CN111554363A - Clinical medical intelligent monitoring system - Google Patents

Abstract

The invention discloses a clinical medical intelligent monitoring system, which is used for solving the problems that the medication monitoring of nurses in the existing hospital is incomplete, medication errors occur and ward-round allocation is unreasonable, so that other work of nurses conflicts with ward-round time; according to the invention, medication monitoring is carried out on clinical patients by nurses through the medicine monitoring module, and medicine monitoring analysis is carried out through nurse value analysis of nurses, so that medication of nurses is monitored more accurately, medication errors are avoided, and safety of clinical patients is ensured; the ward round allocation module receives the ward round value of the primarily selected nurse for allocation; the ward round value of the nurse is distributed, the nurse is conveniently and reasonably arranged to make a ward round, and other work of the nurse and the ward round time conflict are avoided.

Description

Clinical medical intelligent monitoring system

Technical Field

The invention relates to the technical field of clinical medical monitoring, in particular to an intelligent monitoring system for clinical medical treatment.

Background

Clinically, it refers to the direct contact with the patient and the actual observation of the patient. Such as the science of internal medicine, the science of surgery, the science of obstetrics and gynecology, the pediatrics, etc. belong to the clinical medicine. From the division of labor in hospitals, the division is divided into clinical, medical and technical, administrative, and work departments. The clinical department is the main body of the hospital and directly takes charge of the tasks of receiving, diagnosing, treating and the like of patients; clinical staff including doctors and nurses who directly participate in treatment and patient care; the medical department is a non-clinical department in the past, and the medical department also has doctors and nurses, but does not directly participate in the treatment and nursing of patients, and only directly provides services for clinical diagnosis and treatment.

For standardizing clinical behavior of using medicine, promote reasonable using medicine, ensure that the patient uses medicine safety, need carry out intelligent monitoring to clinical medicine, and nurse in the current hospital monitors imperfectly that it uses medicine, has the wrong phenomenon of taking medicine to take place, and current making an rounds of ward's distribution is unreasonable to the nurse simultaneously, makes nurse's other work and the time of making a round of ward conflict.

Disclosure of Invention

The invention aims to provide an intelligent monitoring system for clinical medical treatment, which is used for solving the problems that medication monitoring of nurses in the existing hospital is incomplete, medication errors occur and ward-round allocation is unreasonable, so that other work of nurses conflicts with ward-round time; the ward round allocation module receives the ward round value of the primarily selected nurse for allocation; by distributing the ward-round value of the nurse, the nurse can conveniently and reasonably arrange the ward-round, and the conflict between other work of the nurse and the ward-round time is avoided;

the purpose of the invention can be realized by the following technical scheme: an intelligent monitoring system for clinical medical treatment comprises a data acquisition module, a server, a medicine monitoring module, a ward-round analysis module, a ward-round distribution module, a registration and login module and a query management module;

the data acquisition module is used for acquiring clinical information of clinical patients and sending the clinical information to the server, wherein the clinical information comprises patient names, serial numbers, room numbers, bed numbers, hospital admission times, corresponding names of main doctors, disease names of the patients and medicine names and medicine usage amounts corresponding to the disease input by the main doctors;

the medicine monitoring module is used for nurses to monitor the medication of clinical patients, and the specific monitoring steps are as follows:

the method comprises the following steps: a nurse sends a medication instruction to the medicine monitoring module through the intelligent terminal, and the medicine monitoring module acquires the nurse number and generates a calling instruction;

step two: medicine monitoring module sends nurse's serial number and call instruction to nurse analysis module, and nurse analysis module handles after receiving nurse's serial number and call instruction and obtains nurse's value, and concrete processing step is:

s1: the nurse analysis module acquires registration information stored in the server; setting a nurse mark Hi, i is 1, … … and n;

s2: setting a corresponding college value of all medical colleges, matching the name of the nurse with all the medical colleges to obtain the corresponding college value and marking the corresponding college value as Y_Hi；

S3: calculating the time difference between the attendance time of the nurse and the current time of the system to obtain the attendance duration, and recording the duration as T_Hi；

