CN109273082B - Body detection system for tumor detection - Google Patents

Abstract

The invention provides a body detection system for tumor detection, which comprises body detection equipment, a body detection unit and a body detection unit, wherein the body detection equipment is used for detecting a physiological index of a user according to a preset detection period and obtaining a detection result corresponding to each detection period; the background server is used for analyzing whether each physiological index in the detection result corresponding to each detection period falls into a preset physiological index or not; and when the physiological index which does not fall into the preset physiological index exists, sending the physiological index which does not fall into the preset physiological index, the detection cycle identifier corresponding to the physiological index and the detection result to the monitoring terminal.

Description

Body detection system for tumor detection

Technical Field

The invention relates to the technical field of data analysis, in particular to a body detection system for tumor detection.

Background

Currently, malignant tumors are one of the major diseases that currently seriously affect human health and threaten human life. Tumors, together with cardiovascular and cerebrovascular diseases and accidents, constitute three major causes of death in all countries of the world today. Early detection, early diagnosis, early treatment are key to reducing mortality of cancer patients. Therefore, the method for early diagnosis of tumor, especially the method for diagnosing cells before transformation from normal to abnormal, plays an important role in improving the cure rate of tumor and saving the life of tumor patients.

Research shows that endocrine dyscrasia, metabolism change with age, physical fatigue and other factors induced tumors show symptoms in early period of the body, and the symptoms can be observed and judged by continuously detecting vital sign parameters such as heart rate, blood pressure, blood oxygen and the like. Many early-stage tumor diagnosis methods are only found when in vivo cells have found lesions, and the detection method is labor-consuming and expensive, so most people do not meet the condition of early detection, and even if the detection is carried out, the tumors are often in a late stage.

The current research shows that the human body is accompanied with abnormal heart rate in the early stage of tumor, and the blood pressure and the blood oxygen have larger changes. However, the prior art lacks a monitoring technology which can be known in time when the physiological index of the user is abnormal, and the monitoring technology is generally manual, so that the efficiency is low, and more manpower is occupied.

Disclosure of Invention

To solve the above technical problems, the present invention provides a body detection system for tumor detection.

In an embodiment of the invention, a body detection system for tumor detection is provided, comprising:

the body detection equipment is used for detecting the physiological index of the user according to a preset detection period to obtain a detection result corresponding to each detection period;

the background server is used for analyzing whether each physiological index in the detection result corresponding to each detection period falls into a preset physiological index or not; and when the physiological index which does not fall into the preset physiological index exists, sending the physiological index which does not fall into the preset physiological index, the detection cycle identifier corresponding to the physiological index and the detection result to the monitoring terminal.

In one embodiment, the portable terminal is used for reporting the geographical position of the portable terminal to the background server according to a preset reporting period;

the background server is also used for respectively reporting the geographical positions in a plurality of reporting periods according to the preset reporting period of the portable terminal; determining the frequent address of the portable terminal according to the geographical positions respectively reported in the plurality of reporting periods;

the statistical server is used for counting the tumor prevalence rate of resident population in each geographic area; monitoring whether the tumor prevalence rate of resident population in each geographic area is equal to or greater than a preset prevalence rate in real time; screening out dangerous geographical areas with the prevalence rate equal to or greater than a preset prevalence rate; judging whether the current address of the portable terminal is located in the dangerous geographical area; when the judgment result is yes, sending a notification that the current address of the portable terminal is located in a dangerous geographic area to the background server, wherein the notification also carries the name of the dangerous geographic area;

the background server is further configured to send the notification to the portable terminal.

In one embodiment, the body detection device comprises a bracelet, on which a physiological index detection component is disposed, the physiological index detection component comprising any one or more of a heart rate detection component, a pulse detection component, a blood oxygen value detection component, and a blood pressure detection component.

In one embodiment, the bracelet comprises two wristbands and a bracelet body arranged between the two wristbands; the length of the first wrist strap is larger than that of the second wrist strap;

the first wrist strap is internally provided with an accommodating space which is communicated with the outside through a hole on the first wrist strap; a bendable plate-shaped body movably disposed in the accommodating space and detachable from the wrist band through the hole; a data plug is arranged at one end of the plate-shaped body, which is close to the connecting end of the first wrist strap and the first wrist strap, and a data jack matched with the data plug is arranged at one end of the first wrist strap, which is connected with the first wrist strap, of the plate-shaped body; the inner surface of the plate-shaped body is provided with a plurality of placing grooves, a physiological index detection assembly is placed in each placing groove, and each physiological index detection assembly is connected with the data plug through a data line arranged in the plate-shaped body; the plate-shaped body is also provided with a button battery which is connected with each physiological index detection component; when the plate-shaped body is arranged in the first wrist strap, the data plug is inserted into the data jack, and the inner surface of the first wrist strap is provided with an opening matched with the physiological index detection assembly, so that when the wrist is worn with the bracelet, the physiological index detection assembly can be contacted with the skin of the wrist when the first wrist strap is worn on the wrist, and the purpose of detection is achieved;

one end of the first wrist strap, which is far away from the bracelet main body, is connected with a first elastic belt, and a buckle joint is arranged on the first elastic belt. One end of the second wrist strap, far away from the bracelet main body, is connected with a second elastic belt, and a buckle hole matched with the buckle joint is formed in the second elastic belt.

