CN114723190B - Method and system for regulating and controlling flowering phase of Chinese rose in production and cultivation - Google Patents

Abstract

The invention discloses a method and a system for regulating and controlling the flowering phase of Chinese roses in production and cultivation. In addition, through artificial intervention and cultivation of the Chinese rose, natural loss of the Chinese rose in a long-distance transportation process can be reduced, economic loss of a supplier is reduced, and the effective utilization rate of the Chinese rose is improved.

Description

Method and system for regulating and controlling flowering phase of Chinese rose in production and cultivation

Technical Field

The invention relates to the field of flowering phase regulation, in particular to a method and a system for regulating the flowering phase of Chinese roses in production and cultivation.

Background

China, which is the native product of China, has a long cultivation history, and is called "queen in flower". The natural flowering is continuous, the color is bright, the fragrance is strong, the flowering period is long, and the adaptability is wide, so that the method is one of the most important cut flowers and pot flowers in the world. The ornamental plants can be opened at regular time outside the natural florescence according to the wishes of people by using special cultivation techniques, and the cultivation measures are called florescence control. The factors of nutrient accumulation, flower bud differentiation, formation and development conditions of flower organs, dormancy, flowering environment and the like play a decisive role in the flowering of ornamental plants. The measures of temperature treatment, illumination regulation and control, water and fertilizer control, hormone regulation, cultivation technical treatment and the like are main technical measures for controlling the flowering phase of ornamental plants. The flowering type of the ornamental plants during the festival can be increased by applying the flowering period control technology; the flowering phase is prolonged, the demand of people on flower consumption is met, the commodity value of ornamental plant production can be improved, and the method has very important significance for adjusting the industrial structure and increasing the income of growers.

In addition, it has become one of the means commonly used in practical production to control the flowering time of ornamental plants by various techniques so that the flowering time is concentrated around a certain holiday, thereby increasing the commercial value of the plants. In recent years, the florescence control has been regarded as a core technology for ornamental plant management, and it is not exaggeratedly said that who grasps the florescence control technology will win customers and finally occupy the ornamental plant market.

However, in the actual cultivation of Chinese roses, different demand parties often have different requirements, for example, in some parks doing some large-scale activities, flowers which can be enjoyed need to be provided within a certain time, but the flowering time of naturally-growing flowers is often short, and after the flowers wither, certain influence is brought to the ornamental value of the flowers. For another example, in some activities which are promoted in a warehouse, it is necessary to provide flowering rose flowers for use in the activities in a short period, and at this time, it is important to reasonably regulate the flowering phase of the rose. In addition, in the transportation process of the Chinese rose, the transportation time and the transportation conditions are limited, the flowering effect of the Chinese rose is not ideal, and both the supply and demand sides of the Chinese rose suffer certain economic losses. Therefore, a method for reasonably regulating the flowering phase of the Chinese rose is urgently needed.

Disclosure of Invention

In order to solve at least one technical problem, the invention provides a method and a system for regulating and controlling the flowering phase of Chinese roses in production and cultivation.

The invention provides a method for regulating and controlling the flowering phase of Chinese roses in production and cultivation, which comprises the following steps:

acquiring original data information of Chinese rose flowerpot cultivation;

performing calculation analysis according to the Chinese rose potting original data information to obtain Chinese rose potting data information;

acquiring demand information of Chinese rose flowers, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot cultivation by combining the Chinese rose flower pot cultivation data information;

obtaining a cultivation correction index according to the monthly rose potting prediction data information and the monthly rose flowerpot cultivation data information, and correcting the cultivation environment and regulating and controlling the flowering phase according to the correction index;

sending the Chinese rose potting prediction data information to preset terminal equipment;

the acquiring of the demand information of the Chinese rose, the calculating and analyzing of the forecast data information of the Chinese rose flowerpot by combining the data information of the Chinese rose flowerpot cultivation, and the method further comprises the following steps:

acquiring demand information of the Chinese rose and place information of a Chinese rose supplier;

calculating the transportation time interval of the Chinese roses according to the Chinese rose demand location information and the Chinese rose supplier location information;

obtaining soil humidity information and branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut growth state information, branch and leaf state information and cultivation environment information;

analyzing to obtain the rose soil humidity correction information and the branch and leaf correction information according to the rose transportation time interval;

and carrying out data combination on the Chinese rose soil humidity correction information and the branch and leaf correction information to obtain Chinese rose transportation correction information, and sending the Chinese rose transportation correction information to preset terminal equipment.

In this scheme, the obtaining of the original data information of the Chinese rose flowerpot cultivation specifically comprises:

acquiring color image information and environmental information of the Chinese rose potted plant;

obtaining the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots and stems through data analysis according to the color image information;

and performing data arrangement on the characteristic value of the Chinese rose petals, the characteristic value of the Chinese rose roots and stems and the environmental information to obtain the original data information of the Chinese rose flowerpot planting.

In the scheme, the calculation analysis is carried out according to the Chinese rose potting original data information to obtain the Chinese rose potting data information, and the method specifically comprises the following steps:

carrying out data analysis on the original data information of the Chinese rose flowerpot cultivation to obtain a Chinese rose peanut length characteristic value and a branch and leaf characteristic value;

acquiring a characteristic value of growth of each flowering phase of the Chinese rose from big data, and analyzing and comparing the characteristic value of growth of each flowering phase, the characteristic value of growth of the Chinese rose and the characteristic values of the length of the Chinese rose and the characteristic values of branches and leaves to obtain the information of the length of the Chinese rose and the information of the states of the branches and leaves;

according to the growth state information and the branch and leaf state information of the Chinese rose peanuts and the environment information, obtaining the Chinese rose flowerpot growth prediction information;

and performing data arrangement on the Chinese rose peanut length state information, the branch and leaf state information, the environment information and the Chinese rose flowerpot growth prediction information to obtain Chinese rose flowerpot data information.

