CN114124963A - Information processing method and device based on block chain and electronic equipment - Google Patents

Abstract

The embodiment of the disclosure provides an information processing method, an information processing device and an electronic device based on a block chain, wherein the method comprises the following steps: acquiring a first medical data packet; the first medical data packet is sent to a block chain network to support each block chain link point in the block chain network to acquire the first medical data packet, wherein the block chain network comprises at least two block chain nodes, and the block chain link point at least comprises one of a hospital, a public welfare medical institution and a medical research institution. By the aid of the information processing method based on the block chains, medical data of all medical institutions can be shared in time, all medical institutions can conveniently acquire medical data required by themselves, and working efficiency of medical workers is improved.

Description

Information processing method and device based on block chain and electronic equipment

Technical Field

The embodiment of the disclosure relates to the technical field of information processing, and in particular, to an information processing method and apparatus based on a block chain, and an electronic device.

Background

With the continuous development of scientific technology, the demand of people on medical health is increasingly improved, and further medical data is multiplied, and the business of each large medical institution is heavier, so that great pressure is brought to the existing medical technology or medical system, and the burden is greatly increased on the use aspect of medical care personnel, for example, each medical institution stores the medical history of each patient and keeps the medical history in a confidential state, and medical data among the medical institutions is difficult to share in time, so that the patients and the medical care personnel need to repeatedly perform medical examination with time and labor; the patients are time-consuming and labor-consuming to see, resources are seriously wasted, and medical help cannot be timely searched.

Disclosure of Invention

In view of the foregoing problems in the prior art, embodiments of the present disclosure provide an information processing method and apparatus based on a block chain, and an electronic device, so as to solve the following problems: because each medical institution stores the medical data of each patient and is in the condition of confidentiality, the medical data among the medical institutions is difficult to share in time, so that the patients and medical staff are required to repeatedly carry out medical examination with time and labor waste, and the working efficiency of the medical staff is seriously reduced.

In order to solve the above problems, the technical solution provided by the embodiments of the present disclosure is: an information processing method based on a block chain, the method comprising:

acquiring a first medical data packet;

and sending the first medical data packet to a block chain network to support each block chain link point in the block chain network to acquire the first medical data packet, wherein the block chain network comprises at least two block chain nodes, and each block chain link point at least comprises one of a hospital, a public welfare medical institution and a medical research institution.

Further, a second medical data packet is obtained from the blockchain network.

Further, after the sending the first medical data packet into the blockchain network, the method further includes:

and receiving a first preset amount of digital medical values corresponding to the first medical data packet sent by the server cluster.

Further, the sending the first medical data packet to a blockchain network includes:

sending a first encryption processing request to a server cluster so as to encrypt the first medical data packet through the server cluster, wherein the first encryption processing request carries the first medical data packet and a first preset secret key;

receiving a first medical data packet encrypted by the server cluster;

and sending the encrypted first encrypted medical data packet to the blockchain network.

Further, before the obtaining the second medical data packet from the blockchain network, the method further includes:

sending a second preset amount of digital medical values corresponding to the second medical data packet to the server cluster;

or sending a third medical data packet to a blockchain network so as to obtain the qualification of obtaining the second medical data packet in the blockchain network

Further, after the obtaining the second medical data packet from the blockchain network, the method further includes:

sending a second decryption processing request to a server cluster so as to decrypt the second medical data packet through the server cluster, wherein the second decryption processing request carries the second medical data packet and a second predetermined key;

and receiving the second medical data packet decrypted by the server cluster.

Further, the second medical data package comprises a medical service package, and the medical service package is used for realizing medical services.

Further, before the acquiring the first medical data packet, the method further includes:

receiving a third preset amount of digital medical values sent by the server cluster;

wherein the server cluster comprises at least one server.

An embodiment of the present disclosure also provides an information processing apparatus based on a block chain, where the apparatus includes:

the acquisition module is used for acquiring a first medical data packet;

the sending module is configured to send the first medical data packet to a block chain network to support each block link point in the block chain network to acquire the first medical data packet, where the block chain network includes at least two block chain nodes, and the block link point is composed of at least one of a hospital, a public welfare medical institution and a medical research institution.

