CN115600772A - Prediction management system for physical defervescence product - Google Patents

Abstract

The invention relates to the technical field of prediction management, in particular to a prediction management system for physical defervescence products, which comprises the following components: the system comprises a plurality of warehouses, a recording module, a storage module and a central control module. According to the system, the quantity change condition of the physical defervescence products stored in each warehouse is analyzed by using the central control module so as to predict the change trend of the quantity of each physical defervescence product, and the ratio of the subsequent supply quantity is correspondingly adjusted when the variable quantity of the physical defervescence products is judged to be not in accordance with the preset standard.

Description

Prediction management system for physical defervescence product

Technical Field

The invention relates to the technical field of prediction management, in particular to a prediction management system for a physical antipyretic product.

Background

Predictive management is the analysis of the laws of future development and changes of a system or similar system based on what has happened in the past and now, and the prediction and description of the state or trend of the system at some future time by using the laws to better manage the system.

Fever, especially fever caused by cold, is a common disease, cooling and fever abatement are one of the most effective ways to relieve fever symptoms, and the common fever abatement ways include physical fever abatement and drug fever abatement. The physical defervescence is popular with medical care because of the advantages of simple and easy operation, quick curative effect, small side effect and the like. At present, physical antipyretic products mainly comprise a physical cooling ice bag, an antipyretic patch, an antipyretic gel, an antipyretic wet tissue, an antipyretic band, an antipyretic cap, an antipyretic pad and the like, and can achieve certain antipyretic effect. The rational predictive management of the inventory of these physical antipyretic products as their usage increases is becoming an urgent issue.

Chinese patent publication no: CN111584048A discloses an emergency medical material financing management device and method, wherein the device includes: the system comprises an input module, a main controller, a material financing module and a use management module. The modules are connected through a data line or a local area network. The input module comprises an input peripheral and a first communication module; the main controller comprises a data receiving sub-module, an expert database sub-module, an identification decision sub-module, an alarm display sub-module, a second communication module and a third communication module; the material financing module comprises an information resource library submodule, a purchasing history library submodule and a fourth communication module; the use management module comprises an in-out warehouse submodule, a please-collar allocation submodule, a sub-controller and a fifth communication module.

It can be seen that the following problems exist in the prior art: the problem that the supply amount of the physical defervescence product of each part which needs to be supplied cannot be accurately predicted according to actual conditions, so that the physical defervescence product of each part is unreasonably supplied and the emergency cannot be effectively dealt with.

Disclosure of Invention

Therefore, the invention provides a prediction management system for physical annealing products, which is used for solving the problems that the physical annealing products of each part cannot be supplied unreasonably and emergencies cannot be effectively dealt with due to the fact that the supply amount of the physical annealing products of each single part needing to be supplied cannot be accurately predicted according to actual conditions in the prior art.

To achieve the above object, the present invention provides a prediction management system for a physical antipyretic product, comprising:

the system comprises a plurality of warehouses, a plurality of heat-insulating material storing devices and a plurality of heat-insulating material storing devices, wherein the warehouses are used for storing different types of physical heat-insulating products, and for a single warehouse, the types of the physical heat-insulating products stored in the warehouse comprise specific heat-insulating products aiming at different parts and general heat-insulating products general for all parts;

the recording module is used for counting and recording the storage quantity of the physical antipyretic products in each warehouse and the quantity of various physical antipyretic products;

the storage module is used for storing the use records of the physical antipyretic products in the warehouses;

the central control module is respectively connected with the warehouse, the recording module and the storage module and is used for periodically detecting the number of specific antipyretic products for different parts in each warehouse recorded in the storage module, respectively calculating the number variation of the antipyretic products for each specific part in a single period according to the detected number of the antipyretic products for each specific part, predicting the variation trend of the antipyretic products for each specific part in each warehouse according to the number variation of the antipyretic products for each specific part in the single period stored in each warehouse, and adjusting the proportion of the total number of the antipyretic products for each specific part stored in the central control module by the number of the antipyretic products for the specific part to a corresponding value when the number variation of the antipyretic products for each specific part in each warehouse is judged to be not in accordance with a preset standard;

for a single warehouse, specific antipyretic products stored in the warehouse comprise adult antipyretic products and child antipyretic products, and for physical antipyretic products for the ith specific part, i =1,2, 3.. And n are set, wherein n is the total number of parts which can be applied by each specific part product stored in the central control module, the central control module records the number of adult antipyretic products for the specific part as Nai, the number of child antipyretic products for the specific part as Nci, and the number of general antipyretic products as Nti.

Further, aiming at the adult fever abating products at a single specific part, the central control module periodically detects the number Nai of the adult fever abating products at the specific part recorded in the storage module, the central control module calculates the variation quantity Mai of the number of the adult fever abating products at the specific part in a single period according to the Nai and predicts the variation trend of the number of the adult fever abating products at the specific part according to the Mai so as to adjust the proportion Bai of the total number of the adult fever abating products at the specific part stored in the central control module at each specific part to a corresponding value during subsequent replenishment, the central control module is provided with a first preset adult fever abating product number variation quantity Mai1 and a second preset adult fever abating product number variation quantity Mai2, and the Mai1 is set to be less than Mai2,

if the Mai is less than or equal to Mai1, the central control module judges that the variation of the number of the adult fever reducing products of the specific part in a single period is lower than a preset standard, marks the adult fever reducing products of the specific part as products to be prepared, and properly reduces the proportion of the number of the adult fever reducing products of the specific part stored in the central control module in the total number of the adult fever reducing products of the specific part during subsequent supply;

if the Mai1 is larger than the Mai and is not larger than the Mai2, the central control module judges that the variation quantity of the adult defervescence product quantity of the specific part in a single period meets a preset standard, and keeps the proportion of the adult defervescence product quantity of the specific part in the total adult defervescence product quantity number of each specific part stored in the central control module unchanged during subsequent replenishment;

if the Mai is larger than the Mai2, the central control module judges that the variation amount of the adult fever reducing product quantity of the specific part in a single period is higher than a preset standard, and properly adjusts the proportion of the adult fever reducing product quantity of the specific part in the total adult fever reducing product quantity of each specific part stored in the central control module during subsequent replenishment according to the delta Mai, and sets delta Mai = Mai-Mai2.

