CN116050861A - Agricultural Internet of things strawberry industry service operation and maintenance system and method - Google Patents

Abstract

The invention provides an agricultural Internet of things strawberry industry service operation and maintenance system and method, comprising the following steps: pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles, and delivering the ultrafine infiltration fertilizer nanoparticles to a strawberry root system concentrated region through a water and fertilizer integrated machine; monitoring local root system distribution of a root growth area through large-area in-situ detection and ultrasonic detection, and tracking a strawberry root system concentrated area; carrying out strawberry growth fertilizer amount prediction analysis and strawberry yield industry trend analysis through an industry analysis and prediction Internet of things platform; and according to the strawberry growth fertilizer quantity prediction analysis and the strawberry yield industry trend analysis, intelligent management of the strawberry industry fertilizer quantity and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are carried out, and the operation and maintenance promotion trend of the strawberry industry service of the agricultural Internet of things is accelerated.

Description

Agricultural Internet of things strawberry industry service operation and maintenance system and method

Technical Field

The invention relates to the technical field of agricultural Internet of things precise intelligent operation and maintenance, in particular to an agricultural Internet of things strawberry industry service operation and maintenance system and method.

Background

At present, the fertilization operation and maintenance are basically difficult to carry out precise concentrated tracking fertilization on strawberry root systems; the specific problems include: how to accurately send the strawberry fertilizer to the strawberry root system concentrated area and gradually release the strawberry fertilizer to the strawberry root system area, how to detect and track the strawberry root system concentrated area, how to predict the strawberry growth fertilizer amount and the strawberry yield industry trend, how to reasonably manage the strawberry fertilizer amount, the strawberry industry equipment diagnosis maintenance, the strawberry industry service operation maintenance and the like according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis; therefore, it is necessary to provide an operation and maintenance system and method for strawberry industry service of the agricultural internet of things, so as to at least partially solve the problems existing in the prior art.

Disclosure of Invention

A series of concepts in simplified form are introduced in the summary section, which will be described in further detail in the detailed description section; the summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides an agricultural internet of things strawberry industry service operation and maintenance system, including:

The ultra-micro infiltration fertilizer nano pressure infiltration system is used for pressing and infiltrating the strawberry fertilizer into the ultra-micro nano infiltration containing structure after nano grinding to form ultra-micro infiltration fertilizer nanoparticles, and delivering the ultra-micro infiltration fertilizer nanoparticles to the strawberry root system concentration area through the water and fertilizer integrated machine;

the system comprises a detection subsystem for a concentrated area of strawberry root systems, wherein local root system distribution of a root growth area is monitored through in-situ detection and ultrasonic detection of a large area, and the concentrated area of strawberry root systems is tracked;

the fertilizer quantity and yield analysis industry prediction subsystem is used for intensively analyzing a strawberry industry root system centralized area and rapidly predicting a strawberry root system growth extension area through an industry analysis and prediction internet of things platform, and performing strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis;

the intelligent fertilization industry operation and maintenance subsystem is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis through the agricultural Internet of things industry operation and maintenance intelligent module, and accelerating the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service.

Preferably, the ultra-micro permeation fertilization nano pressure permeation separation system comprises:

the ultra-micro infiltration fertilization nanoparticle system is filled with strawberry fertilizer by utilizing an ultra-micro nanoparticle strawberry fertilizer infiltration cavity to form an ultra-micro nano infiltration containing structure;

The nano-structure strawberry fertilizer infiltration subsystem is used for performing nano-grinding and then infiltration on the strawberry fertilizer to form an ultra-micro nano-infiltration fertilizer nanoparticle;

the combined nanometer permeation level region delivery subsystem carries out nanometer permeation level step by step according to the soil state of the strawberry root system region, and the ultra-micro permeation fertilization nanoparticles are delivered to the strawberry root system concentrated region through the water and fertilizer integrated machine and gradually released to the strawberry root system region along with the absorption of the strawberry root system to fertilizer.

Preferably, the strawberry root system centralized area detection subsystem comprises:

the multi-dimensional in-situ strawberry root system scanning subsystem is provided with a root system multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network for carrying out multi-dimensional in-situ strawberry root system scanning detection;

the root system in-situ multidimensional monitoring subsystem monitors local root system distribution of a root growth area in a multidimensional manner through in-situ detection and ultrasonic detection of a large area according to multidimensional in-situ strawberry root system scanning detection;

and the root system area tracking subsystem is used for tracking the concentrated area of the strawberry root system according to the local root system distribution of the root growth area.

Preferably, the fertilizer yield analysis industry prediction subsystem comprises:

The growth fertilizer quantity absorption simulation subsystem acquires a growth fertilizer quantity absorption model of the strawberry root system concentrated region through growth fertilizer quantity absorption simulation training of the strawberry root system concentrated region, and transmits the growth fertilizer quantity absorption model of the strawberry root system concentrated region to an industrial analysis and prediction Internet of things platform;

the strawberry root system analysis subsystem of the Internet of things platform is used for carrying out industrial analysis and prediction on the strawberry growth fertilizer quantity through the industrial analysis and prediction of the strawberry industrial root system concentrated area by the Internet of things platform;

and the strawberry root system growth trend prediction subsystem inputs the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicts a strawberry root system growth extension region and performs strawberry yield industry trend analysis.

Preferably, the intelligent fertilization industry operation and maintenance subsystem comprises:

the industrial analysis data collection subsystem is used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industrial trend analysis through strawberry industrial data collection;

the agricultural Internet of things intelligent operation and maintenance subsystem is used for carrying out intelligent management on the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance on remote equipment of the strawberry industry through an agricultural Internet of things industry operation and maintenance intelligent module;

and the intelligent subsystem for upgrading the industrial service automatically upgrades intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to incremental progress of the strawberry industry service and accumulation of the strawberry industry service data, and accelerates the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things.