S4: using formulas

Obtain the nurse value N of the nurse_Hi(ii) a Wherein c1, c2, c3, c4, c5 and c6 are all preset proportional coefficients, and lambda is a correction factor and takes the value of 0.925446; a. the_HiThe number of times of completion of medication for the nurse; j. the design is a square_HiThe number of times of medication correction for the nurse; l is_HiIs the age of the nurse; b is_HiThe total number of rounds of the nurse;

s5: the nurse analysis module sends the nurse value to the medicine monitoring module;

step three: the medicine monitoring module judges after receiving the nurse value sent by the nurse analysis module, generates a photo acquisition instruction when the nurse value is smaller than or equal to a set threshold value, sends the photo acquisition instruction to an intelligent terminal of the nurse, and the nurse sends medicine pictures and dosage for medicine taking to the medicine detection module through the intelligent terminal;

step four: the medicine monitoring module sends medicine pictures and dosage for medicine taking to a computer terminal of an attending doctor corresponding to the patient, when the attending doctor sends a confirmation instruction to the medicine monitoring module through the computer terminal, the medicine monitoring module generates a medicine taking starting instruction after receiving the confirmation instruction, the medicine monitoring module sends the medicine taking starting instruction to an intelligent terminal corresponding to the nurse, the intelligent terminal of the nurse receives the medicine taking starting instruction and then takes medicine for the patient, and after the medicine taking is completed, the nurse sends a medicine taking completion instruction to the medicine monitoring module through the intelligent terminal; the times of medicine application completion of the nurse are increased once; when the main doctor sends the medicine correction information and the modification instruction to the medicine monitoring module through the computer terminal; the medicine correction information comprises the name and the dosage of the replaced medicine; the medicine monitoring module receives the medicine correction information and the modification instruction and sends the medicine correction information and the modification instruction to an intelligent terminal of a nurse, the nurse takes medicine for the patient according to the medicine correction information, and after the medicine taking is finished, the nurse sends a medicine taking finishing instruction to the medicine monitoring module through the intelligent terminal; meanwhile, the medication correction times of the nurse are increased once;

step five: when the nurse value is larger than the set threshold value, a photo acquisition instruction is generated and sent to the intelligent terminal of the nurse, and the nurse sends the medicine pictures and the dosage of the medicine to the medicine detection module through the intelligent terminal; medicine detection module receives medicine picture and the quantity of using medicine then the back generation and begin the instruction of using medicine, and medicine monitoring module will begin the instruction of using medicine and send to on the intelligent terminal that this nurse corresponds, and nurse's intelligent terminal receives and begins the instruction of using medicine after, uses medicine to the patient, and the back is accomplished in the use of medicine, and the nurse sends through intelligent terminal and uses medicine completion instruction to medicine monitoring module.

Preferably, the registration login module is used for the nurse and the doctor to submit registration information for registration through the intelligent terminal and send the registration information with successful registration to the server; the registration information submitted by the nurse comprises a name, a number, the time of entry, an identity card number, a graduate college and a mobile phone number, and the registration information submitted by the doctor comprises; name, serial number, mobile phone number, department to which the department belongs and name of the disease to be treated.

Preferably, the ward round analysis module is used for analyzing the ward round value of the nurse, and the specific analysis steps are as follows:

the method comprises the following steps: the doctor sends the ward-round instruction and the ward-round time to the ward-round analysis module; the ward-round analysis module receives the ward-round instruction and time and then generates a ward-round screening instruction;

step two: sending the ward-round screening instruction and the ward-round screening time to an intelligent terminal corresponding to a nurse, sending a ward-round confirming instruction to a ward-round analysis module through the intelligent terminal by the nurse, and marking the nurse as a primary nurse; when a nurse sends a room-checking canceling instruction to the room-checking analysis module through the intelligent terminal, the total canceling times of the nurse are increased once;

step three, marking the primary selected nurse as Hj, j ∈ i, and keeping the nurse value N corresponding to the primary selected nurse_Hj(ii) a Set the total number of times of cancellation of the primary nurse as Q_Hj；

Step four: using the formula XW_Hj＝N_Hj*b1+Q_Hj*b2-B_Hj*b3-X_HjB4 obtaining ward round value XW of primary selected nurse_Hj(ii) a Wherein b1, b2, b3 and b4 are all preset proportionality coefficients; b is_HjThe total number of rounds of the ward of the primary selected nurse; x_HjSelecting times for primarily selecting nurses;

step five: the ward-round analysis module sends the ward-round value of the primarily selected nurse to the ward-round distribution module;

the ward round allocation module receives the ward round value of the primarily selected nurse for allocation, and the specific allocation steps are as follows:

SS 1: sorting the primary nurses from big to small according to the ward-round value;

