CN105787841B - Biological and organ function inspection system - Google Patents

Abstract

A system for checking the functions of living body and organ features that after a living body is scanned by a user at client end, the scanning result is transmitted to server via network, and the server analyzes the scanning result and generates an analysis report and a charge message, and then the analysis report is transmitted back to the user at client end for watching and charging. Therefore, the user of the client can conveniently, easily and cheaply use the service provided by the system and share the database resources.

Description

Biological and organ function inspection system

Technical Field

The present invention relates to a system for checking biological and organ functions, and more particularly, to a system for checking biological and organ functions, which scans a biological by a detection machine, analyzes the scanning result by a server, generates an analysis report and billing information, and transmits the analysis report back to a user for viewing.

Background

With the improvement of living conditions, modern people pay more and more attention to the health of the modern people and family. Conventional health examination methods often require the use of many complicated, time-consuming, expensive, and potentially uncomfortable or even invasive examination methods, such as blood tests, urine tests, ultrasound, X-rays, endoscopy, and even tomography, which may make some adults prohibitive to conventional health examination methods and reluctant to perform health examinations in accordance with the health examination periods recommended by the medical community.

At present, german corporation has developed a detecting apparatus which scans the whole body organs of the human body with electromagnetic waves and preliminarily evaluates the health status of each organ of the human body by analyzing the scanning result. The principle is that after electromagnetic waves with specific frequency (frequency band) and period are emitted towards a human body by a detection device, the electromagnetic waves are received and reflected back to the detection device from the human body. Because various organs of a human body have different reflection conditions on specific frequency (frequency band) and periodic electromagnetic waves under various health states; therefore, by analyzing the content of the reflected electromagnetic waves received by the detection device, it will be possible to preliminarily assess the health status of the organs of the human body. The analysis method of this kind of technology mainly relies on a large amount of prior sampling and obtaining a large amount of comparison data (i.e., the content of the reflected electromagnetic waves corresponds to the comparison data of various health states of each organ), and then establishes a database according to the large amount of comparison data. Once the database is established, if the content of the reflected electromagnetic wave of a certain user is obtained, the corresponding health state data of the human body organ or tissue can be found out from the database according to the content of the reflected electromagnetic wave, so that the user or medical professional can preliminarily evaluate the health state of each organ of the human body. Although such existing testing devices do not replace traditional health checks, they are still a 100% safe, rapid, inexpensive, and non-invasive way to preliminarily assess the health status of a human.

The most important and most valuable part of the conventional electromagnetic wave detection device is the data in the "database" rather than the hardware of the electromagnetic wave detection device. For example, the hardware part of an existing electromagnetic wave detection device may cost hundreds to thousands of dollars, but the installation cost (value) of the collocated software and database may be as high as hundreds of thousands of dollars or even more than millions of dollars. However, the existing electromagnetic wave detection devices are sold in a mode of selling hardware devices and databases as a whole, so that only a very few large medical institutions are capable of purchasing and using the existing electromagnetic wave detection devices, and the existing electromagnetic wave detection devices cannot be popularized to general company lines, small clinics and even popular people.

Disclosure of Invention

In view of the above, the present invention provides a system for examining biological and organ functions, which is mainly to configure a database required for analysis in an examination system in a server, and only configure a detector and a network device of an electromagnetic wave examination system at a client side without configuring the database of the electromagnetic wave examination system. After the user at the client scans a living being through the detection machine, the scanning result is transmitted to the server through the network, and the server analyzes the scanning result and generates an analysis report and a charging information, and then the analysis report is transmitted back to the user at the client for watching and charging according to the charging information. Therefore, the user of the client can conveniently, easily and cheaply use the service provided by the system and share the database resources.

In addition, in the system for examining the functions of living beings and organs of the invention, the cost of the detecting machine is relatively low compared with the whole system, and the user does not need to purchase an expensive database at the same time, but can still obtain the analysis report through the server located remotely, thereby enabling the general small clinic, the company running number and even the citizens to bear the services of primarily evaluating the health status of each organ of the human body provided by the system for examining the functions of living beings and organs of the invention.

