belongs to identity information of a legal debugger stored in the service device in advance;

accordingly, the obtaining subunit 3012 is configured to obtain, from the data content, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree ring structure included in the digital art landscape apparatus when the verification result of the verifying subunit 3013 is "belonging".

As an alternative embodiment, the data content further includes identification information of the digital art landscape device, and accordingly, in the service apparatus shown in fig. 5, the first obtaining unit 301 may further include:

the identifying subunit 3014 is configured to, after the verifying subunit 3013 verifies that the identity information of the engineering debugger included in the data content belongs to the identity information of the legal debugger pre-stored in the service device, identify whether the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured in the service device;

accordingly, the obtaining sub-unit 3012 is specifically configured to obtain, from the data content, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree ring structure included in the digital art landscape apparatus when the verification result of the verifying sub-unit 3013 is "belonging" and when the identifying sub-unit 3014 identifies that the identification information of the digital art landscape apparatus included in the data content belongs to the identification information of the digital art landscape apparatus of which the service device is pre-configured.

As an alternative implementation, in the service apparatus shown in fig. 5, the adjusting unit 303 includes:

a second detecting subunit 3031, configured to detect an image upload request initiated by the user equipment;

a transmitting subunit 3032, configured to send, to the user equipment, the developed view of the three-dimensional model of the display module layers of the multiple 360-degree annular structures included in the digital art landscape apparatus, so as to respond to the information uploading request;

correspondingly, the second detecting subunit 3031 is further configured to detect an image to be output initiated by the user equipment and any one of the independent display modules selected by the user from the expanded view of the three-dimensional model;

a calculating subunit 3033, configured to calculate whether the resolution of the image to be output matches with the actual screen resolution of any of the independent display modules;

and the adjusting subunit 3034 is configured to, when the resolution of the image to be output calculated by the calculating subunit 3033 is not matched with the actual screen resolution of any one of the independent display modules, adjust the resolution of the image to be output to be matched with the actual screen resolution of any one of the independent display modules and then output the image to any one of the independent display modules.

As an optional implementation manner, the manner of detecting, by the second detecting subunit 3031, the image upload request initiated by the user equipment may specifically be:

the digital art landscape device can sense whether audience users exist around through sensing equipment (such as an infrared sensor, a ground surface pressure sensor and the like) arranged around the digital art landscape device, if the audience users exist, the digital art landscape device can request the service equipment for generating a two-dimensional code comprising an access address of a random user interaction interface provided by the service equipment, and the digital art landscape device can display the two-dimensional code comprising the access address of the random user interaction interface provided by the service equipment; accordingly, the audience user may scan the two-dimensional code displayed by the digital art landscape apparatus by using a user device (e.g., a mobile phone) to obtain an access address of the random user interaction interface provided by the service device and access the access address of the random user interaction interface provided by the service device according to the access address, and further, the audience user may initiate an image upload request to the service device through the random user interaction interface provided by the service device displayed by the user device, so that the second detecting subunit 3031 may detect the image upload request initiated by the user device;

correspondingly, the sending sub-unit 3032 may issue the development diagrams of the three-dimensional models of the plurality of display module layers with 360-degree annular structures included in the digital art landscape apparatus to a random user interaction interface provided by the service device displayed by the user device for display, so as to respond to the information uploading request;

furthermore, the audience user can import the image to be output on a random user interaction interface provided by the service equipment displayed by the user equipment, and any independent display module is selected from the expansion diagram of the three-dimensional model; accordingly, the user equipment may send the imported image to be output and any independent display module selected by the user from the expanded view of the three-dimensional model to the service equipment, so that the second detecting subunit 3031 may detect the image to be output initiated by the user equipment and any independent display module selected by the user from the expanded view of the three-dimensional model;

the calculating subunit 3033 may perform validity check on the image to be output initiated by the user equipment, calculate whether the resolution of the image to be output matches with the actual screen resolution of any of the independent display modules after the validity check passes, and if not, adjust the resolution of the image to be output to match with the actual screen resolution of any of the independent display modules and then output the image to any of the independent display modules.

By implementing the implementation mode, a more convenient and more effective information sharing way can be provided for audience users so as to achieve the effect of gathering people, thereby being beneficial to building a smart city.

It can be seen that, by implementing the service device described in fig. 5, it is not necessary for an engineer to manually adjust the output of the display modules with a large number of digital art landscape devices on site, so that the adjustment time of the independent display modules with a large number can be shortened, and the output efficiency of the independent display modules can be improved. In addition, the service device described in fig. 5 can perform accurate positioning and realize point-to-point adjustment, and pixels are used as reference adjustment units; the central axis is taken as a reference point, and the debugging is carried out at a plurality of angles simultaneously, so that the online operation of a plurality of people can be supported. In addition, the implementation of the service device described in fig. 5 can provide a more convenient and effective way for information sharing, so as to achieve the effect of gathering people, thereby being beneficial to building a smart city.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by instructions associated with a program, which may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), compact disc-Read-Only Memory (CD-ROM), or other Memory, magnetic disk, magnetic tape, or magnetic tape, Or any other medium which can be used to carry or store data and which can be read by a computer.

