TWM620113U - Medication security management system based on wireless radio frequency identification - Google Patents

Abstract

A medication safety management system based on radio frequency identification, which mainly uses radio frequency identification (Radio Frequency Identification) to track and monitor the medicines issued by the hospital pharmacy or received through the medicine cabinet, and medicines for the purpose of surgery. Because the medications used in the surgical process are usually of high risk, in order to implement management and prevent potential medication errors, this system can be used in the drug, medication box or medication pack after the pharmacist finishes dispensing the medication and arranges it into a medication box or pack. The label for the radio frequency identification function induction. The induction label enables the system to track the status of medicines, medicine boxes or medicine packs during movement, operation, after the operation or various changes in conditions and remaining medicines, so as to solve the flow and management of medicines. And to achieve the purpose of drug safety management and control.

Description

Drug safety management system based on radio frequency identification

A medication safety management system based on radio frequency identification. This creation especially refers to a system based on radio frequency identification, especially for high-risk drugs and medications used in surgery and anesthesia. The tracking method of radio frequency identification is used to monitor the flow of drugs.

Press, with the advent of the information age, the medical system is gradually introducing convenient and reliable information devices. It is hoped that such information devices can moderately reduce the pressure on the medical system, and the information devices can more efficiently monitor the operation process and manage patients and medical care. Personnel, surgical schedules, and even drugs, especially high-risk drugs. If high-risk drugs are accidentally lost, misused, improperly used, or even stolen, abused, or illegally used, they will all be hospitals or drugs to which they belong. The bureau can cause serious injuries and may cause medical disputes; here, for example, the Republic of China No. TW200713116A "Medical Equipment Supply System and Method", its technical features can be radio frequency tags, storage of medical equipment related information, and the system can also Compare the medical equipment with the surgical schedule, and determine whether the medical equipment obtained by the staff is correct and record it. There are other prior technologies for reference as follows (1) TW200504547A "Method of applying radio frequency identification system to drug management"; (2) CN110271795A "Toxic Essence Drug Recovery Device, Toxic Essence Drug Recovery Method"; (3) US20090091453A1 "STORAGE SYSTEM AND STORED ARTICLE ID MANAGEMENT METHOD";

It can be seen from the above disclosure that the introduction of information systems into the medical system is of great help to medical personnel. However, the aforementioned radio frequency tags only mention the use of medical equipment. Although medical equipment is also very important for medical personnel, However, there is no mention of drug safety. If radio frequency tags can be applied to drugs, it is very possible to solve most of the drug flow and drug safety issues. The aforementioned only mentions the comparison of medical equipment and surgical schedules. However, , When performing surgery in the operating room, there are often multiple groups of patients, using multiple sets of medical equipment, using multiple high-risk drugs, and manual drug distribution and withdrawal before the operation, and after the operation is completed, it is inevitable that the drugs after use are manually checked. In addition, no drug information is introduced into the surgical schedule, which makes it difficult to monitor the medication process, verify the dosage, and perform management.

In summary, the existing medication safety problems do have the aforementioned shortcomings. Based on this, how to use radio frequency tags to match medication information and improve the reliability and accuracy of monitoring medication safety are problems to be solved.

In view of the above-mentioned problems, this creator is based on years of experience in related industries to research and improve radio frequency tag functions and drug safety management methods; for this reason, the main purpose of this creation is to provide a radio frequency identification function , A drug safety management system that informationizes the drug use process to facilitate supervision.

In order to achieve the above-mentioned purpose, a medication safety management system based on radio frequency identification described in this creation, the server mainly uses radio frequency identification (Radio Frequency Identification) to track and monitor the adjustments by the hospital pharmacy, and use surgical medication as For the medicine of the purpose, the server generates label information that can be scanned or identified by radio frequency identification based on the information device of the pharmacy to input the required medicine information, personnel information, etc. This label can be used for the movement, receipt, use, and return of the medicine Actions such as, state modification, etc., leave a track in the system so that the drug manager can supervise the situation of the drug under any circumstances. Therefore, the system can adjust and issue drugs, kits or packages by the pharmacist until the final operation is completed. When the pharmacist conducts the inspection, the medicine can be under the supervision of the radio frequency identification function, and the medicine flow can be monitored, the medicine can be refilled in real time, the surgical medicine is accurately supplied, and the safety of the medicine is strictly controlled.

