CN116562623A - Real-time planting risk assessment system suitable for velvet mushroom is planted - Google Patents

Abstract

The invention relates to the technical field of velvet mushroom planting risk assessment, in particular to a real-time planting risk assessment system suitable for velvet mushroom planting, which comprises a server, an environment supervision unit, a regulation analysis unit, an early warning display unit, an efficiency supervision unit and a growth assessment unit, wherein the early warning display unit is used for monitoring the growth of velvet mushrooms; according to the invention, analysis operation is carried out under two conditions of normal operation and abnormal operation of the environment regulation equipment, when the operation is abnormal, the fault risk level of the environment regulation equipment is judged, timely early warning operation is carried out according to different levels, when the operation is normal, whether the regulation duration of the environment regulation equipment is normal is judged, under the condition that the regulation is abnormal, the influence of the environment influence value and the risk duration on the growth of the velvet antler mushrooms in the velvet antler mushroom planting area is deeply analyzed, so that the influence degree of the environment which is not regulated and is caused on the growth of the velvet antler mushrooms is met, and a corresponding preset remedy scheme is made according to different influence levels.

Description

Real-time planting risk assessment system suitable for velvet mushroom is planted

Technical Field

The invention relates to the technical field of velvet mushroom planting risk assessment, in particular to a real-time planting risk assessment system suitable for velvet mushroom planting.

Background

The velvet antler mushroom is delicious edible fungus, has the effects of inhibiting the activity of angiotensin I converting enzyme and reducing blood pressure, and also has the medicinal effects of reducing cholesterol, resisting diabetes, resisting allergy and the like;

but when planting the velvet antler mushroom, the environment to planting the district can't timely be supervised, and then influence velvet mushroom's normal generation and output, and when carrying out environmental control to planting the district, can't judge whether environment control equipment normal operating and whether normal regulation and control, to the untimely damage that causes of regulation and control, can't carry out timely accurate remedy according to the damage degree, and then reduce velvet mushroom's survival rate, can't carry out the quality evaluation to velvet mushroom growth condition after the regulation and control simultaneously, store the improper problem of follow-up management.

Disclosure of Invention

The invention aims to provide a real-time planting risk assessment system suitable for velvet mushroom planting, which is used for solving the technical defects, and is characterized in that corresponding analysis operations are respectively carried out under the two conditions of normal operation and abnormal operation of environment regulation equipment, when the environment regulation equipment is abnormal in operation, the fault risk level of the environment regulation equipment is judged, timely early warning operations are carried out according to different levels, the influence of the environment on velvet mushrooms are timely reduced, when the environment regulation equipment is normal in operation, whether the regulation and control duration of the environment regulation equipment is normal is judged, under the condition that the regulation and control are abnormal, deep analysis is carried out on the velvet mushroom growth influence of a velvet mushroom planting area by combining an environment influence value and a risk duration, so as to cope with the influence degree of the environment not regulated and on velvet mushroom growth caused by the time, the corresponding preset remedy scheme is carried out according to different influence levels, the damage degree of the environment on velvet mushroom growth of the velvet mushroom planting area is reduced, the yield and survival rate of velvet mushrooms of the velvet mushroom planting area are improved, meanwhile, when the operation is normal and regulation and control is normal, the growth data of velvet mushrooms of the velvet mushroom planting area are collected, and whether the regulated and controlled are normal, so that velvet mushroom growth of velvet mushrooms of the velvet mushroom planting areas is timely managed.

The aim of the invention can be achieved by the following technical scheme: a real-time planting risk assessment system suitable for velvet mushroom planting comprises a server, an environment monitoring unit, a regulation and control analysis unit, an early warning display unit, an efficiency monitoring unit and a growth assessment unit;

when the server generates a supervision instruction, the supervision instruction is sent to an environment supervision unit, the environment supervision unit immediately collects environment data of the velvet antler mushroom planting area after receiving the supervision instruction, the environment data comprises an environment temperature value, an environment humidity value and an environment illumination value, abnormal risk assessment analysis is carried out on the environment data, the obtained abnormal signal is sent to a regulation analysis unit and an early warning display unit, and an environment influence value HY is sent to an efficiency supervision unit;

the regulation and control analysis unit acquires fault risk data of the environment regulation and control equipment after receiving the abnormal signal, wherein the fault risk data comprises the running temperature, the line loss value and the voltage fluctuation frequency of each electric element in the environment regulation and control equipment, performs fault wind control evaluation analysis on the fault risk data to obtain a normal signal and a fault signal, and sends the normal signal to the efficiency monitoring unit;

the efficiency monitoring unit immediately collects the regulation and control duration of the environment regulating equipment after receiving the normal signal and the environment influence value HY, analyzes the regulation and control duration to obtain an operation signal and an influence instruction, and sends the operation signal to the growth evaluation unit;

the growth evaluation unit immediately acquires growth data of the velvet mushrooms in the velvet mushroom planting area after receiving the normal signals and the operation signals, generates data including the mushroom cap diameter, the strut diameter and the strut number of the velvet mushrooms, performs quality evaluation analysis on the growth data, and sends the obtained qualified signals and unqualified signals to the early warning display unit.

