KR102219856B1 - Data aggregation platform, method and computer-readable storage medium of safe docking apparatus based on internet of things - Google Patents

Abstract

The present invention provides a data collection platform, a data collection method, and a computer-readable storage medium for an IoT-based safe docking device. Accordingly, it is possible to establish a reporting system for all high-risk drugs by collecting and managing data on drug administration from the safety docking device.

Description

Data collection platform, method and computer-readable storage medium of IoT-based safety docking device {DATA AGGREGATION PLATFORM, METHOD AND COMPUTER-READABLE STORAGE MEDIUM OF SAFE DOCKING APPARATUS BASED ON INTERNET OF THINGS}

The present invention relates to collecting data of an IoT-based safety docking device, which has a unique shape designed according to the drug to be administered and is coupled during the drug administration route when the drug is administered. A data collection platform, method, and computer-readable storage medium for collecting data regarding administration, enabling monitoring and recording of the entire course of drug administration.

Blood, anticancer drugs, and various high-risk drugs may cause fatal harm to patients due to minor dosing errors, requiring caution, and methods exist to prevent such dosing errors. As a specific example, in Patent Document 1, the medication confirmation information is formed to correspond to each other by embossing and engraving, respectively, to two objects containing information on the drug to be administered, so that the correct drug is administered between the drug and the drug to be administered. A method of confirming is disclosed. However, in the method disclosed in Patent Document 1, since binding between the two objects corresponding to the drug administration is not necessarily required, the possibility of not intentionally or accidentally performing the binding between the objects cannot be excluded. Since this is done separately, there is a limitation that medication errors cannot be physically prevented.

Meanwhile, as Internet of Things (IoT) technology that can send and receive data through the Internet in real time by attaching sensors to objects has begun to gain attention, attempts are being made to use IoT devices in the medical field as well. As a specific example, Patent Document 2 discloses a health monitoring and evaluation system capable of acquiring health information of a user using an IoT device and evaluating a health state of the user based on the acquired health information.

Unexamined Patent Publication No. 10-2016-0135543 Registered Patent No. 10-1898569

The present invention applies a safety docking device including a pair of docking portions of a key-lock structure during a drug administration route in order to prevent an error in administration of a high-risk drug, so as to determine whether a target drug is administered in preparation for drug administration. An object of the present invention is to provide a safety docking device capable of physically preventing a medication error by enabling multiple checks and enabling medication only when a key-lock structure of a unique shape is combined. Furthermore, it is an object to provide a data collection platform that can establish a reporting system for all high-risk drugs by collecting and managing data on drug administration from a safety docking device by an IoT device.

However, the problem to be solved by the present invention is not limited thereto, and may be variously extended without departing from the spirit and scope of the present invention.

In one aspect of the present invention, a data collection platform for an IoT-based safe docking device is provided. The data collection platform is based on a safety docking device including a pair of docking parts installed during a drug administration route and having a structure specific to the drug, and a pair of docking parts of the safe docking device are docked for drug administration. And one or more sensors for collecting data on drug administration and a wireless transceiver for collecting data on drug administration from the one or more sensors. The pair of docking portions is an arm of a lock structure having a recess in an intaglio-a male docking part having a key structure having a raised protrusion-an arm of a lock structure-a docking part and a number of the key structure- The docking part is designed in a unique shape based on the type of drug, and the female-docking part and the male-docking part are composed of a corresponding structure capable of docking each other. Each of the one or more sensors is coupled to either the female-dock portion of the lock structure and the male-dock portion of the key structure. The wireless transceiver includes: a receiver configured to receive data related to drug administration collected from one or more sensors through a wireless network; A database unit for storing received data on drug administration; A transmitter for transmitting data related to drug administration to the server; And a control unit for controlling the receiving unit, the database unit, and the transmitting unit.

In one embodiment, the data on drug administration collected by the one or more sensors may include at least one of a drug type, a docking time, and patient information. The type of drug may be identified from the unique shape of the female-dock and male-dock portions of the safety docking device.

In one embodiment, the receiving unit included in the wireless transceiver may collect data related to drug administration from one or more sensors through a short-range wireless network.