In order for your reviewer to have a clear understanding of the purpose, technical features and effects of this creation, please refer to the following instructions with illustrations.

Please refer to "Figure 1". The figure shown is the composition diagram of the creation (1). As shown in the figure, this creation is based on the radio frequency identification medication safety management system 1, which mainly includes a server 11 , And there is a medication control device 12, a central drug control device 13, a drug receiving device 14, and an operating room drug control device 15 to provide information links with it. The following describes and exemplifies the function of each component: (1) The said server 11 can mainly receive information provided by the medication control device 12, the central drug control device 13, the medicine receiving device 14, and the operating room drug control device 15. The server 11 is based on the medication control device 12 The provided information generates tag information that can be sensed and monitored by the central drug control device 13, the drug receiving device 14, and the operating room drug control device 15, and the server 11 can generate a unified information based on the tag information modification process. Medication control terminal device 12; (2) The medication control terminal device 12 can be one of a mobile phone, a tablet computer, a personal computer, etc., provided that the server 11 can obtain the required information, and can receive the information sent by the server 11 Information can be implemented; the medication control terminal device 12 is operated by a medication controller, which can transmit a drug information, a person's information, and settings through the medication control device 12 An access authority to the server 11, and can receive the label information and the integrated information returned by the server 11. The drug information can be a drug name, a drug number, a drug risk information, One drug dosage information, one drug quantity, one drug status and time information, one drug dispensing time information, one drug dispensing review time information, one drug issuance time information, one drug receiving time information, one drug return time information, one drug One or a combination of information such as the time information of returning the medicine cabinet, the time information of a medicine returning to the pharmacy, the time information of a medicine inventory, the information of a medicine inventory review time, etc., but not limited to this; also, the personnel information mentioned may be One or a combination of one pharmacist information, one review pharmacist information, one approved pharmacist information, one count pharmacist information, one patient information, one medical record information, one surgery schedule, one attending physician information, one medical staff information, etc. Information, but not limited to this; In addition, the said access authority can be a digital password, an image password, an identity confirmation and other encryption or setting methods, but it is not limited to this; (3) The central medicine control device 13 can be a radio frequency identification receiver device. Preferably, the central medicine control device 13 can be a medicine cabinet with a radio frequency identification receiver, but it is not limited to this. Any device that can receive tag information generated by the server 11 and that is sensed by the radio frequency identification function can be implemented. Among them, the central drug control device 13 mainly includes a central drug sensing module 131. The sensor module 131 mainly senses the tag information with the radio frequency identification function through the radio frequency identification function, and after sensing the tag information, it can read the internal information of the tag information, and send it based on the access authority. A supervision request is sent to the server 11, where the label information is mainly based on the radio frequency identification function, and can be used by the radio frequency identification receiver to receive and sense a barcode, a two-dimensional tag, a radio frequency tag, etc., but not In addition, the supervision request is mainly to modify the label status, but it is not limited to this; (4) The medicine receiving device 14 can be a radio frequency identification receiver device, but it can be implemented as long as it can receive the tag information generated by the server 11 and that is sensed by the radio frequency identification function; The medicine device 14 mainly includes a medicine receiving sensor module 141. The medicine receiving sensor module 141 mainly senses the label information with the radio frequency identification function through the radio frequency identification function, and after the label information is sensed , Can read the internal information of its tag information, and send a supervision request to the server 11 based on the access authority. Preferably, the access authority can use the strength of the radio frequency signal or the wavelength of the radio frequency signal for any radio frequency identification function Cards (such as: travel card, all-in-one card, ID card, Mifare card) to distinguish permissions, for example: import a personnel data to the server 11, the server 11 through the medicine receiving device 14 according to the scope of business to any radio frequency identification The function card sets the permission level. The above examples are only examples and are not limited to this; (5) The operating room medicine control device 15 can be a radio frequency identification receiver device. Preferably, the operating room medicine control device 15 is a medicine cabinet with a radio frequency identification receiver, but it is not limited to this. , Any device that can receive tag information generated by the server 11 and sensed by the radio frequency identification function can be implemented. Among them, the operating room drug control device 15 mainly includes an operating room drug sensing module 151, and operating room drug sensing The module 151 can sense the tag information with the radio frequency identification function through the radio frequency identification function, and after sensing the tag information, it can read the internal information of the tag information and send the supervision request, and A check request is sent to the server 11, where the check request is mainly to perform an integrated operation on the history of the label information, but it is not limited to this.