Embodiments of the present disclosure also provide an electronic device, which at least includes a memory and a processor, where the memory stores a computer program thereon, and the processor implements the steps of the information processing method based on a blockchain according to the embodiments of the present disclosure when executing the computer program on the memory.

The beneficial effects of this disclosed embodiment lie in: by the block chain-based information processing method, the medical data of each medical institution can be shared in time, the medical institutions can conveniently acquire the medical data required by the institutions, medical staff can be prevented from repeatedly performing medical examination, and the working efficiency of the medical staff is improved.

Drawings

Fig. 1 is a schematic flowchart of an information processing method based on a block chain according to an embodiment of the present disclosure;

FIG. 2 is a diagram of a service system architecture provided by an embodiment of the present disclosure;

FIG. 3 is a diagram of a remote medical service system according to an embodiment of the disclosure

FIG. 4 is a flow chart of recording transaction information provided by an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an information processing apparatus based on a block chain according to an embodiment of the present disclosure;

fig. 6 is a schematic diagram of a hardware structure of an electronic device according to an embodiment of the present disclosure.

Detailed Description

Various aspects and features of the present application are described herein with reference to the drawings.

It will be understood that various modifications may be made to the embodiments of the present application. Accordingly, the foregoing description should not be construed as limiting, but merely as exemplifications of embodiments. Those skilled in the art will envision other modifications within the scope and spirit of the application.

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and, together with a general description of the application given above and the detailed description of the embodiments given below, serve to explain the principles of the application.

These and other characteristics of the present application will become apparent from the following description of preferred forms of embodiment, given as non-limiting examples, with reference to the attached drawings.

It is also to be understood that although the present application has been described with reference to some specific examples, those skilled in the art are able to ascertain many other equivalents to the practice of the present application.

The above and other aspects, features and advantages of the present application will become more apparent in view of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present application are described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely exemplary of the application, which can be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the application of unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present application in virtually any appropriately detailed structure.

The specification may use the phrases "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the application.

At present, medical data of patients are stored in each medical institution, and under the condition of confidentiality, along with the increasing demand of people on medical health, because the medical data of each medical institution cannot be shared in time, the patients need to walk among different medical institutions, the same medical examination is repeated, the same medical data is diagnosed, and then medical care personnel are required to waste time and energy to carry out the medical examination, so that the time and the labor of the patients are consumed when seeing a doctor, and the work efficiency and the resource waste of the medical care personnel are seriously reduced.

In order to solve the above technical problem, an embodiment of the present disclosure provides an information processing method based on a block chain, which can solve the following existing problems: the medical data of each medical institution can not be shared in time, so that the burden is greatly increased on the use aspect of medical staff, the working efficiency of the medical staff is reduced, and resources are wasted.

The embodiment of the first aspect of the disclosure provides an information processing method based on a block chain, which can be applied to various intelligent electronic devices, and the method can enable various medical institutions to share medical data in time, thereby facilitating users to obtain required medical data in time and improving the working efficiency of medical staff.

Fig. 1 shows a schematic flowchart of an information processing method based on a block chain according to an embodiment of the present disclosure, which mainly includes steps S101 to S102:

s101, a first medical data packet is obtained.

In some embodiments, the medical data packet may be a file of a type of a document, a video, and the like, and may also be a compressed packet corresponding to the file, for example, a TXT text, a WORD document, a rar format compressed packet, and the like, which may be set according to actual situations.

In some embodiments, the medical data packet may include medical information related to the patient, such as medical record information of the patient, treatment institution information, information of an attending physician, past history, and the like, and may further include medical data, such as medical books and the like, which may be specifically set according to the actual situation of the patient.

To facilitate entry and management of data, the various medical information contained in the medical data package may be in a uniform format. For example, the medical record information of the patient adopts a WORD document, and the content arrangement, font, paragraph format and the like of the WORD document must adopt a fixed format, that is, the medical record information of all the patients adopts the same WORD document format; the information of the main doctors of the patients adopts the JPG format photos, the content arrangement, the font, the portrait and the like of the information of the main doctors of the patients need to adopt a fixed format, namely, the information of the main doctors of all the patients adopts the same JPG format photos.

