CN111884756A - Safety processing and transmission method for community health data - Google Patents

Abstract

The invention relates to the technical field of data transmission, in particular to a safe processing and transmission method of community health data, which comprises the following steps of S1: collecting community health data, namely collecting the health data of related personnel in each community through a data collection terminal arranged in the community; step S2: processing community health data, namely performing information rate self-adaptive adjustment and safety processing on the acquired community health data; step S3: and transmitting the community health data which is processed safely to a server through a low-latency LORA wireless communication network. After the method is adopted, the channel transmission quality is obtained through physical information calculation, and then the information rate is adaptively adjusted according to the channel transmission quality, so that the high transmission rate and the low error rate of the LORA wireless transmission system are realized, and the community health data transmission is safer; by setting the check bit added in the health data distribution information, whether the distribution is successful is verified, and the accuracy of service distribution is improved.

Description

Safety processing and transmission method for community health data

Technical Field

The invention relates to the technical field of data transmission, in particular to a safe processing and transmission method of community health data.

Background

The intelligent community fully utilizes the integrated application of new-generation information technologies such as Internet of things, cloud computing and mobile internet, and provides a safe, comfortable and convenient modern and intelligent living environment for community residents, so that a community with a new management form based on informatization and intelligent social management and service is formed. The intelligent community comprises five aspects of a basic environment, a basic database group, a cloud exchange platform, an application, a service system of the application and a guarantee system of the application. With the continuous development of the application of the new-generation information technology in the community, the community becomes more intelligent, the current intelligent community is in the early development stage, the future development potential is huge, and the intelligent application can permeate into all aspects of the life of residents.

At present, the construction of smart cities and smart communities in China is relatively popularized in the market application of security and protection fields such as smart buildings and smart homes, the health management and service field with more living potential does not attract enough attention of all parties, and relatively mature products are few. The medical resources in China are unevenly distributed, the problem of population aging is aggravated, and the increase of sub-health people makes the requirements of monitoring and first aid of chronic diseases more and more urgent, the health guarantee service is widely concerned, and the problem of human health monitoring generated therewith also becomes a research hotspot in related fields.

According to the research of the intelligent community cloud health monitoring system, a big data management mode is realized on the collected health data by means of a cloud health service platform, and the storage, analysis and extraction of the health data, the reconstruction of the health information of the client and the like are realized. With the progress of technology, the level of conditions for developing project research is basically met. The intelligent detection equipment at the front end of the guardianship is developed rapidly. Perception equipment and information acquisition equipment based on various transmission technologies such as bluetooth, infrared, zigBee, WIFI come to the market in a large number, and the perception and the collection of health management target crowd's physiological sign, health parameter can easily be accomplished to portable wearable guardianship equipment that the outdoor environment was used and the domestic monitor of multi-parameter intellectuality that uses to the family environment.

The chinese invention patent CN 105118001a discloses a cloud health system of an intelligent community, which is generally divided into 3 levels of an infrastructure service layer, a health service management layer and a health service application layer, wherein the infrastructure service layer mainly provides shared computing capability, storage capability, an operating system and a network environment; the health service management layer can provide a basic application running platform; and the health service application layer provides various health service functions for the user.

Disclosure of Invention

The invention aims to provide a safe community health data processing and transmitting method.

In order to solve the above technical problems, the present invention provides a method for securely processing and transmitting community health data, comprising the following steps,

step S1: collecting community health data, namely collecting the health data of related personnel in each community through a data collection terminal arranged in the community;

step S2: processing community health data, namely performing information rate self-adaptive adjustment and safety processing on the acquired community health data;

step S3: and transmitting the community health data which is processed safely to a server through a low-latency LORA wireless communication network.

Preferably, the step S2 further includes the steps of,

step S21: scanning LORA network node channels, namely scanning transmission channels of all nodes in an LORA wireless transmission system of the Internet of things;

step S22: acquiring channel physical information, namely scanning and acquiring physical information of transmission channels of all nodes;

step S23: the information rate self-adaptive adjustment is carried out, the channel transmission quality is obtained through calculation according to the obtained channel physical information, and the information rate self-adaptive adjustment is carried out according to the channel transmission quality;

step S24: and feeding back the information rate to obtain the information rate after self-adaptive adjustment.