Furthermore, the central control module is provided with a variation difference value delta Mai1 of the quantity of the adult defervesce products of a first preset specific part, a variation difference value delta Mai2 of the quantity of the adult defervesce products of a second preset specific part, an adult defervesce product proportion regulating coefficient alpha 1 of the first preset specific part, an adult defervesce product proportion regulating coefficient alpha 2 of the second preset specific part and an adult defervesce product proportion regulating coefficient alpha 3 of the third preset specific part, wherein, the delta Mai1 is less than the delta Mai2, the alpha 1 is more than the alpha 1 and less than the alpha 2 and less than the alpha 3 and less than 1.5,

if the quantity of the adult defervescence products at the specific part is less than or equal to the quantity of the adult defervescence products at the specific part, the central control module adjusts the proportion of the total quantity of the adult defervescence products at the specific part stored in the central control module to a corresponding value by using alpha 1 when the proportion of the total quantity of the adult defervescence products at the specific part is in subsequent supply with Bai;

if delta Mai1 is less than or equal to delta Mai and less than or equal to delta Mai2, the central control module adjusts the proportion of the total number of the adult antipyretic products of the specific part stored in the central control module to the corresponding value by using alpha 2;

if delta Mai > [ delta Mai2 ], the central control module uses alpha 3 to adjust the proportion of the total number of the adult antipyretic products at the specific part to the proportion of the total number of the adult antipyretic products at each specific part stored in the central control module to the corresponding value during subsequent supply of Bai;

the central control module records the proportion of the number of the adult antipyretic products at the specific part in the adjusted subsequent replenishment in the total number of the adult antipyretic products at each specific part stored in the central control module as Bai ', and sets that Bai' = Bai multiplied by alpha i, wherein i =1,2,3.

Further, aiming at the adult fever reducing products at a single specific part, the central control module calculates the residual quantity delta Nai of the adult fever reducing products at the specific part and predicts the variation trend of the quantity of the adult fever reducing products at the specific part according to the delta Nai, sets delta Nai = Nai-Mai, the central control module is provided with the lowest residual quantity delta Naimin,

if the delta Nai is larger than or equal to the delta Naimin, the central control module judges that the residual quantity of the adult antipyretic products at the specific part is within a preset allowable range;

if the delta Nai is less than the delta Naimin, the central control module judges that the residual quantity of the adult fever-reducing products at the specific part is lower than a preset standard, and secondarily adjusts the proportion Bai' of the total quantity of the adult fever-reducing products at the specific part, which are stored in the central control module, of the quantity of the adult fever-reducing products at the specific part during subsequent replenishment until the residual quantity delta Nai of the adult fever-reducing products at the specific part meets the preset standard.

Further, for the child fever reducing products at a single specific part, the central control module periodically detects the number Nci of the child fever reducing products at the specific part recorded in the storage module, the central control module calculates the variation Mci of the number of the child fever reducing products at the specific part in a single period according to the Nci and predicts the variation trend of the number of the child fever reducing products at the specific part according to the Mci so as to properly adjust the proportion Bci of the total number of the child fever reducing products at each specific part stored in the central control module for the number of the child fever reducing products at the specific part in the subsequent replenishment, the central control module is provided with a child fever reducing product amount variation Mci1 at a first preset specific part and a child fever reducing product amount variation Mci2 at a second preset specific part, and Mci1 < Mci2 is set,

if Mci is less than or equal to Mci1, the central control module judges that the variation of the quantity of the children's antipyretic products at the specific part in a single period is lower than a preset standard, marks the children's antipyretic products at the specific part as products to be prepared, and properly reduces the proportion of the quantity of the children's antipyretic products at the specific part stored in the central control module to the total quantity of the children's antipyretic products at each specific part during subsequent replenishment;

if Mci1 is larger than Mci and is not larger than Mci2, the central control module judges that the variation of the quantity of the children's antipyretic products at the specific part in a single period meets a preset standard, and the proportion of the quantity of the children's antipyretic products at the specific part stored in the central control module to the total quantity of the children's antipyretic products at each specific part is kept unchanged during subsequent replenishment;

if the Mci is larger than the Mci2, the central control module judges that the variation amount of the quantity of the child fever reducing products at the specific part in a single period is higher than a preset standard, and properly adjusts the proportion of the quantity of the child fever reducing products at the specific part stored in the central control module in the quantity of the child fever reducing products at the specific part during subsequent replenishment according to the delta Mci, and sets delta Mci = Mci-Mci2.

Furthermore, the central control module is also provided with a variation difference value delta Mci1 of the quantity of the children's fever reducing products at a first preset specific position, a variation difference value delta Mci2 of the quantity of the children's fever reducing products at a second preset specific position, a regulation coefficient beta 1 of the proportion of the children's fever reducing products at the first preset specific position, a regulation coefficient beta 2 of the proportion of the children's fever reducing products at the second preset specific position and a regulation coefficient beta 3 of the proportion of the children's fever reducing products at a third preset specific position, wherein delta Mci1 is less than delta Mci2,1 is less than beta 2 is less than beta 3 is less than 1.7,

if delta Mci is less than or equal to delta Mci1, the central control module adjusts the proportion of the total quantity of the children defervescence products of the specific part stored in the central control module to the corresponding value by using beta 1 when the proportion Bci supplies the children defervescence products of the specific part;

if delta Mci1 is less than delta Mci and less than delta Mci2, the central control module uses beta 2 to adjust the proportion of the total quantity of the children's antipyretic products at the specific part stored in the central control module to the corresponding value;

if delta Mci > -delta Mci2, the central control module uses beta 3 to adjust the proportion of the total quantity of the children fever reducing products at the specific part stored in the central control module to the corresponding value during subsequent replenishment of the proportion Bci of the total quantity of the children fever reducing products at the specific part;

the central control module records the ratio of the number of the children's antipyretic products at the specific part to the total number of the children's antipyretic products at each specific part stored in the central control module in the adjusted subsequent replenishment as Bci ', and sets Bci' = Bci multiplied by beta i, wherein i =1,2 and 3.