In another embodiment, a receiving unit included in the wireless transceiver may collect data related to drug administration from one or more sensors through a remote wireless network.

In one embodiment, the wireless transceiver may be installed in a ward or hospital room.

In one embodiment, the design of the unique shape based on the type of the drug may be a shape of the code name of the drug consisting of at least one of alphabets and numbers.

In one embodiment, the safety docking device may be used in any one of an angiocatheter, a needleless connector, and a drug injection filter.

In one aspect of the present invention, a data collection method of an IoT-based safe docking device is provided. The data collection method includes: collecting data about drug administration from one or more sensors based on the fact that a pair of docking portions of the safety docking device are docked for drug administration; Receiving data on drug administration collected from one or more sensors through a wireless network at a receiving unit included in the wireless transceiver; Storing data on drug administration received in a database unit included in the wireless transceiver; And transmitting data related to drug administration to the server by a transmitter included in the wireless transceiver. The safety docking device is installed in the route of administration of the drug and includes a pair of docking portions having a structure specific to the drug, and the pair of docking portions is an arm-docking portion of a lock structure having an intaglio groove and It consists of a male-docking part of a key structure with embossed protrusions, and an arm-docking part of the lock structure and the male-docking part of the key structure are designed in a unique shape based on the type of drug, and the female-docking part and male- The docking part is composed of a corresponding structure capable of docking with each other. Each of the one or more sensors is coupled to either the female-dock portion of the lock structure and the male-dock portion of the key structure.

In one embodiment, the data on drug administration collected by the one or more sensors may include at least one of a drug type, a docking time, and patient information. The type of drug may be identified from the unique shape of the female-dock and male-dock portions of the safety docking device.

In one embodiment, the step of receiving data regarding drug administration may be performed through a short-range wireless network.

In another embodiment, the step of receiving data regarding drug administration may be done via a remote wireless network.

In one embodiment, the wireless transceiver may be installed in a ward or hospital room.

In one embodiment, the design of the unique shape based on the type of drug may be a shape of the code name of the drug consisting of at least one of alphabets and numbers.

In one embodiment, the safety docking device may be used in any one of an angiocatheter, a needleless connector, and a drug infusion filter.

In one aspect of the present invention, a computer-readable storage medium storing data collection instructions of an Internet of Things-based safe docking device is provided. Instructions stored in the computer-readable storage medium cause the one or more processors to collect data regarding drug administration at the one or more sensors based on the pair of docks of the safety docking device being docked for drug administration, A receiving unit included in the wireless transceiver receives data on drug administration collected from one or more sensors through a wireless network, and stores data on drug administration received from a database unit included in the wireless transceiver, and The transmitter included in the transceiver transmits data on drug administration to the server. The safety docking device is installed during the route of administration of the drug and includes a pair of docking portions having a structure specific to the drug, and the pair of docking portions is an arm-docking portion and an embossed lock structure having a groove in an intaglio. It is composed of a male-docking part of the key structure having a protrusion, and the female-docking part of the lock structure and the male-docking part of the key structure are designed in a unique shape based on the type of drug, and the female-docking part and male-docking The unit consists of a corresponding structure that can be docked with each other. Each of the one or more sensors is coupled to either the female-dock portion of the lock structure and the male-dock portion of the key structure.

In one embodiment, the data on drug administration collected by the one or more sensors may include at least one of a drug type, a docking time, and patient information. The type of drug may be identified from the unique shape of the female-dock and male-dock portions of the safety docking device.

In one embodiment, the receiving of data relating to drug administration may be done via a short-range wireless network.

In other embodiments, allowing data regarding drug administration to be received may be made over a remote wireless network.

In one embodiment, the wireless transceiver may be installed in a ward or hospital room.

In one embodiment, the design of the unique shape based on the type of the drug may be a shape of the code name of the drug consisting of at least one of alphabets and numbers.

In one embodiment, the safety docking device may be used in any one of an angiocatheter, a needleless connector, and a drug infusion filter.

In the case of using the data collection platform of the IoT-based safety docking device according to the present invention, the drug administration behavior of medical personnel can be monitored and recorded instead of charting, so that patient safety that can efficiently prevent drug administration errors A reporting system can be established.