Preferably, the abnormal risk assessment analysis process of the environmental supervision unit is as follows:

the first step: collecting the time length of a period of time after the velvet mushrooms are planted, marking the time length as a time threshold, dividing the time threshold into i sub-time nodes, wherein i is a natural number larger than zero, obtaining the environmental temperature value of a velvet mushroom planting area in each sub-time node, drawing an environmental temperature value curve in a rectangular coordinate system in a dot drawing mode, drawing an environmental temperature value interval curve in the coordinate system, obtaining the area surrounded by a line segment corresponding to the environmental temperature value curve outside the environmental temperature value interval curve and the environmental temperature value interval curve from the rectangular coordinate system, marking the area as an abnormal area, obtaining the time length corresponding to the environmental temperature value curve outside the environmental temperature value interval curve, marking the time length as an influence time length, obtaining a unit area influence time length according to the influence time length and the abnormal area, and marking the unit influence time length as a unit influence value DY;

and a second step of: acquiring an environmental humidity value and an environmental illumination value of a velvet antler mushroom planting area in each sub-time node, acquiring the total number of sub-time nodes corresponding to the environment humidity value and the environmental illumination value respectively outside a preset environmental humidity value threshold and a preset environmental illumination value threshold, and respectively marking the total number as a humidity abnormal constant SY and an illumination abnormal constant GZ;

and a third step of: obtaining an environmental risk coefficient H according to a formula, simultaneously obtaining a part of the environmental risk coefficient H exceeding a preset environmental risk coefficient threshold value, marking the part as an environmental impact value HY, and comparing the environmental risk coefficient H with the preset environmental risk coefficient H recorded and stored in the environment risk coefficient H for analysis:

if the environmental risk coefficient H is smaller than or equal to a preset environmental risk coefficient threshold value, no signal is generated;

if the environmental risk coefficient H is greater than a preset environmental risk coefficient threshold value, an abnormal signal is generated.

Preferably, the fault wind control evaluation analysis process of the regulation analysis unit is as follows:

step one: acquiring the operation temperature of each electric element in each sub-time node, taking time as an X axis, taking the operation temperature as a Y axis, establishing a rectangular coordinate system, drawing an operation temperature curve of each electric element in the rectangular coordinate system in a dot drawing mode, acquiring the total operation temperature corresponding to an ascending section from the operation temperature curve, simultaneously acquiring the total operation temperature corresponding to a descending section, subtracting a mark of the total operation temperature corresponding to the descending section from the total operation temperature corresponding to the ascending section as a heating trend value, wherein the larger the value of the heating trend value is, the larger the fault risk of the electric element is, the heating trend value of each electric element in a time threshold is acquired, the heating trend value is compared with a preset heating trend value threshold, the number of the electric elements corresponding to the heating trend value larger than the preset heating trend value threshold is acquired, and the abnormal risk number YC of the electric elements is marked;

step two: obtaining line loss values in the environment regulation equipment in each sub-time node, abnormally obtaining a difference value between the line loss values in the two connected sub-time nodes, marking the difference value as a loss floating value, obtaining a ratio of the total number corresponding to the loss floating value exceeding a preset loss floating value to the number of all loss floating values, marking the loss floating value as an abnormal floating value YF, simultaneously obtaining the voltage fluctuation frequency DP of the environment regulation equipment in the time threshold, and respectively inputting and storing the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP in the environment regulation equipment in the time threshold into a preset abnormal risk number threshold, a preset abnormal floating value threshold and a preset voltage fluctuation frequency threshold for comparison and analysis:

if the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP are all smaller than or equal to the corresponding preset abnormal risk number threshold value, the preset abnormal floating value threshold value and the preset voltage fluctuation frequency threshold value, generating a normal signal;

if any one of the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP is larger than the corresponding preset abnormal risk number threshold value, the preset abnormal floating value threshold value and the preset voltage fluctuation frequency threshold value, generating a fault signal.

Preferably, when the regulation analysis unit obtains the fault signal, the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP in the time threshold are obtained, and the fault risk coefficient G is obtained according to a formula, so that a part corresponding to the fault risk coefficient G exceeding the preset fault risk coefficient threshold is obtained, and is marked as an abnormal risk value, and the abnormal risk value is compared with a preset abnormal risk value interval recorded and stored in the abnormal risk value:

if the abnormal risk value is greater than the maximum value in the preset abnormal risk value interval, a first-level fault signal is generated;

if the abnormal risk value is within the preset abnormal risk value interval, generating a secondary fault signal;

if the abnormal risk value is smaller than the minimum value in the preset abnormal risk value interval, generating a third-level fault signal, and sending the first-level fault signal, the second-level fault signal and the third-level fault signal to an early warning display unit.