The invention discloses an operation and maintenance method for strawberry industry service of an agricultural Internet of things, which comprises the following steps:

s100, pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles, and delivering the ultrafine infiltration fertilizer nanoparticles to a strawberry root system concentrated region through a water and fertilizer integrated machine;

s200, monitoring local root system distribution of a rhizome growing area through large-area in-situ detection and ultrasonic detection, and tracking a strawberry root system concentrated area;

s300, the strawberry industry root system concentrated area is intensively analyzed and the strawberry root system growth extension area is rapidly predicted through the industry analysis and prediction Internet of things platform, and the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis are carried out;

s400, intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are performed through an intelligent operation and maintenance module of the agricultural Internet of things industry according to the prediction analysis of the strawberry growth fertilizer amount and the analysis of the strawberry yield industry trend, and the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service is accelerated.

Preferably, S100 includes:

s101, filling the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity to form an ultrafine nanoparticle permeation containing structure;

S102, pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles;

s103, carrying out nano-permeation level step-by-step delivery according to the soil state of the strawberry root system part area, delivering the ultra-micro-permeation fertilization nanoparticles to the strawberry root system concentrated area through the water and fertilizer integrated machine, and gradually releasing the ultra-micro-permeation fertilization nanoparticles to the strawberry root system area along with the absorption of the strawberry root system to the fertilizer.

Preferably, S200 includes:

s201, a root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network is arranged, and multidimensional in-situ strawberry root system scanning detection is carried out;

s202, monitoring local root system distribution of a root growth area in a multi-dimensional manner through the root system in-situ detection and ultrasonic detection monitoring in a large area according to multi-dimensional in-situ strawberry root system scanning detection;

s203, tracking the concentrated areas of the strawberry root systems according to the local root system distribution of the root growth areas.

Preferably, S300 includes:

s301, acquiring a strawberry root system concentrated region growth fertilizer amount absorption model through strawberry root system concentrated region growth fertilizer amount absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer amount absorption model to an industrial analysis and prediction Internet of things platform;

s302, analyzing the concentrated areas of the strawberry industrial root systems in a concentrated manner through an industrial analysis and prediction Internet of things platform, and performing strawberry growth fertilizer amount prediction analysis;

S303, inputting the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicting a strawberry root system growth extension region, and carrying out strawberry yield industry trend analysis.

Preferably, S400 includes:

s401, performing strawberry growth fertilizer amount prediction analysis and strawberry yield industry trend analysis through strawberry industry data collection;

s402, intelligent management of fertilizer amount of strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are carried out through an intelligent operation and maintenance module of the agricultural Internet of things industry;

s403, intelligent management of strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are automatically upgraded according to the incremental progress of strawberry industry service and the accumulation of strawberry industry service data, and the operation and maintenance incremental trend of the strawberry industry service of the agricultural Internet of things is accelerated.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides an agricultural Internet of things strawberry industry service operation and maintenance system and method, which are characterized in that an ultra-micro infiltration fertilization nano infiltration separation system is used for carrying out nano grinding and then infiltration on strawberry fertilizer to an ultra-micro nano infiltration containing structure to form ultra-micro infiltration fertilization nano particles, and the ultra-micro infiltration fertilization nano particles are delivered to a strawberry root system concentration area through a water and fertilizer integrated machine; the system comprises a detection subsystem for a concentrated area of strawberry root systems, wherein local root system distribution of a root growth area is monitored through in-situ detection and ultrasonic detection of a large area, and the concentrated area of strawberry root systems is tracked; the fertilizer quantity and yield analysis industry prediction subsystem is used for intensively analyzing a strawberry industry root system centralized area and rapidly predicting a strawberry root system growth extension area through an industry analysis and prediction internet of things platform, and performing strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis; the intelligent fertilization industry operation and maintenance subsystem is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis through an agricultural Internet of things industry operation and maintenance intelligent module, and accelerating the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service; the strawberry fertilizer can be delivered to the ultra-micro infiltration area of the strawberry root system area and the strawberry root system growth extension area; the fertilizer which is more suitable for the absorption capacity of the strawberry root system can be released to the concentrated area of the strawberry root system, the strawberry fertilizer is more accurately used, and the fertilizer is more rapid and thorough to fertilize; the release time of the fertilizer to the root system area of the strawberry is longer, and the fertilizer efficiency is longer; the fertilization effect of the strawberry root system area and the strawberry root system growth extension area can be greatly improved; the method can be used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis, intelligent management of strawberry industry fertilizer quantity and intelligent diagnosis and maintenance of remote equipment of strawberry industry, and accelerating the operation and maintenance promotion trend of the strawberry industry service of the agricultural Internet of things.

Other advantages, objects and features of the present invention will be apparent in part from the description which follows and in part will be apparent to those skilled in the art from the study and practice of the invention.

Drawings

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

fig. 1 is a frame diagram of an agricultural internet of things strawberry industry service operation and maintenance system according to the present invention.

Fig. 2 is a diagram of an embodiment of an agricultural internet of things strawberry industry service operation and maintenance system architecture according to the present invention.

Fig. 3 is a diagram of a fertilizing and penetrating fertilization embodiment of an agricultural internet of things strawberry industry service operation and maintenance system according to the invention.

Fig. 4 is an intelligent module diagram of the internet of things industry operation and maintenance of the internet of things strawberry industry service operation and maintenance system of the internet of things.

Fig. 5 is a step diagram of an operation and maintenance method for strawberry industry service of the agricultural internet of things.

Granule embodiment

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the same and to refer to the description; as shown in fig. 1-5, the present invention provides an operation and maintenance system for strawberry industry service of an agricultural internet of things, comprising:

The ultra-micro infiltration fertilizer nano pressure infiltration system is used for pressing and infiltrating the strawberry fertilizer into the ultra-micro nano infiltration containing structure after nano grinding to form ultra-micro infiltration fertilizer nanoparticles, and delivering the ultra-micro infiltration fertilizer nanoparticles to the strawberry root system concentration area through the water and fertilizer integrated machine;

the system comprises a detection subsystem for a concentrated area of strawberry root systems, wherein local root system distribution of a root growth area is monitored through in-situ detection and ultrasonic detection of a large area, and the concentrated area of strawberry root systems is tracked;

the fertilizer quantity and yield analysis industry prediction subsystem is used for intensively analyzing a strawberry industry root system centralized area and rapidly predicting a strawberry root system growth extension area through an industry analysis and prediction internet of things platform, and performing strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis;

the intelligent fertilization industry operation and maintenance subsystem is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis through the agricultural Internet of things industry operation and maintenance intelligent module, and accelerating the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service.