In the scheme, the demand information of the Chinese rose is acquired, and the prediction data information of the Chinese rose flowerpot is obtained through calculation and analysis by combining the data information of the Chinese rose flowerpot, and the method specifically comprises the following steps:

acquiring the demand place information of the Chinese rose;

according to the information of the demand places, retrieval and analysis are carried out from the Internet to obtain the current temperature, humidity, illumination time and rainfall environment data of the demand places;

acquiring historical meteorological data of a demand place from big data, and performing data prediction analysis on the historical meteorological data to obtain future environmental data of the demand place;

and combining the future environmental data with the environmental data to obtain secondary environmental data.

In this scheme, the acquiring demand information of Chinese rose, combining the data information of Chinese rose flowerpot cultivation, calculating and analyzing to obtain the forecast data information of Chinese rose flowerpot cultivation further comprises:

acquiring the requirement time and the requirement quantity of the Chinese rose;

performing data arrangement on the China rose demand time, the China rose demand, the secondary environmental data and the China rose potting data information to obtain potting prediction model parameters;

building a Chinese rose potting prediction model, and importing parameters of the potting prediction model into the Chinese rose flowerpot prediction model for data prediction to obtain the prediction duration of the Chinese rose and the prediction potting number of the Chinese rose;

and performing data arrangement on the predicted duration time of the Chinese rose and the predicted potted quantity of the Chinese rose to obtain predicted data information of the Chinese rose pot planting.

In the scheme, the cultivation correction index is obtained according to the Chinese rose potting prediction data information and the Chinese rose flowerpot cultivation data information, and cultivation environment correction and flowering phase regulation and control are performed according to the correction index, and the method specifically comprises the following steps:

acquiring secondary environmental data and Chinese rose potting data information;

calculating and analyzing to obtain the illumination prediction data of the demand place and the humidity prediction data of the demand place according to the secondary environmental data;

acquiring Chinese rose peanut length state information and environment information in current Chinese rose potted plant data information, and combining the demand place illumination prediction data and the demand place humidity prediction data to obtain an illumination correction index and a humidity correction index;

and sending the illumination correction index and the humidity correction index to a preset terminal device, and performing cultivation environment correction and flowering phase regulation and control on the Chinese rose potted plant according to the illumination correction index and the humidity correction index.

The second aspect of the present invention also provides a system for regulating the flowering phase of Chinese roses in production and cultivation, comprising: the system comprises a memory and a processor, wherein the memory comprises a rose florescence regulation method program in production cultivation, and the rose florescence regulation method program in production cultivation realizes the following steps when being executed by the processor:

acquiring original data information of Chinese rose flowerpot cultivation;

performing calculation analysis according to the Chinese rose potting original data information to obtain Chinese rose potting data information;

acquiring demand information of the Chinese rose flowers, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot cultivation by combining the Chinese rose flower pot cultivation data information;

obtaining a cultivation correction index according to the monthly rose potting prediction data information and the monthly rose flowerpot cultivation data information, and correcting the cultivation environment and regulating and controlling the flowering phase according to the correction index;

and sending the Chinese rose potting prediction data information to preset terminal equipment.

In the scheme, the calculation analysis is performed according to the Chinese rose potting original data information to obtain Chinese rose potting data information, and the method specifically comprises the following steps:

carrying out data analysis on the original data information of the Chinese rose flowerpot cultivation to obtain a Chinese rose peanut length characteristic value and a branch and leaf characteristic value;

acquiring a characteristic value of growth of each flowering phase of the Chinese rose from big data, and analyzing and comparing the characteristic value of growth of each flowering phase, the characteristic value of growth of the Chinese rose and the characteristic values of the length of the Chinese rose and the characteristic values of branches and leaves to obtain the information of the length of the Chinese rose and the information of the states of the branches and leaves;

according to the growth state information and the branch and leaf state information of the Chinese roses, the environment information is combined to obtain the growth prediction information of the Chinese roses planted in the flowerpot;

and performing data arrangement on the Chinese rose peanut growth state information, the branch and leaf state information, the environment information and the Chinese rose flowerpot growth prediction information to obtain Chinese rose flowerpot data information.

In the scheme, the demand information of the Chinese rose is acquired, and the prediction data information of the Chinese rose flowerpot is obtained through calculation and analysis by combining the data information of the Chinese rose flowerpot, and the method specifically comprises the following steps:

acquiring the demand place information of the Chinese rose;

according to the information of the demand place, retrieval and analysis are carried out from the Internet to obtain the current environmental data of the temperature, the humidity, the illumination time and the rainfall of the demand place;

acquiring historical meteorological data of a demand place from big data, and performing data prediction analysis on the historical meteorological data to obtain future environmental data of the demand place;

and combining the future environmental data with the environmental data to obtain secondary environmental data.

In this scheme, the acquiring demand information of Chinese rose, combining the data information of Chinese rose flowerpot cultivation, calculating and analyzing to obtain the forecast data information of Chinese rose flowerpot cultivation further comprises:

acquiring the requirement time and the requirement quantity of the Chinese rose;

performing data sorting on the China rose demand time, the China rose demand, the secondary environmental data and the China rose potting data information to obtain potting prediction model parameters;

building a Chinese rose potting prediction model, and importing parameters of the potting prediction model into the Chinese rose flowerpot prediction model for data prediction to obtain the Chinese rose prediction duration and the Chinese rose prediction potting number;

and performing data arrangement on the predicted duration time of the Chinese rose and the predicted potted quantity of the Chinese rose to obtain predicted data information of the Chinese rose pot planting.

The invention discloses a method and a system for regulating and controlling the flowering phase of Chinese roses in production and cultivation. In addition, through artificial intervention and cultivation of the Chinese rose, natural loss of the Chinese rose in a long-distance transportation process can be reduced, economic loss of a supplier is reduced, and the effective utilization rate of the Chinese rose is improved.

Drawings

FIG. 1 is a flow chart showing a method for regulating the flowering phase of Chinese rose in production and cultivation according to the present invention;

FIG. 2 is a flow chart illustrating the process of acquiring data information of Chinese rose flower pot cultivation according to the present invention;

FIG. 3 is a flowchart illustrating a method for acquiring predicted data information of flower cultivation of Chinese rose according to the present invention;

FIG. 4 is a block diagram of a system for regulating the flowering phase of Chinese rose in production and cultivation according to the present invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention, taken in conjunction with the accompanying drawings and detailed description, is set forth below. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

FIG. 1 shows a flow chart of a method for regulating the flowering phase of Chinese rose in production and cultivation according to the present invention.