Please refer to "Figure 2" as shown in the diagram of the composition of the creation (two), and please refer to "Figure 1", as shown in the figure, the server 11 mainly includes a central processing module 111, and It is connected to a data storage module 112, a label module 113, a supervision module 114, and a verification module 115 respectively. The function of each component is explained and exemplified as follows: (1) The central processing module 111 is used to run the server 11 and to drive the actions of the modules connected to its information. The central processing module 111 has logic operations, temporarily stores the results of operations, and saves the position of execution instructions Such functions, which may be, for example, a central processing unit (Central Processing Unit, CPU), but are not limited to this; (2) The data storage module 112 can be used to store electronic data, which can be, for example, a solid state disk (Solid State Disk or Solid State Drive, SSD), a hard disk (Hard Disk Drive, HDD), and a static Memory (Static Random Access Memory, SRAM), or a random access memory (Random Access Memory, DRAM), etc.; the data storage module 112 mainly stores drug information, personnel information, and central drugs transmitted by the medication control terminal device 12 The supervision request sent by the control device 13, the check request sent by the medicine cabinet device 14, the label information generated by the label module 113, and the integrated information generated by the check module 115. The aforementioned data will be done later explain in detail; (3) The said label module 113 generates label information based on the drug information and personnel information transmitted by the drug control terminal device 12, and can be set to the label information according to the access authority set by the drug control terminal device 12. The label module 113 then transmits the label information back to the medication control terminal device 12 and stores it in the data storage module 112. The label module 113 is mainly based on the radio frequency identification function to generate information that can be sensed by the radio frequency identification function. Label information; (4) The supervisory module 114 mainly receives supervisory requests sent by the central drug control device 13, the medicine receiving device 14, and the operating room drug control device 15, and adjusts and modifies the data storage module based on the supervisory request 112 label information; (5) The verification module 115 mainly receives the verification request sent by the drug control device 15 in the operating room, and based on the verification request, integrates the label information as a monitoring process, and generates a unified information and sends it to the medication control The end device 12, wherein the monitoring process is mainly for label information, past monitoring requests, and review requests and the process of modification, but not limited to this; and, the integrated information can be one Remaining drug information, a drug use information, a medical record information, a medical staff information, etc., or a combination thereof, but not limited to this.