The working principle of the technical scheme is as follows: the invention provides an agricultural Internet of things strawberry industry service operation and maintenance system, which comprises:

The ultra-micro infiltration fertilizer nano pressure infiltration system is used for pressing and infiltrating the strawberry fertilizer into the ultra-micro nano infiltration containing structure after nano grinding to form ultra-micro infiltration fertilizer nanoparticles, and delivering the ultra-micro infiltration fertilizer nanoparticles to the strawberry root system concentration area through the water and fertilizer integrated machine;

the system comprises a detection subsystem for a concentrated area of strawberry root systems, wherein local root system distribution of a root growth area is monitored through in-situ detection and ultrasonic detection of a large area, and the concentrated area of strawberry root systems is tracked;

the fertilizer quantity and yield analysis industry prediction subsystem is used for intensively analyzing a strawberry industry root system centralized area and rapidly predicting a strawberry root system growth extension area through an industry analysis and prediction internet of things platform, and performing strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis;

the intelligent fertilization industry operation and maintenance subsystem is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis through the agricultural Internet of things industry operation and maintenance intelligent module, and accelerating the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service.

The beneficial effects of the technical scheme are as follows: the invention provides an agricultural Internet of things strawberry industry service operation and maintenance system, which comprises: the ultra-micro infiltration fertilizer nano pressure infiltration system is used for pressing and infiltrating the strawberry fertilizer into the ultra-micro nano infiltration containing structure after nano grinding to form ultra-micro infiltration fertilizer nanoparticles, and delivering the ultra-micro infiltration fertilizer nanoparticles to the strawberry root system concentration area through the water and fertilizer integrated machine; the system comprises a detection subsystem for a concentrated area of strawberry root systems, wherein local root system distribution of a root growth area is monitored through in-situ detection and ultrasonic detection of a large area, and the concentrated area of strawberry root systems is tracked; the fertilizer quantity and yield analysis industry prediction subsystem is used for intensively analyzing a strawberry industry root system centralized area and rapidly predicting a strawberry root system growth extension area through an industry analysis and prediction internet of things platform, and performing strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis; the intelligent fertilization industry operation and maintenance subsystem is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis through an agricultural Internet of things industry operation and maintenance intelligent module, and accelerating the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service; the strawberry fertilizer can be delivered to the ultra-micro infiltration area of the strawberry root system area and the strawberry root system growth extension area; the fertilizer which is more suitable for the absorption capacity of the strawberry root system can be released to the concentrated area of the strawberry root system, the strawberry fertilizer is more accurately used, and the fertilizer is more rapid and thorough to fertilize; the release time of the fertilizer to the root system area of the strawberry is longer, and the fertilizer efficiency is longer; the fertilization effect of the strawberry root system area and the strawberry root system growth extension area can be greatly improved; the method can be used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis, intelligent management of strawberry industry fertilizer quantity and intelligent diagnosis and maintenance of remote equipment of strawberry industry, and accelerating the operation and maintenance promotion trend of the strawberry industry service of the agricultural Internet of things.

In one embodiment, an ultra-micro permeation fertilization nano-pressure permeation subsystem comprises:

the ultra-micro infiltration fertilization nanoparticle system is filled with strawberry fertilizer by utilizing an ultra-micro nanoparticle strawberry fertilizer infiltration cavity to form an ultra-micro nano infiltration containing structure;

the nano-structure strawberry fertilizer infiltration subsystem is used for performing nano-grinding and then infiltration on the strawberry fertilizer to form an ultra-micro nano-infiltration fertilizer nanoparticle;

the combined nanometer permeation level region delivery subsystem carries out nanometer permeation level step by step according to the soil state of the strawberry root system region, and the ultra-micro permeation fertilization nanoparticles are delivered to the strawberry root system concentrated region through the water and fertilizer integrated machine and gradually released to the strawberry root system region along with the absorption of the strawberry root system to fertilizer.

The working principle of the technical scheme is as follows: an ultra-micro permeation fertilization nano pressure permeation separation system, comprising: the ultra-micro infiltration fertilization nanoparticle system is filled with strawberry fertilizer by utilizing an ultra-micro nanoparticle strawberry fertilizer infiltration cavity to form an ultra-micro nano infiltration containing structure; the nano-structure strawberry fertilizer infiltration subsystem is used for performing nano-grinding and then infiltration on the strawberry fertilizer to form an ultra-micro nano-infiltration fertilizer nanoparticle; the combined nanometer permeation level region delivery subsystem is used for carrying out nanometer permeation level step by step according to the soil state of the strawberry root system region, delivering the ultra-micro permeation fertilization nanoparticles to the strawberry root system concentrated region through the water and fertilizer integrated machine, and gradually releasing the ultra-micro permeation fertilization nanoparticles to the strawberry root system region along with the absorption of the strawberry root system to the fertilizer;

Loading the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity; the shape of the ultra-micro nano permeation containment structure is transported and maintained through external pressure difference, and the ultra-micro permeation fertilization nano particles permeate; penetrating the ultra-micro penetration fertilizer nanoparticles to a strawberry root system concentrated area and a strawberry root system growth extension area; the external pressure difference transferring operation and maintenance is carried out by an intelligent module for the industrial operation and maintenance of the agricultural Internet of things through the external pressure difference transferring, and the intelligent adjustment of the pressure difference transferring intensity and the intelligent transferring guiding of the pressure difference transferring guiding direction are carried out.

