CN113488149A - Medical waste transportation process back-supplementing system and method - Google Patents

Abstract

The invention discloses a medical waste transportation process back-supplementing system; the system comprises a main control module and a plurality of groups of auxiliary control modules, wherein the main control module is electrically connected with a main information module, the main information module is electrically connected with a first communication module, the plurality of groups of auxiliary control modules have the same structure, the auxiliary control module is electrically connected with an auxiliary information module, the auxiliary information module is electrically connected with a second communication module, the second communication module is in communication connection with the first communication module, the auxiliary information module is electrically connected with a data callback module, the data callback module is electrically connected with the auxiliary control module, and the auxiliary control module is electrically connected with an identification module, a detection module and a registration identification module; the communication connection between all levels of the invention is unstable, data is easy to lose, and jumping, call back and the like cannot be realized.

Description

Medical waste transportation process back-supplementing system and method

Technical Field

The invention belongs to the technical field of medical waste transportation, and particularly relates to a medical waste transportation process back-supplementing system and a use method of the medical waste transportation process back-supplementing system.

Background

Hospital waste refers to all waste that a hospital needs to discard and cannot be reused, and includes biological and non-biological, and also includes domestic garbage. Medical waste refers to waste generated during the course of a patient's activities of diagnosis, treatment, care, and the like. Medical waste may contain a large amount of pathogenic microorganisms and harmful chemical substances, and even radioactive and damaging substances, so that the medical waste is an important risk factor causing disease transmission or related public health problems, and the medical waste is divided into five categories, namely: infectious waste: the infectious waste refers to medical waste carrying pathogenic microorganisms and having the risk of causing transmission of infectious diseases, and comprises medical waste plastic products such as articles polluted by blood, body fluid and excrement of patients, garbage generated by infectious disease patients and the like; pathological waste: the pathological waste refers to human waste and medical test animal carcasses generated in the diagnosis and treatment process, and comprises waste human tissues generated in an operation, waste human tissues after pathological section, pathological wax lumps and the like; damaging waste: the traumatic waste refers to a waste medical sharp instrument capable of stabbing or cutting a human body, and comprises a medical needle, a scalpel, a glass test tube and the like; pharmaceutical waste: the drug-containing waste refers to expired, obsolete, deteriorated or polluted waste drugs, including waste general drugs, waste cytotoxic drugs, genetic toxic drugs and the like; chemical waste: chemical waste refers to waste chemicals with toxicity, corrosiveness, flammability and explosiveness, such as waste chemical reagents, chemical disinfectants, mercury sphygmomanometer, mercury thermometer, etc., however, various medical waste transportation systems in the market still have various problems.

For example, the authorization publication number CN112259203A discloses a block chain-based medical waste supervision platform and management method, although the block chain-based medical waste full-life-cycle management method for the medical institutions is achieved through comprehensive application of the block chain, big data and Internet of things technology, the working process of the medical waste is optimized from the source, the supervision dead angle of the medical waste of the medical institutions in the processes of collection, rechecking, caching and transportation is solved, the supervision blank and the blind area are eliminated, and a series of problems that the medical institutions, the health care committee and the environmental protection department cannot trace back, cannot supervise, cannot obtain evidence, cannot trace back and cannot guarantee the authenticity of data for a long time are effectively solved, however, the problems that the existing communication connection between all levels is unstable, data is easy to lose, jumping and call back cannot be realized and the like are not solved, and therefore a medical waste transportation process recharging system and method are provided.

Disclosure of Invention

The invention aims to provide a medical waste transportation process recharging system and method to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a medical waste transportation process recharging system comprises a main control module and a plurality of sets of auxiliary control modules, wherein the main control module is electrically connected with a main information module, the main information module is electrically connected with a first communication module, the plurality of sets of auxiliary control modules are identical in structure, the auxiliary control modules are electrically connected with auxiliary information modules, the auxiliary information modules are electrically connected with a second communication module, the second communication module is in communication connection with the first communication module, the second communication module and the first communication module adopt wireless communication, Bluetooth communication or 4G communication, the auxiliary information modules are electrically connected with a data callback module, the data callback module is electrically connected with the auxiliary control modules, and the auxiliary control modules are electrically connected with an identification module, a detection module and a registration identification module;