As shown in fig. 1, the first aspect of the present invention provides a method for regulating the flowering phase of rose in production and cultivation, comprising:

s102, acquiring original data information of Chinese rose flowerpot planting;

s104, performing calculation analysis according to the original data information of the Chinese rose potting to obtain Chinese rose potting data information;

s106, acquiring requirement information of the Chinese rose flowers, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot planting according to the Chinese rose flower pot planting data information;

s108, obtaining a cultivation correction index according to the Chinese rose potting prediction data information and the Chinese rose flowerpot cultivation data information, and correcting the cultivation environment and regulating and controlling the flowering phase according to the correction index;

and S110, sending the Chinese rose potting prediction data information to preset terminal equipment.

According to the embodiment of the invention, the obtaining of the original data information of the potted China rose specifically comprises the following steps:

acquiring color image information and environmental information of the Chinese rose potted plant;

obtaining the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots and stems through data analysis according to the color image information;

and performing data arrangement on the characteristic value of the Chinese rose petals, the characteristic value of the Chinese rose roots and stems and the environmental information to obtain the original data information of the Chinese rose flowerpot planting.

The environmental information is the environmental information of the current cultivated potted China rose, and the environmental information includes, but is not limited to, the temperature, soil humidity, fertilizing concentration, illumination conditions, and the like during cultivation. The obtained characteristic values of the petals and the roots and stems of the Chinese rose are beneficial to analyzing the growth state information and the branch and leaf state information of the Chinese rose in the subsequent data analysis process. In addition, the Chinese rose flowerpot plants generally have a plurality of batches, the growth conditions of the Chinese rose potted plants in the same batch are approximately the same as the environmental information, and the original data information of the Chinese rose flowerpot plants also comprises the quantity information of the Chinese rose flowers in different batches.

Fig. 2 shows a flow chart for acquiring data information of Chinese rose flower pot cultivation according to the invention.

According to the embodiment of the invention, the Chinese rose potting data information is obtained by performing calculation analysis according to the Chinese rose potting original data information, and the method specifically comprises the following steps:

s202, carrying out data analysis on the original data information of the Chinese rose flowerpot cultivation to obtain a Chinese rose peanut length characteristic value and a branch and leaf characteristic value;

s204, acquiring characteristic values of growth of the Chinese rose flowers in each flowering phase from big data, and analyzing and comparing the characteristic values of growth of the Chinese rose flowers in each flowering phase, the characteristic values of growth of the Chinese rose flowers in each flowering phase and the characteristic values of growth of the Chinese rose flowers and the characteristic values of growth of branches and leaves to obtain information of growth states of the Chinese rose flowers and the information of the states of the branches and leaves;

s206, obtaining monthly rose flower pot growth prediction information by combining environmental information according to the monthly rose peanut growth state information and the branch and leaf state information;

and S208, performing data arrangement on the Chinese rose peanut growth state information, the branch and leaf state information, the environment information and the Chinese rose flowerpot growth prediction information to obtain Chinese rose flowerpot data information.

The characteristic value of the length of the Chinese rose is obtained by comprehensively analyzing the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots in the original data information of the flowers. The growth state information comprises information such as the current flowering phase and the current growth condition of the Chinese rose, and the branch and leaf state information comprises information of dead branches, the number of insect-infected branches and branch and leaf trimming information of the Chinese rose. The Chinese rose potting growth prediction information comprises the start time, the end time and the duration of the flowering prediction of the Chinese rose in different batches.

According to the embodiment of the invention, the obtaining of the demand information of the Chinese rose and the calculation and analysis of the Chinese rose flower pot cultivation data information are combined to obtain the Chinese rose flower pot cultivation prediction data information, and specifically the method comprises the following steps:

acquiring demand place information of the Chinese rose;

according to the information of the demand place, retrieval and analysis are carried out from the Internet to obtain the current environmental data of the temperature, the humidity, the illumination time and the rainfall of the demand place;

acquiring historical meteorological data of a demand place from big data, and performing data prediction analysis on the historical meteorological data to obtain future environmental data of the demand place;

and combining the future environmental data with the environmental data to obtain secondary environmental data.

It should be noted that the demand location is generally a designated area, and since the growth and flowering of the chinese rose are influenced by the environment such as temperature, humidity, illumination time, rainfall and the like, the current environmental data and the future environmental data of the demand location are acquired to facilitate the subsequent prediction and analysis of the flowering duration of the chinese rose. In the step of acquiring the historical meteorological data of the demand site from the big data, the system comprehensively analyzes and predicts the future environmental data of the demand site according to the existing historical meteorological data and the environmental data of the current demand site, wherein the future environmental data is the environmental data within 15 days in the future generally.

FIG. 3 shows a flow chart of acquiring forecast data information of Chinese rose flower pot cultivation according to the present invention.

According to the embodiment of the invention, the acquiring demand information of Chinese rose and the calculating and analyzing combined data information of Chinese rose flowerpot cultivation to obtain the predicted data information of Chinese rose flowerpot cultivation further comprises:

s302, acquiring the time and the quantity required by the Chinese roses;

s304, performing data arrangement on the China rose demand time, the China rose demand, the secondary environmental data and the China rose potting data information to obtain potting prediction model parameters;

s306, constructing a Chinese rose potting prediction model, and importing parameters of the potting prediction model into the Chinese rose flowerpot prediction model for data prediction to obtain the prediction duration of the Chinese rose and the prediction potting number of the Chinese rose;

and S308, performing data arrangement on the predicted duration time of the Chinese rose and the predicted potted quantity of the Chinese rose to obtain predicted data information of the Chinese rose pot planting.

The required time of the chinese roses includes a start time and an end time of supply of the chinese roses, a start time and an end time of flowering of the chinese roses, and the required amount of the chinese roses is the required supply amount of the chinese roses. The predicted duration of the roses includes a predicted flowering start time, end time and duration of the roses. The predicted potted number of the Chinese rose flowers is the required number of each Chinese rose flower batch. The monthly rose flower pot cultivation prediction data information is obtained through calculation and analysis, the monthly rose flowers can be more accurately provided for a monthly rose flower demand party, and better monthly rose flower flowering time can be obtained so as to meet the appreciation demand of the demand party.