The beneficial effects of the technical scheme are as follows: the ultra-micro nano-permeation accommodating structure can be formed by filling the ultra-micro nano-permeation fertilizer into the strawberry fertilizer through the ultra-micro-permeation fertilizer nanoparticle system by utilizing the ultra-micro nano-particle strawberry fertilizer permeation cavity; the nano-structure strawberry fertilizer infiltration subsystem is used for performing nano-grinding and then infiltration on the strawberry fertilizer to form an ultra-micro nano-infiltration fertilizer nanoparticle; the combined nanometer permeation level region delivery subsystem is used for carrying out nanometer permeation level step by step according to the soil state of the strawberry root system region, delivering the ultra-micro permeation fertilization nanoparticles to the strawberry root system concentrated region through the water and fertilizer integrated machine, and gradually releasing the ultra-micro permeation fertilization nanoparticles to the strawberry root system region along with the absorption of the strawberry root system to the fertilizer; loading the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity; the shape of the ultra-micro nano permeation containment structure is transported and maintained through external pressure difference, and the ultra-micro permeation fertilization nano particles permeate; penetrating the ultra-micro penetration fertilizer nanoparticles to a strawberry root system concentrated area and a strawberry root system growth extension area; the external pressure difference transferring operation and maintenance is carried out by an intelligent module of the agricultural Internet of things industry operation and maintenance through external pressure difference transferring, and the intelligent adjustment of the pressure difference transferring intensity and the intelligent transferring guiding of the pressure difference transferring guiding direction are carried out; can deliver strawberry fertilizer to the ultra-micro infiltration area of the strawberry root system area and the strawberry root system growth extension area.

In one embodiment, the strawberry root system centralized area detection subsystem comprises:

the multi-dimensional in-situ strawberry root system scanning subsystem is provided with a root system multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network for carrying out multi-dimensional in-situ strawberry root system scanning detection;

the root system in-situ multidimensional monitoring subsystem monitors local root system distribution of a root growth area in a multidimensional manner through in-situ detection and ultrasonic detection of a large area according to multidimensional in-situ strawberry root system scanning detection;

and the root system area tracking subsystem is used for tracking the concentrated area of the strawberry root system according to the local root system distribution of the root growth area.

The working principle of the technical scheme is as follows: the utility model provides a regional detection subsystem is concentrated to strawberry root system, includes: the multi-dimensional in-situ strawberry root system scanning subsystem is provided with a root system multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network for carrying out multi-dimensional in-situ strawberry root system scanning detection; the root system in-situ multidimensional monitoring subsystem monitors local root system distribution of a root growth area in a multidimensional manner through in-situ detection and ultrasonic detection of a large area according to multidimensional in-situ strawberry root system scanning detection; the root system area tracking subsystem tracks the concentrated area of the strawberry root system according to the local root system distribution of the root growth area;

Through the multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network of the root system, the root growth area is respectively subjected to cross scanning within the scanning range of the in-situ detection ray network which is mutually intersected, reflected rays in the intersecting direction are distinguished by the frequency of the in-situ detection rays which are mutually intersected, and the multi-dimensional in-situ strawberry root system is subjected to gridding ultrasonic detection sensing detection.

The beneficial effects of the technical scheme are as follows: the multi-dimensional in-situ strawberry root system scanning subsystem is used for arranging a root system multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network and carrying out multi-dimensional in-situ strawberry root system scanning detection; the root system in-situ multidimensional monitoring subsystem monitors local root system distribution of a root growth area in a multidimensional manner through in-situ detection and ultrasonic detection of a large area according to multidimensional in-situ strawberry root system scanning detection; the root system area tracking subsystem tracks the concentrated area of the strawberry root system according to the local root system distribution of the root growth area; the method comprises the steps of carrying out a first treatment on the surface of the The root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network is used for respectively carrying out cross scanning on a root growth area in the scanning range of the in-situ detection ray network which is mutually intersected, the frequency of the in-situ detection rays which are mutually intersected has a specific frequency to distinguish reflected rays in the intersecting direction, and gridding ultrasonic detection sensing detection is carried out for carrying out multidimensional in-situ strawberry root system scanning detection; the spatial distribution of the accurate and rapid positioning of multiple strawberry root systems can be realized; the strawberry root system distribution detection is more accurate.

In one embodiment, a fertilizer yield analysis industry prediction subsystem includes:

the growth fertilizer quantity absorption simulation subsystem acquires a growth fertilizer quantity absorption model of the strawberry root system concentrated region through growth fertilizer quantity absorption simulation training of the strawberry root system concentrated region, and transmits the growth fertilizer quantity absorption model of the strawberry root system concentrated region to an industrial analysis and prediction Internet of things platform;

the strawberry root system analysis subsystem of the Internet of things platform is used for carrying out industrial analysis and prediction on the strawberry growth fertilizer quantity through the industrial analysis and prediction of the strawberry industrial root system concentrated area by the Internet of things platform;

and the strawberry root system growth trend prediction subsystem inputs the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicts a strawberry root system growth extension region and performs strawberry yield industry trend analysis.

The working principle of the technical scheme is as follows: the fertilizer quantity yield analysis industry prediction subsystem is used for acquiring a strawberry root system concentrated region growth fertilizer quantity absorption model through a growth fertilizer quantity absorption simulation subsystem and through a strawberry root system concentrated region growth fertilizer quantity absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer quantity absorption model to an industry analysis prediction Internet of things platform; the strawberry root system analysis subsystem of the Internet of things platform is used for carrying out industrial analysis and prediction on the strawberry growth fertilizer quantity through the industrial analysis and prediction of the strawberry industrial root system concentrated area by the Internet of things platform; and the strawberry root system growth trend prediction subsystem inputs the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicts a strawberry root system growth extension region and performs strawberry yield industry trend analysis.

The beneficial effects of the technical scheme are as follows: acquiring a strawberry root system concentrated region growth fertilizer amount absorption model through a growth fertilizer amount absorption simulation subsystem and through strawberry root system concentrated region growth fertilizer amount absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer amount absorption model to an industrial analysis and prediction Internet of things platform; the strawberry root system analysis subsystem of the Internet of things platform is used for carrying out industrial analysis and prediction on the strawberry growth fertilizer quantity through the industrial analysis and prediction of the strawberry industrial root system concentrated area by the Internet of things platform; the strawberry root system growth trend prediction subsystem is used for inputting the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicting a strawberry root system growth extension region and carrying out strawberry yield industry trend analysis; the strawberry yield industry trend can be accurately analyzed and predicted.