In one embodiment, the background server is further configured to:

analyzing the tumor potential risk of the user according to the detection result corresponding to each detection period and a preset tumor diagnosis model, wherein the analysis comprises the following steps:

step 1: acquiring detection results corresponding to N1 continuous detection periods from the body detection equipment to obtain N1 detection results; determining whether the N1 is equal to or greater than N; if yes, continuing to step 2; otherwise, ending the flow;

step 2: determining the number of a first group of detection results of which the blood pressure value is greater than a preset blood pressure value from the N1 detection results; continuing to step 3 when the number of the first set of detection results is equal to or greater than N2; when the number of the first group of detection results is less than N2, deleting the N1 detection results, and reusing the body detection equipment for detection;

and step 3: when the number of the first group of detection results is equal to or larger than N2, judging whether the detection period corresponding to each detection result in the first group of detection results is adjacent; when not adjacent, returning to the step 1; when adjacent, continuing to step 4;

and 4, step 4: when the detection periods corresponding to each detection result in the first group of detection results are adjacent, determining the number of the second group of detection results when the organ of the user is in the sub-health state according to the N1 detection results; judging whether the number of the second group of detection results is equal to or larger than N3; when the number of the second group of detection results is equal to or greater than N3, recording the first organ in the sub-health state, and continuing to the step 5;

and 5: determining a second organ with a blood oxygen value equal to or less than a preset blood oxygen value from the N1 test results; judging the number of detection results that the blood oxygen value of the second organ is equal to or less than a preset blood oxygen value; when the number is equal to or greater than N4, recording a second organ, and continuing with step 6; when the number is less than N4 and greater than 1, returning to the step 5; when the number is equal to 0, ending the flow;

step 6: and taking the first organ, the second organ, the first group of detection results and the second group of detection results as a basis for judging whether the user has a potential tumor risk, analyzing the potential tumor risk of the user by combining a preset tumor diagnosis model, and generating an analysis report.

In one embodiment, the preset tumor diagnosis model at least includes a value range of a physiological index of a preset organ of a tumor potential patient;

the step 6 includes:

judging whether the first organ and the second organ contain the preset organ or not;

when the first organ and the second organ contain the preset organ, judging whether the physiological index corresponding to the first organ in the first group of detection results is located in a value range of the physiological index corresponding to the first organ and judging whether the physiological index corresponding to the second organ in the second group of detection results is located in a value range of the physiological index corresponding to the second organ; when the two judgment results are yes, generating a report that the user is a potential tumor patient; when at least one of the two judgment results is negative, generating a report that the user is not a tumor potential patient;

generating a report that the user is not a potential patient for a tumor when the predetermined organ is not included in the first and second organs.

In one embodiment, the system further comprises a user information collecting module for collecting user information of the user, wherein the user information comprises gender and age;

the background server analyzes the tumor potential risk of the user according to the detection result corresponding to each detection period and a preset tumor diagnosis model, and the method comprises the following steps:

the background server acquires a matching model matched with the gender and the age of the user from a preset tumor diagnosis model according to the gender and the age of the user;

and analyzing the tumor potential risk of the user according to the detection result corresponding to each detection period and the matching model.

In one embodiment, further comprising:

and the client is in communication connection with the background server and is used for acquiring an analysis result obtained after the background server analyzes the tumor potential risk of the user and displaying the analysis result to the user.

In an embodiment, the background server is further configured to send the analysis result to the client when the analysis result obtained after the analysis of the tumor potential risk of the user is a preset result.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a block diagram of a tumor prognosis system based on data analysis according to the present invention;

FIG. 2 is a flow chart of a background server process provided by the present invention;

FIG. 3 is a schematic view of a bracelet structure according to the present invention;

fig. 4 is a schematic structural view of a back cover of a bracelet according to the present invention;

fig. 5 is a side view of the back cover structure of the bracelet provided by the invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

According to the technical scheme, the long-term physiological trend is judged mainly through big data by using the pulse wave theory of the traditional Chinese medicine according to the acquired physiological data such as heart rate, blood pressure and blood oxygen data and the personal information of a user such as sex and age. The tumor diagnosis model judges the physiological change corresponding to each time through midnight-noon ebb-flow of the internal meridian of the yellow emperor in traditional Chinese medicine to judge the real-time state of organs, judges clinical symptoms according to the real-time physiological change, for example, predicts the risk of tumor diseases, and can provide the prompt of the risk of tumor diseases for users in advance.

An embodiment of the present invention provides a body detection system for tumor detection, as shown in fig. 1, including:

the body detection equipment is used for detecting the physiological index of the user according to a preset detection period to obtain a detection result corresponding to each detection period; wherein the physiological index can be any one or more of heart rate, pulse, blood oxygen value and blood pressure;

the background server is used for analyzing whether each physiological index in the detection result corresponding to each detection period falls into a preset physiological index or not; and when the physiological index which does not fall into the preset physiological index exists, sending the physiological index which does not fall into the preset physiological index, the detection cycle identifier corresponding to the physiological index and the detection result to the monitoring terminal.