SS 2: acquiring clinical patient information corresponding to a doctor who sends a ward-round instruction through a server and sending the clinical patient information to a computer terminal of the doctor;

SS 3: after receiving the information of the clinical patients, the computer terminal of the doctor inputs the number of the ward-round patients and sends the number to the ward-round distribution module; the ward round distribution module receives the number of the ward round patients and then converts the number of the ward round patients according to a certain proportion to obtain the number of the ward round nurses;

SS 4: according to the sequencing of the primary nurses, selecting the primary nurses with the number equal to that of the ward-round nurses from front to back and marking the primary nurses as selected nurses; the ward-round distribution module generates a ward-round confirmation instruction and sends the ward-round confirmation instruction, the corresponding doctor and the time to an intelligent terminal of a selected nurse;

SS 5: the selected nurse in the top ranking records the ward-round diagnosis of the patient in the ward-round process of the doctor through the intelligent terminal and sends the ward-round diagnosis to the server; the total number of rounds of the selected nurses is increased by one, and the number of rounds of the selected nurses in the top ranking is increased by one.

Preferably, the query management module is used for the patient to visit the ward-round diagnosis of the patient in the ward-round process of the doctor stored in the server through the mobile phone terminal, and the intelligent terminal is an intelligent mobile phone or a tablet computer.

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

1. the medicine monitoring module is used for a nurse to monitor medicine taking of a clinical patient, the nurse sends a medicine taking instruction to the medicine monitoring module through the intelligent terminal, the medicine monitoring module acquires a nurse number and generates a calling instruction, the medicine monitoring module sends the nurse number and the calling instruction to the nurse analysis module, the nurse analysis module receives the nurse number and the calling instruction and then processes the nurse number and the calling instruction to obtain a nurse value, and the nurse analysis module sends the nurse value to the medicine monitoring module; the medicine monitoring module judges after receiving the nurse value sent by the nurse analysis module, generates a photo acquisition instruction when the nurse value is smaller than or equal to a set threshold value, sends the photo acquisition instruction to an intelligent terminal of the nurse, and the nurse sends medicine pictures and dosage for medicine taking to the medicine detection module through the intelligent terminal; the medicine monitoring module sends medicine pictures and dosage for medicine taking to a computer terminal of an attending doctor corresponding to the patient, when the attending doctor sends a confirmation instruction to the medicine monitoring module through the computer terminal, the medicine monitoring module generates a medicine taking starting instruction after receiving the confirmation instruction, the medicine monitoring module sends the medicine taking starting instruction to an intelligent terminal corresponding to the nurse, the intelligent terminal of the nurse receives the medicine taking starting instruction and then takes medicine for the patient, and after the medicine taking is completed, the nurse sends a medicine taking completion instruction to the medicine monitoring module through the intelligent terminal; the medicine administration monitoring module is used for monitoring the medication of the clinical patients by nurses and monitoring and analyzing the medicine by the nurse value analysis of the nurses, so that the medication of the nurses is monitored more accurately, medication errors are avoided, and the safety of the clinical patients is ensured;

2. the ward-round analysis module is used for analyzing the ward-round value of the nurse, and the doctor sends a ward-round instruction and time to the ward-round analysis module; the ward-round analysis module receives the ward-round instruction and time and then generates a ward-round screening instruction; sending the ward-round screening instruction and the ward-round screening time to an intelligent terminal corresponding to a nurse, sending a ward-round confirming instruction to a ward-round analysis module through the intelligent terminal by the nurse, and marking the nurse as a primary nurse; obtaining the ward-round value of the primary selected nurse by using a formula; the ward-round analysis module sends the ward-round value of the primarily selected nurse to the ward-round distribution module; the ward round allocation module receives the ward round value of the primarily selected nurse for allocation; the ward round value of the nurse is distributed, the nurse is conveniently and reasonably arranged to make a ward round, and other work of the nurse and the ward round time conflict are avoided.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of an intelligent monitoring system for clinical medical treatment according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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, an intelligent monitoring system for clinical medical treatment comprises a data acquisition module, a server, a drug monitoring module, a ward-round analysis module, a ward-round distribution module, a registration and login module, and a query management module;

the data acquisition module is used for acquiring clinical information of clinical patients and sending the clinical information to the server, wherein the clinical information comprises patient names, serial numbers, room numbers, bed numbers, admission time, corresponding names of main doctors, disease names of the patients and medicine names and medicine usage amounts corresponding to the disease input by the main doctors;