Preferably, the analysis process of the regulation duration of the efficiency supervision unit is as follows:

acquiring the time length from the beginning regulation time to the ending regulation time of the environment regulation equipment of the velvet antler mushroom planting area, marking the time length as the regulation time length, and comparing the regulation time length with a preset regulation time length threshold value recorded and stored in the regulation time length:

if the regulation duration is less than or equal to a preset regulation duration threshold, generating an operation signal;

and if the regulation time length is greater than the preset regulation time length threshold value, generating an influence instruction.

Preferably, when the efficiency monitoring unit obtains the influence instruction, a part of the regulation time length exceeding the preset regulation time length threshold value is obtained and marked as risk time length FX, a growth influence coefficient Z is obtained according to a formula, and the growth influence coefficient Z is compared with the preset growth influence coefficient value recorded and stored in the efficiency monitoring unit:

if the growth influence coefficient Z is smaller than a preset growth influence coefficient threshold value, generating a low influence signal;

if the growth influence coefficient Z is larger than or equal to a preset growth influence coefficient threshold value, a high influence signal is generated, and the low influence signal and the high influence signal are sent to an early warning display unit through a regulation analysis unit.

Preferably, the quality assessment analysis process of the growth assessment unit is as follows:

collecting the duration of a period of time after the regulation and control of the environment regulating and controlling equipment is finished, marking the duration as analysis duration, dividing the analysis duration into k sub-time periods, wherein k is a natural number larger than zero, obtaining the mushroom cap diameter, the strut diameter and the strut number of the velvet mushrooms in each sub-time period, and marking the analysis duration as GDk, GGk and GSk respectively;

obtaining a generation evaluation coefficient Sk in each sub-time period according to a formula, obtaining a difference value between the generation evaluation coefficients of two connected sub-time periods, marking the difference value as a generation evaluation value, obtaining an average growth evaluation value of the velvet mushrooms in the velvet mushroom planting area in the analysis duration, and comparing the average growth evaluation value with a preset average growth evaluation value threshold value recorded and stored in the average growth evaluation value:

if the average growth evaluation value is greater than or equal to a preset average growth evaluation value threshold value, generating a qualified signal;

and if the average growth evaluation value is smaller than or equal to a preset average growth evaluation value threshold value, generating a disqualification signal.

The beneficial effects of the invention are as follows:

(1) According to the environment management method, the environment data of the velvet antler mushroom planting area are collected, abnormal risk assessment analysis is carried out, whether the environment of the velvet antler mushroom planting area is abnormal or not is judged, and then the environment management is carried out on the velvet antler mushroom planting area in time, so that the planting survival rate and the growth quality of velvet antler mushrooms are improved, and under the condition that the environment is abnormal, fault wind control assessment analysis is carried out on the fault risk data of the environment regulation equipment, so that whether the environment regulation equipment normally operates or not is judged, and the environment of the velvet antler mushroom planting area is effectively regulated and controlled by the environment regulation equipment;

(2) According to the method, corresponding analysis operations are respectively carried out under the two conditions of normal operation and abnormal operation of the environment regulation equipment, when the operation is abnormal, the fault risk level of the environment regulation equipment is judged, timely early warning operation is carried out according to different levels, influence of the environment on the velvet mushrooms is timely reduced, when the operation is normal, whether the regulation and control duration of the environment regulation equipment is normal or not is judged, under the condition that the regulation and control are abnormal, deep analysis is carried out on the velvet mushroom growth influence of the velvet mushrooms in the velvet mushroom planting area by combining the environment influence value and the risk duration, so that the influence degree of the environment on the velvet mushrooms in the velvet mushroom planting area is met, the corresponding preset remedy scheme is carried out according to different influence levels, the damage degree of the environment on the velvet mushrooms in the velvet mushroom planting area is reduced, so that the yield and the survival rate of the velvet mushrooms in the velvet mushroom planting area are improved, meanwhile, when the operation is normal and the regulation and control are normal, the growth data of the velvet mushrooms in the velvet mushroom planting area are collected, and the velvet mushrooms in the velvet mushroom planting area are judged to be timely managed.