Furthermore, for the child fever abatement products of a single specific part, the central control module calculates the residual quantity delta Nci of the child fever abatement products of the specific part, predicts the change trend of the quantity of the child fever abatement products of the specific part according to the delta Nci, sets delta Nci = Nci-Mci, is provided with the lowest residual quantity delta Ncimin,

if the delta Nci is more than or equal to the delta Ncimin, the central control module judges that the residual quantity of the children antipyretic products at the specific part is within a preset allowable range;

if delta Nci is smaller than delta Ncimin, the central control module judges that the residual quantity of the children's fever reducing products at the specific part is lower than a preset standard, and secondarily adjusts the proportion Bci ' of the total quantity of the children's fever reducing products at the specific part, which are stored in the central control module during subsequent supply, of the quantity of the children's fever reducing products at the specific part until the residual quantity delta Nci of the children's fever reducing products at the specific part meets the preset standard.

Further, the central control module calculates the variation Mi of the number of the physical antipyretic products of a specific part of a single part in a single period and comprehensively predicts the variation trend of the number of the physical antipyretic products of the specific part according to Mi, wherein Mi = Mai + Mci, the central control module is provided with a maximum number variation value Mimax,

if Mi is larger than Mimax, the central control module judges that the quantity variation of the physical defervescence products at the specific part does not meet the preset standard, and the proportion Bti of the total quantity of the general defervescence products in the warehouses to which the physical defervescence products at the specific part belong in each warehouse needs to be adjusted to a corresponding value during subsequent replenishment;

if Mi is less than or equal to Mimax, the central control module judges that the quantity variation of the physical antipyretic products at the specific part is within a preset standard allowable range, and the proportion of the quantity of the general antipyretic products in the warehouses to which the physical antipyretic products at the specific part belong to the total quantity of the general antipyretic products in each warehouse does not need to be adjusted.

Further, the central control module calculates a difference Δ Mi between a variation Mi of the number of the physical defervescence products at a specific portion of the single portion and a maximum number variation value Mimax in a single period under a first preset condition, the central control module is provided with a first preset number variation difference M1, a second preset number variation M2, a first preset ratio adjustment coefficient γ 1, a second preset ratio adjustment coefficient γ 2 and a third preset ratio adjustment coefficient γ 3, wherein M1 is less than M2,1.1 is less than γ 1 is less than γ 2 is less than γ 3 is less than 1.4,

if the delta Mi is less than or equal to M1, the central control module adjusts the ratio Bti of the total number of the general defervescence products in each warehouse to the total number of the general defervescence products in the warehouse to which the physical defervescence products of the specific part belong in the subsequent replenishment to a corresponding value by using gamma 1;

if M1 is less than delta Mi and less than or equal to M2, the central control module adjusts the ratio Bti of the total quantity of the general defervescence products in each warehouse of the quantity of the general defervescence products in the warehouse which belongs to the physical defervescence products of the specific part during subsequent replenishment to a corresponding value by using gamma 2;

if delta Mi is larger than M2, the central control module adjusts the ratio Bti of the total number of the general antipyretic products in each warehouse aiming at the number of the general antipyretic products in the warehouse to which the physical antipyretic products of the specific part belong in subsequent replenishment to a corresponding value by using gamma 2;

the central control module records the ratio of the number of the adjusted general defervescence products in the warehouse to which the physical defervescence product for the specific part belongs to the total number of the general defervescence products in each warehouse as Bti ', and sets Bti' = Bti multiplied by gamma i, wherein i =1,2,3,

the first preset condition is that the variation Mi of the number of the physical defervescence products aiming at the specific part of the single part in the single period calculated by the central control module is larger than the maximum number variation value Mimax preset in the central control module.

Compared with the prior art, the system has the advantages that the quantity change condition of the physical antipyretic products stored in each warehouse is analyzed by using the central control module to predict the change trend of the quantity of the physical antipyretic products, and the subsequent supply quantity ratio of the physical antipyretic products is correspondingly adjusted when the variable quantity of the physical antipyretic products is judged to be not in accordance with the preset standard.

Furthermore, the central control module divides the physical antipyretic products stored in the single warehouse into adult antipyretic products, child antipyretic products and general antipyretic products, and for the physical antipyretic products at the ith specific part, the central control module records the number of the adult antipyretic products at the specific part as Nai, the number of the child antipyretic products at the specific part as Nci and the number of the general antipyretic products as Nti.

Furthermore, the central control module Nai calculates a variation Mai of the number of the adult fever reduction products of the specific portion in a single period, compares the Mai with a variation Mai1 of the number of the adult fever reduction products of a first preset specific portion and a variation Mai2 of the number of the adult fever reduction products of a second preset specific portion preset in the central control module to determine whether the variation of the number of the adult fever reduction products of the specific portion in the single period meets a preset standard, and appropriately adjusts the proportion Bai of the total number of the adult fever reduction products of the specific portion stored in the central control module for the number of the adult fever reduction products of the specific portion during subsequent replenishment, so that the accuracy of the system for predicting the variation of the number of the adult fever reduction products of the specific portion can be ensured, and the management efficiency of the system of the invention for the physical fever reduction products of each single portion is further ensured.

Further, when Mai > Mai2, the central control module calculates a difference Δ Mai between Mai and Mai2 and compares Δ Mai with an adult defervescence product variation difference Δ Mai1 of a first preset specific part and an adult defervescence product variation difference Δ Mai2 of a second preset specific part preset in the central control module, so as to adjust the proportion of the adult defervescence product quantity of the specific part in the central control module to a corresponding value Bai' when the proportion Bai is subsequently replenished, wherein the proportion of the adult defervescence product quantity of the specific part in the total adult defervescence product quantity of the specific part is stored in the central control module, so that the accuracy of the proportion adjustment of the system in the proportion to the adult defervescence product quantity of the specific part in the total adult defervescence product quantity of the specific part stored in the central control module can be ensured, and the management efficiency of the system in the invention for the physical defervescence product of each single part is further improved.

