CN111354431A - Processing system and method for applying block chain to long-term care - Google Patents

Abstract

The application discloses a processing system for long-term care by applying a block chain, which comprises a user side, a member management side, a manpower management side and a time bank side. The user selects at least one service item and sends a service request, and the user writes each service request and service time information into an intelligent contract; the member management terminal records the member information of the user, and is used for verifying the identity of the user terminal and forwarding the verified service requirement; the human management end records feedback measurement of the volunteers, assigns the volunteers to the user end according to the service requirement, and the human management end measures the feedback of the user end; the service providing end provides the care items, the care items correspond to human resources, time resources and consumption amount, and the service providing end generates a front-end interface according to the care items so that a front-end program plays the front-end interface; and the time bank end is used for updating the intelligent contract of each user end.

Description

Processing system and method for applying block chain to long-term care

Technical Field

The present application relates to a system and method for long-term care, and more particularly, to a system and method for applying a block chain to long-term care.

Background

The birth rate is generally reduced due to various factors of the living environment, so that the population of the young is gradually reduced, and along with the improvement of the medical science and technology, the average life of the human beings is remarkably prolonged, so that the population of the elderly is relatively increased, and under the general aging trend of the population in the world, the social and economic structures are connected with each other to face unprecedented huge challenges.

However, as the elderly gradually move into the aged and super-aged society, the population relatively capable of caring for the elderly is greatly reduced, the elderly cannot be cared only by the family elders, but a large number of staff and professional care personnel are needed, so that the caring needs of the parents are important and urgent, the population needing long-term home care will continuously rise in the future, and most of the elderly rely on the community caring of the parents in addition to the sound medical care of the elderly, so as to provide a more complete long-term care system and system.

Current care systems rely solely on gold as a payment for labor, but every user is exposed to the elderly. Therefore, the stored value only using the money flow as the service will inevitably face the problems of expansion or contraction of the currency, and the quality of the safety of the labor service is affected.

Disclosure of Invention

The technical problem to be solved in the present application is to provide a processing system for long-term care using a block chain, which implements resource allocation for long-term care on the block chain, so that a user end can flexibly use manpower to care for resources.

In order to solve the above problems, the present application discloses a processing system for long-term care by using a block chain, which comprises at least one user terminal, a member management terminal, a human management terminal and a time bank terminal. The user side sends a service request and selects at least one care item, the user side is provided with a calculation unit, a transmission unit and a storage unit, the calculation unit is electrically connected with the transmission unit and the storage unit, the storage unit comprises a front-end program, an intelligent contract and feedback measurement, the front-end program is used for playing the care item and recording the selected care item, the calculation unit generates a service request according to the selected care item and sends the service request by the transmission unit, the calculation unit records each service request and the affiliated care item and generates feedback measurement and service time information, the calculation unit writes each service request and service time information into the intelligent contract, and the user side sends the intelligent contract; the member management end is connected with the user end through a network and is provided with a user database, and the user database records the member information of the user and is used for verifying the identity of the user end and forwarding the verified service requirement; the human management end is connected with the member management end through a network, the human management end is provided with a human database, the human database records the feedback measurement of each volunteer, the human management end assigns the volunteer to the user end according to the service requirement, and the human management end measures the feedback measurement of the user end; the service providing end is used for providing the care items, each care item corresponds to human resources, time resources and consumption amount, and the service providing end generates a front-end interface according to the care items so that a front-end program plays the front-end interface; and the time bank end is connected with the user end through a network and used for updating the intelligent contract of each user end.

In order to solve the above problem, a processing method for applying a block chain to long-term care includes: the user side logs in the member service side, and the member service side turns the user side to the service providing side; the user side selects at least one care service from the service providing side; the service providing terminal sends a service requirement to the manpower management terminal according to the care service; selecting at least one volunteer by the manpower management terminal according to the care service, and enabling the volunteer to the user terminal; when the volunteer completes the service request, the feedback measurement is set by the user terminal; and the user side writes the intelligent contract according to the time stamp and the feedback measurement and is used for updating the intelligent contract recorded by the protection block chain.

