CN116895355B - Blood collection electronic information management system and method for blood collection vehicle - Google Patents

Abstract

The application provides a blood collection electronic information management system and method for a blood collection vehicle, relates to the technical field of information management, and solves the problem of poor information management of blood donators, wherein the blood collection electronic information management method for the blood collection vehicle comprises the following specific steps: collecting blood donator information to obtain blood donator information, obtaining classification information according to occupational information in the blood donator information, recording the blood donator by an image acquisition module, and marking the blood donator according to the sequence of entering a blood collection vehicle to obtain a personnel mark; the method comprises the steps of acquiring pictures of each blood donor in the video recording process, obtaining picture information, marking the picture information, obtaining picture marks, combining the picture marks with the same personnel marks to form a blood donation information table.

Description

Blood collection electronic information management system and method for blood collection vehicle

Technical Field

The application relates to the technical field of electronic information management, in particular to a blood collection electronic information management system and method for a blood collection vehicle.

Background

The blood collection vehicle belongs to one kind of medical vehicle, is generally produced by passenger car manufacturing enterprises, and then is delivered to the medical vehicle enterprises for modification. In the process of collecting blood from a donor who donates blood gratuitously by a blood collection vehicle, the following drawbacks exist:

(1) in the blood collection process, blood donators fill in blood donation information, fill in blood volume according to own intention, draw blood according to the blood volume filled, different symptoms can occur when different people draw blood, the blood donators can not fill in the blood volume according to own conditions when drawing blood, and when the blood donation volume is filled too much, huge potential safety hazards exist in the blood donation process, and the health of the blood donators is affected;

(2) when the information of the blood donators is managed, only the information filled by the blood donators is simply input in a system, the blood donators are marked, automatic identification cannot be carried out based on the information filled by the blood donators, and a large amount of time is wasted when the information is acquired;

(3) when the information of the blood donators is acquired, the analysis can not be performed based on the information of the blood donators, and the blood donations can be reasonably arranged.

Therefore, the application provides a blood collection electronic information management system and a method for a blood collection vehicle.

Disclosure of Invention

Aiming at the defects of the prior art, the application aims to provide a blood collection electronic information management system and method for a blood collection vehicle.

In order to achieve the above object, the present application is realized by the following technical scheme:

the blood collection electronic information management system for the blood collection vehicle comprises an information acquisition end, an analysis end, a management end and a server;

the information acquisition end comprises an information acquisition module and an image acquisition module; the information acquisition module acquires information of blood donors to obtain information of the blood donors, and obtains classification information according to occupational information in the information of the blood donors, the image acquisition module records the images of the blood donors, and marks the blood donors according to the sequence of entering the blood collection vehicle to obtain personnel marks;

the method comprises the steps of obtaining pictures of each blood donor in a video recording process, obtaining picture information, marking the picture information, obtaining picture marks, and combining the picture marks with the same personnel marks to form a blood donation information table;

the analysis end receives the classification information and the blood donation information table for analysis to obtain blood donation parameters; the blood donation parameters are conveyed to a management end, and the management end generates the blood donation amount of blood donators to obtain a blood donation value;

and adding the blood donation value into the blood donation information table according to the blood donation value, storing the modified blood donation information table of the blood donation personnel, and drawing blood by the blood drawing personnel according to the blood donation value on the blood donation information table.

Further, the information acquisition module comprises an information acquisition unit, an information extraction unit and a classification unit; the information acquisition unit acquires name, age and occupation information of blood donors, numbers the first to nth blood donors according to the sequence of the blood donors to obtain personnel numbers, the blood donors' blood donation information is acquired through a server to obtain the blood donation information of the blood donors, the blood donated blood donors are marked according to the blood donation information to obtain personnel marks, the marked blood donation personnel are acquired on the latest blood donation date, the current blood donation date is acquired to obtain difference, the blood donation interval time tx is obtained, if tx is less than 6 months, the corresponding blood donors cannot donate blood, and if tx is more than or equal to 6 months, the corresponding blood donors can be judged to donate blood;

the age of the blood donor is acquired, the blood donor beyond the age of [18, 55] is marked, and the marked blood donor cannot donate blood is judged; eliminating marks of blood donators which cannot be subjected to blood donation, and acquiring information of the blood donators which can be subjected to blood donation to obtain information of the blood donators;

the information extraction unit extracts the information of the blood donators who judge that the blood donations can be performed, acquires the occupational information from the information of the blood donators, and transmits the acquired occupational information to the classification unit.