S102, the first medical data packet is sent to a block chain network so as to support each block chain link point in the block chain network to acquire the first medical data packet.

In some embodiments, the blockchain network includes at least two blockchain nodes, the blockchain nodes consisting of at least one of a hospital, a public medical facility, a medical research facility.

Taking an electronic device to which the block chain-based information processing method of the present invention is applied as an example, as shown in fig. 2, the system structure 200 includes a plurality of electronic devices (e.g., an electronic device 201, an electronic device 202, and an electronic device 203), a network communication device 204, and a server cluster 205. The server cluster 205 is connected to a plurality of electronic devices through the network communication device 204.

The network communication devices 204 in the system architecture 200 described above may include both wired and wireless communication links.

The number of the electronic devices and the network communication devices 204 in the system structure 200 may be any number, and may be set according to actual situations when the system structure is implemented, for example, three servers may be provided, or three servers may be combined into one server cluster for use.

In the system structure 200, a plurality of electronic devices, for example, the electronic device 201, the electronic device 202, and the electronic device 203, may serve as a block link point to form a block chain network, and then the electronic device 201, the electronic device 202, and the electronic device 203 may implement the block chain-based information processing method provided in the embodiment of the present disclosure, thereby solving the problems that the medical data of each medical institution cannot be shared in time, which causes a burden to be greatly increased in the aspect of use of medical staff, and reduces the work efficiency of medical staff and wastes resources.

The plurality of electronic devices may be electronic devices corresponding to hospitals, research institutions, public welfare institutions, patients, and the like, and may be specifically set according to actual situations. For example, a certain number of hospitals may be used as medical data sharing parties (i.e., block chain node devices, the electronic device in fig. 2), or all patients participating in medical data sharing may be used as a whole to construct a block chain network, which is not described herein again.

To encourage data sharing, in some embodiments, after sending the first medical data packet into the blockchain network, the server cluster may send the digital medical value to the blockchain node that sent the first medical data packet, and then the blockchain node that sent the first medical data packet may receive a first preset amount of the digital medical value corresponding to the first medical data packet sent by the server cluster.

Taking a patient a and a hospital B as an example, referring to fig. 2, the electronic device 201 is equivalent to the hospital B, and after the hospital B sends a medical data packet of the patient a to the blockchain network, the service cluster 205 sends a certain preset amount of digital medical values corresponding to the medical data packet to an account corresponding to the hospital B. The specific digital medical value may be determined based on the actual quality of the medical data packet. For example, if the medical data packet includes a plurality of information such as patient medical history and past history, the service cluster 205 may send the digital medical value of 30 or 50 to the account corresponding to hospital B. If the medical data packet only contains the medical record of the patient, the service cluster 205 may send the digital medical value of 10 or 20 to the account corresponding to hospital B.

In some embodiments, still taking patient a and hospital B as examples, as seen in fig. 2, the electronic device 201 corresponds to hospital B, and after hospital B sends the medical data packet of patient a to the blockchain network, the service cluster 205 sends a certain preset amount of digital medical value corresponding to the medical data packet to the account corresponding to patient a. For example, if the medical data packet includes a plurality of information such as patient medical history, past history, etc., the service cluster 205 may send the digital medical value of 30 or 50 to the account corresponding to patient a. If the medical data packet only contains the patient's medical record, the service cluster 205 may send 10 or 20 digital medical values to the account corresponding to patient a.

In some embodiments, still taking patient a and hospital B as examples, as seen in fig. 2, the electronic device 201 corresponds to hospital B, and after hospital B obtains the medical data packet of patient a, hospital B sends a certain preset amount of digital medical value corresponding to the medical data packet to the account corresponding to patient a. For example, if the medical data packet includes a plurality of information such as patient medical history and past history, hospital B may send a digital medical value of 30 or 50 to the account corresponding to patient a. If the medical data packet only contains the patient's medical record, hospital B may send 10 or 20 digital medical value to the account corresponding to patient a.