The system can be timely known when the physiological index of the user is abnormal, is convenient for monitoring the body of the user, and provides short-term referential body data for a doctor to diagnose whether the user has the tumor.

In one embodiment, the system further comprises:

the portable terminal is used for reporting the geographical position of the portable terminal to the background server according to a preset reporting period;

the background server is also used for respectively reporting the geographical positions in a plurality of reporting periods according to the preset reporting period of the portable terminal; determining the frequent address of the portable terminal according to the geographical positions respectively reported in the plurality of reporting periods; for example, the geographical position with the largest occurrence frequency in the geographical positions respectively reported in the plurality of reporting periods is determined as the current address of the portable terminal;

the statistical server is used for counting the tumor prevalence rate of resident population in each geographic area; monitoring whether the tumor prevalence rate of resident population in each geographic area is equal to or greater than a preset prevalence rate in real time; screening out dangerous geographical areas with the prevalence rate equal to or greater than a preset prevalence rate; judging whether the current address of the portable terminal is located in the dangerous geographical area; when the judgment result is yes, sending a notification that the current address of the portable terminal is located in a dangerous geographic area to the background server, wherein the notification also carries the name of the dangerous geographic area;

the background server is further configured to send the notification to the portable terminal.

By the technical scheme, the user resident address can be conveniently analyzed, and when the user resident address is a tumor high-incidence area, the user is timely reminded, so that the user can prevent whether the resident address has environmental problems such as drinking water, air and the like. In modern society, people cannot know whether a resident address of the people is a tumor high-incidence area, if the resident address is the tumor high-incidence area, the current global environment is deteriorated and probably caused by local environmental problems, in reality, many cases show that the environmental problems can cause the tumor high incidence, people usually can independently obtain the tumor disease information of each area only by listening to news and other modes, and the prior art does not have a quick and convenient way for people to obtain the information in time, so the technical means makes up the defect.

In one embodiment, the body detection device may be implemented as a bracelet on which the physiological index detection component is disposed, and the physiological index detection component includes any one or more of a heart rate detection component, a pulse detection component, a blood oxygen value detection component, and a blood pressure detection component. Other body detection devices are also possible, as long as the physiological index of the user can be detected, and the invention is not limited.

In an embodiment, the background server analyzes the tumor potential risk of the user according to the detection result corresponding to each detection period and a preset tumor diagnosis model, as shown in fig. 2, the method may be implemented as the following steps 1 to 6:

step 1: acquiring detection results corresponding to N1 continuous detection periods from the body detection equipment to obtain N1 detection results; determining whether N1 is equal to or greater than N; if yes, continuing to step 2; otherwise, ending the flow;

the detection period may be calculated by day, for example, one detection period per day. Preferably, N may be a value set in advance such as 14, 21, 35, etc., preferably 21; n1 is preferably also 21, i.e. 21 days of detection can be obtained in step 1. When a certain number of detection results are available, the detection results can be used as an effective basis for subsequent prediction diagnosis, and if the number of the detection results is insufficient, the user is continuously detected.

Step 2: determining the number of the first group of detection results of which the blood pressure value is greater than the preset blood pressure value from the N1 detection results;

continuing to step 3 when the number of the first set of detection results is equal to or greater than N2;

and when the number of the first group of detection results is less than N2, deleting N1 detection results and reusing the body detection equipment for detection.

Among them, when N1 is equal to 21, N2 is preferably 7.

If the blood pressure value is larger than the preset blood pressure value, the blood pressure of the user is abnormal, and when more blood pressures in the detection result are abnormal, the subsequent step 3 needs to be continuously executed for prediction; when the abnormal blood pressure is less, the user is healthy, and the body of the user can be continuously detected.

And step 3: when the number of the first group of detection results is equal to or larger than N2, judging whether the detection period corresponding to each detection result in the first group of detection results is adjacent; when not adjacent, returning to the step 1; when adjacent, continue step 4.

That is, when the abnormal blood pressure condition of the user continuously appears, it indicates that the body of the user may have a problem, and the prediction needs to be continued to the subsequent step 4. When the abnormal condition of the blood pressure of the user is not continuous, the body of the user is indicated to have no big obstacle, and the body detection of the user is continued.

And 4, step 4: when the detection periods corresponding to each detection result in the first group of detection results are adjacent, determining the number of the second group of detection results of the sub-health state of the organ of the user according to the N1 detection results; judging whether the number of the second group of detection results is equal to or larger than N3;

when the number of second set of test results is equal to or greater than N3, the first organ in sub-health state is recorded and step 5 is continued.

Wherein preferably N3 is 15.

And 5: determining a second organ having a blood oxygen value equal to or less than a predetermined blood oxygen value from the N1 test results; and judging the number of detection results that the blood oxygen value of the second organ is equal to or less than the preset blood oxygen value; when the number is equal to or greater than N4, recording a second organ, and continuing with step 6; when the number is less than N4 and greater than 1, returning to the step 5; when the number is equal to 0, the flow ends.

Wherein preferably N4 is 10.

Step 6: and (3) taking the first organ, the second organ, the first group of detection results and the second group of detection results as a basis for judging whether the user has the potential tumor risk, analyzing the potential tumor risk of the user by combining a preset tumor diagnosis model, and generating an analysis report.