Preferably, the scanning and acquiring physical information of the transmission channel of each node in step S22 includes acquiring a signal-to-noise ratio, a received signal strength, and a bit error rate.

Preferably, the channel transmission quality calculated in step S23 calculates the channel quality by using the number of successes and failures of the transmission frames in succession.

Preferably, the channel transmission quality calculated in step S23 calculates the channel quality by using the physical layer indexes SNIR and RSS.

Preferably, the step S3 further includes the steps of,

step S31: dividing node areas, namely dividing the areas of nodes in the network according to the areas to which the nodes belong, wherein one area comprises an LORA gateway and a plurality of LORA nodes;

step S32: service grouping, namely distributing the services belonging to the same node area to LORA gateways in the node areas;

step S33: and service subdivision transmission, wherein the LORA gateway in the region of the node distributes the packet service to the related LORA nodes respectively.

Preferably, in the step S33, the LORA gateway distributes the packet traffic to the associated LORA nodes in parallel in the traffic segment transmission.

Preferably, in the step S32, an area flag is added after the service data is grouped, and the area flag corresponds to the divided node area in the step S101.

Preferably, in the service subdivision transmission in step S33, the LORA gateway sends a packet service to the LORA node in the node area to which the LORA gateway belongs, and the LORA node receives the packet service and then transmits a response message back; and the LORA gateway confirms that the packet service distribution is completed after receiving the response information of the LORA node.

Preferably, in the service subdivision transmission in step S33, the LORA gateway adds a check bit after sending packet service data to the LORA node in the node area to which the LORA gateway belongs, and the LORA node verifies the correctness of the check bit after receiving the packet service and then uploads a response message.

After the method is adopted, the channel transmission quality is obtained through physical information calculation, and then the information rate is adaptively adjusted according to the channel transmission quality, so that the high transmission rate and the low error rate of the LORA wireless transmission system are realized, and the community health data transmission is safer; by setting the check bit added in the health data distribution information, whether the distribution is successful is verified, and the accuracy of service distribution is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of community health data processing according to the present invention.

FIG. 2 is a flow chart of the transmission of community health data according to the present invention.

Detailed Description

The invention relates to a safe processing and transmission method of community health data, which comprises the following steps

Step S1: collecting community health data, namely collecting the health data of related personnel in each community through a data collection terminal arranged in the community;

step S2: processing community health data, namely performing information rate self-adaptive adjustment and safety processing on the acquired community health data;

step S3: and transmitting the community health data which is processed safely to a server through a low-latency LORA wireless communication network.

As shown in fig. 1, step S2 further includes the steps of,

step S21: scanning LORA network node channels, namely scanning transmission channels of all nodes in an LORA wireless transmission system of the Internet of things;

step S22: acquiring channel physical information, namely scanning and acquiring physical information of transmission channels of all nodes;

step S23: the information rate self-adaptive adjustment is carried out, the channel transmission quality is obtained through calculation according to the obtained channel physical information, and the information rate self-adaptive adjustment is carried out according to the channel transmission quality;

step S24: and feeding back the information rate to obtain the information rate after self-adaptive adjustment.

Preferably, the scanning and acquiring physical information of the transmission channel of each node in step S22 includes acquiring a signal-to-noise ratio, a received signal strength, and a bit error rate.

Preferably, the channel transmission quality calculated in step S23 calculates the channel quality by using the number of successes and failures of the transmission frames in succession.

Preferably, the channel transmission quality calculated in step S23 calculates the channel quality by using the physical layer indexes SNIR and RSS.

As shown in fig. 2, step S3 further includes the steps of,

step S31: dividing node areas, namely dividing the areas of nodes in the network according to the areas to which the nodes belong, wherein one area comprises an LORA gateway and a plurality of LORA nodes;

step S32: service grouping, namely distributing the services belonging to the same node area to LORA gateways in the node areas;

step S33: and service subdivision transmission, wherein the LORA gateway in the region of the node distributes the packet service to the related LORA nodes respectively.