1 is a block diagram schematically showing a data collection platform of an IoT-based safety docking device.
2 is a block diagram schematically showing a big data management system of a blockchain-based safe docking device.
3A shows an example of a safety docking device.
Fig. 3b shows that the female docking unit and the male docking unit are docked constituting the safety docking device of Fig. 3a.
4 shows an example of a method of forming projections and grooves of a safety docking device used for a drug called vincristine.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the accompanying drawings and the description to be described below are for a preferred form among various forms for effectively describing the features of the present invention, and the present invention may be implemented in a variety of different forms and is limited to the embodiments described herein. It is not.

In order to administer fluids, blood, or drugs into the patient's blood vessels, an angiocatheter to secure the patient's vascular route, a bag containing fluids to be administered, blood or drugs, etc., a set of fluids connecting them, etc. Is used, and if necessary, a drug injection filter for removing fine glass powder that may be included in the drug to be injected, a needleless connector for enabling drug injection without a needle, or the like may be used. Since the medical devices are composed of a plurality of parts, in order to actually administer a drug to a patient, a process of coupling the medical devices to each other (docking) is required. In the present invention, a quadruple check (four double checks) can be realized by using a safety docking device during the docking path of medical devices for administering drugs to a patient, and a pair of docking parts included in the safety docking device Data generated based on the docking can be collected using the Internet of Things, and transmitted to the server to monitor and record the entire drug administration process, thereby automatically completing a patient safety reporting system. In addition, it is possible to provide a system that can strengthen the wide management of high-risk drugs by forming big data that cannot be forged by configuring the data stored in the server based on a block chain. Furthermore, by using data related to drug injection organized through big data, it is possible to provide a space for robots or sensor-based automation devices to intervene, thereby contributing to providing a next-generation ward system.

1 is a block diagram schematically showing a data collection platform of an IoT-based safety docking device. The data collection platform 100 of the present invention comprises one or more sensors 110, a wireless transceiver 120 and a safety docking device 130, wherein the one or more sensors 110 Data on administration is collected and transmitted to the wireless transceiver 120. The safety docking device 130 is installed during the drug administration route, and has a pair of arm-docking portions and male-docking portions having a structure specific to the drug, and a corresponding structure that allows these docking portions to be docked with each other. It consists of. In order to administer the desired drug to the patient, it is required that the corresponding structure between the arm-docking unit and the male-docking unit designed in a unique shape based on the type of the drug is required to be docked, so the safety docking device 130 Based on whether or not docked, it is possible to check whether a suitable drug has been administered to the patient. Data on drug administration collected by one or more sensors 110 may include the type of drug, docking time, and patient information that determine the unique shape of the arm-dock and male-dock portions of the safety docking device 130 to be docked. And the like. An exemplary form and function of the safety docking device 130 will be described later with reference to FIGS. 3A and 3B below.

Conventionally, it was necessary for a medical person who administers a drug to separately record and chart information on the medication, but each of the one or more sensors 110 of the data collection platform 100 of the present invention has an arm-dock part of a lock structure and Coupled to any one of the male-dock portions of the key structure, the pair of docking portions of the safety docking device 130 are docked for administration of the desired drug, from the safety docking device 130 to drug administration. Since the data is collected, even if the medical personnel does not separately record whether or not to take the drug, the dosing action made to the patient by the docking itself of the safety docking device 130 may lead to charting. In the exemplary embodiment of FIG. 1, data related to drug administration occurring in one safety docking device 130 is shown to be collected by one sensor 110, but each of the one or more sensors 110 is safe. The number of the docking device 130 is not limited as long as it is coupled to any one of the female docking part and the male docking part to collect data related to drug administration.

Data relating to drug administration collected from one or more sensors 110 is transmitted to a wireless transceiver 120. The wireless transceiver 120 includes a reception unit 121, a database unit 122, a transmission unit 123, and a control unit 124, and is installed in a ward or ward to provide one or more sensors 110 inside the ward or ward. ) Can receive data on drug administration. The receiving unit 121 of the wireless transceiver 120 receives data related to drug administration collected from one or more sensors 110 through a wireless network. In one embodiment, the reception unit 121 may receive data related to drug administration through a short-range wireless network using Bluetooth, beacon, Wi-Fi, RFID, or NFC technology. In another embodiment, the reception unit 121 may receive data related to drug administration through a remote wireless network.