It is worth mentioning that different consumers may require different supply times and flowering durations of the roses, and if the consumers require supply of roses in a short period of time, a batch of roses close to flowering is provided. In addition, the monthly rose flowerpot prediction model automatically sequences the predicted flowering time of the monthly roses of each batch before data prediction, so that proper monthly rose batches are selected before and after the predicted flowering time of the monthly roses in data prediction analysis.

According to the embodiment of the invention, the building of the Chinese rose potting prediction model, and the data prediction by importing the parameters of the potting prediction model into the Chinese rose flowerpot prediction model to obtain the Chinese rose prediction duration and the Chinese rose prediction potting number further comprise:

calculating the difference between the start time and the end time of flowering in the required time of the Chinese rose to obtain the required duration time difference;

comparing the predicted duration of the China rose with the required duration;

if the predicted duration of the Chinese rose is less than the required duration difference, calculating the difference between the required duration difference and the predicted duration of the Chinese rose to obtain a secondary difference;

if the secondary difference is larger than the preset difference, performing data sorting on the secondary difference, the China rose demand, the secondary environmental data and the China rose potting data information to obtain a secondary potting prediction model parameter;

importing the potting prediction model parameters into a Chinese rose flowerpot prediction model for data prediction to obtain the second Chinese rose prediction duration and the second Chinese rose prediction potting number;

in some cases, the time interval between the start time and the end time of flowering in the time required for the chinese roses is long, for example, 10 days or more, and the single flower of the chinese roses is generally opened for about sixty-seven days, and in this case, if only one set of the chinese rose pot plants is provided, a long open window period exists after the first set of the chinese rose pot plants are withered, and thus the alternate supply of the chinese roses can be realized by providing the second set of the chinese rose pot plants, and the long time of the demand for the chinese roses can be realized. The second China rose prediction potting number comprises a second selected China rose flowerpot batch and a corresponding number, and the second selected China rose potting batch is selected by excluding the first selected China rose potting batch.

According to the embodiment of the invention, the cultivation correction index is obtained according to the monthly rose potting prediction data information and the monthly rose pot cultivation data information, and cultivation environment correction and flowering phase regulation are carried out according to the correction index, specifically:

acquiring secondary environmental data and Chinese rose potting data information;

calculating and analyzing to obtain the illumination prediction data of the demand place and the humidity prediction data of the demand place according to the secondary environmental data;

acquiring Chinese rose peanut length state information and environment information in current Chinese rose potted plant data information, and combining the demand place illumination prediction data and the demand place humidity prediction data to obtain an illumination correction index and a humidity correction index;

and sending the illumination correction index and the humidity correction index to a preset terminal device, and performing cultivation environment correction and flowering phase regulation and control on the Chinese rose pot plant according to the illumination correction index and the humidity correction index.

It should be noted that, since there is a possibility that the cultivation environment of the current chinese rose planting site and the cultivation environment of the demand site are greatly different, the cultivation environment needs to be modified before the supply of chinese rose flowerpot planting to achieve the purpose of regulating the flowering phase, so that the chinese rose can grow and flower in the demand site within the predicted time. The correction index includes a light correction index and a humidity correction index. The demand site illumination prediction data comprises current illumination environment data and predicted future illumination environment data of the demand site, and the demand site humidity prediction data comprises current humidity environment data and predicted future humidity environment data of the demand site. The environmental information comprises illumination data, environmental humidity data and soil humidity data of the current Chinese rose potting cultivation. The cultivation environment of the potted Chinese rose is corrected according to the illumination correction index and the humidity correction index, and the purpose of regulating and controlling the flowering phase can be achieved. For example, if the light intensity of the demand site is greater than the light intensity of the current chinese rose potting culture, a moderate shading treatment of the chinese rose potting can be performed to prevent the chinese rose potting from blooming in advance after being transported to the demand site.

According to the embodiment of the invention, the sending of the Chinese rose potting prediction data information to the preset terminal equipment specifically comprises the following steps:

the information of the Chinese rose potting prediction data comprises the Chinese rose prediction duration and the Chinese rose prediction potting number, and the preset terminal device comprises a mobile terminal device and a computer terminal device.

It should be noted that after the information of the predicted data of the potted rosa chinensis flowers is sent to the preset terminal device, the provider of the potted rosa chinensis flowers performs the arrangement of the potted rosa chinensis flowers according to the predicted potted rosa chinensis flower number in the information of the predicted data of the potted rosa chinensis flowers, in one supply of the potted rosa chinensis flowers, the number of the potted rosa chinensis flowers in one batch is often insufficient, and the system selects a plurality of most suitable batches for delivery and supply according to the information of the demand of the rosa chinensis flowers.

According to the embodiment of the invention, the acquiring demand information of Chinese rose and the calculating and analyzing combined data information of Chinese rose flowerpot cultivation to obtain the predicted data information of Chinese rose flowerpot cultivation further comprises:

acquiring demand information of the China rose and place information of a China rose supplier;

calculating the transportation time interval of the Chinese roses according to the Chinese rose demand location information and the Chinese rose supplier location information;

obtaining soil humidity information and branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut growth state information, branch and leaf state information and cultivation environment information;

analyzing to obtain the rose soil humidity correction information and the branch and leaf correction information according to the rose transportation time interval;

and carrying out data combination on the China rose soil humidity correction information and the branch and leaf correction information to obtain China rose transportation correction information, and sending the China rose transportation correction information to a preset terminal device.