Furthermore, the central control module calculates the residual quantity delta Nai of the adult fever reduction products at the specific part and compares the delta Nai with the lowest residual quantity delta Naimin arranged in the central control module to judge whether the residual quantity of the adult fever reduction products at the specific part meets the preset standard or not, so that the residual quantity of the adult fever reduction products at the specific part can be ensured to be within the preset standard range, the capability of the system of the invention for dealing with the emergency is improved, and the management efficiency of the system of the invention for the physical fever reduction products of each single part is further improved.

Furthermore, the central control module Nci calculates a variation Mci of the number of the children's fever-reducing products at the specific portion in a single period, compares the Mci with a variation Mci1 of the number of the children's fever-reducing products at a first preset specific portion and a variation Mci2 of the number of the children's fever-reducing products at a second preset specific portion preset in the central control module, so as to determine whether the variation of the number of the children's fever-reducing products at the specific portion in the single period meets a preset standard, and appropriately adjusts the ratio Bci of the total number of the children's fever-reducing products at the specific portion stored in the central control module during subsequent replenishment, so that the accuracy of the system for predicting the variation of the number of the children's fever-reducing products at the specific portion can be ensured, and the management efficiency of the system of the invention for the physical fever-reducing products at each single portion can be further ensured.

Further, when the Mci is greater than the Mci2, the central control module calculates a difference value Δ Mci between the Mci and the Mci2 and compares the Δ Mci with a child defervescence product variation difference value Δ Mci1 of a first preset specific part and a child defervescence product variation difference value Δ Mci2 of a second preset specific part preset in the central control module, so as to adjust the proportion of the total number of child defervescence products of the specific part stored in the central control module to a corresponding value Bci 'when the proportion of the total number of child defervescence products of the specific part is subsequently replenished to the corresponding value Bci', thereby ensuring the accuracy of the proportion adjustment of the system to the total number of child defervescence products of the specific part stored in the central control module, and further improving the management efficiency of the system of the invention for each single part.

Furthermore, the central control module calculates the residual quantity Δ Nci of the children fever-abatement products at the specific part and compares the Δ Nci with the minimum residual quantity Δ Ncimin the central control module to judge whether the residual quantity of the children fever-abatement products at the specific part meets a preset standard, so that the residual quantity of the children fever-abatement products at the specific part can be ensured to be within a preset standard range, the capability of the system of the invention for dealing with emergencies is improved, and the management efficiency of the system of the invention for the physical fever-abatement products of each single part is further improved.

Further, the central control module compares Mi with Mimax to determine whether the quantity variation of the physical annealing products at the specific location meets a preset standard, calculates a difference Δ Mi between Mi and Mimax when determining that the quantity variation of the physical annealing products at the specific location is greater than the preset standard, and adjusts the ratio Bti of the total quantity of the general annealing products in the warehouse to which the physical annealing products at the specific location belong in each warehouse during subsequent replenishment to a corresponding value Bti' by comparing Δ Mi with a first preset quantity variation difference M1 and a second preset quantity variation M2, so as to ensure the rationality of the quantity of each physical annealing product in each warehouse, and further improve the management efficiency of the system of the invention on the physical annealing products at each single location.

Drawings

FIG. 1 is a block diagram of a predictive management system for physical abatement products in accordance with the present invention;

FIG. 2 is a flowchart illustrating the method for determining whether the variation of the quantity of the adult antipyretic products at the specific location in a single period meets the predetermined criteria by comparing Mai with Mai1 and Mai2 by the control module according to the embodiment of the present invention;

FIG. 3 is a flowchart illustrating the control module comparing Mai with Mai1 and Mai2 to determine whether the variation of the quantity of the children's antipyretic products at the specific location in a single period meets a predetermined criterion according to the embodiment of the present invention;

fig. 4 is a flowchart illustrating the process of determining whether the amount of change of the physical antipyretic products at a specific location of a single location in a single period meets the predetermined standard by comparing Mi with Mimax by the control module according to the embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Fig. 1 is a block diagram of a prediction management system for physical annealing products according to the present invention, which includes a plurality of warehouses, a recording module, a storage module, and a central control module.

The warehouses are used for storing physical antipyretic products, and for a single warehouse, different types of physical antipyretic products are stored in the warehouses; the recording module is used for counting the storage quantity of the physical antipyretic products in each warehouse and recording the belonged type of each physical antipyretic product; the storage module is used for recording the use records of the physical antipyretic products in the warehouses; the central control module is connected with the warehouses, the recording module and the storage module respectively and used for periodically detecting the number of specific antipyretic products for different parts in each warehouse recorded in the storage module, calculating the number variation of the antipyretic products for each specific part in a single period according to the detected number of the antipyretic products for each specific part, predicting the variation trend of the antipyretic products for each specific part in each warehouse according to the number variation of the antipyretic products for each specific part in the single period stored in each warehouse, and adjusting the proportion of the total number of the antipyretic products for each specific part stored in the central control module to a corresponding value when the fact that the variation of the number of the antipyretic products for each specific part does not meet a preset standard is judged.

When the system runs, the recording module sends the counted storage quantity of the physical antipyretic products in each warehouse and the recorded belonged types of the physical antipyretic products to the central control module; the storage module sends the recorded use records of the physical antipyretic products in each warehouse to the central control module; after receiving the information transmitted by the recording module and the storage module, the central control module analyzes the quantity change condition of the physical defervescence products stored in each warehouse to predict the change trend of the quantity of the physical defervescence products, and correspondingly adjusts the ratio of the subsequent supply quantity when the change quantity of the physical defervescence products is judged not to meet the preset standard;

for a single warehouse, specific antipyretic products stored in the warehouse comprise adult antipyretic products and child antipyretic products, and for physical antipyretic products for the ith specific part, i =1,2, 3.. And n are set, wherein n is the total number of parts which can be applied by each specific part product stored in the central control module, the central control module records the number of adult antipyretic products for the specific part as Nai, the number of child antipyretic products for the specific part as Nci, and the number of general antipyretic products as Nti.