In some embodiments, still taking patient a and hospital B as an example, as seen in fig. 2, the electronic device 201 corresponds to hospital B, which needs to obtain the medical data packet of patient a with the consent of patient a and send the medical data packet to the blockchain network. If the patient a does not agree with or obtains the medical data packet of the patient a in the absence of the patient a, the medical data packet cannot be sent to the blockchain network, and the setting can be specifically carried out according to the actual situation.

By adopting the mode, the enthusiasm of the patient for disclosing the medical data can be improved, and the enthusiasm for encouraging medical staff to upload the medical data can be played. The above digital medical value can be used not only as an incentive for data sharing, but also for other purposes, such as in obtaining medical data packets; specifically, the digital medical value may be presented in the form of a token.

In some embodiments, the first medical data packet is sent to the blockchain network, and the first medical data packet is preferentially analyzed and processed in the process. The specific processing steps include steps S2011 to S2013:

s2011, the first encryption processing request is sent to the server cluster to encrypt the first medical data packet by the server cluster.

In some embodiments, during the sending, the first encryption processing request carries a first medical data packet and a first predetermined key.

The key has a specific format, for example, sixteen-digit english alphabet, twelve-digit number, etc., and may be specifically set according to the actual situation.

Taking patient a and hospital B as an example, as seen in fig. 2, the electronic device 201 corresponds to hospital B, and before hospital B transmits a medical data packet of patient a to the blockchain network, if encryption processing is required for the medical data packet, the medical data packet and a key corresponding thereto are transmitted to the server cluster 205, and the server cluster 205 encrypts the medical data packet by a specific algorithm. And if the medical data does not need encryption processing, directly sending the medical data packet to the blockchain network.

S2012, receiving the first medical data packet encrypted by the server cluster.

Taking patient a and hospital B as an example, referring to fig. 2, the electronic device 201 is equivalent to hospital B, and the server cluster 205 performs an encryption operation on the medical data packet and then retransmits the encrypted medical data packet to hospital B.

And S2013, sending the encrypted first encrypted medical data packet to a blockchain network.

Taking patient a and hospital B as an example, referring to fig. 2, the electronic device 201 corresponds to hospital B, and after receiving the encrypted medical data packet, hospital B transmits the encrypted medical data packet to the blockchain network.

To encourage the aggressiveness of the use of blockchain techniques by each institution, in some embodiments each blockchain node receives a third preset amount of digital medical value sent by the server cluster prior to acquiring the first medical data packet.

In some embodiments, the digital medical value may be obtained in a variety of ways. For example, a certain preset amount of digital medical values may be obtained by uploading medical data packets; a certain preset amount of digital medical value may be obtained by way of funding. The method comprises the following specific steps:

a certain organization can freely airdrop a certain preset amount of digital medical values to all nodes in the block chain network through the server cluster; the patient user may purchase a preset amount of digital medical value for a fee with an institution.

Taking a remote medical service as an example, fig. 3 is a structural diagram of a remote medical service system according to an embodiment of the present disclosure. As shown in fig. 3, the charitable public welfare agency can obtain a certain preset amount of digital medical values from the X institution through various transaction means and place the digital medical values into each of the lower-level basic hospitals, that is, each of the basic hospitals has a corresponding amount of digital medical values (according to actual conditions, each of the basic hospitals can obtain different amounts of digital medical values), or place a certain preset amount of digital medical values into each of the basic hospitals through the X institution and the block chain technology for use by the basic hospitals.

To enhance the applicability of the digital medical value, in some embodiments, the digital medical value also has a payment role, as described in detail below:

the digital medical value may pay for the corresponding medical service: for example, when patient a wants to obtain expert consultation from hospital C while performing remote medical service at hospital B, patient a needs to pay a certain preset amount of digital medical value to obtain expert consultation service of doctor C.

In some embodiments, the medical data package further includes a medical service package, as shown in fig. 3, the patient may pay a certain amount of digital medical value to the basic hospital to obtain the medical service package issued by the basic hospital, so as to implement medical service, thereby meeting the medical requirements of the patient.

In some embodiments, if the remote consultation service is included in the medical service package, as shown in fig. 3, the patient may pay a certain amount of digital medical value to the doctor to obtain the medical service of the doctor, for example, patient a pays 100 digital medical value to base hospital B to obtain the remote consultation service of base hospital B; alternatively, patient a pays a digital medical value of 100 directly to doctor C in the base hospital B, and doctor C provides the remote consultation service to patient a.