The above detailed description is made on the independent display module output method and the service device of the digital art landscape device disclosed in the embodiment of the present invention, and a specific example is applied in the text to explain the principle and the implementation mode of the present invention, and the description of the above embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (8)

1. The independent display module output method of the digital artistic landscape device is characterized in that the digital artistic landscape device comprises a plurality of display module layers with 360-degree annular structures which are distributed along the same vertical axis at intervals, each display module layer is divided into a plurality of independent display modules with special-shaped structures which are mutually spaced, service equipment is respectively connected with each independent display module in an independent communication mode, and the method comprises the following steps:

the service equipment acquires the expanded view of the three-dimensional model of the display module layers with the 360-degree annular structures, and acquires the actual screen resolution of each independent display module from the expanded view of the three-dimensional model;

the service equipment adjusts the actual output of any independent display module according to the expansion diagram of the three-dimensional model and the actual screen resolution of any independent display module;

the method for acquiring the expansion diagram of the three-dimensional model of the plurality of display module layers with the 360-degree annular structures by the service equipment comprises the following steps:

the service equipment detects data content uploaded by engineering debugging personnel through the debugging equipment, wherein the data content comprises an expanded view of a three-dimensional model of the plurality of display module layers with 360-degree annular structures, which are included in the digital artistic landscape device;

the service equipment acquires an expanded view of a three-dimensional model of the plurality of display module layers with 360-degree annular structures from the data content;

wherein the digital art landscape device is provided with a fingerprint acquisition module, acquires the fingerprint image of the engineering debugging personnel through the fingerprint acquisition module and transmits the fingerprint image of the engineering debugging personnel to the service equipment, and the service equipment checks whether the fingerprint image of the engineering debugging person matches with the fingerprint image of the registered engineering person corresponding to the digital art landscape device, if the access addresses are matched, the service equipment generates a coded image comprising the access address of the engineering personnel interactive interface provided by the service equipment and issues the coded image to the digital art landscape device for display, correspondingly, the engineering debugging personnel scans the coded image displayed by the digital art landscape device by utilizing the debugging equipment to obtain the access address of the engineering personnel interactive interface provided by the service equipment and accesses the engineering personnel interactive interface provided by the service equipment according to the access address; further, the engineering debugging personnel introduces data content of an expansion diagram of a three-dimensional model of a plurality of 360-degree annular structure display module layers included in the digital artistic landscape device into an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment, and after the introduction of the data content is finished, the debugging equipment is controlled to send the introduced data content to the service equipment, so that the service equipment detects the data content uploaded by the engineering debugging personnel through the debugging equipment;

the method for importing the data content of the expansion diagram of the three-dimensional model of the display module layer comprising a plurality of 360-degree annular structures included in the digital artistic landscape device into the engineering personnel interactive interface provided by the service equipment displayed by the debugging equipment by the engineering debugging personnel comprises the following steps:

the engineering debugging personnel click an import button provided by an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment to trigger the debugging equipment to pop up an engineering personnel selection interface, wherein the engineering personnel selection interface comprises a local option and a remote option; if the debugging equipment detects the clicking operation of the engineering debugging personnel on the local option included in the engineering personnel selection interface, the debugging equipment outputs the expansion diagram of the three-dimensional model of the display module layer with a plurality of 360-degree annular structures included in each digital art landscape device which is stored in advance by default; the debugging equipment detects the development diagram of the three-dimensional model of a plurality of 360-degree annular structure display module layers included in a certain digital art landscape device selected by engineering debugging personnel; and the debugging equipment sends the instant position of the debugging equipment and the inquiry message to the remote monitoring platform, the inquiry message is used for inquiring whether the remote monitoring platform allows to introduce an expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in a certain digital art landscape device selected by engineering debugging personnel on an engineering personnel interaction interface provided by the service equipment, the remote monitoring platform identifies whether the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the certain digital art landscape device selected by the engineering debugging personnel is consistent with the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the digital art landscape device which is prestored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, and if the expansion diagram is consistent, the remote monitoring platform feeds back an agreement response message to the debugging equipment; when the debugging equipment detects an agreement response message fed back by the remote monitoring platform, the debugging equipment leads data content of an expansion diagram of a three-dimensional model of a plurality of 360-degree annular structure display module layers included in a certain digital art landscape device selected by engineering debugging personnel into an engineering personnel interaction interface provided by service equipment displayed by the debugging equipment; on the contrary, if the remote monitoring platform distinguishes that the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in one digital art landscape device selected by the engineering debugging personnel are different from the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in the digital art landscape device which is pre-stored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, the remote monitoring platform distinguishes the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment, and the remote monitoring platform feeds back the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment to the debugging equipment, and correspondingly, the debugging equipment comprises the expansion diagrams of the three-dimensional models of the plurality of the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the And importing the data content of the expansion diagram of the three-dimensional model of the structural display module layer into an engineering personnel interactive interface provided by the service equipment displayed by the debugging equipment.

