CN116739529A - Tree identification and maintenance system and method based on new generation information technology - Google Patents

Abstract

The invention belongs to the field of tree identification and identification, and provides a tree identification and identification system and method based on a new generation information technology, which provide a quickly implemented normalized identification and identification platform for gardens through a SaaS service mode; the universal tree plate is used for two-dimensional code recognition, photographing and collecting pictures and space coordinates, and related trees and Internet of things equipment are supported by artificial intelligence, so that hundreds of trees can be quickly put on shelf and long-term maintenance service can be provided, and full life cycle management is realized. The block chain module is used for providing casting service for part of virtual trees, so that the virtual trees become circulating assets; collecting the general tree plates hung at each supplementary planting point in gardens and putting the general tree plates on the racks to meet the individual tree planting demands of the public; the tree identification record is written into the blockchain memory, the present disclosure is traceable, the tree detail page is displayed according to different identification purposes, the information of the tree, the internet of things, the blockchain record, the identification person customization, the environment and the like is aggregated, the commercial value is provided for the identification person, and the virtual tree use right is activated.

Description

Tree identification and maintenance system and method based on new generation information technology

Technical Field

The invention belongs to the field of tree identification and maintenance, relates to the technical fields of blockchain, digital twin, internet of things, virtualization, cloud computing, artificial intelligence and the like, and particularly relates to a tree identification and maintenance system and method based on a new generation information technology.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

At present, the tree is mainly cultivated in an off-line mode, and the modes of telephone reservation, field handling, bill filling and payment and unified making of a hanging card are carried out before the deadline once every year, so that the management and implementation are complex and complicated, and the cultivation income can not cover the management cost of a curing party.

There are few cities or gardens that provide an on-line recognition mode, and tree information that can be recognized in urban gardens is released, and can be on-line recognized and electronically branded (i.e., not actually branded, only virtual tree brands exist when viewed on-line), and a person to be recognized can not go to gardens, and the flow is simplified but the relationship of the person tree is more light, and is not attractive to the public. Some entity hang-ups are produced after the identity is known, and when the information is changed, the hang-ups need to be produced again, which is tedious and not timely for information update.

For the establishment and identification, the current informatization mode mainly comprises the steps of on-line issuing of tree planting information or on-line donation, especially before and after tree planting knots, a field capable of intensively planting trees is mainly provided in suburban areas, but no platform is used for normalizing and collecting scattered supplementary planting points of each garden.

Whether on-line or off-line, after the identification and payment are determined, the identification person not only obtains a name display on the identification card, but also does not provide more value for the identification person, the identification person cannot obtain real-time data of the tree, the identification person cannot participate in the maintenance deeply, public benefit contribution of the identification person cannot be revealed, and the identification person cannot obtain satisfaction in a social environment.

Meanwhile, the traditional mode is not transparent enough in donation income and fund use, and the problem of donation fund against regulation is easily bred, so that the donation enthusiasm of the caretaker is indirectly influenced.

The right of garden trees belongs to the state or group, the caretaker only obtains the right of using the anchored virtual trees, and the virtual trees can enjoy naming, advertising, medium price, souvenir and other purposes, and the purposes are not yet explored.

In summary, the present tree identification and maintenance system has the following technical problems:

1. the existing garden tree cards need to have tree species names, family and other information, and the identification cards also need to have names of identification persons and the like, and the identification cards need to be counted, summarized, checked one by one and then hung, so that the management and implementation are complex and tedious, and the identification benefits do not apply the management cost; only one registration and transaction is performed each year, and no normalization mechanism is formed.

2. The method has public benefit value for the caretaker, no deep connection exists between the person and the tree, no social attribute exists, and enthusiasm is not durable; the virtual use right of the network space tree cannot be activated, so that resources are idle;

3. the method does not realize digital management, only realizes online registration or payment, but does not realize one tree and one code, and comprehensively manages the life cycle of each tree;

4. the garden tree complementary planting points are not collected, the requirements of the public for planting favorite trees in specific places cannot be met, and on the other hand, a great amount of financial funds are consumed for garden maintenance and complementary planting;

5. revenue and capital usage are not transparent.