In the transportation process of some Chinese roses, because the distance between a Chinese rose supplier and a demand place is longer, the transportation time interval of the Chinese roses is also longer, the Chinese roses are easy to wither in advance in the transportation process, and the condition can be reduced by a manual advance intervention cultivation method. In the step of obtaining the soil humidity information and the branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut length state information, the branch and leaf state information and the cultivation environment information, the branch and leaf trimming information comprises the current to-be-trimmed distance value of the Chinese rose flower, and the branch and leaf state information comprises dead branches, pest branch number information and branch and leaf trimming information of the Chinese rose flower. Because the flower bud differentiation of the Chinese rose belongs to a multi-differentiation type, the lateral bud can continuously develop and form a flower bud for multiple times, which is also the main reason that the Chinese rose can continuously bloom, the lateral bud can quickly complete the conversion from vegetative growth to reproductive growth by stimulating the germination of the lateral bud by technical means of timely and moderate pruning and the like, thereby achieving the purpose of blooming and flower filling. In addition, the final flowering performance of the chinese rose flowers is affected during transportation because the chinese rose flowers cannot be effectively supplemented with water. Under the condition that the transportation time interval is long, the humidity in the soil humidity information of the Chinese rose flowers is increased and controlled, meanwhile, the quantity of dead branches and insect-disease branches is increased and cut off in the branch and leaf correction information, so that the flowers are prevented from forming fruits and consuming nutrition, and the purpose of controlling the flowering time is finally achieved.

FIG. 4 is a block diagram of a system for regulating the flowering phase of Chinese rose in production and cultivation according to the present invention.

The second aspect of the present invention also provides a system 4 for regulating the flowering phase of roses in production and cultivation, comprising: a memory 41 and a processor 42, wherein the memory includes a program of the method for regulating the flowering phase of the rose in production cultivation, and the program of the method for regulating the flowering phase of the rose in production cultivation realizes the following steps when executed by the processor:

acquiring original data information of Chinese rose flowerpot cultivation;

performing calculation analysis according to the Chinese rose potting original data information to obtain Chinese rose potting data information;

acquiring demand information of Chinese rose flowers, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot cultivation by combining the Chinese rose flower pot cultivation data information;

obtaining a cultivation correction index according to the monthly rose potting prediction data information and the monthly rose flowerpot cultivation data information, and correcting the cultivation environment and regulating and controlling the flowering phase according to the correction index;

and sending the Chinese rose potting prediction data information to preset terminal equipment.

According to the embodiment of the invention, the obtaining of the original data information of the potted China rose specifically comprises the following steps:

acquiring color image information and environmental information of the Chinese rose potted plant;

obtaining the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots and stems through data analysis according to the color image information;

and performing data arrangement on the characteristic value of the Chinese rose petals, the characteristic value of the Chinese rose roots and stems and the environmental information to obtain the original data information of the Chinese rose flowerpot planting.

The environmental information is the environmental information of the current cultivated potted China rose, and the environmental information includes, but is not limited to, the temperature, soil humidity, fertilizing concentration, illumination conditions, and the like during cultivation. The obtained characteristic values of the petals and the roots and stems of the Chinese rose are beneficial to analyzing the growth state information and the branch and leaf state information of the Chinese rose in the subsequent data analysis process. In addition, the Chinese rose flowerpot plants generally have a plurality of batches, the growth conditions of the Chinese rose potted plants in the same batch are approximately the same as the environmental information, and the original data information of the Chinese rose flowerpot plants also comprises the quantity information of the Chinese rose flowers in different batches.

According to the embodiment of the invention, the Chinese rose potting data information is obtained by performing calculation analysis according to the Chinese rose potting original data information, and the method specifically comprises the following steps:

carrying out data analysis on the original data information of the Chinese rose flowerpot cultivation to obtain a Chinese rose peanut length characteristic value and a branch and leaf characteristic value;

acquiring characteristic values of the growth of the Chinese roses in each flowering phase from big data, and analyzing and comparing the characteristic values of the growth of the Chinese roses in each flowering phase, the characteristic values of the growth of the Chinese roses in each flowering phase and the characteristic values of the growth of the Chinese roses and the characteristic values of the growth of the branches and leaves to obtain the information of the growth state of the Chinese roses and the information of the states of the branches and leaves;

according to the growth state information and the branch and leaf state information of the Chinese roses, the environment information is combined to obtain the growth prediction information of the Chinese roses planted in the flowerpot;

and performing data arrangement on the Chinese rose peanut growth state information, the branch and leaf state information, the environment information and the Chinese rose flowerpot growth prediction information to obtain Chinese rose flowerpot data information.

The characteristic value of the length of the Chinese rose is obtained by comprehensively analyzing the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots in the original data information of the flowers. The growth state information comprises information such as the current flowering phase and the current growth condition of the Chinese rose, and the branch and leaf state information comprises information of dead branches, the number of insect-infected branches and branch and leaf trimming information of the Chinese rose. The Chinese rose potting growth prediction information comprises the start time, the end time and the duration of the flowering prediction of the Chinese rose in different batches.

According to the embodiment of the invention, the obtaining of the demand information of the Chinese rose and the calculation and analysis of the Chinese rose flower pot cultivation data information are combined to obtain the Chinese rose flower pot cultivation prediction data information, and specifically the method comprises the following steps:

acquiring demand place information of the Chinese rose;

according to the information of the demand place, retrieval and analysis are carried out from the Internet to obtain the current environmental data of the temperature, the humidity, the illumination time and the rainfall of the demand place;

acquiring historical meteorological data of a demand place from big data, and performing data prediction analysis on the historical meteorological data to obtain future environmental data of the demand place;

and combining the future environmental data with the environmental data to obtain secondary environmental data.

It should be noted that the demand location is generally a designated area, and since the growth and flowering of the Chinese rose are influenced by the environment such as temperature, humidity, illumination time, rainfall and the like, the current environmental data and the future environmental data of the demand location are acquired, which is helpful for the subsequent prediction and analysis of the flowering duration of the Chinese rose. In the step of acquiring the historical meteorological data of the demand site from the big data, the system comprehensively analyzes and predicts the future environmental data of the demand site according to the existing historical meteorological data and the environmental data of the current demand site, wherein the future environmental data is the environmental data within 15 days in the future.

