WO2019041566A1

WO2019041566A1 - Dynamic encryption-based medicine monitoring and analysis system and method for medical cloud platform

Info

Publication number: WO2019041566A1
Application number: PCT/CN2017/110472
Authority: WO
Inventors: 张贯京; 魏琼东; 曹辉; 董建华
Original assignee: 深圳市前海安测信息技术有限公司
Priority date: 2017-09-01
Filing date: 2017-11-10
Publication date: 2019-03-07
Also published as: CN107633409A

Abstract

The present invention provides a dynamic encryption-based medicine monitoring and analysis system and method for a medical cloud platform. The method comprises: when electronic order data transmitted by a mobile terminal is decrypted and a medicine purchasing order is confirmed, creating a monitoring period table; when a patient receives a medicine purchased, sending an instruction to the mobile terminal to prompt the patient to scan a monitoring QR code on the package of the medicine; storing a first code scanning date in the monitoring period table; if the first code scanning date is a preset time period earlier than the expiry date and when the patient scans the monitoring QR code again, storing a second code scanning date and a taking quantity in the monitoring period table; when the quantity of the medicine taken by the patient reaches a standard according to the monitoring period table, recommending a merchant selling this kind of medicines to the mobile terminal of the patient. According to the present invention, a dynamic encryption algorithm is used to encrypt electronic order data that is transmitted, and moreover, E-commerce data is further employed to indirectly monitor the expiry date of medicines so as to prevent patients from purchasing overdue medicines.

Description

Title: Dynamically encrypted medical cloud platform drug monitoring and analysis system and method

[0001] The present invention relates to the field of medical cloud platforms, and in particular, to a dynamically encrypted medical cloud platform drug monitoring and analysis system and method.

Background technique

[0002] With the rapid development of e-commerce, people are increasingly accustomed to using e-commerce websites to purchase medicines.

However, sellers who are making profits through online channels cannot use the existing Internet information to predict the hot products afterwards, in order to achieve more profit.

[0003] At present, although it is convenient for an e-commerce to purchase a drug, the patient does not have an expired drug (for example, a delay in delivery, an unscrupulous merchant delivering a drug to a patient with a fast expired drug, etc.), which seriously affects the health of the patient. For the drug after the patient purchases, the merchant cannot know the approval degree of the drug, and cannot accurately recommend it.

[0004] In addition, since the electronic order data relates to personal privacy, the existing medical cloud platform encrypts the electronic order data in the data transmission process by using a fixed encryption and decryption algorithm, and the fixed encryption algorithm is easily cracked and reduced. The information security of electronic order data.

technical problem

[0005] The main object of the present invention is to provide a dynamically encrypted medical cloud platform drug monitoring and analysis method, which aims to solve the technical problem of e-commerce performing drug monitoring and recommendation reference, and dynamically encrypting electronic order data.

Problem solution

Technical solution

[0006] In order to achieve the above object, the present invention provides a dynamically encrypted medical cloud platform drug monitoring and analysis system, wherein the dynamically encrypted medical cloud platform drug monitoring and analysis system runs in a medical cloud platform, and the medical cloud platform passes through a network. Connected with the mobile terminal, the dynamically encrypted medical cloud platform drug monitoring and analysis system includes:

[0007] a generating module, configured to randomly select a doctor by using a random function when the mobile terminal accesses the medical cloud platform The encryption and decryption algorithm prestored in the cloud platform, and obtaining the hash value of the selected encryption and decryption algorithm;

[0008] a sending module, configured to send the hash value to the mobile terminal, so that the mobile terminal invokes the encryption and decryption algorithm corresponding to the hash value to encrypt the electronic order data;

[0009] a calling module, configured to invoke an encryption and decryption algorithm corresponding to the hash value in the medical cloud platform, and decrypt the electronic order data transmitted by the mobile terminal;

[0010] a creating module, configured to: when the electronic order data transmitted by the mobile terminal is decrypted and a drug shopping order confirmation is completed, create a monitoring periodic table;

[0011] the sending module is further configured to: when the patient receives the purchased medicine, send an instruction to the mobile terminal to remind the patient to scan the two-dimensional code on the medicine package;

[0012] a saving module, configured to save the first scan date in the monitoring periodic table;

[0013] the saving module is configured to save the second scan date and take the monitoring period table when the first scan date is earlier than the expiration date and the patient scans the two-dimensional code again Quantity; and

[0014] The sending module is configured to recommend a merchant that sells the drug to the mobile terminal of the patient when the number of the drugs corresponding to the drug in the monitoring period table reaches the standard.