Disclosure of Invention

In order to solve at least one technical problem in the background art, a first aspect of the invention provides a tree identification and maintenance system based on a new generation information technology, a simple, feasible and normalized one-stop identification and maintenance platform is provided for gardens in a cloud end, corresponding virtual trees are created in a network space, tree entity and tree association is realized by combining a two-dimensional code tree plate with satellite positioning, disclosure transparency is realized by using a blockchain, packaging and authenticity verification of the virtual trees are realized by using an NFT technology, efficiency is improved by using artificial intelligence, and a tree full life cycle identification and maintenance system is established by using digital twin of the tree.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a tree identification and maintenance system based on a new generation information technology, comprising: the system comprises a data acquisition module, a server, a client and a database;

the data acquisition module is used for acquiring the coding information of the tree plate, the image and video data of the hanging tree or the tree pit and transmitting the coding information of the tree plate, the image and video data of the tree or the tree pit to the server;

the server comprises a tree management module, an artificial intelligent module and a seed and nutrient identifying module;

the artificial intelligence module is used for receiving the image and video data, and identifying and returning tree species information to the tree management module through an artificial intelligence algorithm;

the tree management module is used for creating virtual trees in the network space according to the position information and the tree species information when the tree or tree pit data are acquired, and acquiring real-time tree or tree pit data through the association and binding of codes of the virtual trees and the entity trees or tree pits and through the connection of the Internet of things equipment;

the seed identifying and maintaining module is used for receiving a seed identifying and maintaining operation command of the client, generating a seed identifying and maintaining detail page for the client, carrying out seed identifying and maintaining transaction on the page, writing a database and a blockchain platform for storing while completing the transaction, and updating the seed identifying and maintaining state of the tree.

As one implementation, the system further comprises a tree board making module, and the client comprises an intelligent garden management client;

the tree management module is used for receiving a command of the intelligent garden management client, generating a tree-code tree card code, judging whether the tree-code tree card code is a general tree card according to the code, if yes, sending a general tree card making command to the tree card making module, otherwise, setting a tree card template and sending the making command, generating a making queue by the tree card making module, making the tree card, and storing the code information of the tree card to the database; the intelligent garden management client is further connected with a panoramic camera, a panoramic photo of the tree is shot through the panoramic camera, the intelligent garden management client is automatically synthesized into a panoramic VR mode with a switchable visual angle, and a semi-panoramic view field taking the tree as the center is displayed.

As one implementation, the server further comprises a garden management module, and the client further comprises a recognition mobile client;

the garden management module is used for setting up the price and coupon rules for the trees in batches, judging whether NFT needs to be cast, if so, providing service through the block chain module, carrying out real-name authentication, determining the intelligent contract rules, completing NFT casting in the alliance chain, sending an up instruction, and starting up the maintenance; seed identification is carried out for the planting point upper frame;

the identifying and maintaining module is used for receiving an order of identifying and maintaining the mobile client, judging whether the uploaded information is a tree, if so, judging whether the tree has an NFT, if so, entering a template customizing tool according to the NFT purchased and rented, and if not, entering the template customizing tool after generating a maintaining order to take effect, so as to display the tree detail page of the maintaining mobile client; if the tree is not the tree, generating a seed recognition order, hanging the tree after being planted in a contracted time and mode, and putting the tree on a shelf to provide recognition for the tree.

As an embodiment, the tree management module is further configured to digitally encode all trees and planned and not yet planted planting points, managing the full life cycle of the trees from to be planted, planted and cured.

As an implementation mode, the artificial intelligence module is further used for receiving a recognition application command of the recognition mobile client, recognizing the coded but unhooked tree by comparing the tree photo uploaded by the recognition mobile client with the tree in the position and the database, sending the obtained result to the garden management client for recognition again, then putting the tree on shelf and sending recognition information to the recognition mobile client.

As an implementation manner, the seed recognition and maintenance module is used for receiving a command of recognizing and maintaining the mobile client, firstly judging the type of the mobile client, and automatically entering a corresponding interface according to different types; if the first mode is adopted, automatically entering a program page in the first mode, if the second mode is adopted, entering a tree detail page, and carrying out seed recognition and identification operation on the entered tree detail, and writing into a database and a blockchain platform to carry out verification while completing transaction.