By adopting the mode, the combination of the block chain and the medical technology can be obviously seen, and the use efficiency and frequency of data are improved by utilizing the block chain technology.

In some embodiments, the second medical data packet is obtained from a blockchain network.

The second medical data packet and the first medical data packet are data packets having medically related data, and in some embodiments, the first medical data packet and the second medical data packet may be the same or different.

In some embodiments, the second medical data package further comprises a health care package, which can be used to implement a health care. For example, the medical services package includes at least a remote consultation service.

In order to improve the applicability of the digital medical value and guarantee the rights and interests of the owner of the medical data packet, in some embodiments, before the second medical data packet is acquired from the blockchain network, a second preset amount of digital medical values corresponding to the second medical data packet is sent to the server cluster; or sending a third medical data packet to a blockchain network so as to obtain the qualification of obtaining the second medical data packet in the blockchain network.

In some embodiments, the distribution of the digital medical value is complicated, and the digital medical value may be transmitted before the second medical data packet is acquired from the blockchain network or after the second medical data packet is acquired from the blockchain network. The specific operation mode can be set according to specific situations.

Taking hospital C as an example to obtain the medical data packet of patient D from the blockchain network, referring to fig. 2, the electronic device 202 is equivalent to hospital C, and selects the medical data packet of patient D from the blockchain network at hospital C, and sends the digital medical value of the digital medical value limit corresponding to the medical data packet to the service cluster according to the digital medical value limit of the medical data packet, and then obtains the medical data packet of patient D. For example, if the medical data packet includes a plurality of information such as patient medical history and past history, the hospital C transmits the digital medical value of 30 or 50 to the server cluster. If the medical data packet contains only the patient's medical record, hospital C sends a digital medical value of 10 or 20 to the server cluster.

Taking hospital E to obtain the medical data packet of patient F from the blockchain network as an example, referring to fig. 2, the electronic device 202 is equivalent to hospital E, and selects the medical data packet of patient F from the blockchain network at hospital E, and needs to send an additional medical data packet (another medical data packet that can be grasped by hospital E) to the blockchain network to obtain the obtaining qualification of the medical data packet of patient F in the blockchain network, and after the sending is successful, hospital E can obtain the medical data packet of patient F. In this embodiment, it is determined from the medical data packets of patient F what additional medical data packets to send into the blockchain network. For example, the medical data packet of patient F only includes case information, and hospital E only needs to send a medical data packet containing case information to the blockchain network; if the medical data packet acquired by the hospital E contains ten pieces of medical record information, the hospital E only needs to send one medical data packet containing the ten pieces of medical record information to the blockchain network, or send a plurality of medical data packets containing medical record information with different quantities to the blockchain network, and the quantity of the medical record information can meet the ten quantities. The concrete can be set according to the actual situation.

In some embodiments, before the second medical data packet is acquired from the blockchain network, a second preset amount of digital medical values corresponding to the second medical data packet is sent to the server cluster. Or sending the third medical data packet to the blockchain network so as to receive a fourth preset amount of digital medical values in the account of the patient corresponding to the second medical data packet when the acquisition qualification of the second medical data packet in the blockchain network is acquired.

Taking hospital C as an example to acquire the medical data packet of patient D from the blockchain network, referring to fig. 2, the electronic device 202 is equivalent to hospital C, before hospital C acquires the medical data packet of patient D from the blockchain network, the hospital needs to send a certain preset amount of digital medical values corresponding to the medical data packet to the service cluster 205, and hospital C or the server cluster 205 sends a certain preset amount of digital medical values to the account of patient D. For example, if the medical data packet includes a plurality of information such as patient medical history and past history, hospital C transmits the digital medical value of 30 or 50 to the server cluster, and transmits the digital medical value of 20 or 20 to the account of patient D. If the medical data packet only contains the medical record of the patient, the hospital C sends the digital medical value of 10 or 20 to the server cluster, and sends the digital medical value of 10 or 5 to the account of the patient D.