[0015] Preferably, the sending module is further configured to: when the interval between the first scan date and the expiration date is less than the preset interval, parse the amount in the electronic order corresponding to the patient purchasing the drug and Financial account information, and the money is refunded to the patient's financial account.

[0016] Preferably, the monitoring two-dimensional code includes a drug name, a model number, a production date, and an expiration date.

[0017] Preferably, the manner in which the saving module saves the first scan date in the monitoring periodic table is:

[0018] when the patient receives the purchased medicine and the patient scans the monitoring two-dimensional code through the mobile terminal, and analyzes the information in the monitoring two-dimensional code;

[0019] matching and analyzing the information in the monitoring two-dimensional code with the information in the electronic order of the patient, when the product name and model in the monitoring two-dimensional code are consistent with the product name and model in the electronic order of the patient, Record the scan date as the first scan date.

[0020] In another aspect, the present invention further provides a dynamic encryption medical medical platform drug monitoring and analysis method, which is applied to a medical cloud platform, wherein the medical cloud platform is communicatively connected to a mobile terminal through a network, and the method comprises the following steps:

[0021] When the mobile terminal accesses the medical cloud platform, a random selection of a medical cloud platform is pre-stored through a random function Encryption and decryption algorithm, and obtain a hash value of the selected encryption and decryption algorithm;

[0022] sending the hash value to the mobile terminal, so that the mobile terminal invokes the encryption and decryption algorithm corresponding to the hash value to encrypt the electronic order data;

[0023] calling the encryption and decryption algorithm corresponding to the hash value in the medical cloud platform, and decrypting the electronic order data transmitted by the mobile terminal;

[0024] when the electronic order data transmitted by the mobile terminal is decrypted and a drug shopping order confirmation is completed, a monitoring period table is created;

[0025] when the patient receives the purchased drug, sending an instruction to the mobile terminal to remind the patient to scan the monitored two-dimensional code on the medicine package;

[0026] saving the first scan date in the monitoring period table;

[0027] when the first scan date is earlier than the expiration date and the patient scans the monitoring two-dimensional code again, the second scan date and the taken amount are saved in the monitoring periodic table;

[0028] When the dose corresponding to the medicine in the patient's monitoring periodic table reaches the standard, the merchant who sells the medicine is recommended to the mobile terminal of the patient.

[0029] Preferably, the dynamically encrypted medical cloud platform drug monitoring and analysis method further comprises the following steps: parsing the patient purchase when the inter-segment interval between the first scan date and the expiration date is less than the preset interval 吋The amount and financial account information in the electronic order corresponding to the drug, and refund the money to the patient's financial account

[0030] Preferably, the monitoring two-dimensional code includes a drug name, a model number, a production date, and an expiration date.

[0031] Preferably, the manner of saving the first scan date in the monitoring periodic table is:

[0032] when the patient receives the purchased medicine and the patient scans the monitoring two-dimensional code through the mobile terminal, parsing and monitoring the information in the two-dimensional code;

[0033] matching and analyzing the information in the monitoring two-dimensional code with the information in the electronic order of the patient, when the name and model of the product in the monitoring two-dimensional code are consistent with the product name and model in the electronic order of the patient, Record the scan date as the first scan date.

Advantageous effects of the invention

Beneficial effect

[0034] The present invention enables a dynamic encryption algorithm to encrypt transmitted electronic order data, and uses the number of e-commerce According to the indirect monitoring of the expiration date of the drug, the patient is prevented from purchasing the expired drug, and the recognition degree of the drug is determined according to the amount of the patient after a period of time, and the recommendation is provided for the merchant.

Brief description of the drawing

DRAWINGS

1 is a schematic diagram of an application environment of a dynamically encrypted medical cloud platform drug monitoring and analysis method according to the present invention; [0036] FIG. 2 is a block diagram showing a preferred embodiment of a dynamically encrypted medical cloud platform drug monitoring and analyzing system of the present invention;

3 is a flow chart of a preferred embodiment of a dynamically encrypted medical cloud platform drug monitoring analysis method of the present invention.

[0038] The objects, features, and advantages of the present invention will be further described in conjunction with the embodiments.