As one implementation mode, the system further comprises a template management module, a green land management and checking module and a maintenance management module;

the template management module is used for customizing and managing the tree detail page module aiming at different purposes;

the green land management and checking module is used for carrying out multistage management on garden green lands, and marking green land polygons on a map so as to realize management on green land identification and maintenance responsibility grouping;

the maintenance management module is used for managing intelligent garden maintenance work, distributing tasks and recording maintenance records, and supporting patrol route planning and patrol track recording.

As an implementation mode, the system further comprises a seed identifying and maintaining client for viewing the identified trees and positions on the map, and the planted positions and tree seed information allowed to be planted.

As an implementation manner, the seed identifying and maintaining client is further used for viewing the detail of the tree to be maintained, including real-time video, data collected through internet of things, real-time weather data and dynamic participation interactions issued by other tree friends.

In order to solve the problems, a second aspect of the present invention provides a tree identification and maintenance method based on a new generation information technology, which provides a simple, easy-to-implement and normalized one-stop identification and maintenance platform for gardeners, and can complete the registration of hundreds of trees from gardens to put on shelves and provide long-term maintenance services in a general tree plate mode and assisted by artificial intelligence support.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

receiving the coding information of the obtained tree plate, the image and video data of the hanging tree or tree pit, and identifying the returned tree species information through an artificial intelligent algorithm;

creating a virtual tree in a network space according to the position information and the tree species information when the tree data are acquired, associating and binding the codes of the virtual tree and the entity tree, and acquiring real-time data of the tree or the tree pit;

and receiving a seed identifying and maintaining operation command, generating a seed identifying and maintaining detail page, carrying out seed identifying and maintaining transaction on the page, writing a database and a blockchain platform to carry out verification while finishing the transaction, and updating the seed identifying and maintaining state of the tree.

The beneficial effects of the invention are as follows:

1. the method adopts the universal tree plate with only the coded two-dimension codes, uses the maintenance client equipment to scan the codes to fill in tree information and take pictures for uploading when the tree plate is hung, establishes the corresponding relation between the codes and the entity tree, collects point position information and picture information, greatly improves the collection and hanging efficiency, and presents rich tree information, carer information, interaction events and the like on the page where the scanned codes enter, and the tree plate two-dimension codes are permanently effective. The tree pit and the tree code are universal, the tree pit is changed into a tree after being planted, and the code is unchanged. After the end of the identification period, the automatic putting on shelf provides new identification service, one tree (or tree hole) is provided with one code, and the tree cards are not bound with tree species and other information, so that the cards can be associated with specific trees through photographing when being put on the shelf, which is the key of quick implementation. After the association is completed, the electronic map is marked for public visual searching. A simple and feasible and normalized construction and maintenance mode is provided for the garden party; the invention can finish the hanging and putting up of hundreds of trees in one day and is effective for a long time.

2. The caretaker takes care of the use right of the virtual tree in the network space, has the privilege of setting the detail page of the tree, and can bring more value to sponsors by activating the use right of the virtual tree, thereby attracting more people to throw body for greening and ecology protection. Each tree is a unique individual, and a plurality of wood old trees have flow and become a new online interactive medium. The deep connection between the caretaker and the tree is established, so that new value and reason are provided for the maintenance, and greening funds are more effectively collected.

3. The strong interaction function and the social function are introduced in the career, so that a deep connection is established between the career and the tree, public welfare enthusiasm of the user can be kept, and the provided value-added service of the career can lead the career not only to donate but also to obtain benefits, receive sponsors of friends and public, and lead more people to afforest the industry.

4. The invention realizes the function of collecting the positions of the trees to be planted in the additional mode by each garden unit, is shown to the public, meets the requirements of the public on planting the favorite trees in the favorite places, adopts the universal tree plate for planting the planting points, ensures that the codes are not changed into the trees after planting, is consistent and universal with the tree plate hanging flow, and reduces the management cost.

5. The digital coding is carried out on the trees, the digital maintenance management is supported, the digital twin system of tree resources is realized, real-time data of the camera and various sensors are connected through the Internet of things, and on the basis, the intelligent garden related application can be continuously expanded in the future.