the main information module and the auxiliary information module are used for processing transmitted data information, the main information module and the auxiliary information module respectively comprise a gain circuit, an acquisition circuit, a detection circuit, a conversion circuit and a de-noising circuit, the acquisition circuit is used for realizing the adoption of the transmitted data information, the de-noising circuit is used for filtering noise or clutter in the transmitted data information, the detection circuit is used for realizing the detection of the size of the data information, the conversion circuit is used for realizing the conversion of the transmitted data information into an adaptive format type, and the gain circuit is used for realizing the amplification processing of the transmitted data information;

the detection module is used for detecting medical waste and comprises weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment; the weight detection device is used for effectively detecting and recording medical wastes, the radiation monitoring device is used for detecting radioactivity of the medical wastes, storing the radioactive medical wastes in a lead box and carrying out label identification, the temperature detection device is used for detecting the temperature of the medical wastes and cooling the high-temperature medical wastes, and the counting device is used for effectively counting the number of the medical wastes.

Preferably, the main control module is electrically connected with a main auxiliary module, the auxiliary control module is electrically connected with an auxiliary module, the main auxiliary module and the auxiliary module respectively comprise a display, a control key and an alarm, the display in the main auxiliary module is a computer display, the control key is a keyboard, and the display in the auxiliary module is a touch display screen.

Preferably, the main control module is electrically connected with a power supply module, the power supply module is electrically connected with a commercial power grid, the power supply module comprises a voltage reduction circuit, a rectification circuit, a filter circuit and a voltage stabilizing circuit, and the auxiliary control module is also electrically connected with the power supply module and the commercial power grid.

Preferably, the main control module is electrically connected with a main storage module, the auxiliary control module is electrically connected with an auxiliary storage module, the main storage module and the auxiliary storage module at least comprise a ROM storage module and a RAM storage module, the ROM storage module is used for storing the program bodies operated by the main control module and the auxiliary control module, and the RAM storage module is used for storing the operation logs and data information of the main control module and the auxiliary control module.

Preferably, the auxiliary control module is electrically connected with a registration identification module, the registration identification module is used for registering medical waste and printing an identification label, the registration comprises medical waste source departments, medical waste weight, medical waste radioactivity and medical waste transfer personnel, and the identification label is used for generating a two-dimensional code or a bar code by using the registered data information, printing the two-dimensional code or the bar code to generate a label and attaching the label to the medical waste.

Preferably, the secondary control module is electrically connected with an identification module, and the identification module adopts a PDA code scanning device.

Preferably, the main information module and the auxiliary information module adopt a neural network algorithm to realize data information acquisition, and the main information module and the auxiliary information module adopt statistical models, binning, clustering or regression and other algorithms to realize data information de-noising;

number X in the neural network algorithm₁—X_nIs an input signal, w, from other neurons_ijRepresenting the connection weight from neuron j to neuron i, and θ represents a threshold (or becomes a bias), the relationship between the input and the output of neuron i is represented as:

y_i＝f(net_i)

y_irepresenting the output of a neuron i, the function f being called the activation function or transfer function, net being called the net activation, if the threshold is considered as an input x of the neuron i₀Weight w of_i0Then the equation can be simplified as:

if X represents the input vector and W represents the weight vector, then:

X＝[x₀,x₁,x₂,......,x_n]

the output of the neuron can be expressed in the form of vector multiplication:

net_i＝XW

Y_i＝f(net_i)＝f(XW)

if net activation net of neuron is positive, the neuron is in activation state, otherwise, the neuron is in inhibition state;

the statistical model utilizes 3 standard deviation principles to denoise normal data or utilizes four-point difference to denoise the normal data, the binning method is a simple and common preprocessing method, the final value is determined by examining adjacent data, so-called binning, which is actually sub-intervals divided according to attribute values, if an attribute value is in a certain sub-interval range, the attribute value is put into a "bin" represented by the sub-interval, the data to be processed is put into some bins according to a certain rule, the data in each bin is examined, the data in each bin is processed by a method, the clustering detects outliers by clusters such as k-means, the clustering organizes similar values into clusters or "clusters", the values falling outside the clusters are regarded as noise, the regression fitting data with a function to smooth the data, i.e., fitting the data to a function to smooth the data, the next value is predicted by building a mathematical model, which includes linear regression and non-linear regression.