Compared with the prior art, the application can obtain the following technical effects:

1) compared with the prior art, the manual assignment of the care has the special characteristics of stored value time and resources, and the user side can store the value of the care resources in the mode so as to be used by the user side or others at a later date.

2) The processing system and the method for long-term care of the application block chain can record the care resources in the block chain through the block chain technology, so that the care resources can be public and transparent, and high-efficiency execution efficiency is realized.

Of course, it is not necessary for any one product to achieve all of the above-described technical effects simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application.

Fig. 1A is a schematic diagram of an operating architecture according to an embodiment of the present application.

Fig. 1B is a schematic diagram of an architecture of a care block chain according to an embodiment of the present application.

Fig. 2 is a schematic operation flow chart according to an embodiment of the present application.

Fig. 3 is a schematic interface diagram of a front-end program according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a conversion scale according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects can be fully understood and implemented. Fig. 1A and fig. 1B are schematic views of an operation structure according to an embodiment of the present invention. The system for processing an application block chain for long-term care according to an embodiment of the present invention includes at least one user terminal 110, a member management terminal 120, a human management terminal 130, a service provider terminal 140, and a time bank terminal 150.

The user terminal 110 is a generic term of a care-receiver, which can be an old person, an injured person or a sick person. The client 110 can implement the operation of the present invention through an electronic device such as a mobile device or a computer. For simplicity, the client 110 has an electronic device with computing capability, and the client 110 has a computing unit 111, a transmitting unit 112 and a storage unit 113.

The calculating unit 111 is electrically connected to the transmitting unit 112 and the storage unit 113. The transmission unit 112 is connected to the member management terminal 120 and the time bank terminal 150 through a network. Besides the transmission unit 112 is used for transmitting the service request 161, the transmission unit 112 may also receive other messages or responses from an external server. The storage unit 113 includes a front-end program 114, a smart contract 115 (DAPP), and a feedback measure 116. The front-end program 114 can display a menu interface of the care items 141 and a list interface of the volunteers, and record the selected care items 141 and volunteers.

The computing unit 111 generates the service requirement 161 according to the selected care item 141, and the transmission unit 112 transmits the service requirement 161 to the corresponding server. The calculation unit 111 records each service request 161 and the corresponding care item 141 and generates the feedback measurement 116 and the service time information. The calculation unit 111 writes the service request 161 and the service time information sent each time into the smart contract 115. The client 110 is sending the smart contract 115 to the corresponding server. The feedback metrics 116 may be time feedback, money feedback, or human feedback. The feedback metrics 116 are recorded to the volunteers providing the service and their databases. The client 110 of the present invention may also have feedback metrics 116 in addition to volunteers. The feedback metrics 116 may be exchanged by the member management terminal 120 or added via a stored value request.

The member management terminal 120 is connected to the human management terminal 130 and the service provider terminal 140 through a network. The member managing terminal 120 has a user database 121. The user database 121 records the member information of the user terminal 110 for verifying the identity of the user terminal 110 and forwarding the verified service request 161. When the user terminal 110 wants to select the care item 141, the user terminal 110 first logs in the member management terminal 120 and passes the qualification verification.

After the member management node 120 confirms the qualification of the user terminal 110, the required service sent by the user terminal 110 is forwarded to the corresponding server by the member management node 120. For example, the demand service is performed by the service provider 140. The member management terminal 120 forwards the required service to the service provider 140.

The human resource management terminal 130 has a human resource database 131. The human database 131 records the feedback amount 116 of each volunteer. The volunteers may be outside human beings or active user terminals 110. The human manager 130 assigns the volunteers to the user terminal 110 according to the service requirement 161. The human management terminal 130 measures the feedback 116 according to the feedback of the user terminal 110.

The service provider 140 is used for providing the care items 141, and each care item 141 corresponds to a human resource, a time resource and a consumption amount. The care items 141 include, but are not limited to, catering, housekeeping, nursing services, purchasing services, medical services, entertainment services, regular visit services, or device detection services. The service provider 140 generates the front-end interface 162 according to the care item 141, so that the front-end program 114 of the user terminal 110 can play the front-end interface 162. The front-end interface 162 includes the menu interface or the list interface in the foregoing.