Please refer to "Figure 3". The figure shows the implementation flow chart of the creation. Please also refer to "Figure 1". The implementation steps of the RFID-based medication safety management system 1 of this creation are as follows: (1) Step S1 of server receiving information: Please refer to "Figure 4". The figure shows the implementation diagram (1) of the creation: As shown in the figure, the server 11 receives a piece of drug information D1, a piece of personnel information D2 transmitted by the medication control terminal device 12, and An access authority can be set for the aforementioned drug information D1 and personnel information D2, where the drug information D1 can be a drug name, a drug number, a drug risk information, a drug dosage information, a drug quantity, One drug status time information, one drug dispensing time information, one drug dispensing review time information, one drug issuance time information, one drug receiving time information, one drug return time information, one drug return time information, and one drug return time Pharmacy time information, a drug inventory time information, a drug inventory review time information, etc. or a combination of information, but not limited to this; in addition, the personnel information D2 can be a prescription pharmacist information, a reply One or a combination of nuclear pharmacist information, one approved pharmacist information, one counted pharmacist information, one patient information, one medical record information, one operation schedule, one attending physician information, one medical staff information, etc., but not limited to this ; In addition, the access authority can be a digital password, an image password, an identity confirmation and other encryption or setting methods, but not limited to this, for example: Pharmacist A will need the medicines for today’s surgery And corresponding patient identification data (such as medical record number, surgery schedule number, etc.) corresponding to the operation, input to the server 11 through the computer; (2) Step S2 of the server sending label information: Proceed to step S1 of receiving information from the server, and please refer to "Picture 5" ~ "Picture 6". The figure shows the implementation diagram of the creation (2) ~ (3); as shown in the figure, the server 11 is received by After the drug information D1 and the personnel information D2 are transmitted by the medication control terminal device 12, the tag module 113 generates a tag information D3 based on the drug information D1 and the personnel information D2, and the tag module 113 transmits the tag information D3 to the medication. The control terminal device 12 is stored in the data storage module 112, where the tag information D3 is mainly based on the radio frequency identification function. By changing the sensor chip with the original code through the input of the specified code, the output with the tag The sensor chip of Information D3 can also be used by the radio frequency identification receiver to receive and sense a barcode, a two-dimensional tag, a radio frequency tag, etc., but not limited to this. For example: follow the example of the server receiving information step S1, pharmacist After A transmits the required information to the server 11, the server 11 performs calculations and generates the label information D3. Pharmacist A can modify the source code of the label information D3 and enter the specified code, and send the sensor chip with the label information D3 , Paste the prepared medicine box (as shown in Figure 6), the above examples are only examples, and are not limited to this; (3) Central drug control device supervises drugs step S3: Follow the step S2 of sending label information by the front server, and please refer to "Picture 7" ~ "Picture 9". The figure shows the implementation diagram of the creation (4) ~ (6); as shown in the figure, a central drug control device The 13 system can receive the label information D3 transmitted by the medication control terminal device 12. After the central drug control device 13 receives the label information D3, the central drug control device 13 generates a supervision request D4 based on the label information D3 to the server 11. The server The supervision module 114 of 11 can supervise the label information D3 stored in the data storage module 112 based on the supervision request D4, where the supervision request D4 is mainly for viewing, adjusting, modifying, moving, and converting the status of the label information D3 , But not limited to this; for example, according to the example of step S2 of sending label information by the server, Pharmacist A will complete the preparation, and after the preparation of the medicine box with label information D3 is completed, Pharmacist A can put the medicine box in The central drug control device 13 with radio frequency identification function (as shown in Figures 8 and 9) waits for the follow-up medication situation. The above examples are only examples and are not limited to this; (4) Step S4 of receiving medicine: Undertake the step S3 of the previous central drug control device to supervise drugs, and please refer to "Figure 10" ~ "Figure 15". The figure shows the implementation schematic diagram (7) ~ (12) of the creation; The device 14 can receive the label information D3 transmitted by the central drug control device 13. After the drug receiving device 14 receives the label information D3, the drug receiving device 14 generates a supervision request D4 to the server 11 based on the label information D3. The supervision module 114 can supervise the label information D3 stored in the data storage module 112 based on the supervision request D4. For example, according to the example of step S3 of the central drug control device supervising drugs, the medical staff (requisitioner) A is based on the operation schedule of the day , Go to the hospital pharmacy window to collect the medicine. During the medicine collection process (as shown in Figures 11 and 12), the label information D3 attached to the medicine box is sensed by the radio frequency identification receiver at the pharmacy counter, and the server 11 is fine. Read the tag information D3 stored in the data storage module 112 (as shown in Figures 13 and 14), and the medical staff (recipient) A needs to receive more medicines after receiving the medicine or based on different patient conditions , The system can modify the label information D3 (as shown in Figure 15), the above example is only an example, not limited to this; (5) Step S5 of drug supervision and control by the drug control device in the operating room: Proceed to step S4 of receiving medicine, and please refer to "Figure 16". The figure shows the implementation diagram (13) of the creation; as shown in the figure, an operating room medicine control device 15 can receive the medicine receiving device 14 After the label information D3 of the operating room drug control device 15 receives the label information D3, the operating room drug control device 15 generates a supervision request D4 based on the label information D3, and a check request D5 to the server 11, the supervision model of the server 11 The group 114 can supervise the label information D3 stored in the data storage module 112 based on the supervision request D4. For example, in the example of receiving the medicine step S4, when the operation is completed, the nurse A can use the finished medicine with the label information D3 The box should be returned to the drug control device 15 in the operating room and wait for the follow-up inventory. Under the same circumstances, Pharmacist A can also receive the D3 drug with the label information from the hospital pharmacy counter after receiving the drug based on the operation that has not been performed on the same day. The box is placed in the medicine control device 15 in the operating room. When the operation starts, the nurse A will pick up the medicine box with the label information D3. The above examples are only examples and not limited to this; (6) Server verification step S6: Undertake the operation room drug control device to supervise the drug step S5, and please refer to "Figure 17", the figure shows the implementation diagram (14) of the creation; as shown in the figure, the server 11 receives the operation room drug control device 15 After the verification request D5 is sent, the verification module 115 of the server 11 can integrate a monitoring process of the label information D3 based on the verification request D5, and generate a unified information D6, and finally send the unified information D6 To the medication control terminal device 12, the inspection request D5 is mainly for the integrated calculation of the history of the label information, but not limited to this; also, the supervision process is mainly for the label information, in the past The process of supervision request, inspection request and modification, but not limited to this; In addition, the integrated information D6 can be a remaining drug information, a drug use information, a medical record information, a medical staff information, etc. One type of information or a combination thereof, but not limited to this. For example, taking the example of step S5 of the operation room drug control device supervising drugs, when the operating room drug control device 15 senses the finished D3 medicine box with the label information, That is, the check request D5 is sent to the server 11, and the server 11 integrates the return status, return time, past modification history status and other information of the medicine box experienced by the label information D3, and finally sends the integrated information D6 to the medication control For the end device 12, the above illustration is only an example, and is not limited thereto.