BEST MODE FOR CARRYING OUT THE INVENTION

The specific embodiments, structures, features and functions of the present invention are described in detail below with reference to the accompanying drawings and preferred embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0040] Referring to FIG. 1, FIG. 1 is a schematic diagram of an application environment of a medically-enhanced medical cloud platform drug monitoring and analysis method according to the present invention. The dynamic encrypted medical cloud platform drug monitoring and analysis method in the present invention is applied to the medical cloud platform 1. The medical cloud platform 1 is communicatively coupled to the mobile terminal 3 via the network 2.

[0041] The medical cloud platform 1 stores various types of drug data (for example, patient name, product text information, product type information, courier information, warehousing information, product pictures, shopping records, etc.). It should be noted that the medical data stored by the medical cloud platform 1 is classified into multiple sets of data according to the time and place, for example, the data generated every second is classified into a set of data. The medical cloud platform 1 is a cluster composed of a plurality of servers.

[0042] Various types of e-commerce data are stored on the medical cloud platform 1. A plurality of encryption and decryption algorithms are pre-stored in the medical cloud platform 1, for example, a Data Encryption Standard (DES), a Triple Data Encryption Standard (3DES), and an Advanced Encryption Standard Algorithm (Advanced). Encryption Standard, AES), RSA public key algorithm, digital signature Algorithm (Digital Signature Algorithm, DSA), Elliptic Curves Cryptography (ECC), Message Digest Algorithm

5, MD5), Secure Hash Algorithm (SHA)

[0043] In this embodiment, the network 2 may be a wired communication network or a wireless communication network. The network is preferably a wireless communication network, including but not limited to a GSM network, a GPRS network, a CDMA network, a TD-S CDMA network, a WiMAX network, a TD-LTE network, an FDD-LTE network, and the like.

[0044] The mobile terminal 3 may be, but not limited to, any other suitable portable touch screen electronic device such as a smart phone, a tablet computer, a personal digital assistant (PDA), a personal computer, an electronic signboard, and the like. The mobile terminal 3 is configured to access the medical cloud platform 1 through the network 2 and obtain e-commerce data on the medical cloud platform 1. The mobile terminal 3 can access the medical cloud platform 1 through the network 2 and purchase goods (e.g., commodities such as medicines) online in the medical cloud platform 1.

[0045] Further, a plurality of encryption and decryption algorithms are pre-stored in the mobile terminal 3, for example, a Data Encryption Standard (DES), a Triple Data Encryption Standard (3DES), Advanced Encryption Standard (AES), RSA public key algorithm, digital signature algorithm (Digital Signature

Algorithm, DSA), Elliptic Curve Cryptography Algorithm (Elliptic Curves)

Cryptography, ECC), Message Digest Algorithm 5 (MD5), Secure Hash Algorithm (SHA).

[0046] It should be noted that each encryption and decryption algorithm in the mobile terminal 3 can find the same encryption and decryption algorithm in the medical cloud platform 1, and each encryption and decryption algorithm in the medical cloud platform 1 can also Then, the corresponding encryption and decryption algorithm is found in the mobile terminal 3. That is to say, the same encryption and decryption algorithm is pre-stored in the mobile terminal 3 and the medical cloud platform 1.

[0047] Referring to FIG. 2, it is a block diagram of a preferred embodiment of the medical cloud platform drug monitoring and analysis system of the present invention. In this embodiment, the dynamically encrypted medical cloud platform drug monitoring and analysis system 10 is applied to the medical cloud platform 1. The medical cloud platform 1 includes, but is not limited to, a dynamically encrypted medical cloud platform drug monitoring and analysis system 10, a storage unit 11, a processing unit 12, and a communication unit 13.

[0048] The storage unit 11 may be a read only storage unit ROM, an electrically erasable storage unit EEPRO M, a flash storage unit FLASH or a solid hard disk. [0049] The processing unit 12 may be a central processing unit (CPU), a microcontroller (MCU), a data processing chip, or an information processing unit having a data processing function.

[0050] The communication unit 13 is a communication interface with a remote communication function, for example, communication supporting wireless communication technologies such as GSM, GPR S, WCDMA, CDMA, TD-SCDMA, WiMAX, TD-LTE, FDD-LTE. Interface, support wired communication interface of USB and network cable.