the medicine monitoring module is used for nurses to monitor the medication of clinical patients, and the specific monitoring steps are as follows:

the method comprises the following steps: a nurse sends a medication instruction to the medicine monitoring module through the intelligent terminal, and the medicine monitoring module acquires the nurse number and generates a calling instruction;

step two: medicine monitoring module sends nurse's serial number and call instruction to nurse analysis module, and nurse analysis module handles after receiving nurse's serial number and call instruction and obtains nurse's value, and concrete processing step is:

s1: the nurse analysis module acquires registration information stored in the server; setting a nurse mark Hi, i is 1, … … and n;

s2: setting a corresponding college value of all medical colleges, matching the name of the nurse with all the medical colleges to obtain the corresponding college value and marking the corresponding college value as Y_Hi；

S3: calculating the time difference between the attendance time of the nurse and the current time of the system to obtain the attendance duration, and recording the duration as T_Hi；

S4: using formulas

Obtain the nurse value N of the nurse_Hi(ii) a Wherein c1, c2, c3, c4, c5 and c6 are all preset proportional coefficients, and lambda is a correction factor and takes the value of 0.925446; a. the_HiThe number of times of completion of medication for the nurse; j. the design is a square_HiThe number of times of medication correction for the nurse; l is_HiIs the age of the nurse; b is_HiThe total number of rounds of the nurse;

s5: the nurse analysis module sends the nurse value to the medicine monitoring module;

step three: the medicine monitoring module judges after receiving the nurse value sent by the nurse analysis module, generates a photo acquisition instruction when the nurse value is smaller than or equal to a set threshold value, sends the photo acquisition instruction to an intelligent terminal of the nurse, and the nurse sends medicine pictures and dosage for medicine taking to the medicine detection module through the intelligent terminal;

step four: the medicine monitoring module sends medicine pictures and dosage for medicine taking to a computer terminal of an attending doctor corresponding to the patient, when the attending doctor sends a confirmation instruction to the medicine monitoring module through the computer terminal, the medicine monitoring module generates a medicine taking starting instruction after receiving the confirmation instruction, the medicine monitoring module sends the medicine taking starting instruction to an intelligent terminal corresponding to the nurse, the intelligent terminal of the nurse receives the medicine taking starting instruction and then takes medicine for the patient, and after the medicine taking is completed, the nurse sends a medicine taking completion instruction to the medicine monitoring module through the intelligent terminal; the times of medicine application completion of the nurse are increased once; when the main doctor sends the medicine correction information and the modification instruction to the medicine monitoring module through the computer terminal; the medicine correction information comprises the name and the dosage of the replaced medicine; the medicine monitoring module receives the medicine correction information and the modification instruction and sends the medicine correction information and the modification instruction to an intelligent terminal of a nurse, the nurse takes medicine for the patient according to the medicine correction information, and after the medicine taking is finished, the nurse sends a medicine taking finishing instruction to the medicine monitoring module through the intelligent terminal; meanwhile, the medication correction times of the nurse are increased once;

step five: when the nurse value is larger than the set threshold value, a photo acquisition instruction is generated and sent to the intelligent terminal of the nurse, and the nurse sends the medicine pictures and the dosage of the medicine to the medicine detection module through the intelligent terminal; medicine detection module receives medicine picture and the quantity of using medicine then the back generation and begin the instruction of using medicine, and medicine monitoring module will begin the instruction of using medicine and send to on the intelligent terminal that this nurse corresponds, and nurse's intelligent terminal receives and begins the instruction of using medicine after, uses medicine to the patient, and the back is accomplished in the use of medicine, and the nurse sends through intelligent terminal and uses medicine completion instruction to medicine monitoring module.

The registration login module is used for the nurse and the doctor to submit registration information through the intelligent terminal for registration and send the registration information which is successfully registered into the server; the registration information submitted by the nurse comprises a name, a number, the time of entry, an identity card number, a graduate college and a mobile phone number, and the registration information submitted by the doctor comprises; name, serial number, mobile phone number, department to which the department belongs and name of the disease to be treated.