6. The invention adopts blockchain record to be good, is transparent, and can trace all participants (government supervision, garden service, platform and sponsor).

7. The invention uses the endorsement of the rights-holder or the authorized maintenance person to cast the virtual tree into the NFT, so that the use rights of the virtual tree can become negotiable financial assets, and the virtual tree can be used as a digital twin data base, thereby being convenient for the operation of the virtual ownership.

Additional aspects of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention.

Fig. 1 is a block diagram of a tree identification and maintenance system based on a new generation information technology according to an embodiment of the present invention;

FIG. 2 is a diagram of a method for implementing quick listing and artificial intelligence assisted putting on shelf of a general tree board according to an embodiment of the invention;

FIG. 3 is a schematic diagram of a method for verifying and verifying a coupon according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a daily interactive method and a value added service according to an embodiment of the present invention.

Detailed Description

The invention will be further described with reference to the drawings and examples.

It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

Aiming at the problems of high cost of traditional seed identification and maintenance and registration, complicated implementation, and incapability of being popularized in a large scale, only few cities or gardens have the capability of constructing an Internet-based seed identification and maintenance platform, but the lack of a normalized seed identification and maintenance platform at present effectively realizes greening as much as possible. The tree planting can easily flow in the form of moving forward and backward at the tree planting node. The invention provides a tree identification and maintenance system and method based on a new generation information technology, which provides a simple, feasible and normalized one-stop identification and maintenance platform for gardeners, and can complete the registration of hundreds of trees from gardens on shelves and provide maintenance services for a long time in a general tree plate mode and assisted by artificial intelligence support in the fastest day.

Example 1

As shown in fig. 1, the present embodiment provides a tree identification and maintenance system based on a new generation information technology, including: the system comprises a database, an application micro-service cluster, a client system, a garden facility system, a cloud service system and a tree board manufacturing module.

The database is used for realizing cloud storage of information;

the application micro-service cluster is deployed on the cloud server cluster and comprises a garden management module, a tree species management module, a tree management module, a seed and nutrient identification module, a geographic information system, a system management module, an artificial intelligent module, a template management module, a green land management module, a maintenance management module and a fund management module.

The garden management module can realize the support of SaaS (software as a service), and the garden can apply for joining and using the platform management function. The operators realize the joining audit, data inquiry and the like of the garden units through the garden management module.

The tree species management module is used for managing all tree species and tree species information of plant taxonomies, and gardens can manage tree species used in the gardens at the module, can plant stock management of tree seedlings and the like.

The tree management module is used for digitally encoding all trees in gardens, also comprises the step of encoding the trees at planting points (i.e. planned and not planted), manages the full life cycle of the trees to be planted, planted and maintained, is connected with real-time data and videos acquired by the Internet of things, and can realize remote control.

The identifying and maintaining module is used for receiving an identifying and maintaining operation command of the client, generating an identifying and maintaining detail page for the client, carrying out identifying and maintaining transaction on the page, writing a database and a blockchain platform for storing while completing the transaction, and updating the identifying and maintaining state of the tree.

The geographic information system is used for being responsible for positioning and inquiring gardens, trees and garden roads on a map.

The system management module comprises management and maintenance of dictionaries, administrative regions, authorities, sensitive words, menus, timing tasks, messages and the like.

The artificial intelligent module is used for identifying pictures of tree species, rapidly identifying existing trees in the database, analyzing natural events and interactive events of the trees in pictures, words or voices submitted by the public, filtering sensitive words and the like.

The template management module is used for customizing and managing the tree detail page module aiming at different purposes such as advertisement, friend making, souvenir and the like.

The green land management and checking module is used for carrying out multistage management on garden green lands, marking green land polygons on a map, and realizing management on green land identification and maintenance responsibility grouping.

The maintenance management module is used for managing intelligent garden maintenance work, distributing tasks and recording maintenance records, and supporting patrol route planning and patrol track records.

The fund management module is used for counting orders and accounts, presenting, invoice taking and other functions.

The client comprises: intelligent garden management client used by gardener, platform operation management client of operator, public identification and maintenance mobile client (WeChat applet, payment applet, APP), gardener maintenance mobile APP, and tree detail client (H5, applied to WeChat, payment applet and other code scanning APP).