[0051] The dynamically encrypted medical cloud platform drug monitoring and analysis system 10 includes, but is not limited to, a generating module 111, a sending module 112, a calling module 113, a creating module 114, a saving module 115, and a determining module 116. A module referred to refers to a series of computer program instructions that can be executed by the processing unit 12 of the medical cloud platform 1 and that are capable of performing a fixed function, which is stored in the storage unit 11 of the medical cloud platform 1.

[0052] The generating module 111 is configured to: when the mobile terminal 3 accesses the medical cloud platform, randomly select a pre-existing encryption and decryption algorithm in the medical cloud platform 1 by using a random function, and obtain a hash value of the selected encryption and decryption algorithm.

[0053] The sending module 112 is configured to send the hash value to the mobile terminal 3, so that the mobile terminal 3 invokes the encryption and decryption algorithm corresponding to the hash value to encrypt the electronic order data. In this embodiment, the mobile terminal 3 is installed with client software for connecting to the medical cloud platform 1, and the patient starts the client software on the mobile terminal 3 and establishes a connection with the medical cloud platform 1, and at the client. The end software completes the shopping and generates an electronic order for purchasing the medicine, and then the mobile terminal 1 encrypts the electronic order data and submits the electronic order of the encrypted medicine to the medical cloud platform 1. Specifically, the mobile terminal 3 receives the hash value 吋 and searches for an encryption and decryption algorithm corresponding to the hash value in the mobile terminal 3. For example, if the encryption and decryption algorithm corresponding to the hash value generated in the medical cloud platform 1 is the DES algorithm, the mobile terminal 3 invokes the DES algorithm according to the hash value to encrypt the electronic order data in the mobile terminal 3.

The calling module 113 is configured to invoke the encryption and decryption algorithm corresponding to the hash value in the medical cloud platform 1, and decrypt the electronic order data transmitted by the mobile terminal 3. For example, if the encryption and decryption algorithm corresponding to the hash value generated in the medical cloud platform 1 is the DES algorithm, the DES algorithm is used to decrypt the electronic order data.

[0055] The creating module 114 is configured to create a monitoring periodic table when the electronic order data transmitted by the mobile terminal 3 is decrypted and a drug shopping order confirmation is completed. Further, in this embodiment, When the patient completes an order on the medical cloud platform 1, the creation module 114 creates a monitoring periodic table for the patient, the monitoring periodic table has electronic order information, and the first scanning code after the patient receives the purchased medicine. Period, the second scan date of the patient after taking the drug for a period of time (for example, ten days or twenty days).

[0056] The sending module 112 is configured to send a command to the mobile terminal 3 to remind the patient to scan the two-dimensional code on the medicine package when the patient receives the purchased medicine. Specifically, the medical cloud platform 1 determines whether the patient receives the purchased medicine according to the logistics information corresponding to the medicine purchased by the patient, and after the patient signs the receipt, the information of the last sign of the patient by the courier, the medical cloud platform 1 It is determined that the patient receives the purchased medicine. Further, since the medicine package includes a monitoring two-dimensional code, the monitoring two-dimensional code includes information of the medicine (for example, the name and model of the medicine, the date of manufacture, the expiration date, the expiration date, and the like).

[0057] The saving module 115 is configured to save the first scan date in the monitoring periodic table. When the patient receives the purchased medicine and the patient scans the monitoring two-dimensional code through the mobile terminal 3, the medical cloud platform 1 analyzes and monitors the information in the two-dimensional code, and parses the information in the monitoring two-dimensional code with the patient's The information in the electronic order is matched (for example, patient account matching, drug name and model matching). When the product name and model in the monitoring QR code are consistent with the product name and model in the patient's electronic order, the scan code is recorded. The date is the first scan date.

[0058] The determining module 116 is configured to determine whether the first scan date is earlier than the expiration date by the preset interval (for example, 10 days). Specifically, in the present embodiment, when the first scan date is earlier than the expiration date than the preset interval, it indicates that the drug can be taken safely during the shelf life. When the first scan date is earlier than the expiration period, the drug is within the shelf life (for example, the first scan date is August 10 and the expiration date is August 30). During the shelf life, the patient can take it with confidence. When the interval between the first scan date and the expiration date is less than the preset interval, it indicates that the drug is expiring or has expired, and the patient can be directly refunded, and the patient is prompted to return the product to the merchant.