Please refer to fig. 2, which is a flowchart illustrating that the control module compares Mai with Mai1 and Mai2 to determine whether the variation of the number of the adult antipyretic products at the specific location in a single period meets the preset standard, for the adult antipyretic products at a single specific location, the central control module periodically detects the number Nai of the adult antipyretic products at the specific location recorded in the storage module, the central control module calculates the variation Mai of the number of the adult antipyretic products at the specific location in a single period according to the Nai and predicts the variation trend of the number of the adult antipyretic products at the specific location according to the Mai to adjust the ratio Bai of the total number of the adult antipyretic products at each specific location stored in the central control module at the subsequent replenishment time to a corresponding value, the central control module is provided with a first preset number of the adult antipyretic products Mai1 and a second preset number of the antipyretic products Mai2, the variation Mai1 is set to be less than the variation Mai2,

if the Mai is not more than 1, the central control module judges that the variation of the number of the adult antipyretic products at the specific part in a single period is lower than a preset standard, marks the adult antipyretic products at the specific part as products to be blended, and properly reduces the proportion of the number of the adult antipyretic products at the specific part to the total number of the adult antipyretic products at each specific part stored in the central control module during subsequent replenishment;

if the Mai1 is larger than the Mai and is not larger than the Mai2, the central control module judges that the variation quantity of the adult defervescence product quantity of the specific part in a single period meets a preset standard, and keeps the proportion of the adult defervescence product quantity of the specific part in the total adult defervescence product quantity number of each specific part stored in the central control module unchanged during subsequent replenishment;

if Mai is larger than Mai2, the central control module judges that the variation amount of the adult fever reducing product quantity of the specific part in a single period is higher than a preset standard, and properly adjusts the proportion of the total adult fever reducing product quantity of each specific part stored in the central control module according to the Δ Mai, and sets Δ Mai = Mai-Mai2.

Specifically, the central control module is provided with a variation difference value delta Mai1 of the quantity of adult defervescence products of a first preset specific part, a variation difference value delta Mai2 of the quantity of adult defervescence products of a second preset specific part, an adult defervescence product proportion adjusting coefficient alpha 1 of the first preset specific part, an adult defervescence product proportion adjusting coefficient alpha 2 of the second preset specific part and an adult defervescence product proportion adjusting coefficient alpha 3 of a third preset specific part, wherein the delta Mai1 is less than the delta Mai2,1 is less than the alpha 1 and less than the alpha 2 and less than the alpha 3 and less than 1.5,

if delta Mai is less than or equal to delta Mai1, the central control module uses alpha 1 to adjust the proportion of the number of the adult fever reducing products of the specific part to the proportion of the total number of the adult fever reducing products of each specific part stored in the central control module, namely the proportion of the number of the adult fever reducing products of each specific part to the corresponding value in the subsequent supply;

if delta Mai1 is less than or equal to delta Mai and less than or equal to delta Mai2, the central control module adjusts the proportion of the total number of the adult antipyretic products of the specific part stored in the central control module to the corresponding value by using alpha 2;

if delta Mai > -delta Mai2, the central control module uses alpha 3 to adjust the proportion of the total number of the adult fever reducing products at the specific part to the proportion Bai in the subsequent supply of the total number of the adult fever reducing products at the specific part stored in the central control module to a corresponding value;

the central control module records the proportion of the number of the adult antipyretic products at the specific part in the adjusted subsequent replenishment in the total number of the adult antipyretic products at each specific part stored in the central control module as Bai ', and sets that Bai' = Bai multiplied by alpha i, wherein i =1,2,3.

Specifically, aiming at the adult fever reducing product at a single specific part, the central control module calculates the residual quantity delta Nai of the adult fever reducing product at the specific part and predicts the variation trend of the quantity of the adult fever reducing product at the specific part according to the delta Nai, the delta Nai = Nai-Mai is set, the lowest residual quantity delta Naimin is arranged in the central control module,

if the delta Nai is not less than or equal to the delta Naimin, the central control module judges that the residual quantity of the adult antipyretic products at the specific part is within a preset allowable range;

if the delta Nai is less than the delta Naimin, the central control module judges that the residual quantity of the adult fever-reducing products at the specific part is lower than a preset standard, and secondarily adjusts the proportion Bai' of the total quantity of the adult fever-reducing products at the specific part, which are stored in the central control module, of the quantity of the adult fever-reducing products at the specific part during subsequent replenishment until the residual quantity delta Nai of the adult fever-reducing products at the specific part meets the preset standard.

Referring to fig. 3, which is a flowchart of the embodiment of the present invention in which a control module compares Mai with Mai1 and Mai2 to determine whether a variation of the number of children's antipyretic products at a specific location in a single cycle meets a preset criterion, for a child's antipyretic product at a specific location, the central control module periodically detects the number Nci of the child's antipyretic products at the specific location recorded in the storage module, calculates the variation Mci of the number of the child's antipyretic products at the specific location in a single cycle according to the Nci, and predicts the variation trend of the number of the child's antipyretic products at the specific location according to the Nci to appropriately adjust the ratio Bci of the total number of the child's antipyretic products at each specific location stored in the central control module for subsequent replenishment of the number of the child's antipyretic products at the specific location, where a variation of the child's antipyretic products at a first preset specific location is set in the central control module, and a variation of the number Mci2 of the child's antipyretic products at a second preset specific location is set to be less than Mci1 and Mci2,

if the Mci is less than or equal to the Mci1, the central control module judges that the variation of the quantity of the children's antipyretic products at the specific part in a single period is lower than a preset standard, marks the children's antipyretic products at the specific part as products to be prepared, and properly reduces the proportion of the quantity of the children's antipyretic products at the specific part to the total quantity of the children's antipyretic products at each specific part stored in the central control module during subsequent replenishment;

if Mci1 is greater than Mci and is not greater than Mci2, the central control module judges that the variation of the quantity of the children's antipyretic products at the specific part in a single period meets a preset standard, and the proportion of the quantity of the children's antipyretic products at the specific part to the total quantity of the children's antipyretic products at each specific part stored in the central control module is kept unchanged during subsequent replenishment;

if Mci is larger than Mci2, the central control module judges that the variation amount of the quantity of the children's antipyretic products at the specific part in a single period is higher than a preset standard, and the proportion of the quantity of the children's antipyretic products at the specific part stored in the central control module at the subsequent supply time to the total quantity of the children's antipyretic products at the specific part is appropriately adjusted according to the delta Mci, and delta Mci = Mci-Mci2 is set.