Preferably, the data callback module adopts an isRecover program function to judge whether data is required to be complemented back, and judges whether data is required to be complemented back by continuously iterating the state of the next-level point through a getNextNodeStatus program function.

A use method of a medical waste transportation process recharging system comprises the following steps:

s1, detecting the medical waste through the detection module: detecting medical waste through weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment in a detection module, and generating two-dimensional codes or bar codes from medical waste sources, medical waste weight, medical waste radioactivity and medical waste transport personnel information to be printed and attached to the medical waste;

s2, transferring the medical waste between various grade points: the processed medical waste is transported among all levels of points, and when each level of point receives the medical waste, the label on the medical waste is identified through the identification module, and the data information is stored and transmitted, so that the next level of point can identify and check the medical waste;

s3, receiving medical waste by a processing company to a hospital: the processing company regularly arrives at a hospital to collect medical waste every day, performs identity recognition when the medical waste is collected, scans and recognizes medical waste information, uploads data information to a network, then realizes processing operations such as incineration on the medical waste, uploads the data information to the network in real time, and realizes processing such as disinfection and cleaning on a recycling bin;

s4, when data transmission is carried out, data are skipped and called back according to the situation: when the system transmits data, in the hardware acquisition process, the data of the current level is omitted and incompletely acquired, or the flow is blocked due to the damage and abnormal work of the hardware, if the current level cannot normally work or the data acquisition is abnormal, the current level can be directly skipped over to directly operate the next level, the omitted data of the current level is compensated by the next level, but the data is based on the data of the next level.

Preferably, in the medical waste detection in S1, if the radiation waste is detected, the radiation waste is stored in the lead box separately, and each level of the S2 includes a main control module level point, a clean to-be-shipped level point, a shipped middle level point, a temporary storage receiving level point, a disposal chamber shelving level point, a disposal chamber weighing and recycling level point, a disposal chamber transfer temporary storage level point, a transportation vehicle weighing and recycling level point, a disposal company recycling level point, a disposal and recycling weighing level point, an incineration processing level point, a cleaning processing level point, a sterilization processing level point, and a process ending level point.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the main information module is used for effectively processing the transmitted data information, the accuracy of data information transmission is improved, errors in the information transmission process are prevented, the communication connection between each level of auxiliary control module and the main control module is realized through the communication module, the data callback to the upper level is realized, and when an error exists in a certain level, the data transmission can be directly passed over for data transmission, so that the stable operation efficiency of the system is improved, and the system cannot operate due to the error existing in the certain level;

(2) the invention improves the use efficiency of the system by the mutual transmission and communication of the data of a plurality of levels of systems, can realize the override transmission and the callback of the supplementary data, improves the utilization rate of the data information of the system, detects, identifies and marks the wastes when transmitting the wastes, improves the information transparence of the waste transportation, can effectively track and improve the safety performance.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic flow diagram of the process of the present invention;

FIG. 3 is a schematic diagram of isRecover program function code in accordance with the present invention;

FIG. 4 is a diagram illustrating the function code of the getNextNodeStatus program of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a medical waste transportation process recharging system comprises a main control module and a plurality of sets of auxiliary control modules, wherein the main control module is electrically connected with a main information module, the main information module is electrically connected with a first communication module, the plurality of sets of auxiliary control modules are identical in structure, the auxiliary control modules are electrically connected with auxiliary information modules, the auxiliary information modules are electrically connected with a second communication module, the second communication module is in communication connection with the first communication module, the second communication module and the first communication module adopt wireless communication, Bluetooth communication or 4G communication, the auxiliary information modules are electrically connected with a data callback module, the data callback module is electrically connected with the auxiliary control modules, and the auxiliary control modules are electrically connected with an identification module, a detection module and a registration identification module;