The database unit 122 stores data related to drug administration received by the receiving unit 121. In addition, the wireless transceiver 120 includes a transmission unit 123 that transmits data related to drug administration received by the receiving unit 121 to the server 140, so that the data of docking for drug administration of the patient is transmitted to the server ( 140). In addition, the control unit 124 controls the reception unit 121, the database unit 122, and the transmission unit 123 included in the wireless transceiver 120. The server 140 may provide a basis for establishing a patient safety reporting system by collecting all data about docking for drug administration from a plurality of wireless transceivers 120 installed in each ward or hospital room.

2 is a block diagram schematically showing a big data management system of a blockchain-based safe docking device. The big data management system 200 of the present invention includes one or more sensors 210, a wireless transceiver 220 and a safety docking device 230, and the one or more sensors 210 are from the safety docking device 230. Data on drug administration is collected and transmitted to the wireless transceiver 220. Details of the safety docking device 230 are the same as described in connection with the safety docking device 130 of FIG. 1. The data on drug administration collected by the one or more sensors 210 include the type of drug, the docking time, and the patient that determine the intrinsic shape of the arm-dock and male-dock portions of the safety docking device 230 to be docked. Information may be included.

Data relating to drug administration collected from one or more sensors 210 is transmitted to a wireless transceiver 220. The wireless transceiver 220 includes a reception unit 221, a database unit 222, a transmission unit 223, a control unit 224, and a data processing unit 225, and is installed in a ward or ward to be installed in the ward or ward. Data by drug administration may be transmitted from one or more sensors 210. The receiving unit 221 of the wireless transceiver 220 receives data related to drug administration collected from one or more sensors 210 through a wireless network. In one embodiment, the reception unit 221 may receive data related to drug administration through a short-range wireless network using Bluetooth, beacon, Wi-Fi, RFID, or NFC technology. In another embodiment, the reception unit 221 may receive data related to drug administration through a remote wireless network.

The database unit 222 stores data regarding drug administration received by the receiving unit 221. In addition, the wireless transceiver 220 includes a transmission unit 223 that transmits the data on drug administration received by the receiving unit 221 to the blockchain-based server 240, so that data of docking for drug administration by the patient Can be distributed and stored in the blockchain-based server 240. In a preferred embodiment, the wireless transceiver 220 of the big data management system 200 may further include a data processing unit 225, and the data processing unit 225 converts data related to drug administration into transactions. When the data processing unit 225 is additionally included, the transmission unit 223 transmits the transaction converted by the data processing unit 225 to the blockchain-based server 240, and the transaction is distributed to the blockchain-based server 240. To be saved. In addition, the control unit 224 may control the receiving unit 221, the database unit 222, the transmitting unit 223, and the data processing unit 225 included in the wireless transceiver 220.

The blockchain-based server 240 distributes and stores the converted transaction based on the drug administration data transmitted from the wireless transceiver 220 or the drug administration data. The blockchain-based server 240 may include a plurality of nodes, and may store data related to drug administration or a transaction converted based on data related to drug administration in each of these nodes. In addition, data on drug administration stored in the blockchain-based server 240 may be agreed upon by a smart contract. Smart contract refers to a program that records the conditions of contract execution based on blockchain technology, and causes the contract to be executed when the conditions are met, and safe protection and management of medical information is possible.

To roughly classify the types of blockchain technology, a public blockchain that anyone can participate in the network, a private blockchain that is used independently by one institution, and an institution authorized by forming a consortium of several institutions. Only can be divided into a Consortium Blockchain that participates in the network. In public blockchain, anyone can participate in the network, view all details, and verify transaction details, whereas in private blockchains or consortium blockchains, participants are restricted through a separate authentication method. In terms of maintaining the security of medical information, the big data management system of the blockchain-based safe docking apparatus of the present invention is preferably configured as a type of private blockchain or consortium blockchain among blockchain technologies.