Further, the system also comprises a blood donation consultation module, wherein the blood donation consultation module comprises a question answering unit, a question collecting unit and an input unit, the question collecting unit collects questions incapable of donating blood, when consulting questions, whether the questions are answered or not is judged, if yes, the condition that the questions appear in the blood donation personnel in the blood donation question answering process can not be donated blood is indicated, if no, the condition that the questions do not appear in the blood donation personnel in the blood donation question answering process is indicated, the question answering unit plays the questions incapable of donating blood, the blood donation personnel carries out voice answering on the questions which are played, the input unit acquires the questions which are answered, and judges that the acquired questions can carry out blood donation if no answer questions are obtained, and if no, the blood donation personnel can not carry out blood donation.

Further, the classification unit classifies blood donators according to occupational information, and sequentially divides the blood donators into brain workers and physical workers, and divides the blood donators into first physical workers and second physical workers according to the physical labor time in a day, wherein the labor time of the first physical workers is less than 4 hours, and the labor time of the second physical workers is not less than 4 hours;

the classification unit acquires blood donators meeting the blood donation ages, and according to the influences of the blood donations of the blood donators in different age groups, the blood donations are sequentially classified into a first age interval, a second age interval and a third age interval according to the ages;

the first age interval is between [18, 22] and [50, 55], the second age interval is between [40, 50 ], and the third age interval is between (22, 40);

and the classified acquired mental labor personnel, first physical labor personnel, second physical labor personnel and the classified first age interval, second age interval and third age interval are used as classification information, and the classification information is transmitted to an analysis end.

Further, the information acquisition module further comprises a reminding unit, the information acquisition unit comprises a display screen and an operation end, the information to be acquired is displayed through the display screen, blood donators input the information through the operation end, each blood donator sends out a reminding signal in the information input process, the server receives the reminding signal and then sends out a control command, the image acquisition module is controlled to intercept the pictures of the blood donators inputting the information, picture information is obtained, each picture is marked according to the sequence of time, picture marks are obtained, and a blood donation information table is generated through the personnel marks and the picture marks.

Further, when the blood donation information table is generated, the specific steps are as follows:

and acquiring each personnel number in the blood donation personnel information, acquiring a picture mark identical to the personnel number, judging the blood donation personnel and the picture mark with the same number as a group of blood donation personnel information, synthesizing the picture in the picture mark and the corresponding blood donation personnel to form a blood donation information table, and conveying the blood donation information table to an analysis end.

Further, the analysis end comprises an analysis module and a calculation module;

the analysis module receives the classified information for analysis, analyzes the blood donation amounts of different occupations and different ages according to the classified information, respectively assigns values to the classified information according to the different ages and the different occupations blood donation influence degrees to obtain assigned values, and the calculation module obtains and calculates the assigned values to obtain blood donation parameters and conveys the blood donation parameters to the management end.

Further, the blood donation parameters are obtained specifically as follows:

the assignment of mental workers, first physical workers, second physical workers and divided first age interval, second age interval and third age interval in the classification information is specifically as follows:

assigning a1 to the brain workers, a2 to the first worker, and a3 to the second worker, a1 > a2 > a3 > 0;

assigning a value b1 to the first age interval, b2 to the second age interval, and b3 to the third age interval, b1 is more than 0 and b2 is more than 3;

obtaining a plurality of assigned values, and transmitting the assigned values to a calculation module;

the calculation module receives the assigned value to acquire a blood donation reference value and a blood donation reference interval;

the blood donation reference interval is acquired specifically as follows:

acquiring a value, and solving a first threshold value yzmin and a second threshold value yzmax according to the value;