Specifically, the central control module is also provided with a variation difference delta Mci1 of the quantity of the child fever-allaying products at a first preset specific part, a variation difference delta Mci2 of the quantity of the child fever-allaying products at a second preset specific part, a proportion adjustment coefficient beta 1 of the child fever-allaying products at the first preset specific part, a proportion adjustment coefficient beta 2 of the child fever-allaying products at the second preset specific part and a proportion adjustment coefficient beta 3 of the child fever-allaying products at a third preset specific part, wherein delta Mci1 is less than delta Mci2,1 is more than beta 1 and more than beta 2 and more than beta 3 and less than 1.7,

if delta Mci is less than or equal to delta Mci1, the central control module adjusts the proportion of the total quantity of the children defervescence products of the specific part stored in the central control module to the corresponding value by using beta 1 when the proportion Bci supplies the children defervescence products of the specific part;

if delta Mci1 is less than delta Mci and less than delta Mci2, the central control module uses beta 2 to adjust the proportion of the total quantity of the children's antipyretic products at the specific part stored in the central control module to the corresponding value;

if delta Mci > [ delta Mci2 ], the central control module adjusts the proportion of the total quantity of the children fever reducing products of the specific part stored in the central control module to the corresponding value by using beta 3 when the proportion Bci is supplied subsequently;

the central control module records the proportion of the total number of the children antipyretic products at the specific part stored in the central control module in the regulated quantity of the children antipyretic products at the specific part during subsequent replenishment as Bci ', and sets Bci' = Bci multiplied by beta i, wherein i =1,2,3.

Specifically, for the child fever reducing products at a single specific part, the central control module calculates the residual quantity delta Nci of the child fever reducing products at the specific part, predicts the change trend of the quantity of the child fever reducing products at the specific part according to the delta Nci, sets delta Nci = Nci-Mci, is provided with the lowest residual quantity delta Ncimin,

if the delta Nci is more than or equal to the delta Ncimin, the central control module judges that the residual quantity of the children antipyretic products at the specific part is within a preset allowable range;

if delta Nci is smaller than delta Ncimin, the central control module judges that the residual quantity of the children's fever reducing products at the specific part is lower than a preset standard, and secondarily adjusts the proportion Bci ' of the total quantity of the children's fever reducing products at the specific part, which are stored in the central control module during subsequent supply, of the quantity of the children's fever reducing products at the specific part until the residual quantity delta Nci of the children's fever reducing products at the specific part meets the preset standard.

Please refer to fig. 4, which is a flowchart illustrating the embodiment of the present invention in which the control module compares Mi with Mimax to determine whether the variation of the number of physical defervescence products for a specific portion of a single portion in a single period meets a predetermined standard, the central control module calculates the variation Mi of the number of physical defervescence products for the specific portion of the single period and performs comprehensive prediction according to the variation trend of Mi for the number of physical defervescence products for the specific portion, wherein Mi = Mai + Mci, the central control module has a maximum number variation value Mimax,

if Mi is more than Mimax, the central control module judges that the quantity variation of the physical antipyretic products at the specific part does not meet the preset standard, and the proportion Bti of the total quantity of the general antipyretic products in each warehouse of the quantity of the general antipyretic products in the warehouse to which the physical antipyretic products at the specific part belong needs to be adjusted to a corresponding value in subsequent replenishment;

if Mi is less than or equal to Mimax, the central control module judges that the quantity variation of the physical defervescence products at the specific part is within the preset standard allowable range, and the proportion of the quantity of the general defervescence products in the warehouse to which the physical defervescence products at the specific part belong to the total quantity of the general defervescence products in each warehouse does not need to be adjusted.

Specifically, the central control module calculates a difference Δ Mi between a variation Mi of the number of the physical defervescence products at a specific portion of a single portion and a maximum number variation value Mimax in a single period under a first preset condition, the central control module is provided with a first preset number variation difference M1, a second preset number variation M2, a first preset ratio adjustment coefficient γ 1, a second preset ratio adjustment coefficient γ 2 and a third preset ratio adjustment coefficient γ 3, wherein M1 is less than M2,1.1 is less than γ 1 is less than γ 2 is less than γ 3 is less than 1.4,

if the delta Mi is less than or equal to M1, the central control module adjusts the ratio Bti of the total number of the general defervescence products in each warehouse to the total number of the general defervescence products in the warehouse to which the physical defervescence products of the specific part belong in the subsequent replenishment to a corresponding value by using gamma 1;

if M1 is less than delta Mi and less than or equal to M2, the central control module adjusts the ratio Bti of the total quantity of the general defervescence products in each warehouse of the quantity of the general defervescence products in the warehouse which belongs to the physical defervescence products of the specific part during subsequent replenishment to a corresponding value by using gamma 2;

if delta Mi is larger than M2, the central control module adjusts the ratio Bti of the total number of the general antipyretic products in each warehouse aiming at the number of the general antipyretic products in the warehouse to which the physical antipyretic products of the specific part belong in subsequent replenishment to a corresponding value by using gamma 2;

the central control module records the ratio of the number of the adjusted general defervescence products in the warehouse to which the physical defervescence product for the specific part belongs to the total number of the general defervescence products in each warehouse as Bti ', and sets Bti' = Bti multiplied by gamma i, wherein i =1,2,3,

the first preset condition is that the variable quantity Mi of the number of the physical defervescence products aiming at the specific part of the single part in the single period calculated by the central control module is larger than the maximum quantity variable quantity Mimax preset in the central control module.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A predictive management system for a physical abatement product, comprising:

the system comprises a plurality of warehouses, a plurality of cooling units and a control unit, wherein the warehouses are used for storing different types of physical cooling products, and for a single warehouse, the types of the physical cooling products stored in the warehouse comprise specific cooling products aiming at different parts and general cooling products which are generally used for all parts;

the recording module is used for counting and recording the storage quantity of the physical defervescence products in each warehouse and the quantity of various physical defervescence products;

the storage module is used for storing the use records of the physical defervescence products in the warehouses;