In one embodiment, the intelligent fertilization industry operation and maintenance subsystem comprises:

the industrial analysis data collection subsystem is used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industrial trend analysis through strawberry industrial data collection;

the agricultural Internet of things intelligent operation and maintenance subsystem is used for carrying out intelligent management on the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance on remote equipment of the strawberry industry through an agricultural Internet of things industry operation and maintenance intelligent module;

The intelligent subsystem for upgrading the industrial service automatically upgrades intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to incremental progress of the strawberry industry service and accumulation of the strawberry industry service data, and accelerates the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things;

the working principle of the technical scheme is as follows: intelligent fertilization industry fortune dimension divides system includes:

the industrial analysis data collection subsystem is used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industrial trend analysis through strawberry industrial data collection;

the agricultural Internet of things intelligent operation and maintenance subsystem is used for carrying out intelligent management on the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance on remote equipment of the strawberry industry through an agricultural Internet of things industry operation and maintenance intelligent module;

the intelligent subsystem for upgrading the industrial service automatically upgrades intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to incremental progress of the strawberry industry service and accumulation of the strawberry industry service data, and accelerates the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things;

calculating the ratio coefficient value of the activity and concentration of the ultra-micro permeation fertilization nano particles:

wherein NDWLcf represents an ultra-micro permeation fertilization nanoparticle activity to concentration ratio coefficient value, DHc represents debye-shock parameters, rfl represents a fertilizer solvent molecular weight, i represents an i-th component of a fertilizer solvent, li represents an i-th component ion charge number, zc represents a permeation process closest distance parameter, Q represents an ultra-micro permeation fertilization nanoparticle ion intensity, and ln represents a natural logarithm operation formula.

The beneficial effects of the technical scheme are as follows: the strawberry growth fertilizer quantity prediction analysis and the strawberry yield industry trend analysis are carried out through the strawberry industry data collection through the industry analysis data collection subsystem; the agricultural Internet of things intelligent operation and maintenance subsystem is used for carrying out intelligent management on the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance on remote equipment of the strawberry industry through an agricultural Internet of things industry operation and maintenance intelligent module; the intelligent subsystem for upgrading the industrial service automatically upgrades intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to incremental progress of the strawberry industry service and accumulation of the strawberry industry service data, and accelerates the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things;

calculating the ratio coefficient value of the activity and concentration of the ultra-micro permeation fertilization nano particles: wherein NDWLcf represents an ultra-micro permeation fertilization nanoparticle activity to concentration ratio coefficient value, DHc represents debye-shock parameters, rfl represents a fertilizer solvent molecular weight, i represents an i-th component of a fertilizer solvent, li represents an i-th component ion charge number, zc represents a permeation process closest distance parameter, Q represents an ultra-micro permeation fertilization nanoparticle ion intensity, ln represents a natural logarithm operational formula; the effective concentration of the concentrated area of the strawberry root system can be higher and the efficacy of the strawberry fertilizer is more sufficient by calculating the ratio coefficient value of the activity and concentration of the ultra-micro-permeation fertilization nano particles.

The invention discloses an operation and maintenance method for strawberry industry service of an agricultural Internet of things, which comprises the following steps:

s100, pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles, and delivering the ultrafine infiltration fertilizer nanoparticles to a strawberry root system concentrated region through a water and fertilizer integrated machine;

s200, monitoring local root system distribution of a rhizome growing area through large-area in-situ detection and ultrasonic detection, and tracking a strawberry root system concentrated area;

s300, the strawberry industry root system concentrated area is intensively analyzed and the strawberry root system growth extension area is rapidly predicted through the industry analysis and prediction Internet of things platform, and the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis are carried out;

s400, intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are performed through an intelligent operation and maintenance module of the agricultural Internet of things industry according to the prediction analysis of the strawberry growth fertilizer amount and the analysis of the strawberry yield industry trend, and the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service is accelerated.

The working principle of the technical scheme is as follows: the invention discloses an operation and maintenance method for strawberry industry service of an agricultural Internet of things, which comprises the following steps: pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles, combining nano infiltration levels according to the soil state of the strawberry root system part area, delivering the ultrafine infiltration fertilizer nanoparticles to a strawberry root system concentrated area through a water and fertilizer integrated machine, and gradually releasing the ultrafine infiltration fertilizer nanoparticles to a strawberry root system area along with the absorption of the strawberry root system to the fertilizer; monitoring local root system distribution of a root growth area through large-area in-situ detection and ultrasonic detection, and tracking a strawberry root system concentrated area; the strawberry root system concentrated region is intensively analyzed and predicted by the industrial analysis and prediction Internet of things platform, the strawberry root system growth extension region is rapidly predicted, and the strawberry growth fertilizer amount prediction analysis and the strawberry yield industrial trend analysis are carried out; and through the intelligent operation and maintenance module of the agricultural Internet of things industry, intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are performed according to the prediction analysis of the strawberry growth fertilizer amount and the analysis of the strawberry yield industry trend, and the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service is accelerated.

The beneficial effects of the technical scheme are as follows: according to the method, the strawberry fertilizer is subjected to nano grinding and then is pressed and infiltrated into an ultrafine nano infiltration containing structure to form ultrafine infiltration fertilizer nanoparticles, nano infiltration levels are combined according to the soil state of the strawberry root system part region, and the ultrafine infiltration fertilizer nanoparticles are delivered to the strawberry root system concentrated region through a water and fertilizer integrated machine and gradually released to the strawberry root system region along with the absorption of the strawberry root system to the fertilizer; monitoring local root system distribution of a root growth area through large-area in-situ detection and ultrasonic detection, and tracking a strawberry root system concentrated area; the strawberry root system concentrated region is intensively analyzed and predicted by the industrial analysis and prediction Internet of things platform, the strawberry root system growth extension region is rapidly predicted, and the strawberry growth fertilizer amount prediction analysis and the strawberry yield industrial trend analysis are carried out; the intelligent operation and maintenance module of the agricultural Internet of things industry is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the prediction analysis of the strawberry growth fertilizer amount and the analysis of the strawberry yield industry trend, and accelerating the operation and maintenance promotion trend of the strawberry industry service of the agricultural Internet of things; the strawberry fertilizer can be delivered to the ultra-micro infiltration area of the strawberry root system area and the strawberry root system growth extension area; the fertilizer which is more suitable for the absorption capacity of the strawberry root system can be released to the concentrated area of the strawberry root system, the strawberry fertilizer is more accurately used, and the fertilizer is more rapid and thorough to fertilize; the release time of the fertilizer to the root system area of the strawberry is longer, and the fertilizer efficiency is longer; the fertilization effect of the strawberry root system area and the strawberry root system growth extension area can be greatly improved; the method can be used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis, intelligent management of strawberry industry fertilizer quantity and intelligent diagnosis and maintenance of remote equipment of strawberry industry, and accelerating the operation and maintenance promotion trend of the strawberry industry service of the agricultural Internet of things.