The system provided by the embodiment of the invention can predict the potential tumor risk of the user according to the body detection result, and compared with the prior art which needs artificial prediction, the system provides an intelligent auxiliary means, has scientific basis, can ensure the prediction accuracy, and can evaluate the tumor risk of the user in time.

In one embodiment, the preset tumor diagnosis model at least comprises a value range of a physiological index of a preset organ of a tumor potential patient;

and step 6, comprising:

judging whether the first organ and the second organ contain a preset organ or not;

when the first organ and the second organ contain preset organs, judging whether the physiological index corresponding to the first organ in the first group of detection results is located in the value range of the physiological index corresponding to the first organ and judging whether the physiological index corresponding to the second organ in the second group of detection results is located in the value range of the physiological index corresponding to the second organ; when the two judgment results are yes, generating a report that the user is a potential tumor patient; when at least one of the two judgment results is negative, generating a report that the user is not a potential tumor patient;

when the preset organ is not included in the first organ and the second organ, a report is generated that the user is not a potential patient for a tumor.

In the system, the tumor diagnosis model is established in advance, so that a relatively accurate prediction means is provided for predicting the potential risk of the tumor.

In one embodiment, the system further comprises a user information collecting module for collecting user information of the user, wherein the user information comprises gender and age;

the background server analyzes the tumor potential risk of the user according to the detection result corresponding to each detection period and a preset tumor diagnosis model, and the method comprises the following steps:

the background server acquires a matching model matched with the gender and the age of the user from a preset tumor diagnosis model according to the gender and the age of the user;

and analyzing the potential tumor risk of the user according to the detection result and the matching model corresponding to each detection period.

The system can predict the user according to the information of the user such as sex, age and the like according to the corresponding tumor diagnosis model, fully considers the difference and individuality of different sexes and ages in tumor diagnosis, and improves the prediction accuracy.

In one embodiment, the system may further include:

and the client is in communication connection with the background server and is used for acquiring an analysis result obtained after the background server analyzes the tumor potential risk of the user and displaying the analysis result to the user.

Therefore, the user can obtain the analysis result of the tumor potential risk of the user at any time and know the situation in time.

In an embodiment, the background server is further configured to send the analysis result to the client when the analysis result obtained after the analysis of the tumor potential risk of the user is a preset result. For example, when the analysis result shows that the user is a potential tumor patient, the analysis result is sent to the client; when the analysis result shows that the user is not a potential tumor patient, not sending the analysis result to the client; therefore, the information can be selectively sent, the processing load on the background server is reduced, the information interaction between the background server and the client is reduced, and the network resources between the background server and the client are saved.

In one embodiment, as shown in fig. 3, the bracelet includes two wristbands and a bracelet body 31 disposed between the two wristbands; of the two wristbands, the first wristband 32 is longer than the second wristband 33.

The first wrist strap 32 has an accommodating space 30 therein, and the accommodating space 30 is communicated with the outside through a hole on the first wrist strap 32; a bendable plate-like body 34, the plate-like body 34 being movably disposed in the accommodating space 30 and being detachable from the wrist band through the hole; a data plug 35 is arranged at one end of the plate-shaped body 34 close to the connecting end of the first wrist strap 32 and the first wrist strap 31, and a data jack 40 matched with the data plug 35 is arranged at one end of the first wrist strap 31 connected with the first wrist strap 32; a plurality of placing grooves 37 are formed in the inner surface of the plate-shaped body 34, a physiological index detecting assembly 38 is placed in each placing groove 37, and each physiological index detecting assembly 38 is connected with the data plug 35 through a data line arranged in the plate-shaped body 34; the plate-like body 34 is also provided with button cells 36, the button cells 36 being connected to each physiological index detecting assembly 38. When the plate-shaped body 34 is placed inside the first wrist strap 32, the data plug 35 is plugged into the data jack 40, and the inner surface of the first wrist strap 32 is provided with an opening matched with the physiological index detecting component 38, so that when the wrist wears the bracelet and the first wrist strap 32 is worn on the wrist, the physiological index detecting component 38 can also be contacted with the skin of the wrist, thereby achieving the purpose of detection.

The first wrist strap 32 is connected to a first elastic strap 39 at an end (free end) away from the main body of the wrist strap, and the first elastic strap 39 is provided with a buckle connector 310. One end (free end) of the second wrist strap 33 far away from the wrist strap body is connected with a second elastic belt 311, and a fastening hole 312 adapted to the fastening head 310 is disposed on the second elastic belt 311.

In the above-described bracelet, the plate-like body 34 can be detached from the bracelet, and when the bioassay function is to be used, the plate-like body 34 is inserted into the first wristband 32, and when the bioassay function is not to be used, the plate-like body 34 is pulled out of the first wristband 32. The plate-shaped body 34 can be conveniently inserted into the data socket 36 of other mobile terminals, so that other mobile terminals can conveniently obtain physiological detection results.