The cloud service system includes:

geographic information service, provide garden map, tree map inquiry, etc. service for the platform;

the block chain service is firstly used for providing a certificate, and secondly provided with an NFT casting function, and data and resource autonomy is realized by utilizing an intelligent contract;

and (5) weather and other services, and collecting real-time and historical weather data to support maintenance work.

The tree board making module solves the difficulty of making tree boards for gardens, can make and print general tree boards and general ground inserting boards, can select templates to make various tree species tree boards and ground inserting boards, extracts various information from a tree database, such as garden logo, career information, tree species information, tree age, plant height, breast diameter, words and the like, automatically detects data integrity by the system, and avoids blank fields. The tree board making module supports a task queue, and can make personalized tree boards for different gardens in various places in a multitasking mode.

As shown in fig. 2, the tree management module is configured to receive a command from the intelligent garden management client, generate a tree-code tree card code, determine whether the code is a general tree card according to the code, if yes, send a general tree card making instruction to the tree card making module, or set a tree card template and send the making instruction, and the tree card making module generates a making queue, makes a tree card, and stores the code information of the tree card to the database.

Each tree plate is a long-term advertisement that attracts people passing under the tree to be cared or viewed. The tree board factory provided by the invention is used as a value added service, and can be used for various combinations of a caretaker or a garden party based on data in a database to form a custom tree board and automatically manufacture, so that the personalized tree board manufacture is realized at one station, and the efficiency is improved.

The artificial intelligence module is used for receiving the image data of the registered trees uploaded by the mobile maintenance client and identifying returned tree species information to the tree management module through an artificial intelligence algorithm;

the tree management module is used for encoding the tree plate according to the position information of the tree plate and then associating and binding the tree plate with a specific tree or planting point, and connecting the tree or planting point with Internet of things equipment;

the movable maintenance client is connected with the panoramic camera, so that a panoramic photo is shot at three angles for important trees, the system background is automatically synthesized into a panoramic VR mode with a switchable visual angle, three semi-panoramic visual fields taking the trees as the center are displayed, and immersive experience is realized.

The garden management module is used for setting up the price and coupon rules for the trees in batches, judging whether NFT needs to be cast, if so, providing service through the block chain module, carrying out real-name authentication, determining the intelligent contract rules, completing NFT casting in the alliance chain, sending an up instruction, and starting up the maintenance; seed identification is carried out for the planting point upper frame;

the identifying and maintaining module is used for receiving an order of identifying and maintaining the mobile client, judging whether the uploaded information is a tree, if so, judging whether the tree is provided with an NFT, if so, entering a template customizing tool according to the NFT purchased and rented, if not, entering the template customizing tool after generating an identifying and maintaining order, displaying a new tree detail page for the client, and displaying tree details, real-time data acquired by the Internet of things, identifying and maintaining person information, block chain probability and derivative data which the identifying and maintaining person wants to present to the public;

if the tree is not the tree, generating a seed recognition order, hanging the tree after being planted in a contracted time and mode, and putting the tree on a rack to provide recognition for the tree.

The scheme has the advantages that the public welfare sponsorship activity can bring more value to sponsors by activating the virtual tree use right, so that more people are attracted to throw for greening and ecological protection; each tree is a unique individual, a plurality of wood old trees have flow, so that the tree becomes a new online interactive medium, the system is specially designed for different purposes of the caretaker, and additional values such as souvenir, friend making, advertisement and the like are brought to the caretaker. Establishing depth connection between the caretaker and the tree; meanwhile, the block chain technology is adopted to cast the usage rights of the virtual trees as NFT, so that the virtual ownership becomes a financial asset, and the NFT is used as a digital twin data base to lay a foundation for the virtual ownership flow.

The specific using method comprises the following steps:

gardener can log in wisdom gardens management client, generates a batch of unbound trees code for ornamental trees and shrubs at tree management module, including trees and planting point (tree pit), can send the general tree tablet instruction of preparation to the automatic mill of tree tablet after the code, and the automatic mill of tree tablet generates the preparation queue, prepares general tree tablet, and general tree tablet main part is information such as two-dimensional code and guide word but no trees name, sends to gardener after the preparation is accomplished.