In some embodiments, the sending the digital medical value of the second preset amount corresponding to the second medical data packet to the server cluster specifically includes the following steps, including S1011 to S1012:

s1011, the digital medical value limit corresponding to the second medical data packet is attached from the second medical data packet.

S1012, based on the digital medical value limit, a second preset amount of digital medical value is sent to the server cluster.

In some embodiments, the medical data packets in the blockchain network may be obtained for free and may also be paid a preset amount of digital medical value to obtain the medical data packets. For example, in the blockchain network, the digital medical value limit of the medical data packet a is 100, the digital medical value limit of the medical data packet B is 200, the digital medical value limit of the medical data packet C is 0, the digital medical value limit of each medical data packet can be displayed on the electronic device, and the user can obtain the medical data packet C from the blockchain network according to the selection of the user and can pay the digital medical value of 100 to obtain the medical data packet a.

In some embodiments, the circulation of the digital medical value is complicated, and fig. 4 is a flow chart for recording transaction information according to the embodiment of the disclosure. As shown in FIG. 4, a drug enterprise may obtain the required medication instructions by paying a certain amount of digital medical value; the doctor can obtain the required learning report by paying a certain amount of digital medical value; international hospitals or commercial insurance can obtain the required clinical decision by paying a certain amount of digital medical value. That is, any kind of user can obtain the medical data packet required by the user by paying a certain amount of digital medical value.

In some embodiments, the medical data packets published into the platform are presented in the platform as a single data packet or as a processed data packet, the presented medical data packets having corresponding digital medical values. Processing herein refers to the analysis, aggregation, refinement, etc. of individual medical data packets. For example, the processing of a large number of electronic medical records in the platform requires a strong computing power, the computing power is realized by means of client computing power, and specifically the computing power providing requirement is sent to the client. During which the user may obtain a corresponding amount of digital medical value as a reward for providing computing power.

Referring to fig. 3 and 4, in the blockchain network, each time data interaction occurs, the X mechanism obtains a certain preset amount of digital medical values. In this way, the benefit of the X organization can be guaranteed not to be damaged so as to support the realization of the whole data sharing network.

By adopting the mode, the flow direction of the digital medical value can be checked, and the flow direction of the digital medical value is realized by the block chain technology, so that the effects of unforgeability, trace retention in the whole process, traceability, openness and transparency and the like are realized.

To increase the aggressiveness of the patient user to disclose the medical data, in some embodiments, the medical data packet of the patient is acquired and used once in the blockchain network, which may result in a predetermined amount of digital medical values.

In some embodiments, after the above-mentioned blockchain link point or other blockchain node sending the first medical data packet obtains the second medical data packet from the blockchain network, the second medical data needs to be analyzed and processed. The specific processing steps include S2021 to S2022:

s2021, sending the second decryption processing request to the server cluster to decrypt the second medical data packet through the server cluster.

Wherein, in the sending process, the second decryption processing request carries a second medical data packet and a second predetermined key.

Taking hospital C as an example of acquiring a medical data packet of patient D from the blockchain network, as seen in fig. 2, the electronic device 202 corresponds to hospital C, and after hospital C acquires the medical data packet of patient D from the blockchain network, if the medical data packet is in an encrypted state, the medical data packet and a key corresponding to the medical data packet are transmitted to the server cluster 205, and the server cluster 205 decrypts the medical data packet by using a specific algorithm. If the medical data packet is not encrypted, no decryption operation is required.

S2022, receiving the second medical data packet decrypted by the server cluster.

Taking hospital C as an example of acquiring the medical data packet of patient D from the blockchain network, referring to fig. 2, the electronic device 202 is equivalent to hospital C, and the server cluster 205 decrypts the medical data packet and then retransmits the decrypted medical data packet to hospital C.

By adopting the decryption mode, the safety of the medical data packet of the patient can be better ensured, and the information leakage of the patient is prevented.

The beneficial effects of this disclosed embodiment lie in: by the block chain-based information processing method, the medical data of each medical institution can be shared in time, the medical institutions can conveniently acquire the medical data required by the institutions, medical staff can be prevented from repeatedly carrying out medical examination, and the working efficiency of the medical staff is improved.

An embodiment of a second aspect of the present disclosure provides an information processing apparatus based on a block chain.