Drawings

The invention is further described below with reference to the accompanying drawings;

FIG. 1 is a flow chart of the system of the present invention;

FIG. 2 is a partial analysis of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1:

referring to fig. 1-2, the invention discloses a real-time planting risk assessment system suitable for velvet mushroom planting, which comprises a server, an environment monitoring unit, a regulation and control analysis unit, an early warning display unit, an efficiency monitoring unit and a growth assessment unit, wherein the server is in one-way communication connection with the environment monitoring unit, the environment monitoring unit is in one-way communication connection with the control analysis unit, the early warning display unit and the efficiency monitoring unit, the regulation and control analysis unit is in one-way communication connection with the early warning display unit, the regulation and control analysis unit is in two-way communication connection with the efficiency monitoring unit, and the efficiency monitoring unit is in one-way communication connection with the growth assessment unit and the early warning display unit;

when the server generates a supervision instruction, the supervision instruction is sent to the environment supervision unit, the environment supervision unit immediately collects environment data of the velvet antler mushroom planting area after receiving the supervision instruction, the environment data comprises an environment temperature value, an environment humidity value and an environment illumination value, and carries out abnormal risk assessment analysis on the environment data so as to judge whether the environment of the velvet antler mushroom planting area is abnormal or not, and then carries out environment management on the velvet antler mushroom planting area in time so as to improve the planting survival rate and the growth quality of velvet antler mushrooms, wherein the specific abnormal risk assessment analysis process is as follows:

collecting the time length of a period of time after velvet mushroom planting, marking the time length as a time threshold, dividing the time threshold into i sub-time nodes, wherein i is a natural number larger than zero, obtaining the environmental temperature value of a velvet mushroom planting area in each sub-time node, taking time as an X axis, taking the environmental temperature value as a Y axis, establishing a rectangular coordinate system, drawing an environmental temperature value curve in the rectangular coordinate system in a dot drawing mode, simultaneously drawing an environmental temperature value interval curve in the rectangular coordinate system, obtaining the area surrounded by a line segment corresponding to the environmental temperature value curve outside the environmental temperature value interval curve and the environmental temperature value interval curve from the rectangular coordinate system, marking the area as an abnormal area, simultaneously obtaining the time length corresponding to the environmental temperature value curve outside the environmental temperature value interval curve, marking the time length as an influence time length, obtaining a unit area influence time length according to the influence time length and the abnormal area, marking the unit influence time length as a unit influence value, and marking the unit influence value as DY, and the fact that the larger the value of the unit influence value DY is needed to be explained, the larger the influence on the velvet mushroom planting area is larger;

acquiring an environment humidity value and an environment illumination value of a velvet antler mushroom planting area in each sub-time node, so as to acquire the total number of sub-time nodes corresponding to the environment humidity value and the environment illumination value respectively positioned outside a preset environment humidity value threshold and a preset environment illumination value threshold, and marking the total number of sub-time nodes as a humidity abnormal constant and an illumination abnormal constant respectively, wherein the humidity abnormal constant SY and the illumination abnormal constant GZ are two influence parameters on the velvet antler mushroom growth of the velvet antler mushroom planting area;

according to the formulaObtaining an environmental risk coefficient, wherein a1, a2 and a3 are respectively preset proportional coefficients of unit influence value, humidity abnormal constant and illumination abnormal constant, a4 is a preset compensation coefficient, the value is 2.432, a1, a2 and a3 are natural numbers larger than zero, H is an environmental risk coefficient, and the environmental risk coefficient H is recorded into the interior of the environmental risk coefficient and the environment risk coefficient HIs compared and analyzed with the preset environmental risk coefficient H:

if the environmental risk coefficient H is smaller than or equal to a preset environmental risk coefficient threshold value, no signal is generated;

if the environmental risk coefficient H is larger than a preset environmental risk coefficient threshold value, generating an abnormal signal, sending the abnormal signal to a regulation and control analysis unit and an early warning display unit, simultaneously acquiring a part of the environmental risk coefficient H exceeding the preset environmental risk coefficient threshold value, marking the part as an environmental impact value, marking the environmental impact value as HY, sending the environmental impact value to an efficiency monitoring unit, and immediately controlling environmental regulation and control equipment to carry out environmental management on a velvet antler mushroom planting area after receiving the abnormal signal by the early warning display unit so as to improve the planting survival rate and the growth quality of velvet mushrooms;

after the regulation and control analysis unit receives the abnormal signal, fault risk data of the environment regulation and control equipment are collected, the fault risk data comprise running temperature, line loss value and voltage fluctuation frequency of each electric element in the environment regulation and control equipment, fault wind control evaluation analysis is carried out on the fault risk data so as to judge whether the environment regulation and control equipment normally operates or not, effective regulation and control of the environment of the velvet antler mushroom planting area by the environment regulation and control equipment is ensured, and the specific fault wind control evaluation analysis process is as follows:

acquiring the operation temperature of each electric element in each sub-time node, taking time as an X axis, taking the operation temperature as a Y axis, establishing a rectangular coordinate system, drawing an operation temperature curve of each electric element in the rectangular coordinate system in a dot drawing mode, acquiring the total operation temperature corresponding to an ascending section from the operation temperature curve, simultaneously acquiring the total operation temperature corresponding to a descending section, subtracting a mark of the total operation temperature corresponding to the descending section from the total operation temperature corresponding to the ascending section as a heating trend value, wherein the larger the value of the heating trend value is, the larger the fault risk of the electric element is, the heating trend value of each electric element in a time threshold is acquired, the heating trend value is compared with a preset heating trend value threshold, the number of the electric element corresponding to the heating trend value is acquired, the number of abnormal risk is marked, and the mark is YC.