In one embodiment, S100 comprises:

s101, filling the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity to form an ultrafine nanoparticle permeation containing structure;

s102, pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles;

s103, carrying out nano-permeation level step-by-step delivery according to the soil state of the strawberry root system part area, delivering the ultra-micro-permeation fertilization nanoparticles to the strawberry root system concentrated area through the water and fertilizer integrated machine, and gradually releasing the ultra-micro-permeation fertilization nanoparticles to the strawberry root system area along with the absorption of the strawberry root system to the fertilizer.

The working principle of the technical scheme is as follows: filling the strawberry fertilizer into the strawberry fertilizer permeation cavity to form an ultrafine nano permeation containing structure; pressing and infiltrating the strawberry fertilizer into an ultramicro nano infiltration containing structure after nano grinding to form ultramicro infiltration fertilizer nanoparticles; nano-permeation grade step-by-step delivery is carried out according to the soil state of the strawberry root system part area, and the ultra-micro-permeation fertilization nanoparticles are delivered to the strawberry root system concentrated area through a water and fertilizer integrated machine and gradually released to the strawberry root system area along with the absorption of the strawberry root system to the fertilizer;

loading the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity; the shape of the ultra-micro nano permeation containment structure is transported and maintained through external pressure difference, and the ultra-micro permeation fertilization nano particles permeate; penetrating the ultra-micro penetration fertilizer nanoparticles to a strawberry root system concentrated area and a strawberry root system growth extension area; the external pressure difference transferring operation and maintenance is carried out by an intelligent module for the industrial operation and maintenance of the agricultural Internet of things through the external pressure difference transferring, and the intelligent adjustment of the pressure difference transferring intensity and the intelligent transferring guiding of the pressure difference transferring guiding direction are carried out.

The beneficial effects of the technical scheme are as follows: filling the strawberry fertilizer into the strawberry fertilizer permeation cavity to form an ultrafine nano permeation containing structure; pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles, carrying out nano infiltration level step by step delivery according to the soil state of the strawberry root system part region, delivering the ultrafine infiltration fertilizer nanoparticles to a strawberry root system concentrated region through a water and fertilizer integrated machine, and gradually releasing the ultrafine infiltration fertilizer nanoparticles to a strawberry root system region along with absorption of the strawberry root system to the fertilizer; loading the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity; the shape of the ultra-micro nano permeation containment structure is transported and maintained through external pressure difference, and the ultra-micro permeation fertilization nano particles permeate; penetrating the ultra-micro penetration fertilizer nanoparticles to a strawberry root system concentrated area and a strawberry root system growth extension area; the external pressure difference transferring operation and maintenance is carried out by an intelligent module of the agricultural Internet of things industry operation and maintenance through external pressure difference transferring, and the intelligent adjustment of the pressure difference transferring intensity and the intelligent transferring guiding of the pressure difference transferring guiding direction are carried out; can deliver strawberry fertilizer to the ultra-micro infiltration area of the strawberry root system area and the strawberry root system growth extension area.

In one embodiment, S200 comprises:

s201, a root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network is arranged, and multidimensional in-situ strawberry root system scanning detection is carried out;

s202, monitoring local root system distribution of a root growth area in a multi-dimensional manner through the root system in-situ detection and ultrasonic detection monitoring in a large area according to multi-dimensional in-situ strawberry root system scanning detection;

s203, tracking the concentrated areas of the strawberry root systems according to the local root system distribution of the root growth areas.

The working principle of the technical scheme is as follows: setting a root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network, and carrying out multidimensional in-situ strawberry root system scanning detection; according to multidimensional in-situ strawberry root system scanning detection, monitoring local root system distribution of a root system growing area through large-area in-situ detection and ultrasonic detection; tracking a strawberry root system concentrated area according to the local root system distribution of the root growth area;

through the multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network of the root system, the root growth area is respectively subjected to cross scanning within the scanning range of the in-situ detection ray network which is mutually intersected, reflected rays in the intersecting direction are distinguished by the frequency of the in-situ detection rays which are mutually intersected, and the multi-dimensional in-situ strawberry root system is subjected to gridding ultrasonic detection sensing detection.

The beneficial effects of the technical scheme are as follows: setting a root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network, and carrying out multidimensional in-situ strawberry root system scanning detection; according to multidimensional in-situ strawberry root system scanning detection, monitoring local root system distribution of a root system growing area through large-area in-situ detection and ultrasonic detection; tracking a strawberry root system concentrated area according to the local root system distribution of the root growth area; the root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network is used for respectively carrying out cross scanning on a root growth area in the scanning range of the in-situ detection ray network which is mutually intersected, the frequency of the in-situ detection rays which are mutually intersected has a specific frequency to distinguish reflected rays in the intersecting direction, and gridding ultrasonic detection sensing detection is carried out for carrying out multidimensional in-situ strawberry root system scanning detection; the spatial distribution of the accurate and rapid positioning of multiple strawberry root systems can be realized; the strawberry root system distribution detection is more accurate.

In one embodiment, S300 includes:

s301, acquiring a strawberry root system concentrated region growth fertilizer amount absorption model through strawberry root system concentrated region growth fertilizer amount absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer amount absorption model to an industrial analysis and prediction Internet of things platform;

S302, analyzing the concentrated areas of the strawberry industrial root systems in a concentrated manner through an industrial analysis and prediction Internet of things platform, and performing strawberry growth fertilizer amount prediction analysis;

s303, inputting the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicting a strawberry root system growth extension region, and carrying out strawberry yield industry trend analysis.