Figure 3a shows an example of the safety docking device of the present invention. The safety docking device 130 of the present invention includes a pair of docking parts having a structure specific to a drug in order to prevent an error in administration of a high-risk drug, and specifically, the pair of docking parts is a recess 133 An arm-docking portion 131 of a lock structure and a male-docking portion 132 of a key structure having an embossed protrusion 134. These female docking part 131 and male docking part 132 are configured to correspond to each other so that the groove 133 and the protrusion 134 are engaged, and the groove 133 and the protrusion 134 are It is characterized in that it is designed in a unique shape with a specific structure based on the type. Therefore, in the course of preparing for drug administration, if either of the arm-docking portion 131 and the male-docking portion 132 does not have a shape based on the desired drug, docking itself during the drug administration route becomes impossible. The drug administration becomes physically impossible.

In the exemplary safety docking device of FIG. 3A, the number of the grooves 133 and the protrusions 134 is shown to be four, respectively, but the number of the grooves 133 and the protrusions 134 is not limited thereto and may be determined as needed. I can. In addition, the angle between the plurality of grooves 133, the angle between the plurality of protrusions 134, the size or shape of the groove 133 and the protrusion 134 is the female-docking portion 131 and the male-docking portion 132 ) Is not particularly limited as long as it corresponds to each other so that it can be docked, and may be formed in any angle, size, or shape.

In addition, the safety docking device 130 according to the present invention may include a display line 135 guiding an angle at which the male docking part 132 can be inserted into the female docking part 131. Since the docking of both docking parts is made at an angle where the display line 135 shown on the female docking part 131 and the display line 135 shown on the male docking part are arranged in a straight line, medical personnel using the safety docking device 130 This can make it possible to do docking quickly.

FIG. 3B shows that the female docking part 131 and the male docking part 132 constituting the safety docking device 130 of FIG. 3A are docked. As shown, the groove 133 of the female docking part 131 and the protrusion 134 of the male docking part 132 are docked to each other, thereby completing a drug administration route for administering a drug to a patient. Such a safety docking device can be used in medical devices such as angiocatheter, needleless connector, and drug injection filter and inserted into a drug administration route.

4 shows an example of a method of forming projections and grooves of a safety docking device used for a drug called vincristine. In a preferred embodiment, the protrusions and grooves of the safety docking device can be formed by shaping systems based on each of the alphabets and numbers so as to be able to shape at least one of the alphabets and numbers of the strings that make up the code name of the drug. Table 1 shows the shape system based on the alphabet among the character strings that can form the drug code name, and Table 2 shows the shape system based on numbers.

As an example of applying the shape systems of Tables 1 and 2, when the code name of a drug called Vincristine is set to <IVCRN013>, shape systems based on the alphabets and numbers forming the code name By this, the safety docking device for vincristine drugs may consist of an arm-docking portion having a groove shown on the left side of FIG. 4 and a male-docking portion having a projection shown on the right side of FIG. 4.

Hereinafter, a data collection method of the IoT-based safe docking device of the present invention will be described. First, the data collection method includes collecting data on drug administration from one or more sensors based on a pair of docking portions of the safety docking device being docked for drug administration. That is, a drug that determines the intrinsic shape of the arm-dock portion and the male-dock portion of the safety docking device to be docked based on the drug-specific correspondence structure between the arm-docking unit and the male-docking unit constituting the safety docking device being docked. Data on drug administration, including the type of patient, docking time, patient information, and the like may be collected. Here, each of the one or more sensors is coupled to either the female docking portion of the lock structure and the male docking portion of the key structure. Next, the data collection method includes receiving data on drug administration collected from one or more sensors through a wireless network at a receiving unit included in the wireless transceiver. The wireless transceiver is installed in a ward or ward and may be connected to one or more sensors in the ward or ward. In one embodiment, the step of receiving the drug administration data may be performed through a short-range wireless network using Bluetooth, beacon, Wi-Fi, RFID, or NFC technology. In another embodiment, the step of receiving data related to the drug administration may be performed through a remote wireless network. Thereafter, the data collection method includes storing data related to drug administration received from a database unit included in the wireless transceiver, and transmitting data related to drug administration to a server by a transmitter unit included in the wireless transceiver.