Obtaining line loss values in the environment regulation equipment in each sub-time node, abnormally obtaining a difference value between the line loss values in the two connected sub-time nodes, marking the difference value as a loss floating value, obtaining a ratio of the total number corresponding to the loss floating value exceeding a preset loss floating value to the number of all the loss floating values, marking the ratio as an abnormal floating value, and marking the abnormal floating value as YF, wherein the abnormal floating value YF is a parameter reflecting the risk of line faults in the environment regulation equipment;

meanwhile, the voltage fluctuation frequency of the environment regulation equipment in the time threshold is obtained, the reference number is DP, and the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP are respectively compared with a preset abnormal risk number threshold, a preset abnormal floating value threshold and a preset voltage fluctuation frequency threshold which are recorded and stored in the environment regulation equipment:

if the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP are all smaller than or equal to the corresponding preset abnormal risk number threshold value, the preset abnormal floating value threshold value and the preset voltage fluctuation frequency threshold value, generating a normal signal, and sending the normal signal to an efficiency monitoring unit;

if any one of the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP is larger than the corresponding preset abnormal risk number threshold value, the preset abnormal floating value threshold value and the preset voltage fluctuation frequency threshold value, generating a fault signal, and acquiring the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP in the time threshold value when the fault signal is generated;

according to the formulaObtaining a fault risk coefficient, wherein f1, f2 and f3 are respectively preset scale factor coefficients of an abnormal risk number, an abnormal floating value and a voltage fluctuation frequency, f4 is a preset correction coefficient, the values are 1.762, and f1, f2 and f3, the positive numbers are larger than zero, G is a fault risk coefficient, so that a part corresponding to the fault risk coefficient G exceeding a preset fault risk coefficient threshold is obtained, marked as an abnormal risk value, and the abnormal risk value is compared with a preset abnormal risk value interval recorded and stored in the abnormal risk value:

if the abnormal risk value is greater than the maximum value in the preset abnormal risk value interval, a first-level fault signal is generated;

if the abnormal risk value is within the preset abnormal risk value interval, generating a secondary fault signal;

if the abnormal risk value is smaller than the minimum value in the preset abnormal risk value interval, a three-level fault signal is generated, wherein the fault risk degree corresponding to the one-level fault signal, the two-level fault signal and the three-level fault signal is sequentially reduced, the one-level fault signal, the two-level fault signal and the three-level fault signal are sent to an early warning display unit, the early warning display unit immediately makes early warning operation corresponding to the one-level fault signal, the two-level fault signal and the three-level fault signal after receiving the one-level fault signal, the two-level fault signal and the three-level fault signal, and further reminds workers to overhaul environment regulation equipment timely, and meanwhile, the environment of the velvet antler mushroom planting area is regulated and controlled in an artificial mode, so that the influence of the environment on velvet antler mushrooms is reduced, and the growth quality and the survival rate of velvet mushrooms are improved.

Example 2:

the efficiency monitoring unit immediately collects the regulation and control duration of the environment regulating equipment after receiving the normal signal and the environment influence value HY, and analyzes the regulation and control duration to judge whether the regulation and control efficiency of the environment regulating equipment is normal or not, wherein the specific regulation and control duration analysis process is as follows:

acquiring the time length from the beginning regulation time to the ending regulation time of the environment regulation equipment of the velvet antler mushroom planting area, marking the time length as the regulation time length, and comparing the regulation time length with a preset regulation time length threshold value recorded and stored in the regulation time length:

if the regulation duration is less than or equal to a preset regulation duration threshold, generating an operation signal, and sending the operation signal to a growth evaluation unit;

if the regulation time length is greater than a preset regulation time length threshold value, generating an influence instruction, and when the influence instruction is generated, acquiring a part of the regulation time length exceeding the preset regulation time length threshold value, and marking the part as a risk time length, wherein the reference numeral is FX, and the larger the numerical value of the risk time length FX is, the larger the influence on the growth of the velvet mushrooms in the velvet mushroom planting area is;

according to the formulaObtaining a growth influence coefficient, wherein b1 and b2 are preset weight factor coefficients of an environmental influence value and a risk duration respectively, the weight factor coefficients are used for correcting deviation of various parameters in a formula calculation process, so that calculation is more accurate and parameter data, b3 is a preset fault-tolerant weight coefficient, b1, b2 and b3 are positive numbers larger than zero, Z is a growth influence coefficient, and the growth influence coefficient Z is compared with a preset growth influence coefficient value recorded and stored in the growth influence coefficient Z:

if the growth influence coefficient Z is smaller than a preset growth influence coefficient threshold value, generating a low influence signal;

if the growth influence coefficient Z is larger than or equal to a preset growth influence coefficient threshold value, a high influence signal is generated, the low influence signal and the high influence signal are sent to an early warning display unit through a regulation and control analysis unit, after the low influence signal and the high influence signal are received by the early warning display unit, a preset remedy scheme corresponding to the low influence signal and the high influence signal is immediately made, the damage degree of the environment on the growth of the velvet antler mushroom in the velvet antler mushroom planting area is reduced, so that the growth quality and the growth condition of the velvet antler mushroom in the velvet mushroom planting area are improved, and the yield and the survival rate of the velvet mushroom in the velvet mushroom planting area are improved.