the main information module and the auxiliary information module are used for processing transmitted data information, the main information module and the auxiliary information module respectively comprise a gain circuit, an acquisition circuit, a detection circuit, a conversion circuit and a de-noising circuit, the acquisition circuit is used for realizing the adoption of the transmitted data information, the de-noising circuit is used for filtering noise or clutter in the transmitted data information, the detection circuit is used for realizing the detection of the size of the data information, the conversion circuit is used for realizing the conversion of the transmitted data information into an adaptive format type, and the gain circuit is used for realizing the amplification processing of the transmitted data information;

the detection module is used for detecting medical waste and comprises weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment; the weight detection device is used for effectively detecting and recording medical wastes, the radiation monitoring device is used for detecting radioactivity of the medical wastes, storing the radioactive medical wastes in a lead box and carrying out label identification, the temperature detection device is used for detecting the temperature of the medical wastes and cooling the high-temperature medical wastes, and the counting device is used for effectively counting the number of the medical wastes.

In this embodiment, preferably, the main control module is electrically connected with a main auxiliary module, the auxiliary control module is electrically connected with an auxiliary module, the main auxiliary module and the auxiliary module each include a display, a control key and an alarm, the display in the main auxiliary module is a computer display, the control key is a keyboard, and the display in the auxiliary module is a touch display screen.

In this embodiment, preferably, the main control module is electrically connected to a power supply module, the power supply module is electrically connected to a commercial power grid, the power supply module includes a voltage reduction circuit, a rectification circuit, a filter circuit and a voltage stabilizing circuit, and the secondary control module is also electrically connected to the power supply module and the commercial power grid.

In this embodiment, it is preferable that the main control module is electrically connected with a main storage module, the sub-control module is electrically connected with a sub-storage module, the main storage module and the sub-storage module at least include a ROM storage module and a RAM storage module, the ROM storage module is used for storing a program body operated by the main control module and the sub-control module, and the RAM storage module is used for storing the operation log and data information of the main control module and the sub-control module.

In this embodiment, it is preferable that the secondary control module is electrically connected with a registration identification module, the registration identification module is used for registering and printing an identification label on medical waste, the registration includes medical waste source department, medical waste weight, medical waste radioactivity and medical waste transfer staff, and the identification label is used for generating a two-dimensional code or a barcode from the registered data information, printing the generated label, and attaching the generated label to the medical waste.

In this embodiment, preferably, the secondary control module is electrically connected to an identification module, and the identification module is a PDA code scanning device.

In this embodiment, preferably, the main information module and the auxiliary information module adopt a neural network algorithm to acquire data information, and the main information module and the auxiliary information module adopt statistical models, binning, clustering or regression and other algorithms to achieve denoising of the data information;

number X in the neural network algorithm₁—X_nIs an input signal, w, from other neurons_ijRepresenting the connection weight from neuron j to neuron i, and θ represents a threshold (or becomes a bias), the relationship between the input and the output of neuron i is represented as:

y_i＝f(net_i)

y_irepresenting the output of a neuron i, the function f being called the activation function or transfer function, net being called the net activation, if the threshold is considered as an input x of the neuron i₀Weight w of_i0Then the equation can be simplified as:

if X represents the input vector and W represents the weight vector, then:

X＝[x₀,x₁,x₂,......,x_n]

the output of the neuron can be expressed in the form of vector multiplication:

net_i＝XW

Y_i＝f(net_i)＝f(XW)

if net activation net of neuron is positive, the neuron is in activation state, otherwise, the neuron is in inhibition state;

the statistical model utilizes 3 standard deviation principles to denoise normal data or utilizes four-point difference to denoise the normal data, the binning method is a simple and common preprocessing method, the final value is determined by examining adjacent data, so-called binning, which is actually sub-intervals divided according to attribute values, if an attribute value is in a certain sub-interval range, the attribute value is put into a "bin" represented by the sub-interval, the data to be processed is put into some bins according to a certain rule, the data in each bin is examined, the data in each bin is processed by a method, the clustering detects outliers by clusters such as k-means, the clustering organizes similar values into clusters or "clusters", the values falling outside the clusters are regarded as noise, the regression fitting data with a function to smooth the data, i.e., fitting the data to a function to smooth the data, the next value is predicted by building a mathematical model, which includes linear regression and non-linear regression.