To achieve the above object, the present invention provides a system for examining functions of a living body and an organ, comprising:

a detector, which can execute a scanning program and use an electromagnetic wave signal to perform a scanning operation on a living being and obtain a scanning result;

a client device connected to the detection machine, executing a client application program on the client device, the client application program being used for controlling the scanning program and receiving the scanning result, the client application program of the client device converting the scanning result into a scanning record; and

a server, which is used for connecting the client device with the server through a network, so that the client device can transmit the scanning record and an analysis request to the server through the network;

the server can analyze the scanning record according to the analysis request to generate an analysis report and charging information, and returns the analysis report to the client device and displays the analysis report on the client device in an imaging mode, and executes a charging program for a user of the client device according to the charging information.

In one embodiment, the inspection system further comprises an expert device, wherein the expert device is connected to the server through the network; wherein, the analysis request comprises a professional analysis request; the server transmits the analysis report to the expert device through the network according to the professional analysis request contained in the analysis request, so that an operator of the expert device can provide a professional analysis opinion according to the content of the analysis report and transmit the professional analysis opinion to a user of the client device through the expert device.

In one embodiment, the professional opinion analysis is transmitted to the user of the client device in one of the following ways: short message, email, real-time online communication software.

In one embodiment, the inspection machine comprises:

an electromagnetic wave scanning module for generating the electromagnetic wave signal and emitting the electromagnetic wave signal toward the living being to perform the scanning operation;

an electromagnetic wave receiving module for receiving a reflected electromagnetic wave signal from the living being corresponding to the scanning operation;

a control unit connected to and used for controlling the electromagnetic wave scanning module and the electromagnetic wave receiving module, and generating the scanning result according to the reflected electromagnetic wave signal from the electromagnetic wave receiving module;

an output/input interface connected to the control unit and capable of being connected to the client device via the output/input interface to transmit the scanning result; and

and the power supply module is connected with the control unit and used for providing power supply required by the operation of the detection machine.

In one embodiment, the inspection machine is a head-mounted inspection machine.

In one embodiment, the client application executed by the client device includes the following software modules:

a login module, which is used for logging in the server through the network and establishing connection with the server so as to transmit the scanning record to the server after logging in;

the detection machine control module is used for controlling the operation of the detection machine;

a data processing module for receiving the scanning result from the detection machine and converting it into the scanning record, and for receiving the analysis report from the server and displaying it on a display screen of the client device; and

a memory module for storing the scanning record and the analysis report.

In one embodiment, the server includes the following software modules:

an authorization checking module for receiving a login request from the client device and checking whether the login request is authorized;

a data transmission module, which receives the scanning record from the client device on the premise that the login request is authorized;

a data analysis module for analyzing the scanning record and generating the analysis report;

the expert end management module is used for establishing connection with the expert end, transmitting the analysis report to the expert end and receiving the professional analysis opinions from the expert end;

an accounting module for generating the billing information according to the analysis request and for managing an accounting record of a user of the client device;

a database at least storing relevant data required for generating the analysis report according to the scanning result; and

a report sending module for transmitting the analysis report to the client device;

moreover, the expert device comprises the following software modules:

a login module, which is used for logging in the server through the network and establishing connection with the server;

a data download module for receiving the analysis report from the server; and

an analysis opinion reply module for generating the professional analysis opinion for transmitting to the client device.

To achieve the above object, the present invention provides a method for examining biological and organ functions, comprising the steps of:

an examination system for biological and organ functions is provided, which comprises at least: the system comprises a detection machine, a client device and a server, wherein the detection machine and the client device are connected with the detection machine;

executing a client application program on the client device and connecting to the server through a network;

executing a scanning program by the detection machine, and performing a scanning operation on a living being by using an electromagnetic wave signal to obtain a scanning result; the client application program can control the scanning program and receive the scanning result, and the client application program of the client device converts the scanning result into a scanning record;

transmitting, by the client device, the scan record and an analysis request to the server over the network; and

the server analyzes the scanning record according to the analysis request to generate an analysis report and billing information, returns the analysis report to the client device and displays the analysis report on the client device in an imaging mode, and executes a charging program for a user of the client device according to the billing information.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