Hereinafter, a big data management method of the blockchain-based safe docking device of the present invention will be described. First, the big data management method includes collecting data on drug administration from one or more sensors based on a pair of docking portions of the safety docking device being docked for drug administration. That is, a drug that determines the intrinsic shape of the arm-dock portion and the male-dock portion of the safety docking device to be docked based on the drug-specific correspondence structure between the arm-docking unit and the male-docking unit constituting the safety docking device being docked. Data on drug administration, including the type of patient, docking time, patient information, and the like may be collected. Here, each of the one or more sensors is coupled to either the female docking portion of the lock structure and the male docking portion of the key structure. Next, the big data management method includes receiving data on drug administration collected from one or more sensors through a wireless network at a receiving unit included in the wireless transceiver. Next, the big data management method includes storing data on drug administration received from a database unit included in the wireless transceiver. Optionally, the big data management method may further include converting data related to drug administration into a transaction by a data processing unit included in the wireless transceiver. Thereafter, the big data management method may include transmitting data or a transaction related to drug administration to a block chain-based server by a transmission unit included in the wireless transceiver. Finally, the big data management method includes distributing and storing data or transactions related to drug administration received from one or more wireless transceivers in a blockchain-based server. In one embodiment, the step of distributing and storing the drug administration data or transaction may be a step of distributing and storing the drug administration data or transaction in each of a plurality of nodes included in the blockchain-based server. have. In a preferred embodiment, data on drug administration stored on a blockchain-based server may be agreed upon by a smart contract.

In one or more exemplary aspects, the functions described above may be implemented in hardware, software, firmware, or any combination thereof. When implemented in software, the functions may be stored or transmitted as one or more instructions or code in a computer-readable storage medium. The steps of a method or algorithm disclosed herein may be implemented in a processor-executable software module that may reside on a non-transitory computer-readable storage medium. A tangible non-transitory computer readable storage medium may be any available medium that can be accessed by a computer. By way of non-limiting example, such non-transitory computer-readable storage media may include RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or required program code to store instructions or data. It can be used for storage in the form of structures and can include any other medium that can be accessed by a computer. Additionally, the operations of a method or algorithm may reside on a non-transitory machine-readable storage medium and/or a computer-readable storage medium as one or any combination or set of codes and/or instructions, which It can also be integrated.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of a set feature, number, step, action, component, part, or combination thereof, and one or more other features or numbers It is to be understood that the possibility of addition or presence of, steps, actions, components, parts, or combinations thereof is not preliminarily excluded.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning of the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. .

100: data collection platform
110: sensor
120: wireless transceiver
121: receiver
122: database unit
123: transmitter
124: control unit
130: safety docking device
131: arm-docking part
132: male-docking part
133: Home
134: protrusion
135: display line
140: server
200: Big data management system
210: sensor
220: wireless transceiver
221: receiver
222: database unit
223: transmitter
224: control unit
225: data processing unit
230: safety docking device
240: Blockchain-based server

Claims (21)