the central control module is respectively connected with the warehouse, the recording module and the storage module and is used for periodically detecting the number of specific antipyretic products for different parts in each warehouse recorded in the storage module, respectively calculating the number variation of the antipyretic products for each specific part in a single period according to the detected number of the antipyretic products for each specific part, predicting the variation trend of the antipyretic products for each specific part in each warehouse according to the number variation of the antipyretic products for each specific part in the single period stored in each warehouse, and adjusting the proportion of the total number of the antipyretic products for each specific part stored in the central control module by the number of the antipyretic products for the specific part to a corresponding value when the number variation of the antipyretic products for each specific part in each warehouse is judged to be not in accordance with a preset standard;

for a single warehouse, specific antipyretic products stored in the warehouse comprise adult antipyretic products and child antipyretic products, and for physical antipyretic products for the ith specific part, i =1,2, 3.. And n are set, wherein n is the total number of parts which can be applied by each specific part product stored in the central control module, the central control module records the number of adult antipyretic products for the specific part as Nai, the number of child antipyretic products for the specific part as Nci, and the number of general antipyretic products as Nti.

2. The system of claim 1, wherein the central control module periodically detects the amount Nai of the adult antipyretic products at a specific location recorded in the storage module for the adult antipyretic products at the specific location, calculates the variation Mai of the amount Nai of the adult antipyretic products at the specific location in a single period according to Nai, predicts the variation trend of the amount Mai of the adult antipyretic products at the specific location according to Mai to adjust the ratio Bai of the total amount of the adult antipyretic products at each specific location stored in the central control module for the amount Mai of the adult antipyretic products at the specific location to a corresponding value at the time of subsequent replenishment, and is provided with a first preset amount Mai1 of variation and a second preset amount Mai2 of variation, wherein Mai1 < Mai2,

if the Mai is not more than 1, the central control module judges that the variation of the number of the adult antipyretic products at the specific part in a single period is lower than a preset standard, marks the adult antipyretic products at the specific part as products to be blended, and properly reduces the proportion of the number of the adult antipyretic products at the specific part to the total number of the adult antipyretic products at each specific part stored in the central control module during subsequent replenishment;

if the Mai1 is larger than the Mai and is not larger than the Mai2, the central control module judges that the variation of the number of the adult fever-reducing products of the specific part in a single period meets a preset standard, and keeps the proportion of the number of the adult fever-reducing products of the specific part in the total number of the adult fever-reducing products of the specific part stored in the central control module in the subsequent supply;

if Mai is larger than Mai2, the central control module judges that the variation amount of the adult fever reducing product quantity of the specific part in a single period is higher than a preset standard, and properly adjusts the proportion of the total adult fever reducing product quantity of each specific part stored in the central control module according to the Δ Mai, and sets Δ Mai = Mai-Mai2.

3. The system of claim 2, wherein the central control module has a variation Δ Mai1 of the quantity of adult antipyretic products at a first predetermined specific location, a variation Δ Mai2 of the quantity of adult antipyretic products at a second predetermined specific location, an adjustment α 1 of the percentage of adult antipyretic products at the first predetermined specific location, an adjustment α 2 of the percentage of adult antipyretic products at the second predetermined specific location, and an adjustment α 3 of the percentage of adult antipyretic products at the third predetermined specific location, wherein Δ Mai1 is less than Δ Mai2,1 < α 2 < α 3 < 1.5,

if the quantity of the adult defervescence products at the specific part is less than or equal to the quantity of the adult defervescence products at the specific part, the central control module adjusts the proportion of the total quantity of the adult defervescence products at the specific part stored in the central control module to a corresponding value by using alpha 1 when the proportion of the total quantity of the adult defervescence products at the specific part is in subsequent supply with Bai;

if delta Mai1 is less than or equal to delta Mai and less than or equal to delta Mai2, the central control module adjusts the proportion of the total number of the adult antipyretic products of the specific part stored in the central control module to the corresponding value by using alpha 2;

if delta Mai > [ delta Mai2 ], the central control module uses alpha 3 to adjust the proportion of the total number of the adult antipyretic products at the specific part to the proportion of the total number of the adult antipyretic products at each specific part stored in the central control module to the corresponding value during subsequent supply of Bai;

the central control module records the proportion of the number of the adult antipyretic products at the specific part in the adjusted subsequent replenishment to the total number of the adult antipyretic products at each specific part stored in the central control module as Bai ', and sets that Bai' = Bai x alpha i, wherein i =1,2,3.

4. The system for the predictive management of physical fever reducing products, according to claim 2, wherein for a single adult fever reducing product at a specific location, the central control module calculates the residual quantity Δ Nai of the adult fever reducing product at the specific location and predicts the variation trend of the quantity of the adult fever reducing product at the specific location according to the Δ Nai, setting Δ Nai = Nai-Mai, the central control module is provided with the lowest residual quantity Δ Naimin,

if the delta Nai is not less than or equal to the delta Naimin, the central control module judges that the residual quantity of the adult antipyretic products at the specific part is within a preset allowable range;

if the delta Nai is less than the delta Naimin, the central control module judges that the residual quantity of the adult fever-reducing products at the specific part is lower than a preset standard, and secondarily adjusts the proportion Bai' of the total quantity of the adult fever-reducing products at the specific part, which are stored in the central control module, of the quantity of the adult fever-reducing products at the specific part during subsequent replenishment until the residual quantity delta Nai of the adult fever-reducing products at the specific part meets the preset standard.