Please refer to "Figure 18", which shows another embodiment (1) of the creation; as shown in the figure, the server 11 may further include a surgery scheduling module 116, and the medication control terminal device 12 can transmit a surgery The scheduling information D7 is sent to the server 11. After receiving the surgery scheduling information D7, the surgery scheduling module 116 can integrate the surgery scheduling information D7 and the personnel information D2, and transmit the integrated information to the tag module 113. Wherein, the operation schedule information may be a name of the operation, information of a surgical drug, information of a surgical site, information of a day's operation schedule, etc., or a combination thereof, but is not limited to this.

Please refer to "Figure 19", which shows another embodiment (2) of the creation; as shown in the figure, the server 11 can be linked to a drug recovery device 16 which can be It is a radio frequency identification receiver device. Any tag information generated by the server 11 that can be sensed by the radio frequency identification function can be implemented. The medicine recovery device 16 mainly includes a medicine recovery sensor module 161, which is used for medicine recovery. The module 161 can generate and send a check request D5 of the label information D3 to the server 11 based on sensing or receiving the label information D3. The drug recovery sensor module 161 mainly uses the radio frequency identification function (Radio Frequency Identification). , Sensing tag information with radio frequency identification function; and please refer to "Figure 20" ~ "Figure 21", the figure shows another embodiment (3) ~ (4) of the creation, in which the operating room After the drug control device supervises the drugs step S5, it can be followed by a drug recovery device checking drug step S7. The drug recovery device 16 can read the label information after sensing or receiving the tag information D3 sent by the drug control device 15 in the operating room. Based on the internal information, the verification request D5 is sent to the server 11 based on the access authority.