In another embodiment, as shown in fig. 4 and 5, the bracelet main body includes a dial plate on which a display screen can be arranged, a power supply or other modules can be arranged inside the dial plate, and a back cover 41 is arranged at the bottom of the dial plate and is rectangular or square; the conventional back cover 41 is fixed at the bottom end of the dial plate through screws, but the back cover 41 can be opened only by a special screwdriver in the mode, which is inconvenient. The embodiment of the invention improves the rear cover and provides a back stage which is convenient to open and close, wherein the plate-shaped body 34 is made of hard material, such as metal, and is in a semi-annular shape (as shown in fig. 4).

One side of the back cover 41 is rotatably connected to the bottom end frame of the dial, the inner surface of the back cover 41 is further provided with a micro motor 42, a driving shaft 43 of the micro motor 42 penetrates through the other side of the back cover 41 (which belongs to the adjacent side with the one side of the back cover 41), the driving shaft 43 is perpendicular to the other side, a gear 44 penetrates through the driving shaft 43, and the gear 44 can be driven by the driving shaft 43 to rotate; the micro motor 42 is used for driving the driving shaft 43 to rotate; the micro-motor 42 is connected to a power supply within the dial. A processor 45 is also arranged in the dial, a key 46 is also arranged on the dial, and when the key 46 is pressed once, the processor 45 controls the micro motor 42 to drive the driving shaft 43 to rotate; when the button 46 is pressed next time, the processor 45 controls the micro motor 42 to drive the driving shaft 43 to stop rotating. The rotating drive shaft 43 rotates the gear 44.

The bottom end of the dial is provided with a groove 51 with the shape matched with that of the rear cover 41 of the associated gear 44; wherein, the lower end of the part of the groove 51 which is matched with the gear 44 is provided with a jack 52, and the jack 52 is matched with the shape of the data plug 35; in the use state, the back cover 41 with the gear 44 is positioned in the groove 51, so as to achieve the effect of closing the dial. The jack 52 may be a data jack adapted to the shape of the data plug 35, and in this case, it functions not only as a fixed rail but also as a spare jack for the data jack 40 by guiding data in the plate-like body into the bracelet body.

One circumferential edge of the inner surface of the plate-like body 34 is provided with a guide rail 53 (not shown) which is engaged with the gear 44;

when it is desired to open the rear cover 41, the semi-annular plate-like body is pulled out from the first wrist band 32, the data plug 35 is inserted into the insertion hole 52, and the guide rail 53 of the plate-like body faces the gear 44. When the user presses the button 46, the processor 45 controls the micro-motor 42 to drive the gear 44 to start rolling along the guide rail 53, and the guide rail 53 drives the gear 44 to continuously advance along the guide rail 53, so as to open the rear cover 41. After opening, the plate-like body 34 is pulled out from the insertion hole 52, and the rear cover 41 is manually pushed into the recess 51.

In the structure, the plate-shaped body additionally serves as the guide rail without additionally configuring a special guide rail, so that the whole structure of the bracelet is simplified, and the bracelet is convenient and quick to use.

In one embodiment, there may be a plurality of monitoring terminals, and there may also be a plurality of backend servers, and when the monitoring terminal is an application program, each backend server is responsible for information transmission with the monitoring terminal registered in the backend server.

In another embodiment, the monitoring terminal that is not registered with the background server may also request the preset information from the background server, at this time, the system may further include an allocation server, at this time:

the method comprises the steps that a distribution server obtains an information obtaining request transmitted by a monitoring terminal, wherein the information obtaining request comprises a network address range of a preset geographic area and the current geographic position of the monitoring terminal;

the distribution server searches for at least one background server with a network address located in the network address range of the preset geographic area; acquiring at least one target background server in an accessible state from the at least one background server, and distributing a server identifier for each target background server; transmitting the server identification of at least one target background server to the monitoring terminal for selection by a user of the monitoring terminal; the monitoring terminal receives a server identification selected by a user, the selected server identification is sent to a distribution server, the distribution server searches background server information matched with the server identification in a prestored information base according to the selected server identification, a network address range corresponding to each geographical area and all background server information belonging to each network address range are stored in the information base, and the background server information comprises the network address of the background server, the server identification, state information and geographical area information of the monitoring terminal which is allowed to access the background server; judging whether the current geographic position of the monitoring terminal is located in a geographic area of the monitoring terminal which allows the access of the matched background server, and if not, returning a notification of forbidding the access to the monitoring terminal; if so, acquiring the network address of the matched background server and sending the network address to the monitoring terminal, and establishing the connection between the matched background server and the monitoring terminal.

After the connection between the matched background server and the monitoring terminal is established, information transmission can be realized between the matched background server and the monitoring terminal. The technical scheme can facilitate personnel to obtain the background server which is required to be accessed and is not registered through the monitoring terminal, and access is performed under the permission of the background server, so that the information security is ensured.