Example 3:

the growth evaluation unit immediately acquires growth data of the velvet mushrooms in the velvet mushroom planting area after receiving the normal signals and the operation signals, generates data including the mushroom cap diameter, the strut diameter and the strut number of the velvet mushrooms, performs quality evaluation analysis on the growth data, and judges whether the growth of the velvet mushrooms after regulation is normal or not so as to improve the growth quality and the survival efficiency of the velvet mushrooms, wherein the specific quality evaluation analysis process is as follows:

collecting the duration of a period of time after the regulation and control of the environment regulating and controlling equipment is finished, marking the duration as analysis duration, dividing the analysis duration into k sub-time periods, wherein k is a natural number larger than zero, obtaining the mushroom cap diameter, the strut diameter and the strut number of the velvet mushrooms in each sub-time period, and marking the analysis duration as GDk, GGk and GSk respectively;

according to the formulaObtaining generation evaluation coefficients in each sub-time period, wherein alpha, beta and epsilon are preset weight coefficients of mushroom cap diameter, strut diameter and strut number respectively, alpha, beta and epsilon are natural numbers larger than zero, sk is the generation evaluation coefficient in each sub-time period, obtaining a difference value between the generation evaluation coefficients of two connected sub-time periods, marking the difference value as a generation evaluation value, obtaining an average growth evaluation value of the velvet mushrooms in a velvet mushroom planting area in analysis time period, and comparing the average growth evaluation value with a preset average growth evaluation value threshold value recorded and stored in the average growth evaluation value:

if the average growth evaluation value is greater than or equal to a preset average growth evaluation value threshold value, generating a qualified signal;

if the average growth evaluation value is smaller than or equal to a preset average growth evaluation value threshold value, generating an unqualified signal, and sending the qualified signal and the unqualified signal to an early warning display unit, wherein the early warning display unit immediately displays early warning characters corresponding to the qualified signal and the unqualified signal after receiving the qualified signal and the unqualified signal, so that the velvet mushrooms in the velvet mushroom planting area can be managed in time, the growth quality of the velvet mushrooms in the velvet mushroom planting area can be improved, and the yield and the early warning effect of the velvet mushrooms can be improved;

in summary, the environment data of the velvet antler mushroom planting area is collected and is subjected to abnormal risk assessment analysis to judge whether the environment of the velvet antler mushroom planting area is abnormal, so that the environment management is carried out on the velvet antler mushroom planting area in time to improve the planting survival rate and the growth quality of velvet antler mushrooms, and under the condition that the environment is abnormal, the fault risk data of the environment regulation equipment is subjected to fault wind control assessment analysis to judge whether the environment regulation equipment is in normal operation or not so as to ensure that the environment regulation equipment effectively regulates the environment of the velvet antler mushroom planting area; meanwhile, under the two conditions that the environment regulation equipment operates normally and abnormally, corresponding analysis operations are respectively carried out, when the environment regulation equipment operates abnormally, the fault risk level of the environment regulation equipment is judged, timely early warning operation is carried out according to different levels, the environment of the velvet antler mushroom planting area is regulated and controlled in an artificial mode, the influence of the environment on velvet antler mushrooms is reduced, when the environment regulation equipment operates normally, whether the regulation and control efficiency of the environment regulation equipment is normal or not is judged, namely whether the regulation and control duration is normal or not is judged, under the condition that the regulation and control abnormality exists, the velvet antler mushroom growth influence of the velvet antler mushroom planting area is deeply analyzed by combining the environmental influence value and the duration, the influence degree of the environment on velvet mushroom growth is treated, the corresponding preset remedy scheme is made according to different influence levels, the damage degree of the environment on velvet mushroom growth of the velvet mushroom planting area is reduced, so that the velvet antler mushroom growth quality and the growth condition of the velvet mushroom planting area are improved, the output and the survival rate of velvet antler mushrooms of the velvet mushroom planting area are improved, meanwhile, the growth data of the velvet antler mushroom of the velvet mushroom planting area is collected, and the velvet mushroom planting mushroom in time is improved, and the velvet mushroom growth effect of the velvet mushroom planting mushroom area is managed in time, and the velvet mushroom growth of velvet mushroom is judged.