Please refer to "Figure 22", which shows another embodiment (5) of the creation; as shown in the figure, the central drug control device 13 further has multiple control areas B, and each control area B has an area sensor The module BS, the area sensing module BS, and each control area B are provided to give the central medicine control device 13 a plurality of different authority zones. The control area B can, for example, divide the central medicine control device 13 into a medicine access area B1, One or a combination of return medicine area B2, one shift area, etc., but not limited to this; the area sensor module BS adjusts the scanning power, scanning mode, and scanning sequence of the parameters in the RFID reader, and places them in the proper position Paste the insulation material, match the selected receiver, such as one or a combination of RFID reader, antenna, and tag, and then use the algorithm deduced according to the antenna and Received Signal Strength Indicator (RSSI) value to determine whether to read The correct reading of the area; among them, the medicine taking area B1 is used to store a medicine to be used, and the medicine will be taken when the subsequent medicine is taken. For example, after the preparation of the medicine box with the label information D3 is completed by the pharmacist A, Pharmacist A can put the medicine box into the central drug control device 13 and wait for nurse A to take the medicine when the follow-up medication is needed. The above example is only an example and is not limited to this; return medicine area B2 for return A remaining medicine, for example: When the operation is completed, the nurse A can return the used D3 medicine box with the label information to the central medicine control device 13 and wait for the follow-up inventory. The above examples are only examples, not based on this Is limited.

In summary, the medication safety management system based on radio frequency identification is based on radio frequency identification function, and the medicine is matched with the inductive radio frequency identification tag, so that the medicine can be supervised from the completion of the adjustment to the completion of the operation; Therefore, after this creation is implemented, it can indeed provide for the purpose of monitoring the flow of drugs to the system with the tracking method of radio frequency identification for high-risk drugs and operating room drugs.

The above are only the preferred embodiments of this creation, and are not intended to limit the scope of implementation of this creation; anyone who is familiar with this technique can make equal changes and modifications without departing from the spirit and scope of this creation. Should be covered in the scope of the patent of this creation.

To sum up, this creation has patent requirements such as "industrial usability", "novelty" and "progressiveness"; the applicant filed an application for a new patent with the Bureau of Patent in accordance with the provisions of the Patent Law.

1: Drug safety management system based on radio frequency identification 11: Server 12: Medication control device 111: Central Processing Module 112: Data Storage Module 113: label module 114: Supervision Module 115: check module 116: Surgical scheduling module 13: Central drug control device 14: Medicine collection device 131: Central medicine sensor module 141: Medicine receiving sensor module 15: Drug control device in operating room 16: Drug recovery device 151: Operating room drug sensing module 161: Recycling medicine sensor module D1: Drug Information D2: personnel information B: Control area D3: Label information BS: Area sensing module D4: Supervision request B1: Drug access area D5: Inspection request B2: Return the medicine area D6: Integrated information D7: Surgical schedule information S1: Steps for the server to receive information S2: Steps for the server to send label information S3: Central Drug Control Device Supervises Drugs Steps S4: Steps to receive medicine S5: Steps to supervise drugs by drug control devices in operating rooms S6: Server verification steps S7: Steps for drug recovery device to check drugs

Figure 1 is a schematic diagram of the composition of this creation (1). Figure 2 is a schematic diagram of the composition of this creation (2). Figure 3 is the flow chart for the implementation of this creation. Figure 4 is a schematic diagram of the implementation of this creation (1). Figure 5 is a schematic diagram of the implementation of this creation (2). Figure 6 is a schematic diagram of the implementation of this creation (3). Figure 7 is a schematic diagram of the implementation of this creation (4). Figure 8 is a schematic diagram of the implementation of this creation (5). Figure 9 is a schematic diagram of the implementation of this creation (6). Figure 10 is a schematic diagram of the implementation of this creation (7). Figure 11 is a schematic diagram of the implementation of this creation (8). Figure 12 is a schematic diagram of the implementation of this creation (9). Figure 13 is a schematic diagram of the implementation of this creation (10). Figure 14 is a schematic diagram of the implementation of this creation (11). Figure 15 is a schematic diagram of the implementation of this creation (12). Figure 16 is a schematic diagram of the implementation of this creation (13). Figure 17 is a schematic diagram of the implementation of this creation (14). Figure 18 is another embodiment (1) of this creation. Figure 19 is another embodiment (2) of this creation. Figure 20 is another embodiment (3) of this creation. Figure 21 is another embodiment (four) of this creation. Figure 22 is another embodiment (5) of this creation.