After the cards are hung, a mobile maintenance client with a positioning function is used for scanning codes to enter a maintenance interface, the interface is used for photographing and uploading the hung cards, a tree management module collects positioning coordinate information after receiving the information and stores and creates virtual trees, the artificial intelligent module is used for identifying the pictures and returning tree species information, the mobile maintenance client is used for supplementing other information of the trees after checking and submitting the tree species information, and the tree management module is used for completing association binding of tree card codes and specific trees after storing the tree species information.

The movable maintenance client is connected with the panoramic camera, so that a panoramic photo is shot at three angles for important trees, the system background is automatically synthesized into a panoramic VR mode with a switchable visual angle, three semi-panoramic visual fields taking the trees as the center are displayed, and immersive experience is realized.

The garden management client further perfects information, sets information such as the price and the ticket in batches, and completes the operation of putting on shelf. After the work is completed once, long-term maintenance service can be provided.

And the mobile maintenance client with a positioning function is used for scanning codes to enter a maintenance interface, the planted tree seeds are selected, photographed and uploaded on the interface, and the background system stores the acquired space coordinate information to complete the association of the tree cards and planting points. The garden management client further perfects the information and puts on shelves in batches.

After the binding of the tree and the tree plate code is completed, the association with the information collected by the Internet of things can be further set, and the association comprises a monitoring camera, various sensors, various controllers of support Internet of things gateways and the like.

And selecting a tree casting NFT in the garden management client, calling identity authentication, and confirming the intelligent contract rule after the identity authentication is passed so as to confirm that the order of the seed recognition module is a trusted source of the predictor.

At the seed recognition and identification client, the public can view the on-shelf identified trees and positions on the map. And information on the positions where the trees can be planted and the allowed tree species.

The general tree board only has two-dimension codes and code scanning prompts, other information such as tree names and the like are not displayed, and all the information is displayed on a page where the code scanning enters so as to encourage the public to scan the code and know in detail.

By means of the tree plate, the tree species and other information are not bound, so that the tree plate can be associated with a specific tree by photographing when the tree plate is hung, and the key of quick implementation is that. The post-listing platform also provides customization of personalized tree boards containing various types of information, provides various templates as value added services, and can be used by gardeners or caretakers to decide what tree boards to use.

If the public encounters trees which want to be cultivated but are not put on the shelf in gardens, the public can submit the cultivated application after scanning codes. If the tree is not hung with a tree plate, the public can take pictures by the client and submit a recognition application.

The artificial intelligent module is also used for receiving a recognition application command of the recognition mobile client, recognizing the coded but undeployed tree by comparing the tree photo uploaded by the recognition mobile client with the tree in the position and the database, transmitting the obtained result to the garden management client, and putting the result on the shelf and transmitting the recognition information to the recognition mobile client after reconfirming.

The technical scheme has the advantages that the public can take photos of the trees which are not hung in gardens and apply for cares, and the artificial intelligence can quickly identify the types and the spatial positioning of the trees.

As shown in fig. 3, the general tree plate two-dimensional code is scanned by the public under the tree or at the planting point tree hole, or the tree or planting point of the cardiometer is searched at the mobile client (APP and applet).

The recognition and maintenance module is used for receiving a command of recognizing and maintaining the mobile client, firstly judging the type of the recognized and maintenance mobile client, and automatically entering a corresponding interface according to different types; if the first mode is adopted, automatically entering a program page in the first mode, if the second mode is adopted, entering a tree detail page, and carrying out seed recognition and identification operation on the entered tree detail, and writing into a database and a blockchain platform to carry out verification while completing transaction.

It will be appreciated that in other embodiments, the type of the mobile client is not specifically limited, and those skilled in the art may set the mobile client according to specific working conditions.

For example, when a WeChat or a Payment device scans codes, the background judges that the terminal type automatically enters a WeChat applet or a Payment device applet, and when other APP scans codes, the terminal type automatically enters a tree detail page of an H5 version, and on the entered tree details, a user can conduct a seed recognition and maintenance operation to complete a transaction and write the transaction into a database and a blockchain platform to be used as a storage certificate.