The establishing of the connection between the matched background server (hereinafter referred to as background server) and the monitoring terminal may be implemented as:

when the monitoring terminal registers to the transfer server, the transfer server and the monitoring terminal perform authentication and key agreement, and respectively generate authentication information for establishing a secure channel for the background server and the monitoring terminal; after the authentication information is generated, the transit server and the monitoring terminal respectively store the generated authentication information; the generation of the authentication information can be realized by adopting the prior art, and is not described in detail herein. The transfer server positions a management server of the monitoring terminal; the method of the transit server locating the management server may be obtained based on address information of the management server provided by the monitoring terminal in the transit server. The transfer server sends the generated authentication information and the identification of the monitoring terminal to a management server through a secure channel; when the monitoring terminal sends a data acquisition request to the background server within a preset time, the background server initiates inquiry to the management server to acquire the state of the monitoring terminal; if the monitoring terminal is in a login state, the management server returns an identifier of the monitoring terminal and authentication information required by the monitoring terminal and the background server to establish a secure channel besides returning the state of the monitoring terminal to the background server;

if the monitoring terminal is not logged in, the background server sends a first request message for requesting the monitoring terminal to log in to the management server, wherein the first request message comprises an identifier of the monitoring terminal and an identifier of the background server;

the management server sends a first request message to the transfer server through the secure channel;

the transfer server sends a first request message to the mobile equipment where the monitoring terminal is located;

when the mobile equipment receives the first request message, starting the monitoring terminal, and sending a second request message to the monitoring terminal, wherein the second request message comprises the identifier of the background server;

after receiving the second request message, the monitoring terminal, according to the identifier of the background server in the second request message,

judging whether the identification of the background server of the receiving party corresponding to the data acquisition request sent by the monitoring terminal is consistent with the identification of the background server in the second request message; when the network channels are consistent, a network channel from the monitoring terminal to the background server is established;

the monitoring terminal and the background server perform mutual authentication of the monitoring terminal and the background server based on the authentication information, and after the authentication is passed, end-to-end data security transmission connection between the monitoring terminal and the background server is formed.

The method for establishing the data security transmission connection can improve the security of information transmission between the monitoring terminal and the background server.

After the data security transmission connection is established, the background server encrypts preset information according to network transmission configuration information to obtain encrypted data, wherein the network transmission configuration information is used for carrying out encryption classification on the network data and configuring a security strategy;

the background server sends the encrypted data to the monitoring terminal through the data security transmission connection; and the monitoring terminal decrypts the encrypted data after receiving the encrypted data to obtain preset information. The transmission safety of the preset information is improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (5)

1. A body detection system for tumor detection, comprising:

the body detection equipment is used for detecting the physiological index of the user according to a preset detection period to obtain a detection result corresponding to each detection period;

the background server is used for analyzing whether each physiological index in the detection result corresponding to each detection period falls into a preset physiological index or not; when a physiological index which does not fall into a preset physiological index exists, sending the physiological index which does not fall into the preset physiological index, a detection cycle identifier corresponding to the physiological index and a detection result to a monitoring terminal;

the number of the monitoring terminals is multiple, and the number of the background servers is multiple;

the monitoring terminal which is not registered with the background server requests the background server for information to be transmitted, at this time, the system further comprises a distribution server, and at this time:

the method comprises the steps that a distribution server obtains an information obtaining request transmitted by a monitoring terminal, wherein the information obtaining request comprises a network address range of a preset geographic area and the current geographic position of the monitoring terminal;

the distribution server searches for at least one background server with a network address located in the network address range of the preset geographic area; acquiring at least one target background server in an accessible state from the at least one background server, and distributing a server identifier for each target background server; transmitting the server identification of at least one target background server to the monitoring terminal for selection by a user of the monitoring terminal; the monitoring terminal receives a server identification selected by a user, the selected server identification is sent to a distribution server, the distribution server searches background server information matched with the server identification in a prestored information base according to the selected server identification, a network address range corresponding to each geographical area and all background server information belonging to each network address range are stored in the information base, and the background server information comprises the network address of the background server, the server identification, state information and geographical area information of the monitoring terminal which is allowed to access the background server; judging whether the current geographic position of the monitoring terminal is located in a geographic area of the monitoring terminal which allows the access of the matched background server, and if not, returning a notification of forbidding the access to the monitoring terminal; if so, acquiring the network address of the matched background server and sending the network address to the monitoring terminal, and establishing the connection between the matched background server and the monitoring terminal;

the method comprises the following steps of matching background servers, monitoring terminals and the like, wherein the steps of the connection between the matched background servers and the monitoring terminals are as follows:

when the monitoring terminal registers to the transfer server, the transfer server and the monitoring terminal perform authentication and key agreement, and respectively generate authentication information for establishing a secure channel for the background server and the monitoring terminal; after the authentication information is generated, the transit server and the monitoring terminal respectively store the generated authentication information;

the transfer server positions the management server of the monitoring terminal according to the address information of the management server provided by the monitoring terminal in the transfer server;

the transfer server sends the generated authentication information and the identification of the monitoring terminal to a management server through a secure channel; when the monitoring terminal sends a data acquisition request to the background server which establishes matching within a preset time length, the background server which establishes matching initiates inquiry to the management server to acquire the state of the monitoring terminal; if the monitoring terminal is in a login state, the management server returns an identifier of the monitoring terminal, authentication information required by the monitoring terminal and a matched background server to establish a security channel, besides the state of the monitoring terminal to the background server;

if the monitoring terminal is not logged in, establishing a matched background server to send a first request message for requesting the monitoring terminal to log in to a management server, wherein the first request message comprises an identifier of the monitoring terminal and an identifier of the matched background server;