The working principle of the technical scheme is as follows: acquiring a strawberry root system concentrated region growth fertilizer amount absorption model through strawberry root system concentrated region growth fertilizer amount absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer amount absorption model to an industrial analysis and prediction Internet of things platform; the strawberry industry root system concentrated area is analyzed in a concentrated mode through an industry analysis and prediction Internet of things platform, and the strawberry growth fertilizer amount is predicted and analyzed; and inputting the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicting a strawberry root system growth extension region, and carrying out strawberry yield industry trend analysis.

The beneficial effects of the technical scheme are as follows: acquiring a strawberry root system concentrated region growth fertilizer amount absorption model through strawberry root system concentrated region growth fertilizer amount absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer amount absorption model to an industrial analysis and prediction Internet of things platform; the strawberry industry root system concentrated area is analyzed in a concentrated mode through an industry analysis and prediction Internet of things platform, and the strawberry growth fertilizer amount is predicted and analyzed; inputting the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicting a strawberry root system growth extension region, and carrying out strawberry yield industry trend analysis; the strawberry yield industry trend can be accurately analyzed and predicted.

In one embodiment, S400 includes:

s401, performing strawberry growth fertilizer amount prediction analysis and strawberry yield industry trend analysis through strawberry industry data collection;

s402, intelligent management of fertilizer amount of strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are carried out through an intelligent operation and maintenance module of the agricultural Internet of things industry;

s403, intelligent management of strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are automatically upgraded according to the incremental progress of strawberry industry service and the accumulation of strawberry industry service data, and the operation and maintenance incremental trend of the strawberry industry service of the agricultural Internet of things is accelerated.

The working principle of the technical scheme is as follows: the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis are carried out through strawberry industry data collection; the intelligent management of the fertilizer amount of the strawberry industry and the intelligent diagnosis and maintenance of remote equipment of the strawberry industry are carried out through an intelligent operation and maintenance module of the agricultural Internet of things industry; according to the incremental progress of strawberry industry service and the accumulation of strawberry industry service data, intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are automatically upgraded, and the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things is accelerated;

Calculating the ratio coefficient value of the activity and concentration of the ultra-micro permeation fertilization nano particles:

wherein NDWLcf represents an ultra-micro permeation fertilization nanoparticle activity to concentration ratio coefficient value, DHc represents debye-shock parameters, rfl represents a fertilizer solvent molecular weight, i represents an i-th component of a fertilizer solvent, li represents an i-th component ion charge number, zc represents a permeation process closest distance parameter, Q represents an ultra-micro permeation fertilization nanoparticle ion intensity, and ln represents a natural logarithm operation formula.

The beneficial effects of the technical scheme are as follows: the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis are carried out through strawberry industry data collection; the intelligent management of the fertilizer amount of the strawberry industry and the intelligent diagnosis and maintenance of remote equipment of the strawberry industry are carried out through an intelligent operation and maintenance module of the agricultural Internet of things industry; according to the incremental progress of strawberry industry service and the accumulation of strawberry industry service data, intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are automatically upgraded, and the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things is accelerated;

calculating the ratio coefficient value of the activity and concentration of the ultra-micro permeation fertilization nano particles: wherein NDWLcf represents an ultra-micro permeation fertilization nanoparticle activity to concentration ratio coefficient value, DHc represents debye-shock parameters, rfl represents a fertilizer solvent molecular weight, i represents an i-th component of a fertilizer solvent, li represents an i-th component ion charge number, zc represents a permeation process closest distance parameter, Q represents an ultra-micro permeation fertilization nanoparticle ion intensity, ln represents a natural logarithm operational formula; the effective concentration of the concentrated area of the strawberry root system can be higher and the efficacy of the strawberry fertilizer is more sufficient by calculating the ratio coefficient value of the activity and concentration of the ultra-micro-permeation fertilization nano particles.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. An agricultural internet of things strawberry industry service operation and maintenance system, comprising:

the ultra-micro infiltration fertilizer nano pressure infiltration system is used for pressing and infiltrating the strawberry fertilizer into the ultra-micro nano infiltration containing structure after nano grinding to form ultra-micro infiltration fertilizer nanoparticles, and delivering the ultra-micro infiltration fertilizer nanoparticles to the strawberry root system concentration area through the water and fertilizer integrated machine;

the system comprises a detection subsystem for a concentrated area of strawberry root systems, wherein local root system distribution of a root growth area is monitored through in-situ detection and ultrasonic detection of a large area, and the concentrated area of strawberry root systems is tracked;

the fertilizer quantity and yield analysis industry prediction subsystem is used for intensively analyzing a strawberry industry root system centralized area and rapidly predicting a strawberry root system growth extension area through an industry analysis and prediction internet of things platform, and performing strawberry growth fertilizer quantity prediction analysis and strawberry yield industry trend analysis;

The intelligent fertilization industry operation and maintenance subsystem is used for carrying out intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis through the agricultural Internet of things industry operation and maintenance intelligent module, and accelerating the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service.

2. The agricultural internet of things strawberry industry service operation and maintenance system of claim 1, wherein the ultra-micro permeation fertilization nano pressure permeation separation system comprises:

the ultra-micro infiltration fertilization nanoparticle system is filled with strawberry fertilizer by utilizing an ultra-micro nanoparticle strawberry fertilizer infiltration cavity to form an ultra-micro nano infiltration containing structure;

the nano-structure strawberry fertilizer infiltration subsystem is used for performing nano-grinding and then infiltration on the strawberry fertilizer to form an ultra-micro nano-infiltration fertilizer nanoparticle;

the combined nanometer permeation level region delivery subsystem carries out nanometer permeation level step by step according to the soil state of the strawberry root system region, and the ultra-micro permeation fertilization nanoparticles are delivered to the strawberry root system concentrated region through the water and fertilizer integrated machine and gradually released to the strawberry root system region along with the absorption of the strawberry root system to fertilizer.