The advantage of the above scheme is that the record is good-going, public transparent, and all participants (government supervision, garden services, platforms, sponsors) can be traced.

After planting, the planting order is changed into tree, and the manager carries out the hanging and putting on shelf to provide the maintenance service.

The public may also purchase or rent NFTs for virtual tree casting, and this learning mode will enable secondary transactions (specific opening modes and times have to comply with state-related regulations) that make virtual ownership a negotiable financial asset.

The planting and identifying client is used for viewing the identified trees and positions which are put on the shelf, the planted positions (tree holes) and the planting allowed tree species information on the map.

In this embodiment, the tree detail page may display tree details, information of the caretaker, and derivative data that the caretaker wants to present to the public, where the content of the page is determined by a template specified by the caretaker, and different uses of the caretaker, such as souvenir, friend making, advertisement, etc. are represented.

The ticket can be given to the maintenance of some trees, and the person of maintenance can show the ticket of specific two-dimension codes in the mobile client-My tree, and the user of gardener uses the maintenance mobile client to sweep the code to cancel out.

As shown in fig. 4, the tree detail page can also display the soil moisture content calculated according to the real-time weather data and the watering maintenance record; the tree detail page can interact with a carer, take pictures and release dynamics, warn the bad state of the tree and the like.

The dynamic state is released after being audited by a caretaker. The page is provided with a plurality of value-added services, including service sponsors such as watering, fertilizing, pruning and the like, and friends can share the cost for caregivers through the services.

The photos and messages issued on the trees of the specific caretaker are transmitted to an artificial intelligent module for intelligent analysis, and generated events are pushed to the caretaker, wherein the generated events comprise natural events such as sprouting, flowering, defoliation, results and the like, and interaction events such as friends and comments. The caretaker is allowed to view the garden when a specific event is generated, or is reminded to respond to the interaction event.

Example two

The embodiment provides a tree identification and maintenance method based on a new generation information technology, which comprises the following steps:

receiving the coding information of the obtained tree plate, the image and video data of the hanging tree or tree pit, and identifying the returned tree species information through an artificial intelligent algorithm;

creating a virtual tree in a network space according to the position information and the tree species information when the tree data are acquired, associating and binding the codes of the virtual tree and the entity tree, and acquiring real-time data of the tree or the tree pit;

and receiving a seed identifying and maintaining operation command, generating a seed identifying and maintaining detail page, carrying out seed identifying and maintaining transaction on the page, writing a database and a blockchain platform to carry out verification while finishing the transaction, and updating the seed identifying and maintaining state of the tree.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A tree identification and maintenance system based on a new generation information technology is characterized by comprising: the system comprises a data acquisition module, a server, a client and a database;

the data acquisition module is used for acquiring the coding information of the tree plate, the image and video data of the hanging tree or the tree pit and transmitting the coding information of the tree plate, the image and video data of the tree or the tree pit to the server;

the server comprises a tree management module, an artificial intelligent module and a seed and nutrient identifying module;

the artificial intelligence module is used for receiving the image and video data, and identifying and returning tree species information to the tree management module through an artificial intelligence algorithm;

the tree management module is used for creating virtual trees in the network space according to the position information and the tree species information when the tree or tree pit data are acquired, and acquiring real-time data of the tree or tree pit through the association and binding of codes of the virtual trees and the entity trees or tree pits and through the connection of the Internet of things equipment;

the seed identifying and maintaining module is used for receiving a seed identifying and maintaining operation command of the client, generating a seed identifying and maintaining detail page for the client, carrying out seed identifying and maintaining transaction on the page, writing a database and a blockchain platform for storing while completing the transaction, and updating the seed identifying and maintaining state of the tree.

2. The tree identification and maintenance system based on the new generation information technology as claimed in claim 1, wherein the system further comprises a tree board making module, and the client comprises an intelligent garden management client;

the tree management module is used for receiving a command of the intelligent garden management client, generating a tree-code tree card code, judging whether the tree-code tree card code is a general tree card according to the code, if yes, sending a general tree card making command to the tree card making module, otherwise, setting a tree card template and sending the making command, generating a making queue by the tree card making module, making the tree card, and storing the code information of the tree card to the database; the intelligent garden management client is further connected with a panoramic camera, a panoramic photo of the tree is shot through the panoramic camera, the intelligent garden management client is automatically synthesized into a panoramic VR mode with a switchable visual angle, and a semi-panoramic view field taking the tree as the center is displayed.