In this embodiment, preferably, the data callback module adopts an isRecover program function to determine whether data is required to be complemented, and determines whether data is required to be complemented by continuously iterating the state of the next-level point through the getNextNodeStatus program function.

A use method of a medical waste transportation process recharging system comprises the following steps:

s1, detecting the medical waste through the detection module: detecting medical waste through weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment in a detection module, and generating two-dimensional codes or bar codes from medical waste sources, medical waste weight, medical waste radioactivity and medical waste transport personnel information to be printed and attached to the medical waste;

s2, transferring the medical waste between various grade points: the processed medical waste is transported among all levels of points, and when each level of point receives the medical waste, the label on the medical waste is identified through the identification module, and the data information is stored and transmitted, so that the next level of point can identify and check the medical waste;

s3, receiving medical waste by a processing company to a hospital: the processing company regularly arrives at a hospital to collect medical waste every day, performs identity recognition when the medical waste is collected, scans and recognizes medical waste information, uploads data information to a network, then realizes processing operations such as incineration on the medical waste, uploads the data information to the network in real time, and realizes processing such as disinfection and cleaning on a recycling bin;

s4, when data transmission is carried out, data are skipped and called back according to the situation: when the system transmits data, in the hardware acquisition process, the data of the current level is omitted and incompletely acquired, or the flow is blocked due to the damage and abnormal work of the hardware, if the current level cannot normally work or the data acquisition is abnormal, the current level can be directly skipped over to directly operate the next level, the omitted data of the current level is compensated by the next level, but the data is based on the data of the next level.

In this embodiment, preferably, in the medical waste detection in S1, if the radiation waste is detected, the radiation waste is separately stored in the lead box for storage, and each level of the level points in S2 includes a main control module level point, a clean to-be-sent level point, a middle-sent level point, a temporary storage receiving level point, a disposal room shelving level point, a disposal room weighing and recycling level point, a disposal room transfer temporary storage level point, a transport vehicle weighing and recycling level point, a disposal company recycling level point, a disposal and recycling weighing level point, an incineration processing level point, a cleaning processing level point, a sterilization processing level point, and a process end level point.

The working principle of the invention is as follows: when the system is used, the medical waste is detected through a detection module in a secondary control module of a first-level point, then the source of the medical waste, the information of the throwing personnel and the detected data information are printed through a registration identification module to generate a two-dimensional code or a bar code to be attached to the medical waste, then the medical waste is transmitted, and the data information of the medical waste is transmitted when the medical waste is transmitted, so that the next-level point can be identified and determined conveniently, in addition, when the system is used for data transmission, the current-level point data is omitted and incompletely acquired in the hardware acquisition process, or the flow is blocked due to the fact that the hardware is damaged and cannot normally work, if the current-level point cannot normally work or the data acquisition is abnormal, the current-level point can be directly skipped, the next-level point is directly operated, and the missing data of the current-level point is compensated by the next-level point, but the data is subject to the data of the lower level, and when the medical waste is transmitted, each level of point transmits the data information to the main control module for monitoring.

The invention has the following use process:

the first step, realize detecting medical waste through detection module: detecting medical waste through weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment in a detection module, and generating two-dimensional codes or bar codes from medical waste sources, medical waste weight, medical waste radioactivity and medical waste transport personnel information to be printed and attached to the medical waste;

and secondly, conveying the medical waste between each grade point: the processed medical waste is transported among all levels of points, and when each level of point receives the medical waste, the label on the medical waste is identified through the identification module, and the data information is stored and transmitted, so that the next level of point can identify and check the medical waste;

thirdly, the processing company receives the medical waste in the hospital: the processing company regularly arrives at a hospital to collect medical waste every day, performs identity recognition when the medical waste is collected, scans and recognizes medical waste information, uploads data information to a network, then realizes processing operations such as incineration on the medical waste, uploads the data information to the network in real time, and realizes processing such as disinfection and cleaning on a recycling bin;