Fig. 5 is a schematic diagram of an information processing apparatus based on a block chain according to an embodiment of the present disclosure.

As shown in fig. 5, the block chain-based information processing apparatus includes:

an obtaining module 301, configured to obtain a first medical data packet; a sending module 302, coupled to the obtaining module 301, configured to send the first medical data packet to a blockchain network to support each blockchain link point in the blockchain network to obtain the first medical data packet, where the blockchain network includes at least two blockchain nodes, and the blockchain link point at least includes one of a hospital, a public welfare medical institution and a medical research institution.

In some embodiments, the sending module 302 is specifically configured to send the first encryption processing request to the server cluster, so as to encrypt the first medical data packet by the server cluster, where the first encryption processing request carries the first medical data packet and a first predetermined key; and after receiving the encrypted first medical data packet of the server cluster, sending the encrypted first encrypted medical data packet to the block chain network.

By the block chain-based information processing method, the medical data of each medical institution can be shared in time, the medical institutions can conveniently acquire the medical data required by the institutions, medical staff can be prevented from repeatedly performing medical examination, and the working efficiency of the medical staff is improved.

An electronic device is provided in an embodiment of the third aspect of the present disclosure, and a schematic structural diagram of the electronic device is shown in fig. 6, where the electronic device at least includes a memory 402 and a processor 401, a computer program is stored on the memory 402, and the processor 401, when executing the computer program on the memory 402, implements the method provided in any embodiment of the present disclosure. Illustratively, the electronic device computer program steps are as follows S21-S22:

and S21, acquiring the first medical data packet.

And S22, sending the first medical data packet to a blockchain network to support each blockchain link point in the blockchain network to acquire the first medical data packet, wherein the blockchain network comprises at least two blockchain nodes, and the blockchain link point at least comprises one of a hospital, a public welfare medical institution and a medical research institution.

When the processor executes the computer program stored in the memory and used for sending the first medical data packet to the blockchain network, the following computer program is specifically executed: sending a first encryption processing request to a server cluster so as to encrypt a first medical data packet through the server cluster, wherein the first encryption processing request carries the first medical data packet and a first preset secret key; receiving a first medical data packet encrypted by the server cluster; and sending the encrypted first encrypted medical data packet to a blockchain network.

The processor, after executing the second medical data packet retrieved from the blockchain network stored on the memory, further executes the computer program: sending a second decryption processing request to the server cluster so as to decrypt the second medical data packet through the server cluster, wherein the second decryption processing request carries the second medical data packet and a second predetermined key; and receiving the second medical data packet decrypted by the server cluster.

In some embodiments, the electronic device further comprises: an input device 403 and an output device 404;

the processor 401, memory 402, input device 403 and output device 404 in the electronic apparatus may be connected by a bus or other means.

The memory 402, which is a non-transitory computer-readable storage medium, may be used to store software programs, computer-executable programs. The processor 401 executes various functional applications of the server and data processing by executing software programs and instructions stored in the memory 402, that is, implements the block chain based information processing method of the above-described method embodiment.

The memory 402 may include high speed random access memory and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid state storage device.

In some embodiments, memory 402 may optionally include memory located remotely from processor 401, which may be connected to the terminal device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 403 may include a device for receiving input numeric or character information and generating key signal inputs related to user settings and function control of the electronic device.

The output device 404 may include a display device such as a display screen.

An embodiment of the fourth aspect of the present disclosure provides a storage medium, which is specifically a computer-readable medium, storing a computer program, which when executed by a processor implements the method provided by any embodiment of the present disclosure, including the following steps S31 to S32:

and S31, acquiring the first medical data packet.

And S32, sending the first medical data packet to a blockchain network to support each blockchain link point in the blockchain network to acquire the first medical data packet, wherein the blockchain network comprises at least two blockchain nodes, and the blockchain link point at least comprises one of a hospital, a public welfare medical institution and a medical research institution.

When the computer program is executed by the processor to send the first medical data packet to the blockchain network, the processor specifically executes the following steps: sending the first encryption processing request to a server cluster so as to encrypt the first medical data packet through the server cluster, wherein the first encryption processing request carries a first preset secret key; receiving a first medical data packet of a first medical data packet encrypted by a server cluster; and sending the encrypted first encrypted medical data packet to a blockchain network.