Preferably, in the step S33, the LORA gateway distributes the packet traffic to the associated LORA nodes in parallel in the traffic segment transmission.

Preferably, in the step S32, an area flag is added after the service data is grouped, and the area flag corresponds to the divided node area in the step S101.

Preferably, in the service subdivision transmission in step S33, the LORA gateway sends a packet service to the LORA node in the node area to which the LORA gateway belongs, and the LORA node receives the packet service and then transmits a response message back; and the LORA gateway confirms that the packet service distribution is completed after receiving the response information of the LORA node.

Preferably, in the service subdivision transmission in step S33, the LORA gateway adds a check bit after sending packet service data to the LORA node in the node area to which the LORA gateway belongs, and the LORA node verifies the correctness of the check bit after receiving the packet service and then uploads a response message.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many variations or modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims (10)

1. A safe processing and transmission method of community health data is characterized by comprising the following steps,

step S1: collecting community health data, namely collecting the health data of related personnel in each community through a data collection terminal arranged in the community;

step S2: processing community health data, namely performing information rate self-adaptive adjustment and safety processing on the acquired community health data;

step S3: and transmitting the community health data which is processed safely to a server through a low-latency LORA wireless communication network.

2. The method for securely processing and transmitting community health data as claimed in claim 1, wherein the step S2 further comprises the steps of,

step S21: scanning LORA network node channels, namely scanning transmission channels of all nodes in an LORA wireless transmission system of the Internet of things;

step S22: acquiring channel physical information, namely scanning and acquiring physical information of transmission channels of all nodes;

step S23: the information rate self-adaptive adjustment is carried out, the channel transmission quality is obtained through calculation according to the obtained channel physical information, and the information rate self-adaptive adjustment is carried out according to the channel transmission quality;

step S24: and feeding back the information rate to obtain the information rate after self-adaptive adjustment.

3. A method for secure processing and transmission of community health data according to claim 2, characterized by: the step S22 of scanning and acquiring physical information of transmission channels of each node includes acquiring a signal-to-noise ratio, a received signal strength, and an error rate.

4. A method for secure processing and transmission of community health data according to claim 2, characterized by: the channel transmission quality calculated in said step S23 calculates the channel quality using the number of successes and failures of the transmission frame in succession.

5. A method for secure processing and transmission of community health data according to claim 2, characterized by: the channel transmission quality calculated in said step S23 calculates the channel quality using the physical layer indicators SNIR and RSS.

6. The method for securely processing and transmitting community health data as claimed in claim 1, wherein the step S3 further comprises the steps of,

step S31: dividing node areas, namely dividing the areas of nodes in the network according to the areas to which the nodes belong, wherein one area comprises an LORA gateway and a plurality of LORA nodes;

step S32: service grouping, namely distributing the services belonging to the same node area to LORA gateways in the node areas;

step S33: and service subdivision transmission, wherein the LORA gateway in the region of the node distributes the packet service to the related LORA nodes respectively.

7. The method for securely processing and transmitting community health data according to claim 6, wherein: in the step S33, the LORA gateway in the service subdivision transmission distributes the packet service to the related LORA nodes in parallel.

8. The method for securely processing and transmitting community health data according to claim 6, wherein: the service data in the service packet of step S32 is added with an area flag bit, and the area flag bit corresponds to the divided node area in step S101.

9. The method for securely processing and transmitting community health data according to claim 6, wherein: in the step S33, in service subdivision transmission, the LORA gateway sends packet services to the LORA nodes in the node area to which the LORA gateway belongs, and the LORA nodes receive the packet services and then transmit response messages back; and the LORA gateway confirms that the packet service distribution is completed after receiving the response information of the LORA node.

10. A method for secure processing and transmission of community health data according to claim 9, wherein: in the step S33, in the service subdivision transmission, the LORA gateway adds a check bit after sending packet service data to the LORA node in the node area to which the LORA gateway belongs, and the LORA node verifies the correctness of the check bit after receiving the packet service and then uploads a response message.

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