and fourthly, jumping and calling back data according to the situation when data transmission is carried out: when the system transmits data, in the hardware acquisition process, the data of the current level is omitted and incompletely acquired, or the flow is blocked due to the damage and abnormal work of the hardware, if the current level cannot normally work or the data acquisition is abnormal, the current level can be directly skipped over to directly operate the next level, the omitted data of the current level is compensated by the next level, but the data is based on the data of the next level.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a useless transportation flow anaplerosis system of medical science, includes main control module and a plurality of vice control module of group, its characterized in that: the main control module is electrically connected with a main information module, the main information module is electrically connected with a first communication module, a plurality of groups of auxiliary control modules have the same structure, the auxiliary control modules are electrically connected with auxiliary information modules, the auxiliary information modules are electrically connected with a second communication module, the second communication module is in communication connection with the first communication module, the second communication module and the first communication module adopt wireless communication, Bluetooth communication or 4G communication, the auxiliary information modules are electrically connected with a data callback module, the data callback module is electrically connected with the auxiliary control modules, and the auxiliary control modules are electrically connected with an identification module, a detection module and a registration identification module;

the main information module and the auxiliary information module are used for processing transmitted data information, the main information module and the auxiliary information module respectively comprise a gain circuit, an acquisition circuit, a detection circuit, a conversion circuit and a de-noising circuit, the acquisition circuit is used for realizing the adoption of the transmitted data information, the de-noising circuit is used for filtering noise or clutter in the transmitted data information, the detection circuit is used for realizing the detection of the size of the data information, the conversion circuit is used for realizing the conversion of the transmitted data information into an adaptive format type, and the gain circuit is used for realizing the amplification processing of the transmitted data information;

the detection module is used for detecting medical waste and comprises weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment; the weight detection device is used for effectively detecting and recording medical wastes, the radiation monitoring device is used for detecting radioactivity of the medical wastes, storing the radioactive medical wastes in a lead box and carrying out label identification, the temperature detection device is used for detecting the temperature of the medical wastes and cooling the high-temperature medical wastes, and the counting device is used for effectively counting the number of the medical wastes.

2. The medical waste transportation process replenishing system according to claim 1, wherein: the main control module is electrically connected with a main auxiliary module, the auxiliary control module is electrically connected with an auxiliary module, the main auxiliary module and the auxiliary module respectively comprise a display, a control key and an alarm, the display in the main auxiliary module is a computer display, the control key is a keyboard, and the display in the auxiliary module is a touch display screen.

3. The medical waste transportation process replenishing system according to claim 1, wherein: the main control module is electrically connected with a power supply module, the power supply module is electrically connected with a commercial power grid, the power supply module comprises a voltage reduction circuit, a rectifying circuit, a filtering circuit and a voltage stabilizing circuit, and the auxiliary control module is also electrically connected with the power supply module and the commercial power grid.

4. The medical waste transportation process replenishing system according to claim 1, wherein: the main control module is electrically connected with a main storage module, the auxiliary control module is electrically connected with an auxiliary storage module, the main storage module and the auxiliary storage module at least comprise a ROM storage module and a RAM storage module, the ROM storage module is used for storing a program body operated by the main control module and the auxiliary control module, and the RAM storage module is used for storing the main control module and the auxiliary control module operation logs and data information.

5. The medical waste transportation process replenishing system according to claim 1, wherein: electrically connected with registers identification module on the pair control module, register identification module is used for registering and printing the identification label to medical waste, the registration is including medical waste source department, medical waste weight, medical waste radiativity and medical waste transportation personnel, the identification label be used for with the data information generation two-dimensional code or the bar code of registering are printed and are generated the label and attached on medical waste.

6. The medical waste transportation process replenishing system according to claim 1, wherein: the auxiliary control module is electrically connected with an identification module, and the identification module adopts a PDA code scanning device.