After the computer program is executed by the processor to obtain the second medical data packet from the blockchain network, the processor specifically executes the following steps: sending a second decryption processing request to the server cluster so as to decrypt the second medical data packet through the server cluster, wherein the second decryption processing request carries the second medical data packet and a second predetermined key; and receiving the second medical data packet decrypted by the server cluster.

Optionally, the computer-executable instructions, when executed by a computer processor, may also be used to implement the technical solution of the information processing method based on the blockchain provided in any embodiment of the present disclosure.

By the block chain-based information processing method, the medical data of each medical institution can be shared in time, the medical institutions can conveniently acquire the medical data required by the institutions, medical staff can be prevented from repeatedly performing medical examination, and the working efficiency of the medical staff is improved.

The device provided by the embodiment of the present disclosure can execute the processes and steps of the above method embodiments, and further has a functional module corresponding to the above method embodiments, which can execute corresponding operations, and has corresponding technical effects, and in order to avoid repetition, details are not repeated here.

The above embodiments are merely exemplary embodiments of the present disclosure, which is not intended to limit the present disclosure, and the scope of the present disclosure is defined by the claims. Various modifications and equivalents of the disclosure may occur to those skilled in the art within the spirit and scope of the disclosure, and such modifications and equivalents are considered to be within the scope of the disclosure.

Claims (10)

1. An information processing method based on a block chain, the method comprising:

acquiring a first medical data packet;

and sending the first medical data packet to a block chain network to support each block chain link point in the block chain network to acquire the first medical data packet, wherein the block chain network comprises at least two block chain nodes, and each block chain link point at least comprises one of a hospital, a public welfare medical institution and a medical research institution.

2. The block chain-based information processing method according to claim 1, further comprising:

and acquiring a second medical data packet from the blockchain network.

3. The blockchain-based information processing method according to claim 1, further comprising, after the transmitting the first medical data packet into a blockchain network:

and receiving a first preset amount of digital medical values corresponding to the first medical data packet sent by the server cluster.

4. The blockchain-based information processing method according to claim 1, wherein the sending the first medical data packet into a blockchain network includes:

sending a first encryption processing request to a server cluster so as to encrypt the first medical data packet through the server cluster, wherein the first encryption processing request carries the first medical data packet and a first preset secret key;

receiving a first medical data packet encrypted by the server cluster;

and sending the encrypted first encrypted medical data packet to the blockchain network.

5. The blockchain-based information processing method according to claim 2, further comprising, before the obtaining the second medical data packet from the blockchain network:

sending a second preset amount of digital medical values corresponding to the second medical data packet to the server cluster;

or sending a third medical data packet to a blockchain network so as to obtain the qualification of obtaining the second medical data packet in the blockchain network.

6. The blockchain-based information processing method according to claim 2, further comprising, after the obtaining of the second medical data packet from the blockchain network:

sending a second decryption processing request to a server cluster so as to decrypt the second medical data packet through the server cluster, wherein the second decryption processing request carries the second medical data packet and a second predetermined key;

and receiving the second medical data packet decrypted by the server cluster.

7. The blockchain-based information processing method of claim 2, wherein the second medical data packet includes a medical service packet, the medical service packet being used to implement a medical service.

8. The blockchain-based information processing method according to any one of claims 1 to 7, wherein before the acquiring the first medical data packet, the method further includes:

receiving a third preset amount of digital medical values sent by the server cluster;

wherein the server cluster comprises at least one server.

9. An information processing apparatus based on a block chain, the apparatus comprising:

the acquisition module is used for acquiring a first medical data packet;

the sending module is configured to send the first medical data packet to a block chain network to support each block link point in the block chain network to acquire the first medical data packet, where the block chain network includes at least two block chain nodes, and the block link point is composed of at least one of a hospital, a public welfare medical institution and a medical research institution.

10. An electronic device comprising at least a memory on which a computer program is stored, a processor, characterized in that the processor realizes the steps of the block chain based information processing method of any of claims 1 to 8 when executing the computer program on the memory.

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