yxmin=a3×b1; yxmax=a1×b3;

setting a blood donation reference interval as [ yxmin, yxmax ];

the blood donation reference value is obtained specifically as follows:

sequentially acquiring the ages and occupation information of blood donators in the blood donation information table, judging the corresponding age interval according to the ages, acquiring the corresponding occupation type according to the occupation information,

obtaining a blood donation reference value xckz; and sequentially obtaining the blood donation reference values of the rest blood donation personnel to obtain a plurality of blood donation reference values, wherein the obtained blood donation reference values and blood donation reference intervals are blood donation parameters, and the blood donation parameters are conveyed to a management end.

Further, the management end receives a blood donation reference section in blood donation parameters, sets a blood donation division critical value in the blood donation reference section, respectively sets the blood donation division critical value as yxmax/3 and 2 xyxmax/3, obtains three sections of [ yxmin, yxmax/3], (yxmax/3, 2 xyxmax/3) and [2 x yxmax/3, yxmax ], sequentially sets a first blood donation amount, a second blood donation amount and a third blood donation amount according to the blood donation amount, wherein [ yxmin, yxmax/3] is the first blood donation amount, and (yxmax/3, 2 x yxmax/3) is the second blood donation amount, and [2 x yxmax/3, yxmax ] is the third blood donation amount;

the management end receives the blood donation reference value in the blood donation parameters, determines the corresponding blood donation amount according to the blood donation reference value, obtains the blood donation value, and fills the blood donation value of the corresponding blood donation personnel in the blood donation information table.

The application also provides a blood collection electronic information management method for the blood collection vehicle, which adopts the blood collection electronic information management system for the blood collection vehicle and comprises the following specific steps:

step S1: collecting information of blood donators to obtain information of the blood donators, obtaining classification information according to professional information in the information of the blood donators, recording video of the blood donators, marking the blood donators according to the sequence of entering a blood collection vehicle to obtain personnel marks, acquiring pictures of each blood donator in the recording process to obtain picture information, marking the picture information to obtain picture marks, and combining the picture marks and the personnel marks to form a blood donation information table;

step S2: receiving the classification information and the blood donation information table for analysis to obtain blood donation parameters;

step S3: and generating the blood donation amount of the blood donation personnel through the blood donation parameters to obtain a blood donation value, adding the blood donation value into the blood donation information table, storing the modified blood donation information table of the blood donation personnel, and drawing blood by the blood drawing personnel according to the blood donation value on the blood donation information table.

The application has the beneficial effects that:

1. in the application, in the process of donating blood by the blood donators, the information of the blood donators is acquired, the information of the blood donators is obtained, the analysis is carried out according to the information of the blood donators, the blood donation parameters are acquired according to occupation and age, and when different blood donators are donated according to the blood donation parameters, the blood donation amount is automatically generated, so that the convenience of electronic information management of the blood donators is improved.

2. In the information acquisition process, the method acquires the information pictures of the entered personnel according to the sequence of entering the blood collection vehicle, marks the acquired pictures, inquires the blood donators through the personal information filled by the blood donators, judges whether the blood donation requirements are met, eliminates the blood donation requirements which are not met, divides the information of the blood donators meeting the blood donation requirements, obtains the blood donation according to the influence degree of different occupations and different ages of blood donation, automatically fills the blood donation, and improves the safety of blood donation.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic block diagram of a blood collection electronic information management system for a blood collection cart in accordance with the present application;

FIG. 2 is a method step diagram of the blood collection electronic information management method for the blood collection vehicle of the present application;

fig. 3 is a schematic diagram of a blood donation information table in the blood collection electronic information management system for a blood collection vehicle according to the present application.

Detailed Description

The application is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the application easy to understand.