According to the embodiment of the invention, the acquiring of the demand information of the Chinese rose and the calculation and analysis of the Chinese rose flowerpot planting data information are combined to obtain the prediction data information of the Chinese rose flowerpot planting, and the method further comprises the following steps:

acquiring the required time and the required amount of the Chinese rose;

performing data sorting on the China rose demand time, the China rose demand, the secondary environmental data and the China rose potting data information to obtain potting prediction model parameters;

building a Chinese rose potting prediction model, and importing parameters of the potting prediction model into the Chinese rose flowerpot prediction model for data prediction to obtain the prediction duration of the Chinese rose and the prediction potting number of the Chinese rose;

and performing data arrangement on the predicted duration time of the Chinese rose and the predicted potted quantity of the Chinese rose to obtain predicted data information of the Chinese rose pot planting.

The required time of the chinese rose includes a start time and an end time of supply of the chinese rose, a start time and an end time of flowering of the chinese rose, and the required amount of the chinese rose is a required supply amount of the chinese rose. The predicted duration of the roses includes a predicted flowering start time, end time and duration of the roses. The predicted potted number of the Chinese rose flowers is the required number of each Chinese rose flower batch. The Chinese rose flower pot cultivation prediction data information is obtained through calculation and analysis, Chinese rose flowers can be more accurately provided for a Chinese rose flower demand side, and better Chinese rose flower blooming time can be obtained so as to meet the flower appreciation demand of the demand side.

It is worth mentioning that the supply time and the flowering duration of the roses are different for different consumers, and if the consumers require supply of roses in a short period, a batch of roses close to flowering is provided. In addition, the predicted flowering time of each batch of the chinese roses is automatically sorted by the model for predicting chinese rose pot growth before data prediction is performed, so that an appropriate batch of the chinese roses is selected before and after the predicted flowering time of the chinese roses in the data prediction analysis.

According to the embodiment of the invention, the building of the Chinese rose potting prediction model, and the data prediction by importing the parameters of the potting prediction model into the Chinese rose flowerpot prediction model to obtain the Chinese rose prediction duration and the Chinese rose prediction potting number further comprise:

calculating the difference between the start time and the end time of flowering in the required time of the Chinese rose to obtain the required duration time difference;

comparing the predicted duration of the China rose with the required duration;

if the predicted duration of the Chinese rose is less than the required duration difference, calculating the difference between the required duration difference and the predicted duration of the Chinese rose to obtain a secondary difference;

if the secondary difference is larger than the preset difference, performing data sorting on the secondary difference, the China rose demand, the secondary environmental data and the China rose potting data information to obtain a secondary potting prediction model parameter;

importing the potting prediction model parameters into a Chinese rose flowerpot prediction model for data prediction to obtain the second Chinese rose prediction duration and the second Chinese rose prediction potting number;

in some cases, the time interval between the start time and the end time of flowering in the required time of the chinese roses is long, for example, 10 days or more, and since the single flower of the chinese roses is generally opened for about sixty-seven days, if only one set of the chinese roses is supplied and a long open window period is present after the first set of the chinese rose pot plants are withered, the alternate supply of the chinese roses can be realized by supplying the second set of the chinese rose pot plants at this time, thereby realizing the long time demand for the supply of the chinese roses. The second China rose prediction potting number comprises a second selected China rose flowerpot batch and a corresponding number, and the second selected China rose potting batch is selected by excluding the first selected China rose potting batch.

According to the embodiment of the invention, the cultivation correction index is obtained according to the monthly rose potting prediction data information and the monthly rose pot cultivation data information, and cultivation environment correction and flowering phase regulation are carried out according to the correction index, specifically:

acquiring secondary environmental data and Chinese rose potting data information;

calculating and analyzing to obtain demand place illumination prediction data and demand place humidity prediction data according to the secondary environmental data;

acquiring Chinese rose peanut length state information and environment information in current Chinese rose potted plant data information, and combining the demand place illumination prediction data and the demand place humidity prediction data to obtain an illumination correction index and a humidity correction index;

and sending the illumination correction index and the humidity correction index to a preset terminal device, and performing cultivation environment correction and flowering phase regulation and control on the Chinese rose potted plant according to the illumination correction index and the humidity correction index.

In addition, since there may be a large difference between the current cultivation environment of the chinese rose planting site and the cultivation environment of the demand site, the cultivation environment needs to be modified to adjust the flowering time before the supply of the chinese rose pot plants, so that the chinese rose can grow and flower in the demand site within the predicted time. The correction index includes a light correction index and a humidity correction index. The demand site illumination prediction data comprises current illumination environment data and predicted future illumination environment data of the demand site, and the demand site humidity prediction data comprises current humidity environment data and predicted future humidity environment data of the demand site. The environmental information comprises illumination data, environmental humidity data and soil humidity data of the current Chinese rose potting cultivation. The cultivation environment of the potted China rose is corrected according to the illumination correction index and the humidity correction index, and the purpose of regulating and controlling the flowering phase can be achieved. For example, if the light intensity of the demand site is greater than the light intensity of the current chinese rose potting culture, a moderate shading treatment of the chinese rose potting can be performed to prevent the chinese rose potting from blooming in advance after being transported to the demand site.

According to the embodiment of the invention, the sending of the Chinese rose potting prediction data information to the preset terminal equipment specifically comprises the following steps:

the information of the Chinese rose potting prediction data comprises the Chinese rose prediction duration and the Chinese rose prediction potting number, and the preset terminal device comprises a mobile terminal device and a computer terminal device.

It should be noted that, after the predicted data information of the chinese rose flower pot cultivation is sent to the preset terminal device, the chinese rose flower provider performs the chinese rose flower pot cultivation arrangement according to the predicted potted number of the chinese rose flowers in the predicted data information of the chinese rose flower pot cultivation, and in one supply of the chinese rose flowers, the number of the chinese rose flowers in one batch is often insufficient, and the system selects a plurality of most suitable batches for the supply of the supplies by delivery according to the demand information of the chinese rose flowers.