As a data collection platform for IoT-based safety docking devices,
The data collection platform is a safety docking device that is installed during a drug administration route and includes a pair of docking parts having a structure specific to the drug, and the pair of docking parts of the safe docking device are docked for drug administration. One or more sensors for collecting data related to drug administration based on the being, and a wireless transceiver for collecting data related to the drug administration from the one or more sensors,
The pair of docking portions are composed of an arm-docking portion of a lock structure having a groove in an intaglio and a male-docking portion of a key structure having a raised protrusion, and the arm-docking portion of the lock structure and the key structure The male-docking portion is designed in a unique shape based on the type of drug, and the female-docking portion and the male-docking portion are configured with a corresponding structure capable of docking with each other,
Each of the one or more sensors is coupled to any one of the female-docking portion of the lock structure and the male-docking portion of the key structure,
The wireless transceiver,
A receiver configured to receive data on the drug administration collected from the one or more sensors through a wireless network;
A database unit for storing the received data on the drug administration;
A transmission unit for transmitting data related to the drug administration to a server; And
A control unit for controlling the receiving unit, the database unit, and the transmitting unit;
It characterized in that it comprises a, IoT-based data collection platform of the safe docking device. The method of claim 1,
The data on the drug administration collected by the one or more sensors includes at least one of a drug type, a docking time, and patient information,
The type of the drug is characterized in that it is identified from the unique shape of the arm-docking portion and the male-docking portion of the safety docking device, IoT-based data collection platform of the safety docking device. The method of claim 1,
The receiving unit included in the wireless transceiver, characterized in that receiving data on the drug administration from the one or more sensors through a short-range wireless network, IoT-based safety docking device data collection platform. The method of claim 1,
The receiving unit included in the wireless transceiver, characterized in that receiving data on the drug administration from the one or more sensors through a long-distance wireless network, IoT-based safety docking device data collection platform. The method of claim 1,
The wireless transceiver is installed in a ward or a hospital room, the data collection platform of the IoT-based safety docking device. As a data collection platform for IoT-based safety docking devices,
The data collection platform is a safety docking device that is installed during a drug administration route and includes a pair of docking parts having a structure specific to the drug, and the pair of docking parts of the safe docking device are docked for drug administration. One or more sensors for collecting data related to drug administration based on the device, and a wireless transceiver for collecting data related to the drug administration from the one or more sensors,
The pair of docking portions are composed of an arm-docking portion of a lock structure having a groove in an intaglio and a male-docking portion of a key structure having a raised protrusion, and the arm-docking portion of the lock structure and the key structure The male-docking portion is designed in a unique shape based on the type of drug, and the female-docking portion and the male-docking portion are configured with a corresponding structure capable of docking with each other,
Each of the one or more sensors is coupled to any one of the female-docking portion of the lock structure and the male-docking portion of the key structure,
The data on the drug administration collected by the one or more sensors includes at least one of a drug type, a docking time, and patient information,
The type of drug is identified from the unique shape of the female-docking portion and the male-docking portion of the safety docking device,
The design of the unique shape based on the type of drug is the shape of the drug code name consisting of at least one of alphabets and numbers,
The wireless transceiver,
A receiver configured to receive data on the drug administration collected from the one or more sensors through a wireless network;
A database unit for storing the received data on the drug administration;
A transmission unit for transmitting data related to the drug administration to a server; And
A control unit for controlling the receiving unit, the database unit, and the transmitting unit;
It characterized in that it comprises a, IoT-based data collection platform of the safe docking device. As a data collection platform for IoT-based safety docking devices,
The data collection platform is a safety docking device that is installed during a drug administration route and includes a pair of docking parts having a structure specific to the drug, and the pair of docking parts of the safe docking device are docked for drug administration. One or more sensors for collecting data related to drug administration based on the being, and a wireless transceiver for collecting data related to the drug administration from the one or more sensors,
The pair of docking portions are composed of an arm-docking portion of a lock structure having a groove in an intaglio and a male-docking portion of a key structure having a raised protrusion, and the arm-docking portion of the lock structure and the key structure The male-docking portion is designed in a unique shape based on the type of drug, and the female-docking portion and the male-docking portion are configured with a corresponding structure capable of docking with each other,
Each of the one or more sensors is coupled to any one of the female-docking portion of the lock structure and the male-docking portion of the key structure,
The safety docking device is used in any one of an angiocatheter, a needleless connector, and a drug injection filter,
The wireless transceiver,
A receiver configured to receive data on the drug administration collected from the one or more sensors through a wireless network;
A database unit for storing the received data on the drug administration;
A transmission unit for transmitting data related to the drug administration to a server; And