In the present application, referring to fig. 1 and 3, a blood collection electronic information management system for a blood collection vehicle includes an information acquisition end, an analysis end, a management end and a server;

the information acquisition end comprises an information acquisition module and an image acquisition module; the information acquisition module acquires information of blood donators to obtain information of the blood donators, obtains classification information according to occupational information in the information of the blood donators, the image acquisition module records the images of the blood donators, marks the blood donators according to the sequence of entering the blood collection vehicle to obtain personnel marks, acquires pictures of each blood donator in the recording process to obtain picture information, marks the picture information to obtain picture marks, and combines the picture marks and the personnel marks to form a blood donation information table;

the information acquisition module comprises an information acquisition unit, an information extraction unit and a classification unit; the information acquisition unit acquires name, age and occupation information of blood donors, numbers the first to nth blood donors according to the sequence of the blood donors to obtain personnel numbers, the blood donors' blood donation information is acquired through a server to obtain the blood donation information of the blood donors, the blood donated blood donors are marked according to the blood donation information, the marked blood donation personnel are acquired on the latest blood donation date, the current blood donation date is acquired to perform differentiation to obtain a blood donation interval time tx, if tx is less than 6 months, the corresponding blood donors cannot donate blood, and if tx is more than or equal to 6 months, the corresponding blood donors can be judged to perform blood donation;

the age of the blood donor is acquired, the blood donor beyond the age of [18, 55] is marked, and the marked blood donor cannot donate blood is judged;

the system comprises a blood donation consultation module, a question and answer unit, a question collection unit and an input unit, wherein the question collection unit collects questions incapable of donating blood, when the questions are consulted, whether the questions are answered or not is judged, the condition that the blood donation personnel is in questions in the blood donation question answering process is indicated, the blood donation cannot be carried out, the condition that the blood donation personnel is not in questions in the blood donation question answering process is indicated, the question and answer unit plays the questions incapable of donating blood, the blood donation personnel carries out voice answer on the played questions, the input unit acquires the answered questions, the acquired questions are judged, if the answer questions are all negative, the blood donation personnel can carry out blood donation, and if the answer questions are not, the blood donation personnel can not carry out.

Eliminating marks of blood donators which cannot be subjected to blood donation, and acquiring information of the blood donators which can be subjected to blood donation to obtain information of the blood donators;

the information extraction unit extracts the information of the blood donators judged to be capable of donating blood, acquires occupational information in the information of the blood donators, classifies the blood donators according to the occupational information, sequentially divides the blood donators into brain workers and physical workers, and divides the blood donators into first physical workers and second physical workers according to the physical labor time in one day, wherein the labor time of the first physical workers is less than 4 hours, and the labor time of the second physical workers is not less than 4 hours;

the classification unit acquires blood donators meeting the blood donation ages, and according to the influences of the blood donations of the blood donators in different age groups, the blood donations are sequentially classified into a first age interval, a second age interval and a third age interval according to the ages;

the first age interval is between [18, 22] and [50, 55], the second age interval is between [40, 50 ], and the third age interval is between (22, 40);

classifying the acquired mental labor personnel, first physical labor personnel, second physical labor personnel and the classified first age interval, second age interval and third age interval as classification information, and conveying the classification information to an analysis end;

the information acquisition module further comprises a reminding unit, the information acquisition unit comprises a display screen and an operation end, the information to be acquired is displayed through the display screen, blood donators input the information through the operation end, each blood donator sends out a reminding signal in the information input process, the server receives the reminding signal and then sends out a control instruction, the image acquisition module is controlled to intercept the pictures of the blood donators inputting the information, picture information is obtained, each picture is marked according to the sequence of time, and picture marks are obtained.

When the blood donation information table is generated, the specific steps are as follows:

each personnel number in the blood-donation personnel information is acquired, the picture mark which is the same as the personnel number is acquired, the blood-donation personnel and the picture mark which are the same as the personnel number are judged to be a group of blood-donation personnel information, the picture in the picture mark and the corresponding blood-donation personnel are synthesized to form a blood-donation information table, and the blood-donation information table is conveyed to an analysis end;

the analysis end receives the classification information and the blood donation information table for analysis to obtain blood donation parameters;

the analysis end comprises an analysis module and a calculation module;