The ward round analysis module is used for analyzing the ward round value of the nurse, and the specific analysis steps are as follows:

the method comprises the following steps: the doctor sends the ward-round instruction and the ward-round time to the ward-round analysis module; the ward-round analysis module receives the ward-round instruction and time and then generates a ward-round screening instruction;

step two: sending the ward-round screening instruction and the ward-round screening time to an intelligent terminal corresponding to a nurse, sending a ward-round confirming instruction to a ward-round analysis module through the intelligent terminal by the nurse, and marking the nurse as a primary nurse; when a nurse sends a room-checking canceling instruction to the room-checking analysis module through the intelligent terminal, the total canceling times of the nurse are increased once;

step three, marking the primary selected nurse as Hj, j ∈ i, and keeping the nurse value N corresponding to the primary selected nurse_Hj(ii) a Set the total number of times of cancellation of the primary nurse as Q_Hj；

Step four: using the formula XW_Hj＝N_Hj*b1+Q_Hj*b2-B_Hj*b3-X_HjB4 obtaining ward round value XW of primary selected nurse_Hj(ii) a Wherein b1, b2, b3 and b4 are all preset proportionality coefficients; b is_HjThe total number of rounds of the ward of the primary selected nurse; x_HjSelecting times for primarily selecting nurses;

step five: the ward-round analysis module sends the ward-round value of the primarily selected nurse to the ward-round distribution module;

the ward round allocation module receives the ward round value of the primarily selected nurse for allocation, and the specific allocation steps are as follows:

SS 1: sorting the primary nurses from big to small according to the ward-round value;

SS 2: acquiring clinical patient information corresponding to a doctor who sends a ward-round instruction through a server and sending the clinical patient information to a computer terminal of the doctor;

SS 3: after receiving the information of the clinical patients, the computer terminal of the doctor inputs the number of the ward-round patients and sends the number to the ward-round distribution module; the ward round distribution module receives the number of the ward round patients and then converts the number of the ward round patients according to a certain proportion to obtain the number of the ward round nurses;

SS 4: according to the sequencing of the primary nurses, selecting the primary nurses with the number equal to that of the ward-round nurses from front to back and marking the primary nurses as selected nurses; the ward-round distribution module generates a ward-round confirmation instruction and sends the ward-round confirmation instruction, the corresponding doctor and the time to an intelligent terminal of a selected nurse;

SS 5: the selected nurse in the top ranking records the ward-round diagnosis of the patient in the ward-round process of the doctor through the intelligent terminal and sends the ward-round diagnosis to the server; the total number of rounds of the selected nurses is increased by one, and the number of rounds of the selected nurses in the top ranking is increased by one.

The inquiry management module is used for the patient to visit the ward-round diagnosis of the patient in the ward-round process of the doctor stored in the server through the mobile phone terminal, and the intelligent terminal is an intelligent mobile phone or a tablet personal computer.

The working principle of the invention is as follows: the medicine monitoring module is used for a nurse to monitor the medication of a clinical patient, the nurse sends a medication instruction to the medicine monitoring module through the intelligent terminal, and the medicine monitoring module acquires the serial number of the nurse and generates a calling instruction; the medicine monitoring module sends the nurse number and the calling instruction to the nurse analysis module, the nurse analysis module receives the nurse number and the calling instruction and then processes the nurse number and the calling instruction to obtain a nurse value, and the nurse analysis module obtains registration information stored in the server; matching the name of the nurse with all medical institutions to obtain a corresponding value of the institutions, calculating the time difference between the attendance time of the nurse and the current time of the system to obtain the attendance duration,