the management server sends a first request message to the transfer server through the secure channel;

the transfer server sends a first request message to the mobile equipment where the monitoring terminal is located;

when the mobile equipment receives the first request message, starting the monitoring terminal, and sending a second request message to the monitoring terminal, wherein the second request message comprises the identifier of the background server for establishing matching;

after receiving the second request message, the monitoring terminal judges whether the identifier of the background server of the receiving party corresponding to the data acquisition request sent by the monitoring terminal is consistent with the identifier of the background server establishing the matching in the second request message according to the identifier of the background server establishing the matching in the second request message; when the network channels are consistent, a network channel from the monitoring terminal to the background server which is matched with the monitoring terminal is established;

the monitoring terminal and the matching background server perform mutual authentication of the monitoring terminal and the matching background server based on the authentication information, and after the authentication is passed, end-to-end data security transmission connection between the monitoring terminal and the matching background server is formed;

after establishing data security transmission connection, establishing a matched background server to encrypt preset information according to network transmission configuration information to obtain encrypted data, wherein the network transmission configuration information is used for carrying out encryption classification on the network data and configuring a security strategy;

establishing a matched background server and sending encrypted data to the monitoring terminal through data security transmission connection; the monitoring terminal decrypts the encrypted data after receiving the encrypted data to obtain preset information;

the background server is further configured to:

analyzing the tumor potential risk of the user according to the detection result corresponding to each detection period and a preset tumor diagnosis model, wherein the analysis comprises the following steps:

step 1: acquiring detection results corresponding to N1 continuous detection periods from the body detection equipment to obtain N1 detection results; determining whether the N1 is equal to or greater than N; if yes, continuing to step 2; otherwise, ending the flow;

step 2: determining the number of a first group of detection results of which the blood pressure value is greater than a preset blood pressure value from the N1 detection results; continuing to step 3 when the number of the first set of detection results is equal to or greater than N2; when the number of the first group of detection results is less than N2, deleting the N1 detection results, and reusing the body detection equipment for detection;

and step 3: when the number of the first group of detection results is equal to or larger than N2, judging whether the detection period corresponding to each detection result in the first group of detection results is adjacent; when not adjacent, returning to the step 1; when adjacent, continuing to step 4;

and 4, step 4: when the detection periods corresponding to each detection result in the first group of detection results are adjacent, determining the number of the second group of detection results when the organ of the user is in the sub-health state according to the N1 detection results; judging whether the number of the second group of detection results is equal to or larger than N3; when the number of the second group of detection results is equal to or greater than N3, recording the first organ in the sub-health state, and continuing to the step 5;

and 5: determining a second organ with a blood oxygen value equal to or less than a preset blood oxygen value from the N1 test results; judging the number of detection results that the blood oxygen value of the second organ is equal to or less than a preset blood oxygen value; when the number is equal to or greater than N4, recording a second organ, and continuing with step 6; when the number is equal to 0, ending the flow;

step 6: the first organ, the second organ, the first group of detection results and the second group of detection results are used as a basis for judging whether the user has a potential tumor risk, and the potential tumor risk of the user is analyzed by combining a preset tumor diagnosis model to generate an analysis report;

the portable terminal is used for reporting the geographical position of the portable terminal to the background server according to a preset reporting period;

the background server is also used for receiving the geographical positions respectively reported by the portable terminal in a plurality of reporting periods according to a preset reporting period; determining the frequent address of the portable terminal according to the geographical positions respectively reported in the plurality of reporting periods;

the statistical server is used for counting the tumor prevalence rate of resident population in each geographic area; monitoring whether the tumor prevalence rate of resident population in each geographic area is equal to or greater than a preset prevalence rate in real time; screening out dangerous geographical areas with the prevalence rate equal to or greater than a preset prevalence rate; judging whether the current address of the portable terminal is located in the dangerous geographical area; when the judgment result is yes, sending a notification that the current address of the portable terminal is located in a dangerous geographic area to the background server, wherein the notification also carries the name of the dangerous geographic area;

the background server is also used for sending the notification to the portable terminal;

the body detection equipment comprises a bracelet, wherein a physiological index detection assembly is arranged on the bracelet, and the physiological index detection assembly comprises any one or more of a heart rate detection assembly, a pulse detection assembly, a blood oxygen value detection assembly and a blood pressure detection assembly;

the bracelet comprises two wristbands and a bracelet main body (31) arranged between the two wristbands; the length of the first wrist strap (32) is larger than that of the second wrist strap (33);