2. The method for outputting the independent display module of the digital art landscape apparatus as claimed in claim 1, wherein the data content further comprises identity information of the engineer debugging personnel, and before the service device obtains the development view of the three-dimensional model of the plurality of display module layers of the 360-degree ring structure included in the digital art landscape apparatus from the data content, the method further comprises:

the service equipment checks whether the identity information of the engineering debugging personnel included in the data content belongs to the identity information of legal debugging personnel pre-stored by the service equipment, and if the identity information belongs to the legal debugging personnel, the expansion drawing of the three-dimensional model of the plurality of 360-degree annular structure display module layers included in the digital artistic landscape device is obtained from the data content.

3. The independent display module output method of the digital artistic landscape apparatus according to claim 2, wherein the data content further includes identification information of the digital artistic landscape apparatus, and after the service device verifies that the identity information of the engineering debugger included in the data content belongs to the identity information of the legal debugger stored in advance by the service device, the method further includes:

the service equipment identifies whether the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service equipment, and if so, the expansion drawing of the three-dimensional model of the plurality of display module layers with 360-degree annular structures included in the digital art landscape device is acquired from the data content.

4. The independent display module output method of the digital art landscape apparatus according to any one of claims 1 to 3, wherein the service device adjusts the actual output of any independent display module according to the development of the three-dimensional model and the actual screen resolution of any independent display module, and comprises:

the service equipment detects an image uploading request initiated by user equipment;

the service equipment issues the development images of the three-dimensional models of the display module layers with the 360-degree annular structures, which are included in the digital artistic landscape device, to the user equipment so as to respond to the image uploading request;

the service equipment detects an image to be output initiated by the user equipment and any independent display module selected by a user from an expansion diagram of the three-dimensional model;

and the service equipment calculates whether the resolution of the image to be output is matched with the actual screen resolution of any independent display module, and if not, the resolution of the image to be output is adjusted to be matched with the actual screen resolution of any independent display module and then is output to any independent display module.

5. The utility model provides a service equipment, its characterized in that, digital artistic landscape device includes the display module layer of a plurality of 360 degrees cyclic structures that set up along same vertical axis interval distribution, each the display module layer divides into the independent display module of a plurality of dysmorphism structure of mutual interval, service equipment respectively with each independent display module establishes independent communication connection, service equipment includes:

a first acquiring unit configured to acquire an expanded view of a three-dimensional model of the plurality of 360-degree annular structure display module layers;

the second acquisition unit is used for acquiring the actual screen resolution of each independent display module from the expansion image of the three-dimensional model;

the adjusting unit is used for adjusting the actual output of any independent display module according to the expanded image of the three-dimensional model and the actual screen resolution of any independent display module;

the first acquisition unit includes:

the first detection subunit is used for detecting data content uploaded by engineering debugging personnel through debugging equipment, wherein the data content comprises an expanded view of a three-dimensional model of the plurality of display module layers with 360-degree annular structures, which are included in the digital artistic landscape device;

an acquiring subunit, configured to acquire, from the data content, an expanded view of a three-dimensional model of the plurality of display module layers of the 360-degree ring structures included in the digital art landscape apparatus;

wherein the digital art landscape device is provided with a fingerprint acquisition module, acquires the fingerprint image of the engineering debugging personnel through the fingerprint acquisition module and transmits the fingerprint image of the engineering debugging personnel to the service equipment, and the service equipment checks whether the fingerprint image of the engineering debugging person matches with the fingerprint image of the registered engineering person corresponding to the digital art landscape device, if the access addresses are matched, the service equipment generates a coded image comprising the access address of the engineering personnel interactive interface provided by the service equipment and issues the coded image to the digital art landscape device for display, correspondingly, the engineering debugging personnel scans the coded image displayed by the digital art landscape device by utilizing the debugging equipment to obtain the access address of the engineering personnel interactive interface provided by the service equipment and accesses the engineering personnel interactive interface provided by the service equipment according to the access address; further, the engineering debugging personnel introduces data content of an expansion diagram of a three-dimensional model of a plurality of 360-degree annular structure display module layers included in the digital artistic landscape device into an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment, and after the introduction of the data content is finished, the debugging equipment is controlled to send the introduced data content to the service equipment, so that the service equipment detects the data content uploaded by the engineering debugging personnel through the debugging equipment;