using formulas

Obtain the nurse value N of the nurse_Hi(ii) a The nurse analysis module sends the nurse value to the medicine monitoring module; the medicine monitoring module judges after receiving the nurse value sent by the nurse analysis module, generates a photo collection instruction when the nurse value is less than or equal to a set threshold value, and sends the photo collection instruction to the medicine monitoring moduleOn an intelligent terminal of a nurse, the nurse sends medicine pictures and the dosage of the medicines to a medicine detection module through the intelligent terminal; the medicine monitoring module sends medicine pictures and dosage for medicine taking to a computer terminal of an attending doctor corresponding to the patient, when the attending doctor sends a confirmation instruction to the medicine monitoring module through the computer terminal, the medicine monitoring module generates a medicine taking starting instruction after receiving the confirmation instruction, the medicine monitoring module sends the medicine taking starting instruction to an intelligent terminal corresponding to the nurse, the intelligent terminal of the nurse receives the medicine taking starting instruction and then takes medicine for the patient, and after the medicine taking is completed, the nurse sends a medicine taking completion instruction to the medicine monitoring module through the intelligent terminal; the medicine administration monitoring module is used for monitoring the medication of the clinical patients by nurses and monitoring and analyzing the medicine by the nurse value analysis of the nurses, so that the medication of the nurses is monitored more accurately, medication errors are avoided, and the safety of the clinical patients is ensured; the ward-round analysis module is used for analyzing the ward-round value of the nurse, and the doctor sends a ward-round instruction and time to the ward-round analysis module; the ward-round analysis module receives the ward-round instruction and time and then generates a ward-round screening instruction; sending the ward-round screening instruction and the ward-round screening time to an intelligent terminal corresponding to a nurse, sending a ward-round confirming instruction to a ward-round analysis module through the intelligent terminal by the nurse, and marking the nurse as a primary nurse; using the formula XW_Hj＝N_Hj*b1+Q_Hj*b2-B_Hj*b3-X_HjB4 obtaining ward round value XW of primary selected nurse_Hj(ii) a The ward-round analysis module sends the ward-round value of the primarily selected nurse to the ward-round distribution module; the ward round allocation module receives the ward round value of the primarily selected nurse for allocation; the ward round value of the nurse is distributed, the nurse is conveniently and reasonably arranged to make a ward round, and other work of the nurse and the ward round time conflict are avoided.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. An intelligent monitoring system for clinical medical treatment is characterized by comprising a data acquisition module, a server, a medicine monitoring module, a ward-round analysis module, a ward-round distribution module, a registration login module and a query management module;

the data acquisition module is used for acquiring clinical information of clinical patients and sending the clinical information to the server;

the medicine monitoring module is used for nurses to monitor the medication of clinical patients, and the specific monitoring steps are as follows:

the method comprises the following steps: a nurse sends a medication instruction to the medicine monitoring module through the intelligent terminal, and the medicine monitoring module acquires the nurse number and generates a calling instruction;

step two: medicine monitoring module sends nurse's serial number and call instruction to nurse analysis module, and nurse analysis module handles after receiving nurse's serial number and call instruction and obtains nurse's value, and concrete processing step is:

s1: the nurse analysis module acquires registration information stored in the server; setting a nurse mark Hi, i is 1, … … and n;

s2: setting a corresponding college value of all medical colleges, matching the name of the nurse with all the medical colleges to obtain the corresponding college value and marking the corresponding college value as Y_Hi；

S3: calculating the time difference between the attendance time of the nurse and the current time of the system to obtain the attendance duration, and recording the duration as T_Hi；

S4: using formulas

Obtain the nurse value N of the nurse_Hi(ii) a Wherein c1, c2, c3, c4, c5 and c6 are all preset proportional coefficients, and lambda is a correction factor and takes the value of 0.925446; a. the_HiThe number of times of completion of medication for the nurse; j. the design is a square_HiFor protectingNumber of medication corrections for a patient; l is_HiIs the age of the nurse; b is_HiThe total number of rounds of the nurse;

s5: the nurse analysis module sends the nurse value to the medicine monitoring module;

step three: the medicine monitoring module judges after receiving the nurse value sent by the nurse analysis module, generates a photo acquisition instruction when the nurse value is smaller than or equal to a set threshold value, sends the photo acquisition instruction to an intelligent terminal of the nurse, and the nurse sends medicine pictures and dosage for medicine taking to the medicine detection module through the intelligent terminal;

step four: the medicine monitoring module sends medicine pictures and dosage for medicine taking to a computer terminal of an attending doctor corresponding to the patient, when the attending doctor sends a confirmation instruction to the medicine monitoring module through the computer terminal, the medicine monitoring module generates a medicine taking starting instruction after receiving the confirmation instruction, the medicine monitoring module sends the medicine taking starting instruction to an intelligent terminal corresponding to the nurse, the intelligent terminal of the nurse receives the medicine taking starting instruction and then takes medicine for the patient, and after the medicine taking is completed, the nurse sends a medicine taking completion instruction to the medicine monitoring module through the intelligent terminal; the times of medicine application completion of the nurse are increased once; when the main doctor sends the medicine correction information and the modification instruction to the medicine monitoring module through the computer terminal; the medicine correction information comprises the name and the dosage of the replaced medicine; the medicine monitoring module receives the medicine correction information and the modification instruction and sends the medicine correction information and the modification instruction to an intelligent terminal of a nurse, the nurse takes medicine for the patient according to the medicine correction information, and after the medicine taking is finished, the nurse sends a medicine taking finishing instruction to the medicine monitoring module through the intelligent terminal; meanwhile, the medication correction times of the nurse are increased once;