the first wrist strap (32) is internally provided with an accommodating space (30), and the accommodating space (30) is communicated with the outside through a hole on the first wrist strap (32); a bendable plate-like body (34), the plate-like body (34) being movably disposed in the accommodating space (30) and being detachable from the wrist band through the hole; a data plug (35) is arranged at one end of the plate-shaped body (34) close to the connecting end of the first wrist strap (32) and the first wrist strap (31), and a data jack (40) matched with the data plug (35) is arranged at one end of the first wrist strap (31) connected with the first wrist strap (32); a plurality of placing grooves (37) are formed in the inner surface of the plate-shaped body (34), a physiological index detection assembly (38) is placed in each placing groove (37), and each physiological index detection assembly (38) is connected with the data plug (35) through a data line arranged in the plate-shaped body (34); the plate-shaped body (34) is also provided with a button battery (36), and the button battery (36) is connected with each physiological index detection component (38); when the plate-shaped body (34) is arranged in the first wrist strap (32), the data plug (35) is plugged in the data jack (40), and the inner surface of the first wrist strap (32) is provided with an opening hole matched with the physiological index detection component (38), so that when the first wrist strap (32) is worn on a wrist when the wrist is worn on the wrist, the physiological index detection component (38) can be contacted with the skin of the wrist, and the purpose of detection is achieved;

one end of the first wrist strap (32) far away from the main body of the wrist strap is connected with a first elastic belt (39), and a buckle joint (310) is arranged on the first elastic belt (39); one end of the second wrist strap (33) far away from the wrist strap body is connected with a second elastic strap (311), and a buckle hole (312) matched with the buckle connector (310) for use is arranged on the second elastic strap (311);

the bracelet main body comprises a dial plate, a display screen is arranged on the dial plate, a power supply or other modules are arranged in the dial plate, a rear cover (41) is arranged at the bottom of the dial plate, and the rear cover is rectangular or square; the plate-shaped body (34) is made of hard material and is semi-annular;

one side edge of the rear cover (41) is rotatably connected to a bottom end frame of the dial plate, a micro motor (42) is further arranged on the inner surface of the rear cover (41), a driving shaft (43) of the micro motor (42) penetrates through the other side edge of the bottom end of the dial plate of the rear cover (41), the other side edge and the rear cover (41) are rotatably connected to the bottom end frame of the dial plate to form adjacent side edges, the driving shaft (43) is perpendicular to the other side edge, a gear (44) penetrates through the driving shaft (43), and the gear (44) is driven by the driving shaft (43) to rotate; the micro motor (42) is used for driving the driving shaft (43) to rotate; the micro motor (42) is connected with a power supply in the dial plate; a processor (45) is further arranged in the dial plate, a key (46) is further arranged on the dial plate, and when the key (46) is pressed once, the processor (45) controls the micro motor (42) to drive the driving shaft (43) to rotate; when the key (46) is pressed next time, the processor (45) controls the micro motor (42) to drive the driving shaft (43) to stop rotating; the rotating driving shaft (43) drives the gear (44) to rotate;

the bottom end of the dial is provided with a groove (51) with the shape matched with that of the rear cover (41) with the gear (44); wherein, the lower end of the part of the groove (51) which is matched with the gear (44) is provided with a jack (52), and the jack (52) is matched with the shape of the data plug (35); when in use, the rear cover (41) with the gear (44) is positioned in the groove (51) to achieve the effect of closing the dial; the jack (52) is a data jack matched with the data plug (35) in shape,

a guide rail (53) meshed with the gear (44) is arranged on one side edge of the inner surface of the plate-shaped body (34) along the circumferential direction;

when the back cover (41) is opened, the semi-annular plate-like body is drawn out from the first wrist band (32), the data plug (35) is inserted into the insertion hole (52), and the guide rail (53) of the plate-like body faces the gear (44); when a user presses the key (46), the processor (45) controls the micro motor (42) to drive the gear (44) to start rolling along the guide rail (53), and the guide rail (53) drives the gear (44) to continuously advance along the guide rail (53), so that the rear cover (41) is opened; after the cover is opened, the plate-shaped body (34) is pulled out of the insertion hole (52), and the rear cover (41) is manually pushed into the groove (51).

2. The system of claim 1,

the preset tumor diagnosis model at least comprises a value range of physiological indexes of preset organs of a tumor potential patient;

the step 6 includes:

judging whether the first organ and the second organ contain the preset organ or not;

when the first organ and the second organ contain the preset organ, judging whether the physiological index corresponding to the first organ in the first group of detection results is located in a value range of the physiological index corresponding to the first organ and judging whether the physiological index corresponding to the second organ in the second group of detection results is located in a value range of the physiological index corresponding to the second organ; when the two judgment results are yes, generating a report that the user is a potential tumor patient; when at least one of the two judgment results is negative, generating a report that the user is not a tumor potential patient;

generating a report that the user is not a potential patient for a tumor when the predetermined organ is not included in the first and second organs.

3. The system of claim 1,

the system also comprises a user information acquisition module for acquiring user information of the user, wherein the user information comprises gender and age;

the background server analyzes the tumor potential risk of the user according to the detection result corresponding to each detection period and a preset tumor diagnosis model, and the method comprises the following steps:

the background server acquires a matching model matched with the gender and the age of the user from a preset tumor diagnosis model according to the gender and the age of the user;

and analyzing the tumor potential risk of the user according to the detection result corresponding to each detection period and the matching model.

4. The system of claim 1, further comprising:

and the client is in communication connection with the background server and is used for acquiring an analysis result obtained after the background server analyzes the tumor potential risk of the user and displaying the analysis result to the user.

5. The system of claim 4,

and the background server is further used for sending the analysis result to the client when the analysis result obtained after the tumor potential risk of the user is analyzed is a preset result.

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