1: Drug safety management system based on radio frequency identification

11: Server

12: Medication control device

13: Central drug control device

14: Medicine collection device

131: Central medicine sensor module

141: Medicine receiving sensor module

15: Drug control device in operating room

151: Operating room drug sensing module

Claims (10)

A medication safety management system based on radio frequency identification, which includes: A server, which mainly includes a central processing module, and a data storage module, a label module, a monitoring module, a verification module and the central processing module are connected with information, the central processing module For running the server, the data storage module mainly stores the data information received, calculated and generated by the server; A medication control end device, the medication control end device is an information link with the server, the medication control end device sends a drug information and a person information to the server, and the drug information and the person Information set an access permission; The label module receives and generates a label information based on the information sent by the medication control terminal device, and the label module sets the supervision of the label information according to the access authority, and the label information is stored in the data storage Module, and sent to the medication control device at the same time; A central drug control device, the central drug control device is information-linked to the server, the central drug control device includes a central drug sensor module, the central drug sensor module is based on sensing or receiving the tag information, generating And send a supervision request to the server; A medicine receiving device, the medicine receiving device is linked to the server, the medicine receiving device includes a medicine receiving sensor module, the medicine receiving sensor module is based on sensing or receiving the tag information, and depends on the storage Obtain the authority to generate and send the supervision request of the label information to the server; The supervision module supervises the label information stored in the data storage module based on the supervision request; An operating room drug control device, the operating room drug control device is information-linked to the server, the operating room drug control device mainly includes an operating room drug sensing module, the operating room drug sensing module is based on induction or Receiving the label information, generating and transmitting the supervision request and a verification request of the label information to the server; and The verification module integrates a monitoring process of the label information based on the verification request and generates a unified information, and then transmits the unified information to the medication control terminal device. The drug safety management system based on radio frequency identification as described in claim 1, wherein the drug information is a drug name, a drug number, a drug risk information, a drug dosage information, a drug quantity, and a drug status Time information, one drug dispensing time information, one drug dispensing review time information, one drug issuance time information, one drug receiving time information, one drug return time information, one drug return time information to the medicine cabinet, one drug return time to the pharmacy Information, a form or combination of information on the time of a drug inventory, and information on the time of a drug inventory review. The medication safety management system based on radio frequency identification as described in claim 1, wherein the information of the personnel includes information of a pharmacist for adjustment, information for a review pharmacist, information for an approved pharmacist, information for an inventory pharmacist, information for a patient, and One form or combination of medical record information, surgical schedule, attending physician information, and medical staff information. The medication safety management system based on radio frequency identification according to claim 1, wherein the tag module, the central medicine sensing module, the medicine receiving sensing module, and the operating room medicine sensing module use a wireless Radio frequency identification function, and the label module is generated based on the radio frequency identification function, and can be used for the central medicine sensor module, the medicine receiving sensor module, and the operating room medicine sensor module to sense a barcode, a Radio frequency tag, a form of tag information. The medication safety management system based on radio frequency identification according to claim 1, wherein the supervision request is generated by the central drug control device based on sensing or receiving the tag information and in accordance with the access authority. The medication safety management system based on radio frequency identification according to claim 1, wherein the supervision process is the history of all the supervision requests in the past for the label information. The medication safety management system based on radio frequency identification according to claim 1, wherein the integrated information system is one form or combination of remaining medicine information, medicine usage information, medical record information, and medical personnel information. The medication safety management system based on radio frequency identification as described in claim 1, wherein the server further includes a surgery scheduling module, and the medication control terminal device can send a surgery schedule information to the server, and the surgery The scheduling module can integrate the surgical scheduling information and the personnel information, and transmit the integrated information to the tag module. According to claim 1, the medication safety management system based on radio frequency identification, wherein the server can be further linked to a drug recovery device, and the drug recovery device mainly includes a drug recovery sensor module, and the drug recovery device The sensor module can generate and send the verification request of the label information to the server based on sensing or receiving the label information. The medication safety management system based on radio frequency identification according to claim 1, wherein the central drug control device has a plurality of control areas, and each of the plurality of control areas has an area sensing module, and the area sensing module And each of the control areas is provided with partitions that give the central drug control device multiple different permissions.

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