According to the embodiment of the invention, the acquiring demand information of Chinese rose and the calculating and analyzing combined data information of Chinese rose flowerpot cultivation to obtain the predicted data information of Chinese rose flowerpot cultivation further comprises:

acquiring demand information of the Chinese rose and place information of a Chinese rose supplier;

calculating the transportation time interval of the Chinese roses according to the Chinese rose demand location information and the Chinese rose supplier location information;

obtaining soil humidity information and branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut growth state information, branch and leaf state information and cultivation environment information;

analyzing to obtain the rose soil humidity correction information and the branch and leaf correction information according to the rose transportation time interval;

and carrying out data combination on the China rose soil humidity correction information and the branch and leaf correction information to obtain China rose transportation correction information, and sending the China rose transportation correction information to a preset terminal device.

In the transportation process of some Chinese roses, because the distance between a Chinese rose supplier and a demand place is longer, the transportation time interval of the Chinese roses is also longer, the Chinese roses are easy to wither in advance in the transportation process, and the condition can be reduced by a manual advance intervention cultivation method. In the step of obtaining soil humidity information and branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut length state information, branch and leaf state information and cultivation environment information, the branch and leaf trimming information comprises a current to-be-trimmed degree value of the Chinese rose flower, and the branch and leaf state information comprises dead branches of the Chinese rose flower, pest branch number information and branch and leaf trimming information. Because the flower bud differentiation of the Chinese rose belongs to a multi-differentiation type, the lateral bud can continuously develop and form a flower bud for multiple times, which is also the main reason that the Chinese rose can continuously bloom, the lateral bud can quickly complete the conversion from vegetative growth to reproductive growth by stimulating the germination of the lateral bud by technical means of timely and moderate pruning and the like, thereby achieving the purpose of blooming and flower filling. In addition, the final flowering performance of the chinese rose flowers is affected during transportation because the chinese rose flowers cannot be effectively supplemented with water. Under the condition that the transportation time interval is long, the humidity in the soil humidity information of the Chinese rose flowers is increased and controlled, meanwhile, the quantity of dead branches and insect-disease branches is increased and cut off in the branch and leaf correction information, so that the flowers are prevented from forming fruits and consuming nutrition, and the purpose of controlling the flowering time is finally achieved.

The invention discloses a method and a system for regulating and controlling the flowering phase of Chinese roses in production and cultivation. In addition, through artificial intervention and cultivation of the Chinese rose flowers in advance, natural loss of the Chinese rose flowers in the long-distance transportation process can be reduced, economic loss of a supplier is reduced, and the effective utilization rate of the Chinese rose flowers is improved.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. The above-described device embodiments are merely illustrative, for example, the division of the unit is only one logical function division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or in other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units; can be located in one place or distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be separately regarded as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media capable of storing program code.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (5)

1. A method for regulating the flowering phase of Chinese roses in production and cultivation is characterized by comprising the following steps:

acquiring original data information of Chinese rose flowerpot cultivation;

performing calculation analysis according to the Chinese rose potting original data information to obtain Chinese rose potting data information;

acquiring demand information of Chinese rose flowers, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot cultivation by combining the Chinese rose flower pot cultivation data information;

obtaining a cultivation correction index according to the monthly rose potting prediction data information and the monthly rose flowerpot cultivation data information, and correcting the cultivation environment and regulating and controlling the flowering phase according to the correction index;

sending the Chinese rose potting prediction data information to preset terminal equipment;

the method comprises the following steps of acquiring demand information of Chinese rose flowers, calculating and analyzing to obtain forecast data information of the Chinese rose flower pot by combining data information of the Chinese rose flower pot, and specifically comprises the following steps:

acquiring the demand place information of the Chinese rose;

according to the information of the demand place, retrieval and analysis are carried out from the Internet to obtain the current environmental data of the temperature, the humidity, the illumination time and the rainfall of the demand place;

acquiring historical meteorological data of a demand place from big data, and performing data prediction analysis on the historical meteorological data to obtain future environmental data of the demand place;

combining the future environmental data with the environmental data to obtain secondary environmental data;

the method comprises the following steps of acquiring demand information of Chinese rose flowers, combining data information of Chinese rose flower pot cultivation, calculating and analyzing to obtain forecast data information of Chinese rose flower pot cultivation, and further comprising the following steps:

acquiring the demand location information of the Chinese rose and the supplier location information of the Chinese rose;

calculating the transportation time interval of the Chinese roses according to the Chinese rose demand location information and the Chinese rose supplier location information;

obtaining soil humidity information and branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut growth state information, branch and leaf state information and cultivation environment information;

analyzing to obtain the rose soil humidity correction information and the branch and leaf correction information according to the rose transportation time interval;

carrying out data combination on the China rose soil humidity correction information and the branch and leaf correction information to obtain China rose transportation correction information, and sending the China rose transportation correction information to preset terminal equipment;

the method for acquiring the information of the original data of the Chinese rose potting specifically comprises the following steps:

acquiring color image information and environmental information of the Chinese rose potted plant;

obtaining the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots and stems through data analysis according to the color image information;

carrying out data arrangement on the Chinese rose petal characteristic value, the Chinese rose root and stem characteristic value and the environmental information to obtain the original Chinese rose flowerpot planting data information;

the method comprises the following steps of carrying out calculation analysis according to Chinese rose potting original data information to obtain Chinese rose potting data information, and specifically comprises the following steps:

carrying out data analysis on the original data information of the Chinese rose flowerpot cultivation to obtain a Chinese rose peanut length characteristic value and a branch and leaf characteristic value;

acquiring a characteristic value of growth of each flowering phase of the Chinese rose from big data, and analyzing and comparing the characteristic value of growth of each flowering phase, the characteristic value of growth of the Chinese rose and the characteristic values of the length of the Chinese rose and the characteristic values of branches and leaves to obtain the information of the length of the Chinese rose and the information of the states of the branches and leaves;

according to the growth state information and the branch and leaf state information of the Chinese roses, the environment information is combined to obtain the growth prediction information of the Chinese roses planted in the flowerpot;

and performing data arrangement on the Chinese rose peanut length state information, the branch and leaf state information, the environment information and the Chinese rose flowerpot growth prediction information to obtain Chinese rose flowerpot data information.