[0059] The saving module 115 is configured to save the second scan date and take the monitoring period table when the first scan date is earlier than the expiration date and the patient scans the two-dimensional code again. Quantity. When the patient takes the medicine, a reminder is sent to the patient's mobile terminal 3 at intervals, and the patient is reminded to scan the two-dimensional code again and feed back the number. Further, since the medicine packaging bag may be lost after the medicine is taken, in order to improve the patient experience, the medical cloud platform 1 is distributed in the interval after the patient receives the medicine. Send feedback reminder (a simple dialog box, including how many options to take, for example, have not eaten, eat a quarter, eat a third, eat half, eat all, etc.) To the patient's mobile terminal 3, after receiving the feedback reminder, the patient selects the corresponding number and then feeds back to the medical cloud platform 1, wherein the feedback date is the second scan date.

[0060] The sending module 112 is further configured to recommend a merchant that sells the drug to the mobile terminal 3 of the patient when the number of doses corresponding to the drug in the patient's monitoring periodic table reaches the standard. In this embodiment, the corresponding number of doses corresponding to the medicine in the monitoring period table of the patient refers to the interval between two scan date (ie, the interval between the first scan date and the second scan date). The drug is taken in more than three quarters of the total purchase. If the patient takes more than three-quarters of the total purchased quantity, it indicates that the medicine is approved by the patient, and the subsequent patient needs to purchase the medicine, and the medicine can continue to be recommended for the patient and the patient.

[0061] The sending module 112 is further configured to: when the inter-segment interval between the first scan date and the expiration date is less than the preset interval, parse the amount and the financial account in the electronic order corresponding to the patient purchasing the drug. Information (eg, bank card information, third-party payment accounts, etc.) and refunds the money to the patient's financial account.

[0062] Referring to FIG. 3, it is a flow chart of a preferred embodiment of the medical cloud platform drug monitoring and analysis method of the present invention. In this embodiment, the dynamically encrypted medical cloud platform drug monitoring and analysis method is applied to the medical cloud platform 1, and the method includes the following steps:

[0063] Step S10: When the mobile terminal 3 accesses the medical cloud platform 1 , the generating module 111 randomly selects a pre-stored encryption and decryption algorithm in the medical cloud platform 1 by using a random function, and acquires a hash of the selected encryption and decryption algorithm. value.

[0064] Step S11: The sending module 112 sends the hash value to the mobile terminal 3, so that the mobile terminal 3 invokes the encryption and decryption algorithm corresponding to the hash value to encrypt the electronic order data. In this embodiment, the mobile terminal 3 is installed with client software for connecting to the medical cloud platform 1, and the patient starts the client software on the mobile terminal 3 and establishes a connection with the medical cloud platform 1, and at the client. The end software completes the shopping and generates an electronic order for purchasing the medicine, and then the mobile terminal 1 encrypts the electronic order data and submits the electronic order of the encrypted medicine to the medical cloud platform 1. Specifically, the mobile terminal 3 receives the hash value 吋 and searches for an encryption and decryption algorithm corresponding to the hash value in the mobile terminal 3. For example, if the encryption and decryption algorithm corresponding to the hash value generated in the medical cloud platform 1 is the DES algorithm, the mobile terminal 3 according to the hash value. The DES algorithm is invoked to encrypt the electronic order data in the mobile terminal 3.

[0065] Step S12: The calling module 113 invokes the encryption and decryption algorithm corresponding to the hash value in the medical cloud platform 1, and decrypts the electronic order data transmitted by the mobile terminal 3. For example, if the encryption and decryption algorithm corresponding to the hash value generated in the medical cloud platform 1 is the DES algorithm, the electronic order data is decrypted by using the DES algorithm.

[0066] Step S13: When the electronic order data transmitted from the mobile terminal 3 is decrypted and a drug purchase order confirmation is completed, the creating module 114 creates a monitoring periodic table. Further, in this embodiment, when the patient completes an order on the medical cloud platform 1, the creation module 114 creates a monitoring periodic table for the patient, the electronic monitoring order table has electronic order information, and the patient receives the purchased order. The date of the first scan after the drug, the second scan date after the patient took the drug for a while (for example, ten days or twenty days).

[0067] Step S14: When the patient receives the purchased medicine, the sending module 112 sends an instruction to the mobile terminal.

3 to remind the patient to scan the QR code on the medicine packaging. Specifically, the medical cloud platform 1 determines whether the patient receives the purchased medicine according to the logistics information corresponding to the medicine purchased by the patient, and after the patient signs the receipt, the information of the last sign of the patient by the courier, the medical cloud platform 1 It is determined that the patient receives the purchased medicine. Further, since the medicine package includes a monitoring two-dimensional code, the monitoring two-dimensional code includes information of the medicine (for example, the name and model of the medicine, the date of manufacture, the expiration date, the expiration date, and the like).