3. The tree identification and maintenance system based on the new generation information technology as claimed in claim 1, wherein the server further comprises a garden management module, and the client further comprises an identification and maintenance mobile client;

the garden management module is used for setting up the price and coupon rules for the trees in batches, judging whether NFT needs to be cast, if so, providing service through the block chain module, carrying out real-name authentication, determining the intelligent contract rules, completing NFT casting in the alliance chain, sending an up instruction, and starting up the maintenance; seed identification is carried out for the planting point upper frame;

the identifying and maintaining module is used for receiving an order of identifying and maintaining the mobile client, judging whether the uploaded information is a tree, if so, judging whether the tree has an NFT, if so, entering a template customizing tool according to the NFT purchased and rented, and if not, entering the template customizing tool after generating a maintaining order to take effect, so as to display the tree detail page of the maintaining mobile client; if the tree is not the tree, generating a seed recognition order, hanging the tree after being planted in a contracted time and mode, and putting the tree on a shelf to provide recognition for the tree.

4. The new generation information technology based tree identification and maintenance system of claim 1, wherein the tree management module is further configured to digitally encode all trees and planned and not yet planted planting points, and manage the full life cycle of trees from to be planted, planted and maintained.

5. The tree identification and maintenance system based on the new generation information technology as claimed in claim 3, wherein the artificial intelligent module is further used for receiving an identification and maintenance application command of the identification and maintenance mobile client, identifying the tree which is coded but not registered by comparing the tree photo uploaded by the identification and maintenance mobile client with the tree in the position and database, transmitting the obtained result to the garden management client for identification again, and then putting on shelf and transmitting identification and maintenance information to the identification and maintenance mobile client.

6. The tree identification and maintenance system based on the new generation information technology as claimed in claim 3, wherein the identification and maintenance module is used for receiving the command of identifying and maintaining the mobile client, firstly judging the type of the mobile client, and automatically entering the corresponding interface according to different types; if the first mode is adopted, automatically entering a program page in the first mode, if the second mode is adopted, entering a tree detail page, and carrying out seed recognition and identification operation on the entered tree detail, and writing into a database and a blockchain platform to carry out verification while completing transaction.

7. The tree identification and maintenance system based on the new generation information technology as claimed in claim 1, wherein the system further comprises a template management module, a green land management and maintenance management module;

the template management module is used for customizing and managing the tree detail page module aiming at different purposes;

the green land management and checking module is used for carrying out multistage management on garden green lands, and marking green land polygons on a map so as to realize management on green land identification and maintenance responsibility grouping;

the maintenance management module is used for managing intelligent garden maintenance work, distributing tasks and recording maintenance records, and supporting patrol route planning and patrol track recording.

8. The tree identification and maintenance system based on the new generation information technology as claimed in claim 1, wherein the system further comprises a identification and maintenance client for viewing the identified tree and the position, the planted position and the tree species information allowed to be planted on a map.

9. The tree identification and maintenance system based on the new generation information technology as claimed in claim 8, wherein the identification and maintenance client is further used for checking the detail of the tree to be identified, including real-time video, data collected through internet of things, real-time weather data, and dynamic participation interactions issued by other tree friends.

10. A tree identification and maintenance method based on a new generation information technology is characterized by comprising the following steps:

receiving the coding information of the obtained tree plate, the image and video data of the hanging tree or tree pit, and identifying the returned tree species information through an artificial intelligent algorithm;

creating a virtual tree in a network space according to the position information and the tree species information when the tree data are acquired, associating and binding the codes of the virtual tree and the entity tree, and acquiring real-time data of the tree or the tree pit;

and receiving a seed identifying and maintaining operation command, generating a seed identifying and maintaining detail page, carrying out seed identifying and maintaining transaction on the page, writing a database and a blockchain platform to carry out verification while finishing the transaction, and updating the seed identifying and maintaining state of the tree.