2. The method for regulating and controlling the flowering phase of roses in production and cultivation according to claim 1, wherein the obtaining of demand information of roses and the calculation and analysis of forecast data information of roses in combination with data information of roses in flowerpot cultivation further comprises:

acquiring the requirement time and the requirement quantity of the Chinese rose;

performing data arrangement on the China rose demand time, the China rose demand, the secondary environmental data and the China rose potting data information to obtain potting prediction model parameters;

building a Chinese rose potting prediction model, and importing parameters of the potting prediction model into the Chinese rose flowerpot prediction model for data prediction to obtain the Chinese rose prediction duration and the Chinese rose prediction potting number;

and performing data arrangement on the predicted duration time of the Chinese rose and the predicted potted quantity of the Chinese rose to obtain predicted data information of the Chinese rose pot planting.

3. The method for regulating the flowering phase of roses in production cultivation according to claim 1, wherein the cultivation correction index is obtained from the information on the predicted data of potted rose flowers and the information on the data of potted rose flowers, and the cultivation environment correction and the flowering phase regulation are performed according to the correction index, and specifically:

acquiring secondary environmental data and Chinese rose potting data information;

calculating and analyzing to obtain the illumination prediction data of the demand place and the humidity prediction data of the demand place according to the secondary environmental data;

acquiring Chinese rose peanut length state information and environment information in current Chinese rose potted plant data information, and combining the demand place illumination prediction data and the demand place humidity prediction data to obtain an illumination correction index and a humidity correction index;

and sending the illumination correction index and the humidity correction index to a preset terminal device, and performing cultivation environment correction and flowering phase regulation and control on the Chinese rose pot plant according to the illumination correction index and the humidity correction index.

4. A system for regulating the flowering phase of rose in production and cultivation, comprising: the system comprises a memory and a processor, wherein the memory comprises a rose florescence regulation method program in production cultivation, and the rose florescence regulation method program in production cultivation realizes the following steps when being executed by the processor:

acquiring original data information of Chinese rose flowerpot cultivation;

performing calculation analysis according to the Chinese rose potting original data information to obtain Chinese rose potting data information;

acquiring demand information of Chinese rose flowers, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot cultivation by combining the Chinese rose flower pot cultivation data information;

obtaining a cultivation correction index according to the monthly rose potting prediction data information and the monthly rose flowerpot cultivation data information, and correcting the cultivation environment and regulating and controlling the flowering phase according to the correction index;

sending the Chinese rose potting prediction data information to preset terminal equipment;

acquiring demand information of the Chinese rose, combining the data information of Chinese rose flower pot cultivation, and calculating and analyzing to obtain prediction data information of the Chinese rose flower pot cultivation, wherein the prediction data information is specifically as follows:

acquiring demand place information of the Chinese rose;

according to the information of the demand place, retrieval and analysis are carried out from the Internet to obtain the current environmental data of the temperature, the humidity, the illumination time and the rainfall of the demand place;

acquiring historical meteorological data of a demand place from big data, and performing data prediction analysis on the historical meteorological data to obtain future environmental data of the demand place;

combining the future environmental data with the environmental data to obtain secondary environmental data;

the method comprises the following steps of acquiring demand information of Chinese rose flowers, combining data information of Chinese rose flower pot cultivation, calculating and analyzing to obtain forecast data information of Chinese rose flower pot cultivation, and further comprising the following steps:

acquiring the demand location information of the Chinese rose and the supplier location information of the Chinese rose;

calculating the transportation time interval of the Chinese roses according to the Chinese rose demand location information and the Chinese rose supplier location information;

obtaining soil humidity information and branch and leaf trimming information of the current Chinese rose flower according to the current Chinese rose peanut growth state information, branch and leaf state information and cultivation environment information;

analyzing to obtain the rose soil humidity correction information and the branch and leaf correction information according to the rose transportation time interval;

carrying out data combination on the China rose soil humidity correction information and the branch and leaf correction information to obtain China rose transportation correction information, and sending the China rose transportation correction information to preset terminal equipment;

the method for obtaining the original data information of the potted Chinese rose flower specifically comprises the following steps:

acquiring color image information and environmental information of the Chinese rose potted plant;

obtaining the characteristic value of the Chinese rose petals and the characteristic value of the Chinese rose roots and stems through data analysis according to the color image information;

carrying out data arrangement on the Chinese rose petal characteristic value, the Chinese rose root and stem characteristic value and the environmental information to obtain the original Chinese rose flowerpot planting data information;

the method comprises the following steps of carrying out calculation analysis according to Chinese rose potting original data information to obtain Chinese rose potting data information, and specifically comprises the following steps:

carrying out data analysis on the original data information of the Chinese rose flowerpot cultivation to obtain a Chinese rose peanut length characteristic value and a branch and leaf characteristic value;

acquiring a characteristic value of growth of each flowering phase of the Chinese rose from big data, and analyzing and comparing the characteristic value of growth of each flowering phase, the characteristic value of growth of the Chinese rose and the characteristic values of the length of the Chinese rose and the characteristic values of branches and leaves to obtain the information of the length of the Chinese rose and the information of the states of the branches and leaves;

according to the growth state information and the branch and leaf state information of the Chinese rose peanuts and the environment information, obtaining the Chinese rose flowerpot growth prediction information;

and performing data arrangement on the Chinese rose peanut length state information, the branch and leaf state information, the environment information and the Chinese rose flowerpot growth prediction information to obtain Chinese rose flowerpot data information.

5. The system for regulating and controlling the flowering phase of Chinese roses in production and cultivation as claimed in claim 4, wherein the obtaining of the demand information of Chinese roses and the calculation and analysis of the forecast data information of Chinese rose flower pot in combination with the data information of Chinese rose flower pot cultivation further comprises:

acquiring the required time and the required amount of the Chinese rose;

performing data arrangement on the China rose demand time, the China rose demand, the secondary environmental data and the China rose potting data information to obtain potting prediction model parameters;

building a Chinese rose potting prediction model, and importing parameters of the potting prediction model into the Chinese rose flowerpot prediction model for data prediction to obtain the Chinese rose prediction duration and the Chinese rose prediction potting number;

and performing data arrangement on the predicted duration time of the Chinese rose and the predicted potted quantity of the Chinese rose to obtain predicted data information of the Chinese rose pot planting.

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