The time bank terminal 150 is connected to the user terminal 110 through a network. When the time bank 150 receives the update notification from the user terminal 110, the time bank 150 will update the care block chain 163. When each client 110 completes the content of the smart contract 115, the client 110 notifies other clients 110 to update the smart contract 115 in a peer-to-peer (peer-to-peer) manner. The smart contract 115 of the user end 110 generates a protection block chain 163 according to a time stamp (time stamp) and a symmetric encryption algorithm. The care block chain 163 records the time, project and called related resources of the service requirement of each user terminal 110.

To further explain the sorting operation of the present invention, please refer to fig. 2. FIG. 2 is a schematic operation flow chart according to an embodiment of the present invention. The processing of the application block chain for long-term care comprises the following steps:

step S210: the user side logs in the member service side, and the member service side turns the user side to the service providing side;

step S220: the user side selects at least one care service from the service providing side;

step S230: the service providing terminal sends a service requirement to the manpower management terminal according to the care service;

step S240: selecting at least one volunteer by the manpower management terminal according to the care service, and leading the volunteer to the user terminal;

step S250: when the volunteer completes the amplitude request, the user end generates feedback measurement; and

step S260: and the user side writes the intelligent contract according to the time stamp and the feedback measurement and is used for updating the intelligent contract recorded by the protection block chain.

First, the user terminal 110 logs in the member management terminal 120 and verifies the identity of the user terminal 110. If the user end 110 is recorded in the member management end 120, the member management end 120 directs the user end 110 to the service provider end 140. The service provider 140 provides different types of care items 141, and the front-end program 114 plays the care items 141 to provide the user terminal 110 with a selection, as shown in fig. 3. In FIG. 3, care items A, B-Y are provided and the user selects at least one care item 141 from the front-end interface 162. The selected care item 141 is represented in fig. 3 by a black and dashed box.

The client 110 can select at least one care item 141 from the front-end program 114, and the client 110 can integrate the selected care item 141 into a service request 161. The user terminal 110 sends the service requirement 161 to the service provider 140. After the service provider 140 receives the service request 161, the service provider 140 sends a dispatch request to the human resource manager 130. The human manager 130 compares the volunteers in the database that meet the service requirement 161. The volunteers can be external manpower of community workers or social workers, and can also be employees of enterprises. But the volunteers themselves may also be other user terminals 110.

The human manager 130 can match the volunteers in the adjacent location from the human database 131 according to the geographic location information of the user terminal 110. The human manager 130 can also select volunteers in accordance with the time zone from the human database 131 according to the execution time of the service request 161. Alternatively, the human manager 130 preferentially selects volunteers meeting the corresponding qualification according to the type of the service requirement 161.

After selecting the volunteer, the volunteer will arrive at the location of the user terminal 110 at the service time specified by the user terminal 110. The care items 141 of the service requirement 161 are completed by the volunteers. The client 110 can automatically calculate the feedback metric 116 of the volunteer, and can also increase/decrease the value of the feedback metric 116. The reward metrics 116 may be time of service, amount paid, or cumulative points. The volunteers can receive different types of feedback measures 116. For example: the volunteers receive the service time, and when the volunteers become the user terminal 110, the volunteers can choose to use the earned service time as the feedback metrics 116 paid to other volunteers. Similarly, the user terminal 110 can also pay the points or amount to the volunteer. The points can be exchanged with other shopping sites through the member management terminal 120 for goods or other services.

In the present invention, after the volunteers complete the service request, the feedback metrics 116 are calculated by the client 110 according to the care items 141 of the service request 161. The calculating unit 111 calculates and obtains the feedback measurement 116 according to the human resources, the time resources and the consumption amount. In addition, the user terminal 110 can also determine whether to increase/decrease the number of feedback metrics 116 according to the volunteer's field behavior. In addition, the ue 110 may also choose to convert different types of feedback metrics 116. For example, the client 110 may convert the feedback count 116 of points into the feedback count 116 of service time.