The size of the threshold is set for ease of comparison, and regarding the size of the threshold, the number of cardinalities is set for each set of sample data depending on how many sample data are and the person skilled in the art; as long as the proportional relation between the parameter and the quantized value is not affected. The above formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to the true value, and coefficients in the formulas are set by a person skilled in the art according to practical situations, and the above is only a preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is within the technical scope of the present invention, and the technical scheme and the inventive concept according to the present invention are equivalent to or changed and are all covered in the protection scope of the present invention.

Claims (7)

1. The real-time planting risk assessment system suitable for the velvet mushroom planting is characterized by comprising a server, an environment supervision unit, a regulation and control analysis unit, an early warning display unit, an efficiency supervision unit and a growth assessment unit;

when the server generates a supervision instruction, the supervision instruction is sent to an environment supervision unit, the environment supervision unit immediately collects environment data of the velvet antler mushroom planting area after receiving the supervision instruction, the environment data comprises an environment temperature value, an environment humidity value and an environment illumination value, abnormal risk assessment analysis is carried out on the environment data, the obtained abnormal signal is sent to a regulation analysis unit and an early warning display unit, and an environment influence value HY is sent to an efficiency supervision unit;

the regulation and control analysis unit acquires fault risk data of the environment regulation and control equipment after receiving the abnormal signal, wherein the fault risk data comprises the running temperature, the line loss value and the voltage fluctuation frequency of each electric element in the environment regulation and control equipment, performs fault wind control evaluation analysis on the fault risk data to obtain a normal signal and a fault signal, and sends the normal signal to the efficiency monitoring unit;

the efficiency monitoring unit immediately collects the regulation and control duration of the environment regulating equipment after receiving the normal signal and the environment influence value HY, analyzes the regulation and control duration to obtain an operation signal and an influence instruction, and sends the operation signal to the growth evaluation unit;

the growth evaluation unit immediately acquires growth data of the velvet mushrooms in the velvet mushroom planting area after receiving the normal signals and the operation signals, generates data including the mushroom cap diameter, the strut diameter and the strut number of the velvet mushrooms, performs quality evaluation analysis on the growth data, and sends the obtained qualified signals and unqualified signals to the early warning display unit.

2. The real-time planting risk assessment system for velvet mushroom planting according to claim 1, wherein the abnormal risk assessment analysis process of the environmental supervision unit is as follows:

the first step: collecting the time length of a period of time after the velvet mushrooms are planted, marking the time length as a time threshold, dividing the time threshold into i sub-time nodes, wherein i is a natural number larger than zero, obtaining the environmental temperature value of a velvet mushroom planting area in each sub-time node, drawing an environmental temperature value curve in a rectangular coordinate system in a dot drawing mode, drawing an environmental temperature value interval curve in the coordinate system, obtaining the area surrounded by a line segment corresponding to the environmental temperature value curve outside the environmental temperature value interval curve and the environmental temperature value interval curve from the rectangular coordinate system, marking the area as an abnormal area, obtaining the time length corresponding to the environmental temperature value curve outside the environmental temperature value interval curve, marking the time length as an influence time length, obtaining a unit area influence time length according to the influence time length and the abnormal area, and marking the unit influence time length as a unit influence value DY;

and a second step of: acquiring an environmental humidity value and an environmental illumination value of a velvet antler mushroom planting area in each sub-time node, acquiring the total number of sub-time nodes corresponding to the environment humidity value and the environmental illumination value respectively outside a preset environmental humidity value threshold and a preset environmental illumination value threshold, and respectively marking the total number as a humidity abnormal constant SY and an illumination abnormal constant GZ;

and a third step of: obtaining an environmental risk coefficient H according to a formula, simultaneously obtaining a part of the environmental risk coefficient H exceeding a preset environmental risk coefficient threshold value, marking the part as an environmental impact value HY, and comparing the environmental risk coefficient H with the preset environmental risk coefficient H recorded and stored in the environment risk coefficient H for analysis:

if the environmental risk coefficient H is smaller than or equal to a preset environmental risk coefficient threshold value, no signal is generated;

if the environmental risk coefficient H is greater than a preset environmental risk coefficient threshold value, an abnormal signal is generated.

3. The real-time planting risk assessment system for velvet mushroom planting according to claim 1, wherein the fault wind control assessment analysis process of the control analysis unit is as follows:

step one: acquiring the operation temperature of each electric element in each sub-time node, taking time as an X axis, taking the operation temperature as a Y axis, establishing a rectangular coordinate system, drawing an operation temperature curve of each electric element in the rectangular coordinate system in a dot drawing mode, acquiring the total operation temperature corresponding to an ascending section from the operation temperature curve, simultaneously acquiring the total operation temperature corresponding to a descending section, subtracting a mark of the total operation temperature corresponding to the descending section from the total operation temperature corresponding to the ascending section as a heating trend value, wherein the larger the value of the heating trend value is, the larger the fault risk of the electric element is, the heating trend value of each electric element in a time threshold is acquired, the heating trend value is compared with a preset heating trend value threshold, the number of the electric elements corresponding to the heating trend value larger than the preset heating trend value threshold is acquired, and the abnormal risk number YC of the electric elements is marked;