the analysis module receives the classification information for analysis, analyzes the blood donation amounts of different occupations and different ages according to the classification information, respectively assigns values to the classification information according to the different ages and the influence degrees of the blood donations of different occupations to obtain assigned values, and the calculation module obtains and calculates the assigned values to obtain blood donation parameters and conveys the blood donation parameters to the management end;

when the brain labor personnel and the physical labor personnel work, the physical labor personnel consume a great deal of physical power, the blood donation amount of the physical labor personnel should be less than that of the brain labor personnel in the blood donation process, the physical labor personnel are divided into a first physical labor personnel and a second physical labor personnel, the physical labor time is different according to the different physical labor occupation, and the blood donation amount of the long-time physical labor personnel should be less than that of the short-time physical labor personnel;

when blood donations are needed at different ages, the space between the first age interval [18, 22] and the second age interval [50, 55] is divided into the first age interval, wherein the first age interval [18, 22] is the development process of blood donators, a great amount of blood donations have a certain influence, and the influence of the second age interval and the third age interval on the blood donators in the blood donation process is gradually increased along with the increase of the ages, so that the first age interval is divided into the first age interval, and the second age interval and the third age interval are divided according to the recovery speed after the blood donations at different age intervals;

the assignment of mental workers, first physical workers, second physical workers and divided first age interval, second age interval and third age interval in the classification information is specifically as follows:

assigning a1 to the brain workers, a2 to the first worker, and a3 to the second worker, a1 > a2 > a3 > 0;

assigning a value b1 to the first age interval, b2 to the second age interval, and b3 to the third age interval, b1 is more than 0 and b2 is more than 3;

obtaining a plurality of assigned values (a 1, a2, a3, b1, b 3), and conveying the assigned values to a calculation module;

the calculation module receives the assigned value to acquire a blood donation reference value and a blood donation reference interval;

the blood donation reference interval is acquired specifically as follows:

acquiring a value, and solving a first threshold value yzmin and a second threshold value yzmax according to the value;

yxmin=a3×b1; yxmax=a1×b3;

setting a blood donation reference interval as [ yxmin, yxmax ];

the blood donation reference value is obtained specifically as follows:

sequentially acquiring the ages and occupation information of blood donators in the blood donation information table, judging the corresponding age interval according to the ages, acquiring the corresponding occupation type according to the occupation information, and acquiring the first blood donator with the age of 29 and the occupation as a first labor worker;

obtaining a blood donation reference value xckz; xckz=b3×a2;

sequentially obtaining blood donation reference values of the rest blood donation personnel to obtain a plurality of blood donation reference values, wherein the obtained blood donation reference values and blood donation reference intervals are blood donation parameters, and the blood donation parameters are conveyed to a management end;

the blood donation parameters are conveyed to a management end, and the blood donation amount of blood donators is generated through the management end to obtain a blood donation value;

the blood donation value is obtained specifically as follows:

the management end receives a blood donation reference section in blood donation parameters, sets a blood donation division critical value in the blood donation reference section, respectively sets the blood donation division critical value as yxmax/3 and 2 xyxmax/3, obtains [ yxmin, yxmax/3], (yxmax/3, 2 xyxmax/3), and [2 xyxmax/3, yxmax ] according to the blood donation, sequentially sets a first blood donation, a second blood donation and a third blood donation according to the blood donation, wherein [ yxmin, yxmax/3] is the first blood donation, and (yxmax/3, 2 xyxmax/3) is the second blood donation, and [2 xyxmax/3, yxmax ] is the third blood donation;

the first blood donation amount is 200ml, the second blood donation amount is 300ml, and the third blood donation amount is 400ml;

the management end receives the blood donation reference value in the blood donation parameters, determines the corresponding blood donation amount according to the blood donation reference value, obtains the blood donation value, and fills the blood donation value of the corresponding blood donation personnel in the blood donation information table;

and adding the blood donation value into the blood donation information table according to the blood donation value, storing the modified blood donation information table of the blood donation personnel, and drawing blood by the blood drawing personnel according to the blood donation value on the blood donation information table.