3. The agricultural internet of things strawberry industry service operation and maintenance system of claim 1, wherein the strawberry root system centralized area detection subsystem comprises:

the multi-dimensional in-situ strawberry root system scanning subsystem is provided with a root system multi-dimensional in-situ ray detection and ultrasonic detection sensing detection network for carrying out multi-dimensional in-situ strawberry root system scanning detection;

the root system in-situ multidimensional monitoring subsystem monitors local root system distribution of a root growth area in a multidimensional manner through in-situ detection and ultrasonic detection of a large area according to multidimensional in-situ strawberry root system scanning detection;

and the root system area tracking subsystem is used for tracking the concentrated area of the strawberry root system according to the local root system distribution of the root growth area.

4. The agricultural internet of things strawberry industry service operation and maintenance system of claim 1, wherein the fertilizer yield analysis industry prediction subsystem comprises:

the growth fertilizer quantity absorption simulation subsystem acquires a growth fertilizer quantity absorption model of the strawberry root system concentrated region through growth fertilizer quantity absorption simulation training of the strawberry root system concentrated region, and transmits the growth fertilizer quantity absorption model of the strawberry root system concentrated region to an industrial analysis and prediction Internet of things platform;

The strawberry root system analysis subsystem of the Internet of things platform is used for carrying out industrial analysis and prediction on the strawberry growth fertilizer quantity through the industrial analysis and prediction of the strawberry industrial root system concentrated area by the Internet of things platform;

and the strawberry root system growth trend prediction subsystem inputs the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicts a strawberry root system growth extension region and performs strawberry yield industry trend analysis.

5. The agricultural internet of things strawberry industry service operation and maintenance system of claim 1, wherein the intelligent fertilization industry operation and maintenance subsystem comprises:

the industrial analysis data collection subsystem is used for carrying out strawberry growth fertilizer quantity prediction analysis and strawberry yield industrial trend analysis through strawberry industrial data collection;

the agricultural Internet of things intelligent operation and maintenance subsystem is used for carrying out intelligent management on the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance on remote equipment of the strawberry industry through an agricultural Internet of things industry operation and maintenance intelligent module;

and the intelligent subsystem for upgrading the industrial service automatically upgrades intelligent management of the fertilizer amount of the strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry according to incremental progress of the strawberry industry service and accumulation of the strawberry industry service data, and accelerates the trend of improving the operation and maintenance of the strawberry industry service of the agricultural Internet of things.

6. The utility model provides an agricultural internet of things strawberry industry service operation and maintenance method which is characterized by comprising the following steps:

s100, pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles, and delivering the ultrafine infiltration fertilizer nanoparticles to a strawberry root system concentrated region through a water and fertilizer integrated machine;

s200, monitoring local root system distribution of a rhizome growing area through large-area in-situ detection and ultrasonic detection, and tracking a strawberry root system concentrated area;

s300, the strawberry industry root system concentrated area is intensively analyzed and the strawberry root system growth extension area is rapidly predicted through the industry analysis and prediction Internet of things platform, and the strawberry growth fertilizer amount prediction analysis and the strawberry yield industry trend analysis are carried out;

s400, intelligent management of the strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are performed through an intelligent operation and maintenance module of the agricultural Internet of things industry according to the prediction analysis of the strawberry growth fertilizer amount and the analysis of the strawberry yield industry trend, and the operation and maintenance promotion trend of the agricultural Internet of things strawberry industry service is accelerated.

7. The method for operating and maintaining strawberry industry services for the internet of things according to claim 6, wherein S100 comprises:

S101, filling the strawberry fertilizer into an ultrafine nanoparticle strawberry fertilizer permeation cavity to form an ultrafine nanoparticle permeation containing structure;

s102, pressing and infiltrating the strawberry fertilizer into an ultrafine nano infiltration containing structure after nano grinding to form ultrafine infiltration fertilizer nanoparticles;

s103, carrying out nano-permeation level step-by-step delivery according to the soil state of the strawberry root system part area, delivering the ultra-micro-permeation fertilization nanoparticles to the strawberry root system concentrated area through the water and fertilizer integrated machine, and gradually releasing the ultra-micro-permeation fertilization nanoparticles to the strawberry root system area along with the absorption of the strawberry root system to the fertilizer.

8. The method for operating and maintaining strawberry industry services for the internet of things according to claim 6, wherein S200 comprises:

s201, a root system multidimensional in-situ ray detection and ultrasonic detection sensing detection network is arranged, and multidimensional in-situ strawberry root system scanning detection is carried out;

s202, monitoring local root system distribution of a root growth area in a multi-dimensional manner through the root system in-situ detection and ultrasonic detection monitoring in a large area according to multi-dimensional in-situ strawberry root system scanning detection;

s203, tracking the concentrated areas of the strawberry root systems according to the local root system distribution of the root growth areas.

9. The method for operating and maintaining strawberry industry services for the internet of things according to claim 6, wherein S300 comprises:

S301, acquiring a strawberry root system concentrated region growth fertilizer amount absorption model through strawberry root system concentrated region growth fertilizer amount absorption simulation training, and transmitting the strawberry root system concentrated region growth fertilizer amount absorption model to an industrial analysis and prediction Internet of things platform;

s302, analyzing the concentrated areas of the strawberry industrial root systems in a concentrated manner through an industrial analysis and prediction Internet of things platform, and performing strawberry growth fertilizer amount prediction analysis;

s303, inputting the strawberry growth fertilizer amount prediction analysis into a strawberry root system concentrated region growth fertilizer amount absorption model, rapidly predicting a strawberry root system growth extension region, and carrying out strawberry yield industry trend analysis.

10. The method for operating and maintaining strawberry industry services for the internet of things according to claim 6, wherein S400 comprises:

s401, performing strawberry growth fertilizer amount prediction analysis and strawberry yield industry trend analysis through strawberry industry data collection;

s402, intelligent management of fertilizer amount of strawberry industry and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are carried out through an intelligent operation and maintenance module of the agricultural Internet of things industry;

s403, intelligent management of strawberry industry fertilizer amount and intelligent diagnosis and maintenance of remote equipment of the strawberry industry are automatically upgraded according to the incremental progress of strawberry industry service and the accumulation of strawberry industry service data, and the operation and maintenance incremental trend of the strawberry industry service of the agricultural Internet of things is accelerated.

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