the method for importing the data content of the expansion diagram of the three-dimensional model of the display module layer comprising a plurality of 360-degree annular structures included in the digital artistic landscape device into the engineering personnel interactive interface provided by the service equipment displayed by the debugging equipment by the engineering debugging personnel comprises the following steps:

the engineering debugging personnel click an import button provided by an engineering personnel interaction interface provided by the service equipment displayed by the debugging equipment to trigger the debugging equipment to pop up an engineering personnel selection interface, wherein the engineering personnel selection interface comprises a local option and a remote option; if the debugging equipment detects the clicking operation of the engineering debugging personnel on the local option included in the engineering personnel selection interface, the debugging equipment outputs the expansion diagram of the three-dimensional model of the display module layer with a plurality of 360-degree annular structures included in each digital art landscape device which is stored in advance by default; the debugging equipment detects the development diagram of the three-dimensional model of a plurality of 360-degree annular structure display module layers included in a certain digital art landscape device selected by engineering debugging personnel; and the debugging equipment sends the instant position of the debugging equipment and the inquiry message to the remote monitoring platform, the inquiry message is used for inquiring whether the remote monitoring platform allows to introduce an expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in a certain digital art landscape device selected by engineering debugging personnel on an engineering personnel interaction interface provided by the service equipment, the remote monitoring platform identifies whether the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the certain digital art landscape device selected by the engineering debugging personnel is consistent with the expansion diagram of the three-dimensional model of the display module layer with the 360-degree annular structure included in the digital art landscape device which is prestored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, and if the expansion diagram is consistent, the remote monitoring platform feeds back an agreement response message to the debugging equipment; when the debugging equipment detects an agreement response message fed back by the remote monitoring platform, the debugging equipment leads data content of an expansion diagram of a three-dimensional model of a plurality of 360-degree annular structure display module layers included in a certain digital art landscape device selected by engineering debugging personnel into an engineering personnel interaction interface provided by service equipment displayed by the debugging equipment; on the contrary, if the remote monitoring platform distinguishes that the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in one digital art landscape device selected by the engineering debugging personnel are different from the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in the digital art landscape device which is pre-stored by the remote monitoring platform and corresponds to the instant position of the debugging equipment, the remote monitoring platform distinguishes the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment, and the remote monitoring platform feeds back the expansion diagrams of the three-dimensional models of the display module layers with the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the debugging equipment to the debugging equipment, and correspondingly, the debugging equipment comprises the expansion diagrams of the three-dimensional models of the plurality of the 360-degree ring structures included in the digital art landscape device corresponding to the instant position of the And importing the data content of the expansion diagram of the three-dimensional model of the structural display module layer into an engineering personnel interactive interface provided by the service equipment displayed by the debugging equipment.

6. The service apparatus according to claim 5, wherein the data content further includes identity information of the engineering commissioning personnel, and the first obtaining unit further includes:

the verifying subunit is used for verifying whether the identity information of the engineering debugging personnel included in the data content belongs to the identity information of legal debugging personnel stored in the service equipment in advance;

the acquiring subunit is configured to acquire, from the data content, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree annular structures included in the digital art landscape apparatus when the verification result of the verifying subunit is that the digital art landscape apparatus belongs to the display module layer.

7. The service apparatus according to claim 6, wherein the data content further includes identification information of the digital art landscape device, and the first acquisition unit further includes:

the identification subunit is configured to identify whether the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service equipment after the verification subunit verifies that the identification information of the engineering debugger included in the data content belongs to the identification information of the legal debugger pre-stored in the service equipment;

the obtaining subunit is specifically configured to, when the verification result of the verifying subunit is that the digital art landscape device belongs to the service equipment, and when the identifying subunit identifies that the identification information of the digital art landscape device included in the data content belongs to the identification information of the digital art landscape device pre-configured by the service equipment, obtain, from the data content, an expanded view of the three-dimensional model of the plurality of display module layers with the 360-degree annular structure included in the digital art landscape device.

8. The service apparatus according to any one of claims 5 to 7, wherein the adjusting unit comprises:

the second detection subunit is used for detecting an image uploading request initiated by the user equipment;

the sending subunit is configured to send the developed image of the three-dimensional model of the display module layers of the multiple 360-degree annular structures included in the digital art landscape apparatus to the user equipment, so as to respond to the image uploading request;

the second detection subunit is further configured to detect an image to be output initiated by the user equipment and any one of the independent display modules selected by the user from the expanded view of the three-dimensional model;

the calculating subunit is used for calculating whether the resolution of the image to be output is matched with the actual screen resolution of any independent display module;

and the adjusting subunit is configured to adjust the resolution of the image to be output to be matched with the actual screen resolution of any independent display module and then output the image to be output to any independent display module when the calculating subunit calculates that the resolution of the image to be output is not matched with the actual screen resolution of any independent display module.

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