The above formulas are all formulas for removing dimensions and taking numerical calculation, the formulas are formulas for obtaining the latest real situation by collecting a large amount of data and performing software simulation, preset parameters in the formulas are set by a person skilled in the art according to the actual situation, if weight coefficients and proportion coefficients exist, the set sizes are specific numerical values obtained by quantizing the parameters, the subsequent comparison is convenient, and the proportional relation between the weight coefficients and the proportion coefficients is not influenced as long as the proportional relation between the parameters and the quantized numerical values is not influenced.

Referring to fig. 2, in another embodiment, a blood collection electronic information management method for a blood collection vehicle includes the following specific steps in the control process:

step S1: collecting information of blood donators to obtain information of the blood donators, obtaining classification information according to professional information in the information of the blood donators, recording video of the blood donators, marking the blood donators according to the sequence of entering a blood collection vehicle to obtain personnel marks, acquiring pictures of each blood donator in the recording process to obtain picture information, marking the picture information to obtain picture marks, and combining the picture marks and the personnel marks to form a blood donation information table;

when the blood donation information table is generated, the specific steps are as follows:

step S11: acquiring each personnel number in the blood donation personnel information, and acquiring a picture mark identical to the personnel number;

step S12: judging that the blood donators and the pictures with the same numbers are marked as a group of blood donator information, and synthesizing the pictures in the picture marks and the corresponding blood donators to form a blood donation information table;

step S2: receiving the classification information and the blood donation information table for analysis to obtain blood donation parameters;

the blood donation parameters are acquired, and the specific steps are as follows:

step S21: assigning values to the brain workers, the first labor workers, the second labor workers and the divided first age interval, second age interval and third age interval in the classification information;

step S22: assigning a1 to the brain workers, a2 to the first worker, and a3 to the second worker, a1 > a2 > a3 > 0;

step S23: assigning a value b1 to the first age interval, b2 to the second age interval, and b3 to the third age interval, b1 is more than 0 and b2 is more than 3;

step S24: obtaining a plurality of assigned values (a 1, a2, a3, b1, b 3), receiving the assigned values, and obtaining a blood donation reference value and a blood donation reference interval;

step S25: the obtained blood donation reference value and the blood donation reference interval are blood donation parameters;

step S3: and generating the blood donation amount of the blood donation personnel through the blood donation parameters to obtain a blood donation value, adding the blood donation value into the blood donation information table according to the blood donation value, storing the modified blood donation information table of the blood donation personnel, and drawing blood by the blood collector according to the blood donation value on the blood donation information table.

The specific steps for obtaining the blood donation value are as follows:

step S31: receiving a blood donation reference interval in the blood donation parameters, and setting a blood volume dividing critical value in the blood donation reference interval;

step S32: setting the blood volume division critical values as yxmax/3 and 2 xyxmax/3 respectively, and obtaining three sections of [ yxmin, yxmax/3], (yxmax/3, 2 xyxmax/3) and [2 xyxmax/3, yxmax ] according to the blood volume division critical values;

step S33: sequentially setting a first blood donation amount, a second blood donation amount and a third blood donation amount according to the blood donation amounts, wherein [ yxmin, yxmax/3] is the first blood donation amount, (yxmax/3, 2×yxmax/3) is the second blood donation amount, and [2×yxmax/3, yxmax ] is the third blood donation amount;

step S34: and receiving a blood donation reference value in the blood donation parameters, determining the corresponding blood donation amount according to the blood donation reference value, obtaining a blood donation value, and filling the blood donation value of the corresponding blood donation personnel in a blood donation information table.