[0068] Step S15: The saving module 115 saves the first scan date in the monitoring period table. When the patient receives the purchased medicine and the patient scans the monitoring two-dimensional code through the mobile terminal 3, the medical cloud platform 1 analyzes and monitors the information in the two-dimensional code, and parses the information in the monitoring two-dimensional code with the patient's The information in the electronic order is matched (for example, patient account matching, drug name and model matching). When the product name and model in the monitoring QR code are consistent with the product name and model in the patient's electronic order, the scan code is recorded. The date is the first scan date.

[0069] Step S16: The determining module 116 determines whether the first scan date is earlier than the expiration date than the preset interval.

(for example, 10 days). Specifically, in the embodiment, when the first scan date is earlier than the expiration date than the preset interval, it indicates that the drug can be taken safely during the shelf life. When the first scan code period is earlier than the expiration date than the preset time interval, it indicates that the drug is within the shelf life (for example, the first scan code period is August 10th and the expiration date is August 30th. In the shelf life), the patient can take it with confidence, the process Proceed to step S17. When the interval between the first scan date and the expiration date is less than the preset interval, it indicates that the drug is expiring or has expired, and the patient can be directly refunded, and the patient is prompted to return the product to the merchant. Proceed to step S19.

[0070] Step S17: when the first scan date is earlier than the expiration date and the patient scans the monitoring two-dimensional code again, the saving module 115 saves the second scan date in the monitoring periodic table and Take the amount. When the patient takes the medicine, a reminder is sent to the patient's mobile terminal 3, and the patient is reminded to scan the two-dimensional code again, and the amount is taken. Further, since the medicine packaging bag may be lost after the medicine is taken, in order to improve the patient experience, the medical cloud platform 1 sends a feedback reminder during a time interval after the patient receives the medicine (a simple dialog box, a dialog box) It includes the number of options to take, for example, if you have not eaten, eat a quarter, eat a third, eat half, eat all, etc.) to the patient's mobile terminal 3, the patient receives a feedback reminder After that, the corresponding quantity is selected and then fed back to the medical cloud platform 1, wherein the feedback date is the second scan date.

[0071] Step S18: When the dose corresponding to the medicine in the monitoring period table of the patient reaches the standard, the sending module 112 recommends the merchant selling the medicine to the mobile terminal 3 of the patient. In this embodiment, the number of doses corresponding to the medicine in the monitoring period table of the patient refers to the interval between two scan date (ie, the interval between the first scan date and the second scan date). The drug is taken in more than three quarters of the total purchase. If the patient takes more than three-quarters of the total purchased amount, it indicates that the drug is approved by the patient and can continue to recommend the drug to the patient and the patient.

[0072] Step S19: When the inter-segment period between the first scan date and the expiration date is less than the preset interval, the sending module 112 parses the amount and the financial account in the electronic order corresponding to the patient purchasing the drug. Information (eg, bank card information, third-party payment accounts, etc.) and refunds the money to the patient's financial account.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the invention and the contents of the drawings, or indirectly or indirectly The technical field is equally included in the scope of patent protection of the present invention.

Industrial applicability

[0074] The invention enables a dynamic encryption algorithm to encrypt the transmitted electronic order data, and indirectly monitors the expiration date of the medicine by using the e-commerce data, so as to prevent the patient from purchasing the expired medicine, and according to the patient after a period of time The number of doses determines the acceptance of the drug, and provides a recommendation for the merchant.