5. The system according to claim 1, wherein the central control module periodically detects the number Nci of the children's antipyretic products at a specific location recorded in the storage module, calculates the variation Mci of the number of the children's antipyretic products at the specific location in a single period according to Nci, predicts the variation trend of the number of the children's antipyretic products at the specific location according to Mci so as to properly adjust the ratio Bci of the total number of the children's antipyretic products at each specific location stored in the central control module for the number of the children's antipyretic products at each specific location in subsequent replenishment, and sets the child antipyretic product amount variation Mci1 at a first preset specific location and the child antipyretic product amount variation Mci2 at a second preset specific location in the central control module, and sets Mci1 < Mci2,

if Mci is less than or equal to Mci1, the central control module judges that the variation of the quantity of the children's antipyretic products at the specific part in a single period is lower than a preset standard, marks the children's antipyretic products at the specific part as products to be prepared, and properly reduces the proportion of the quantity of the children's antipyretic products at the specific part stored in the central control module to the total quantity of the children's antipyretic products at each specific part during subsequent replenishment;

if Mci1 is greater than Mci and is not greater than Mci2, the central control module judges that the variation of the quantity of the children's antipyretic products at the specific part in a single period meets a preset standard, and the proportion of the quantity of the children's antipyretic products at the specific part to the total quantity of the children's antipyretic products at each specific part stored in the central control module is kept unchanged during subsequent replenishment;

if Mci is larger than Mci2, the central control module judges that the variation amount of the quantity of the children's antipyretic products at the specific part in a single period is higher than a preset standard, and the proportion of the quantity of the children's antipyretic products at the specific part stored in the central control module at the subsequent supply time to the total quantity of the children's antipyretic products at the specific part is appropriately adjusted according to the delta Mci, and delta Mci = Mci-Mci2 is set.

6. The system for predictive management of physical annealing products according to claim 5, wherein said central control module further comprises a variation Δ Mci1 of the quantity of children's annealing products at a first predetermined location, a variation Δ Mci2 of the quantity of children's annealing products at a second predetermined location, a percentage adjustment coefficient β 1 of children's annealing products at the first predetermined location, a percentage adjustment coefficient β 2 of children's annealing products at the second predetermined location, and a percentage adjustment coefficient β 3 of children's annealing products at the third predetermined location, wherein Δ Mci1 is less than Δ Mci2,1 < β 2 < β 3 < 1.7,

if delta Mci is less than or equal to delta Mci1, the central control module adjusts the proportion of the total quantity of the children defervescence products of the specific part stored in the central control module to the corresponding value by using beta 1 when the proportion Bci supplies the children defervescence products of the specific part;

if delta Mci1 is less than delta Mci and less than delta Mci2, the central control module uses beta 2 to adjust the proportion of the total quantity of the children's antipyretic products at the specific part stored in the central control module to the corresponding value;

if delta Mci > [ delta Mci2 ], the central control module adjusts the proportion of the total quantity of the children fever reducing products of the specific part stored in the central control module to the corresponding value by using beta 3 when the proportion Bci is supplied subsequently;

the central control module records the ratio of the number of the children's antipyretic products at the specific part to the total number of the children's antipyretic products at each specific part stored in the central control module in the adjusted subsequent replenishment as Bci ', and sets Bci' = Bci multiplied by beta i, wherein i =1,2 and 3.

7. The system according to claim 5, wherein the central control module calculates the remaining quantity Δ Nci of the children's antipyretic products at a specific location and predicts the variation trend of the quantity of the children's antipyretic products at the specific location according to Δ Nci, wherein Δ Nci = Nci-Mci, the central control module is provided with the lowest remaining quantity Δ Ncimin,

if the delta Nci is more than or equal to the delta Ncimin, the central control module judges that the residual quantity of the children antipyretic products at the specific part is within a preset allowable range;

if delta Nci is smaller than delta Ncimin, the central control module judges that the residual quantity of the children's fever reducing products at the specific part is lower than a preset standard, and secondarily adjusts the proportion Bci ' of the total quantity of the children's fever reducing products at the specific part, which are stored in the central control module during subsequent supply, of the quantity of the children's fever reducing products at the specific part until the residual quantity delta Nci of the children's fever reducing products at the specific part meets the preset standard.

8. The system of claim 7, wherein the central control module calculates the variation Mi of the number of physical abatement products for a specific portion of a single period, and performs comprehensive prediction on the variation trend of the number of physical abatement products for the specific portion according to Mi, wherein Mi = Mai + Mci, the central control module is provided with a maximum number variation value Mimax,

if Mi is larger than Mimax, the central control module judges that the quantity variation of the physical defervescence products at the specific part does not meet the preset standard, and the proportion Bti of the total quantity of the general defervescence products in the warehouses to which the physical defervescence products at the specific part belong in each warehouse needs to be adjusted to a corresponding value during subsequent replenishment;

if Mi is less than or equal to Mimax, the central control module judges that the quantity variation of the physical defervescence products at the specific part is within the preset standard allowable range, and the proportion of the quantity of the general defervescence products in the warehouse to which the physical defervescence products at the specific part belong to the total quantity of the general defervescence products in each warehouse does not need to be adjusted.

9. The system of claim 8, wherein the central control module calculates a difference Δ Mi between a variation Mi of the quantity of the physical defervescence product for a specific portion of a single portion and a maximum quantity variation value Mimax in a single period under a first preset condition, the central control module is provided with a first preset quantity variation difference M1, a second preset quantity variation M2, a first preset duty ratio adjustment coefficient γ 1, a second preset duty ratio adjustment coefficient γ 2 and a third preset duty ratio adjustment coefficient γ 3, wherein M1 is less than M2,1.1 is less than γ 1 and γ 2 is less than γ 3 and less than 1.4,

if the delta Mi is less than or equal to M1, the central control module adjusts the ratio Bti of the total number of the general defervescence products in each warehouse to the total number of the general defervescence products in the warehouse to which the physical defervescence products of the specific part belong in the subsequent replenishment to a corresponding value by using gamma 1;

if M1 is less than delta Mi and less than or equal to M2, the central control module adjusts the proportion Bti of the total quantity of the general defervescence products in each warehouse of the number of the general defervescence products in the warehouse to which the physical defervescence products of the specific part belong in the subsequent supply to a corresponding value by using gamma 2;

if delta Mi is larger than M2, the central control module adjusts the ratio Bti of the total number of the general antipyretic products in each warehouse aiming at the number of the general antipyretic products in the warehouse to which the physical antipyretic products of the specific part belong in subsequent replenishment to a corresponding value by using gamma 2;

the central control module records the ratio of the number of the adjusted general defervescence products in the warehouse to which the physical defervescence product for the specific part belongs to the total number of the general defervescence products in each warehouse as Bti ', and sets Bti' = Bti multiplied by gamma i, wherein i =1,2,3,

the first preset condition is that the variation Mi of the number of the physical defervescence products aiming at the specific part of the single part in the single period calculated by the central control module is larger than the maximum number variation value Mimax preset in the central control module.

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