In the foregoing embodiments of the present application, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media having computer-usable program code embodied therein. The storage medium may be implemented by any type of volatile or nonvolatile Memory device or combination thereof, such as static random access Memory (Static Random Access Memory, SRAM), electrically erasable Programmable Read-Only Memory (Electrically Erasable Programmable Read-Only Memory, EEPROM), erasable Programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), programmable Read-Only Memory (PROM), read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

The above examples are only specific embodiments of the present application, and are not intended to limit the scope of the present application, but it should be understood by those skilled in the art that the present application is not limited thereto, and that the present application is described in detail with reference to the foregoing examples: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (4)

1. The blood collection electronic information management system for the blood collection vehicle is characterized by comprising an information acquisition end, an analysis end, a management end and a server;

the information acquisition end comprises an information acquisition module and an image acquisition module; the information acquisition module acquires information of blood donors to obtain information of the blood donors, acquires classification information according to occupational information in the information of the blood donors, acquires pictures of each blood donor in the video recording process to obtain picture information, marks the picture information to obtain picture marks, and numbers the first to nth blood donors according to the sequence of entering the blood collection vehicle to obtain personnel numbers;

the information acquisition module comprises an information acquisition unit, an information extraction unit and a classification unit; the information acquisition unit acquires name, age and occupation information of the blood donor, agrees with the blood donor, acquires the blood donation information of the blood donor through the server to obtain the blood donation information of the blood donor, marks the blood donor with the blood donation information to obtain personnel marks, acquires the latest blood donation date of the marked blood donor, acquires the current blood donation date to perform difference, and obtains the blood donation interval time tx, if tx is less than 6 months, judges that the corresponding blood donor cannot donate blood, and if tx is more than or equal to 6 months, judges that the corresponding blood donor can donate blood;

the age of the blood donor is acquired, the blood donor beyond the age of [18, 55] is marked, and the marked blood donor cannot donate blood is judged; eliminating marks of blood donators which cannot be subjected to blood donation, and acquiring information of the blood donators which can be subjected to blood donation to obtain information of the blood donators;

each personnel number in the blood-donation personnel information is acquired, the picture mark which is the same as the personnel number is acquired, the blood-donation personnel and the picture mark which are the same as the personnel number are judged to be a group of blood-donation personnel information, the picture in the picture mark and the corresponding blood-donation personnel are synthesized to form a blood-donation information table, and the blood-donation information table is conveyed to an analysis end;

the information extraction unit extracts the information of the blood donators which judge that the blood donations can be performed, acquires the occupational information in the information of the blood donators, and transmits the acquired occupational information to the classification unit;

the classification unit classifies blood donators according to occupational information, and sequentially divides the blood donators into brain workers and physical workers, and divides the blood donators into first physical workers and second physical workers according to the physical labor time in a day, wherein the labor time of the first physical workers is less than 4 hours, and the labor time of the second physical workers is not less than 4 hours;

the classification unit acquires blood donators meeting the blood donation ages, and according to the influences of the blood donations of the blood donators in different age groups, the blood donations are sequentially classified into a first age interval, a second age interval and a third age interval according to the ages;

the first age interval is between [18, 22] and [50, 55], the second age interval is between [40, 50 ], and the third age interval is between (22, 40);

classifying the acquired mental labor personnel, first physical labor personnel, second physical labor personnel and the classified first age interval, second age interval and third age interval as classification information, and conveying the classification information to an analysis end;

the analysis end receives the classification information and the blood donation information table for analysis to obtain blood donation parameters; the blood donation parameters are conveyed to a management end, and the management end generates the blood donation amount of blood donators to obtain a blood donation value;

the analysis end comprises an analysis module and a calculation module;

the analysis module receives the classification information for analysis, analyzes the blood donation amounts of different occupations and different ages according to the classification information, respectively assigns values to the classification information according to the different ages and the different occupations blood donation influence degrees to obtain assigned values, and the calculation module obtains and calculates the assigned values to obtain blood donation parameters and conveys the blood donation parameters to the management end;

the blood donation parameters are obtained specifically as follows:

the assignment of mental workers, first physical workers, second physical workers and divided first age interval, second age interval and third age interval in the classification information is specifically as follows:

assigning a1 to the brain workers, a2 to the first worker, and a3 to the second worker, a1 > a2 > a3 > 0;

assigning a value b1 to the first age interval, b2 to the second age interval, and b3 to the third age interval, b1 is more than 0 and b2 is more than 3;

obtaining a plurality of assigned values, and transmitting the assigned values to a calculation module;

the calculation module receives the assigned value to acquire a blood donation reference value and a blood donation reference interval;