step five: when the nurse value is larger than the set threshold value, a photo acquisition instruction is generated and sent to the intelligent terminal of the nurse, and the nurse sends the medicine pictures and the dosage of the medicine to the medicine detection module through the intelligent terminal; medicine detection module receives medicine picture and the quantity of using medicine then the back generation and begin the instruction of using medicine, and medicine monitoring module will begin the instruction of using medicine and send to on the intelligent terminal that this nurse corresponds, and nurse's intelligent terminal receives and begins the instruction of using medicine after, uses medicine to the patient, and the back is accomplished in the use of medicine, and the nurse sends through intelligent terminal and uses medicine completion instruction to medicine monitoring module.

2. The clinical medical intelligent monitoring system according to claim 1, wherein the registration login module is used for nurses and doctors to submit registration information through the intelligent terminal for registration and send the registration information of successful registration to the server; the registration information submitted by the nurse comprises a name, a number, the time of entry, an identity card number, a graduate college and a mobile phone number, and the registration information submitted by the doctor comprises; name, serial number, mobile phone number, department to which the department belongs and name of the disease to be treated.

3. The intelligent clinical medical monitoring system of claim 1, wherein the ward round analysis module is configured to analyze the ward round value of the nurse by the following specific steps:

the method comprises the following steps: the doctor sends the ward-round instruction and the ward-round time to the ward-round analysis module; the ward-round analysis module receives the ward-round instruction and time and then generates a ward-round screening instruction;

step two: sending the ward-round screening instruction and the ward-round screening time to an intelligent terminal corresponding to a nurse, sending a ward-round confirming instruction to a ward-round analysis module through the intelligent terminal by the nurse, and marking the nurse as a primary nurse; when a nurse sends a room-checking canceling instruction to the room-checking analysis module through the intelligent terminal, the total canceling times of the nurse are increased once;

step three, marking the primary selected nurse as Hj, j ∈ i, and keeping the nurse value N corresponding to the primary selected nurse_Hj(ii) a Set the total number of times of cancellation of the primary nurse as Q_Hj；

Step four: using the formula XW_Hj＝N_Hj*b1+Q_Hj*b2-B_Hj*b3-X_HjB4 obtaining ward round value XW of primary selected nurse_Hj(ii) a Wherein b1, b2, b3 and b4 are all preset proportionality coefficients; b is_HjThe total number of rounds of the ward of the primary selected nurse; x_HjSelecting times for primarily selecting nurses;

step five: the ward-round analysis module sends the ward-round value of the primarily selected nurse to the ward-round distribution module;

the ward round allocation module receives the ward round value of the primarily selected nurse for allocation, and the specific allocation steps are as follows:

SS 1: sorting the primary nurses from big to small according to the ward-round value;

SS 2: acquiring clinical patient information corresponding to a doctor who sends a ward-round instruction through a server and sending the clinical patient information to a computer terminal of the doctor;

SS 3: after receiving the information of the clinical patients, the computer terminal of the doctor inputs the number of the ward-round patients and sends the number to the ward-round distribution module; the ward round distribution module receives the number of the ward round patients and then converts the number of the ward round patients according to a certain proportion to obtain the number of the ward round nurses;

SS 4: according to the sequencing of the primary nurses, selecting the primary nurses with the number equal to that of the ward-round nurses from front to back and marking the primary nurses as selected nurses; the ward-round distribution module generates a ward-round confirmation instruction and sends the ward-round confirmation instruction, the corresponding doctor and the time to an intelligent terminal of a selected nurse;

SS 5: the selected nurse in the top ranking records the ward-round diagnosis of the patient in the ward-round process of the doctor through the intelligent terminal and sends the ward-round diagnosis to the server; the total number of rounds of the selected nurses is increased by one, and the number of rounds of the selected nurses in the top ranking is increased by one.

4. The intelligent clinical medical monitoring system according to claim 1, wherein the query management module is used for ward round diagnosis of the patient during the ward round process of the doctor stored in the server accessed by the patient through a mobile phone terminal, and the intelligent terminal is a smart phone or a tablet computer; the clinical information comprises the name, number, room number, bed number, admission time, the name of the corresponding treating doctor, the disease name of the patient and the medicine name and the medicine dosage corresponding to the disease input by the treating doctor.

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