7. The medical waste transportation process replenishing system according to claim 1, wherein: the main information module and the auxiliary information module adopt a neural network algorithm to realize data information acquisition, and the main information module and the auxiliary information module adopt statistical models, binning, clustering or regression and other algorithms to realize data information de-noising;

number X in the neural network algorithm₁—X_nIs an input signal from other neurons，w_ijRepresenting the connection weight from neuron j to neuron i, and θ represents a threshold (or becomes a bias), the relationship between the input and the output of neuron i is represented as:

y_i＝f(net_i)

y_irepresenting the output of a neuron i, the function f being called the activation function or transfer function, net being called the net activation, if the threshold is considered as an input x of the neuron i₀Weight w of_i0Then the equation can be simplified as:

if X represents the input vector and W represents the weight vector, then:

X＝[x₀,x₁,x₂,......,x_n]

the output of the neuron can be expressed in the form of vector multiplication:

net_i＝XW

Y_i＝f(net_i)＝f(XW)

if net activation net of neuron is positive, the neuron is in activation state, otherwise, the neuron is in inhibition state;

the statistical model utilizes 3 standard deviation principles to denoise normal data or utilizes four-point difference to denoise the normal data, the binning method is a simple and common preprocessing method, the final value is determined by examining adjacent data, so-called binning, which is actually sub-intervals divided according to attribute values, if an attribute value is in a certain sub-interval range, the attribute value is put into a "bin" represented by the sub-interval, the data to be processed is put into some bins according to a certain rule, the data in each bin is examined, the data in each bin is processed by a method, the clustering detects outliers by clusters such as k-means, the clustering organizes similar values into clusters or "clusters", the values falling outside the clusters are regarded as noise, the regression fitting data with a function to smooth the data, i.e., fitting the data to a function to smooth the data, the next value is predicted by building a mathematical model, which includes linear regression and non-linear regression.

8. The medical waste transportation process replenishing system according to claim 1, wherein: the data callback module adopts an isRecover program function to judge whether data is needed to be complemented back, and judges whether the data is needed to be complemented back by continuously iterating the state of the next-level point through a getNextNodeStatus program function.

9. A use method of a medical waste transportation process recharging system is characterized in that: the method comprises the following steps:

s1, detecting the medical waste through the detection module: detecting medical waste through weight detection equipment, radiation monitoring equipment, temperature detection equipment and counting equipment in a detection module, and generating two-dimensional codes or bar codes from medical waste sources, medical waste weight, medical waste radioactivity and medical waste transport personnel information to be printed and attached to the medical waste;

s2, transferring the medical waste between various grade points: the processed medical waste is transported among all levels of points, and when each level of point receives the medical waste, the label on the medical waste is identified through the identification module, and the data information is stored and transmitted, so that the next level of point can identify and check the medical waste;

s3, receiving medical waste by a processing company to a hospital: the processing company regularly arrives at a hospital to collect medical waste every day, performs identity recognition when the medical waste is collected, scans and recognizes medical waste information, uploads data information to a network, then realizes processing operations such as incineration on the medical waste, uploads the data information to the network in real time, and realizes processing such as disinfection and cleaning on a recycling bin;

s4, when data transmission is carried out, data are skipped and called back according to the situation: when the system transmits data, in the hardware acquisition process, the data of the current level is omitted and incompletely acquired, or the flow is blocked due to the damage and abnormal work of the hardware, if the current level cannot normally work or the data acquisition is abnormal, the current level can be directly skipped over to directly operate the next level, the omitted data of the current level is compensated by the next level, but the data is based on the data of the next level.

10. The use method of the medical waste transportation process recharging system according to claim 1, wherein: in the medical waste detection in S1, if the radiation waste is detected, the radiation waste is stored in the lead box separately, and each level of the level points in S2 comprises a main control module level point, a clean to-be-sent level point, a middle-sent level point, a temporary storage receiving level point, a disposal chamber shelving level point, a disposal chamber weighing and recycling level point, a disposal chamber transfer temporary storage level point, a transport vehicle weighing and recycling level point, a disposal company recycling level point, a disposal and recycling weighing level point, an incineration treatment level point, a cleaning treatment level point, a disinfection treatment level point and a process ending level point.

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