the blood donation reference interval is acquired specifically as follows:

acquiring a value, and solving a first threshold value yzmin and a second threshold value yzmax according to the value; yxmin=a3×b1; yxmax=a1×b3;

setting a blood donation reference interval as [ yxmin, yxmax ];

the blood donation reference value is obtained specifically as follows:

sequentially acquiring the ages and occupation information of blood donators in the blood donation information table, judging the corresponding age interval according to the ages, acquiring the corresponding occupation type according to the occupation information,

obtaining a blood donation reference value xckz; sequentially obtaining blood donation reference values of the rest blood donation personnel to obtain a plurality of blood donation reference values, wherein the obtained blood donation reference values and blood donation reference intervals are blood donation parameters, and the blood donation parameters are conveyed to a management end;

the management end receives a blood donation reference interval in blood donation parameters, sets a blood volume division critical value in the blood donation reference interval, and respectively sets the blood volume division critical value as yxmax/3 and 2 x yxmax/3;

obtaining three sections of [ yxmin, yxmax/3], (yxmax/3, 2×yxmax/3) and [2×yxmax/3, yxmax ] according to the blood volume dividing critical value;

the first donation amount is [ yxmin, yxmax/3], the second donation amount is (yxmax/3, 2×yxmax/3), and the third donation amount is [2×yxmax/3, yxmax ]; the first blood donation amount is 200ml, the second blood donation amount is 300ml, and the third blood donation amount is 400ml;

the management end receives the blood donation reference value in the blood donation parameters, determines the corresponding blood donation amount according to the blood donation reference value, obtains the blood donation value, and fills the blood donation value of the corresponding blood donation personnel in the blood donation information table;

and adding the blood donation value into the blood donation information table according to the blood donation value, storing the modified blood donation information table of the blood donation personnel, and drawing blood by the blood drawing personnel according to the blood donation value on the blood donation information table.

2. The system according to claim 1, further comprising a blood donation consultation module, wherein the blood donation consultation module includes a question answering unit, a question collecting unit and an input unit, the question collecting unit collects questions incapable of donating blood, when consulting questions, whether the questions are answered or not, if yes, it is determined that the blood donation person is in question during the answer of the blood donation questions, no blood donation can be performed, if no, it is determined that the blood donation person is not in question during the answer of the blood donation questions, the question answering unit plays the questions incapable of donating blood, the blood donation person performs voice answer on the questions played, the input unit judges the questions obtained, if no questions are answered, it is judged that the blood donation person is capable of donating blood, and if no, it is judged that the blood donation person is incapable of performing blood donation.

3. The system according to claim 1, wherein the information acquisition module further comprises a reminding unit, the information acquisition unit comprises a display screen and an operation end, the information to be acquired is displayed through the display screen, the blood donators enter the information through the operation end, each blood donator sends out a reminding signal in the information entering process, the server receives the reminding signal and then sends out a control command, the image acquisition module is controlled to intercept the pictures of the blood donators entering the information, picture information is obtained, each picture is marked according to the time sequence, and the picture marks are obtained.

4. A blood collection electronic information management method for a blood collection vehicle, characterized in that the blood collection electronic information management system for a blood collection vehicle according to any one of claims 1-3 is adopted, and the control method comprises the following specific steps:

step S1: collecting information of blood donators to obtain information of the blood donators, obtaining classification information according to professional information in the information of the blood donators, recording video of the blood donators, numbering the blood donators according to the sequence of entering a blood collection vehicle to obtain personnel numbers, acquiring pictures of each blood donator in the recording process to obtain picture information, marking the picture information to obtain picture marks, and combining the picture marks and the personnel numbers in the same way to form a blood donation information table;

step S2: receiving the classification information and the blood donation information table for analysis to obtain blood donation parameters;

step S3: and generating the blood donation amount of the blood donation personnel through the blood donation parameters to obtain a blood donation value, adding the blood donation value into the blood donation information table, storing the modified blood donation information table of the blood donation personnel, and drawing blood by the blood drawing personnel according to the blood donation value on the blood donation information table.