A control unit for controlling the receiving unit, the database unit, and the transmitting unit;
It characterized in that it comprises a, IoT-based data collection platform of the safe docking device. As a data collection method of an IoT-based safety docking device,
Collecting data regarding drug administration from one or more sensors based on the pair of docking portions of the safety docking device being docked for drug administration;
Receiving data on the drug administration collected from the one or more sensors through a wireless network at a receiving unit included in a wireless transceiver;
Storing data related to the drug administration received from a database unit included in the wireless transceiver; And
Transmitting data related to the drug administration to a server by a transmitter included in the wireless transceiver;
Including,
The safety docking device is installed in the route of administration of the drug and includes the pair of docking portions having a structure specific to the drug, and the pair of docking portions is an arm-docking portion of a lock structure having an intaglio groove And a male-docking portion of a key structure having a protrusion in an embossed shape, and the arm-docking portion of the lock structure and the male-docking portion of the key structure are designed in a unique shape based on the type of drug, and the arm-docking The unit and the male-docking unit are composed of a corresponding structure capable of docking with each other,
Each of the one or more sensors is coupled to any one of an arm-docking portion of the lock structure and a male-docking portion of the key structure. The method of claim 8,
The data on the drug administration collected by the one or more sensors includes at least one of a drug type, a docking time, and patient information,
The type of the drug is identified from the unique shape of the arm-docking unit and the male-docking unit of the safety docking device. The method of claim 8,
The receiving of the data related to the drug administration is performed through a short-range wireless network, characterized in that the data collection method of the IoT-based safe docking device. The method of claim 8,
Receiving the data related to the drug administration, characterized in that through a remote wireless network, Internet of Things-based data collection method of the safe docking device. The method of claim 8,
The wireless transceiver is installed in a ward or a hospital room, characterized in that the data collection method of the IoT-based safety docking device. The method of claim 9,
The design of the unique shape based on the type of the drug, characterized in that the shape of the code name of the drug consisting of at least one of alphabets and numbers, the data collection method of the IoT-based safety docking device. The method of claim 8,
The safety docking device is used for any one of an angiocatheter, a needleless connector, and a drug injection filter. A computer-readable storage medium that stores data collection instructions of an IoT-based safety docking device,
The instructions cause one or more processors to:
A pair of docking portions of the safety docking device to collect data on drug administration from one or more sensors based on being docked for drug administration,
A receiving unit included in a wireless transceiver to receive data on the drug administration collected from the one or more sensors through a wireless network,
To store data related to the drug administration received from the database unit included in the wireless transceiver,
The transmission unit included in the wireless transceiver transmits data related to the drug administration to the server,
The safety docking device is installed in the route of administration of the drug and includes the pair of docking portions having a structure specific to the drug, and the pair of docking portions is an arm-docking portion of a lock structure having an intaglio groove And a male-docking portion of a key structure having a protrusion in an embossed shape, and the arm-docking portion of the lock structure and the male-docking portion of the key structure are designed in a unique shape based on the type of drug, and the arm-docking The unit and the male-docking unit are composed of a corresponding structure capable of docking with each other,
Each of the one or more sensors is coupled to any one of an arm-docking portion of the lock structure and a male-docking portion of the key structure, a computer storing data collection instructions of an IoT-based safe docking device Readable storage medium. The method of claim 15,
The data on the drug administration collected by the one or more sensors includes at least one of a drug type, a docking time, and patient information,
The type of the drug is characterized in that identified from the unique shape of the female-docking portion and the male-docking portion of the safety docking device, computer-readable storage medium for storing data collection instructions of the Internet-based safety docking device. The method of claim 15,
A computer-readable storage medium storing data collection instructions of an Internet of Things-based safety docking device, characterized in that the receiving of the data related to the drug administration is performed through a short-range wireless network. The method of claim 15,
The computer-readable storage medium storing data collection instructions of an Internet of Things-based safety docking device, characterized in that the receiving of the data regarding the drug administration is done through a remote wireless network. The method of claim 15,
The wireless transceiver is a computer-readable storage medium for storing data collection instructions of an IoT-based safety docking device, characterized in that it is installed in a ward or a hospital room. The method of claim 16,
The design of the unique shape based on the type of drug is a computer-readable storage medium for storing data collection instructions of an Internet of Things-based safety docking device, characterized in that the code name of the drug is formed of at least one of alphabets and numbers. The method of claim 15,
The safety docking device is a computer-readable storage medium for storing data collection instructions of an Internet of Things-based safety docking device, characterized in that used in any one of an angiocatheter, a needleless connector, and a drug injection filter.

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