Since the care blockchain 163 can record the feedback metric 116 at each time point, the ue 110 calculates a conversion ratio according to the feedback metric 116 at each time point of the care blockchain 163. For example, as in fig. 4, 15-tuple redeemable 10-service points at 2018 and 50-tuple 10-service points at 2038. Therefore, the ue 110 can convert the accumulated feedback metrics 116 to other different types of feedback metrics 116 according to the conversion ratio. Therefore, at different time points, the ue 110 can calculate the corresponding conversion ratio from the care block chain 163. The ue 110 can calculate the conversion of the feedback metric at different time points according to the obtained conversion ratio.

The device corresponds to the description of the method flow, and the description of the method flow is referred for the deficiency, and is not repeated. The foregoing description shows and describes several preferred embodiments of the present application, but as aforementioned, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.

Claims (10)

1. A system for applying a blockchain to long-term care, the system for implementing a blockchain in long-term care resource allocation, the system comprising:

at least one user end, the user end sends a service request and selects at least one care item, the user end has a calculation unit, a transmission unit and a storage unit, the calculation unit is electrically connected with the transmission unit and the storage unit, the storage unit includes a front end program, an intelligent contract and a feedback measurement, the front end program is used for playing the care items and recording the selected care items, the calculation unit generates the service request according to the selected care items and sends the service request by the transmission unit, the calculation unit records each service request and the affiliated care items and generates the feedback measurement and service time information, the calculation unit writes each service request and the service time information into the intelligent contract, the user side sends the intelligent contract;

the member management end is connected with the user ends through a network and is provided with a user database, and the user database records member information of the user ends and is used for verifying the identity of the user ends and forwarding the service requirement passing the verification;

the human power management end is connected with the member management end through a network and provided with a human power database, the human power database records the feedback measurement of each volunteer, the human power management end assigns the volunteers to the user end according to the service requirement, and the human power management end is used for measuring the feedback of the user end;

the service providing end is used for providing the care items, each care item corresponds to a manpower resource, a time resource and a consumption amount, and the service providing end generates a front-end interface according to the care items so that the front-end program plays the front-end interface; and

and the time bank end is connected with the user ends through a network and used for updating the intelligent contract of each user end.

2. The system of claim 1, wherein the care items comprise catering, housekeeping services, nursing services, purchasing services, medical services, entertainment services, regular visit services, or device detection services.

3. The system according to claim 1, wherein the client writes the smart contract into a block chain of care based on a time stamp.

4. The system according to claim 3, wherein the client signs the smart contracts using a symmetric encryption algorithm and generates the care blockchain based on the time stamp.

5. The system of claim 1, wherein the user terminal sends a request for stored value to the member management terminal for increasing the feedback metric.

6. A processing method for applying a block chain to long-term care realizes the block chain in resource allocation of long-term care, and is characterized in that the processing method for applying the block chain to long-term care comprises the following steps:

a user terminal logs in a member service terminal and the member service terminal turns the user terminal to a service providing terminal;

the user side selects at least one care service from the service providing side;

the service providing terminal sends a service requirement to a human management terminal according to the care service;

selecting at least one volunteer by the manpower management terminal according to the care service, and enabling the volunteers to the user terminal;

when the volunteer completes the service requirement, setting a feedback measurement by the user terminal; and

and the user side writes an intelligent contract according to a time stamp and the feedback measurement and is used for updating the intelligent contracts recorded by a service block chain.

7. The method as claimed in claim 6, wherein the user terminal selects at least one volunteer from the human management terminal.

8. The method as claimed in claim 6, wherein the user end signs the smart contracts by a symmetric encryption algorithm and generates the care blockchain according to the time stamp.

9. The method as claimed in claim 6, wherein the ue sends an update notification to a temporal bank and updates the chain of blocks under long-term care.

10. The method as claimed in claim 6, wherein the ue calculates a conversion ratio of the feedback metric at different times according to the care blockchain.

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