Claims

Claim

[Claim 1] A dynamically encrypted medical cloud platform drug monitoring and analysis system, wherein the dynamically encrypted medical cloud platform drug monitoring and analysis system runs in a medical cloud platform, and the medical cloud platform passes through a network and a mobile terminal. The communication connection, the dynamic encrypted medical cloud platform drug monitoring and analysis system comprises: a generating module, configured to: when the mobile terminal accesses the medical cloud platform, randomly select a pre-existing encryption and decryption algorithm in the medical cloud platform by using a random function, and obtain the a hashing value of the selected encryption and decryption algorithm; a sending module, configured to send the hash value to the mobile terminal, so that the mobile terminal invokes the encryption and decryption algorithm corresponding to the hash value to encrypt the electronic order data; Calling the encryption and decryption algorithm corresponding to the hash value in the medical cloud platform, and decrypting the electronic order data transmitted by the mobile terminal; and creating a module for decrypting the electronic order data transmitted by the mobile terminal and completing one Pen medicine shopping order confirmation 吋, create a monitor The sending module is further configured to: when the patient receives the purchased medicine, send a command to the mobile terminal to remind the patient to scan the two-dimensional code on the medicine packaging; and save the module, used in the monitoring period table Saving the first scan date; the saving module is configured to save the second scan in the monitoring periodic table when the first scan date is earlier than the expiration date and the patient scans the two-dimensional code again The date of the code and the quantity to be taken; and the sending module is configured to recommend, when the patient's monitoring period table, the quantity corresponding to the medicine reaches the standard, recommending the merchant who sells the medicine to the mobile terminal of the patient.

[Claim 2] The dynamic encryption medical cloud platform drug monitoring and analysis system according to claim 1, wherein the sending module is further configured to: when the first scan date is later than the due date Less than the preset interval 吋, the amount and financial account information in the electronic order corresponding to the patient's purchase of the drug are analyzed, and the money is returned to the patient's financial account.

[Claim 3] The dynamically encrypted medical cloud platform drug monitoring and analysis system according to claim 1, wherein the monitoring two-dimensional code includes a drug name, a model number, a production date, and an expiration date.

[Claim 4] The dynamic encryption medical cloud platform drug monitoring and analysis system according to claim 3, wherein the saving module saves the first scan date in the monitoring periodic table as follows: When the patient receives the purchased medicine and the patient scans the monitoring two-dimensional code through the mobile terminal, parses and monitors the information in the two-dimensional code; and parses the information in the monitoring two-dimensional code with the information in the patient's electronic order To perform matching, when the name and model of the product in the monitoring QR code are consistent with the product name and model in the electronic order of the patient, the scan date is recorded as the first scan date.

[Claim 5] A dynamic encryption medical cloud platform drug monitoring and analysis method, applied to a medical cloud platform

The medical cloud platform is connected to the mobile terminal through a network, and the method includes the following steps: when the mobile terminal accesses the medical cloud platform, randomly selecting a pre-stored encryption and decryption algorithm in the medical cloud platform by using a random function, and acquiring a hash value of the selected encryption/decryption algorithm; the hash value is sent to the mobile terminal, so that the mobile terminal invokes the encryption and decryption algorithm corresponding to the hash value to encrypt the electronic order data; and the call is invoked in the medical cloud platform. The encryption and decryption algorithm corresponding to the Greek value, and decrypting the electronic order data transmitted by the mobile terminal; when decrypting the electronic order data transmitted by the mobile terminal and completing a drug shopping order confirmation, creating a monitoring periodic table; After receiving the purchased medicine, the patient sends a command to the mobile terminal to remind the patient to scan the two-dimensional code on the medicine packaging; save the first scan date in the monitoring periodic table; when the first scan date is more than the expiration date Before the preset interval and the patient scans again to monitor the QR code, after monitoring Of the second scan code table stores the date and the number of administration; and when the quantity of the drug administered inch standard corresponding monitoring of the Periodic Table of the patient, the recommended merchant selling such products to the mobile terminal of the patient.

[Claim 6] The dynamic encryption medical cloud platform drug monitoring and analysis method according to claim 5, wherein the dynamically encrypted medical cloud platform drug monitoring analysis method further comprises the following steps: when the first scan date After the inter-temporal period between the expiration date is less than the preset interval, the amount and financial account information in the electronic order corresponding to the patient's purchase of the medicine are analyzed, and the money is returned to the patient's financial account.

[Claim 7] The dynamic encryption medical cloud platform drug monitoring and analysis method according to claim 5, wherein the monitoring two-dimensional code includes a drug name, a model number, a production date, and an expiration date.

[Claim 8] The method for dynamically monitoring medical cloud platform drug monitoring and analyzing according to claim 7, The method for storing the first scan date in the monitoring periodic table is: when the patient receives the purchased medicine and the patient scans the monitored two-dimensional code through the mobile terminal, and analyzes the information in the monitoring two-dimensional code. And matching the information in the analytical monitoring two-dimensional code with the information in the patient's electronic order. When the product name and model in the monitoring two-dimensional code are consistent with the product name and model in the patient's electronic order, the record is recorded. The scan date is the first scan date.