step two: obtaining line loss values in the environment regulation equipment in each sub-time node, abnormally obtaining a difference value between the line loss values in the two connected sub-time nodes, marking the difference value as a loss floating value, obtaining a ratio of the total number corresponding to the loss floating value exceeding a preset loss floating value to the number of all loss floating values, marking the loss floating value as an abnormal floating value YF, simultaneously obtaining the voltage fluctuation frequency DP of the environment regulation equipment in the time threshold, and respectively inputting and storing the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP in the environment regulation equipment in the time threshold into a preset abnormal risk number threshold, a preset abnormal floating value threshold and a preset voltage fluctuation frequency threshold for comparison and analysis:

if the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP are all smaller than or equal to the corresponding preset abnormal risk number threshold value, the preset abnormal floating value threshold value and the preset voltage fluctuation frequency threshold value, generating a normal signal;

if any one of the abnormal risk number YC, the abnormal floating value YF and the voltage fluctuation frequency DP is larger than the corresponding preset abnormal risk number threshold value, the preset abnormal floating value threshold value and the preset voltage fluctuation frequency threshold value, generating a fault signal.

4. The real-time planting risk assessment system suitable for velvet mushroom planting according to claim 1, wherein when the regulation analysis unit obtains a fault signal, an abnormal risk number YC, an abnormal floating value YF and a voltage fluctuation frequency DP in a time threshold are obtained, a fault risk coefficient G is obtained according to a formula, a part corresponding to the fault risk coefficient G exceeding a preset fault risk coefficient threshold is obtained, the part is marked as an abnormal risk value, and the abnormal risk value is compared with a preset abnormal risk value interval recorded and stored in the abnormal risk value:

if the abnormal risk value is greater than the maximum value in the preset abnormal risk value interval, a first-level fault signal is generated;

if the abnormal risk value is within the preset abnormal risk value interval, generating a secondary fault signal;

if the abnormal risk value is smaller than the minimum value in the preset abnormal risk value interval, generating a third-level fault signal, and sending the first-level fault signal, the second-level fault signal and the third-level fault signal to an early warning display unit.

5. The real-time planting risk assessment system for velvet mushroom planting according to claim 1, wherein the regulation duration analysis process of the efficiency supervision unit is as follows:

acquiring the time length from the beginning regulation time to the ending regulation time of the environment regulation equipment of the velvet antler mushroom planting area, marking the time length as the regulation time length, and comparing the regulation time length with a preset regulation time length threshold value recorded and stored in the regulation time length:

if the regulation duration is less than or equal to a preset regulation duration threshold, generating an operation signal;

and if the regulation time length is greater than the preset regulation time length threshold value, generating an influence instruction.

6. The real-time planting risk assessment system suitable for velvet mushroom planting according to claim 1, wherein when the efficiency supervision unit obtains an influence instruction, a part of a regulation time length exceeding a preset regulation time length threshold is obtained and marked as risk time length FX, a growth influence coefficient Z is obtained according to a formula, and the growth influence coefficient Z is compared with a preset growth influence coefficient value recorded and stored in the interior of the growth influence coefficient Z for analysis:

if the growth influence coefficient Z is smaller than a preset growth influence coefficient threshold value, generating a low influence signal;

if the growth influence coefficient Z is larger than or equal to a preset growth influence coefficient threshold value, a high influence signal is generated, and the low influence signal and the high influence signal are sent to an early warning display unit through a regulation analysis unit.

7. The real-time planting risk assessment system for velvet mushroom planting according to claim 1, wherein the quality assessment analysis process of the growth assessment unit is as follows:

collecting the duration of a period of time after the regulation and control of the environment regulating and controlling equipment is finished, marking the duration as analysis duration, dividing the analysis duration into k sub-time periods, wherein k is a natural number larger than zero, obtaining the mushroom cap diameter, the strut diameter and the strut number of the velvet mushrooms in each sub-time period, and marking the analysis duration as GDk, GGk and GSk respectively;

obtaining a generation evaluation coefficient Sk in each sub-time period according to a formula, obtaining a difference value between the generation evaluation coefficients of two connected sub-time periods, marking the difference value as a generation evaluation value, obtaining an average growth evaluation value of the velvet mushrooms in the velvet mushroom planting area in the analysis duration, and comparing the average growth evaluation value with a preset average growth evaluation value threshold value recorded and stored in the average growth evaluation value:

if the average growth evaluation value is greater than or equal to a preset average growth evaluation value threshold value, generating a qualified signal;

and if the average growth evaluation value is smaller than or equal to a preset average growth evaluation value threshold value, generating a disqualification signal.