FIG. 1 is a schematic view of an embodiment of the system for examining biological and organic functions according to the present invention;

FIG. 2 is a block diagram of the hardware of an embodiment of the inspection machine of the inspection system of the present invention;

FIG. 3 is a block diagram illustrating software functions of a client device, a server and an expert device in an inspection system according to an embodiment of the present invention;

FIG. 4 is a flowchart of an embodiment of the method for examining biological and organ functions according to the present invention;

FIG. 5 is a schematic diagram of an operation interface displayed on a client device after the client device executes a client application in the checking system according to the present invention; and

FIG. 6 is a diagram illustrating an embodiment of an imaging analysis report displayed on a display screen of a client device in an inspection system according to the present invention.

Description of reference numerals: 11-a detector; 111-an electromagnetic wave scanning module; 112-an electromagnetic wave receiving module; 113-a control unit; 114-an input/output interface; 115-a power module; 12a, 12b, 12c, 120-client device; 1201-login module; 1202-a detector control module; 1203-a data processing module; 1204-a memory module; 13. 130-a server; 1301-an authorization check module; 1302-a data transmission module; 1303 — a data analysis module; 1304-expert management module; 1305-accounting module; 1306-a database; 1307-report sending module; 14-a network; 15. 150-expert side devices; 1501-login module; 1502-a data download module; 1503-analyze opinion reply module.

Detailed Description

The invention relates to a biological and organ function checking system, which mainly arranges a database required for analysis in the checking system in a server, only arranges a detector of an electromagnetic wave checking system and a client device for network connection at a client, and does not need to arrange the database of the electromagnetic wave checking system. After the user at the client scans a living being through the detection machine, the scanning result is transmitted to the server through the network, and the server analyzes the scanning result and generates an analysis report and a charging information, and then the analysis report is transmitted back to the user at the client for watching and charging according to the charging information. Therefore, the user of the client can conveniently, easily and cheaply use the service provided by the system and share the database resources.

In addition, in the system for examining the functions of living beings and organs of the invention, the cost of the detecting machine is relatively low compared with the whole system, and the user does not need to purchase an expensive database at the same time, but still can obtain the analysis report through the server, so that the general small clinic, the company running number and even the citizen can bear the service for primarily evaluating the health status of each organ of the human body provided by the system for examining the functions of living beings and organs of the invention, thereby the system for examining the functions of living beings and organs of the invention can be popularized to the general public.

FIG. 1 is a schematic diagram of an embodiment of the system for examining biological and organ functions according to the present invention. In this embodiment, the system for examining the functions of living beings and organs comprises: at least one inspection machine 11, at least one client device 12a, 12b, 12c, a server 13, and at least one expert device 15.

The detector 11 can execute a scanning procedure and perform a scanning operation on a living being (e.g. a human body) by using an electromagnetic wave signal and obtain a scanning result. The client devices 12a, 12b, 12c are connected to the inspection machine 11, and a client application is executed on the client devices 12a, 12b, 12 c. The client application is used for controlling the scanning process and receiving the scanning result, and the client application of the client device 12a, 12b, 12c can convert the scanning result into a scanning record.

The server 13 is used for the client devices 12a, 12b, 12c to connect to the server 13 through a network 14, so that the client devices 12a, 12b, 12c can transmit the scan record and an analysis request to the server 13 through the network 14. The server 13 can analyze the scan record according to the analysis request to generate an analysis report and a billing information, and the server returns the analysis report to the client devices 12a, 12b, 12c and displays the analysis report on the client devices 12a, 12b, 12c in an imaging manner, and the server 13 executes a billing procedure for users of the client devices 12a, 12b, 12c according to the billing information.

The expert device 15 can be connected to the server 13 through the network 14; wherein, the analysis request can selectively comprise a professional analysis request; the server 13 transmits the analysis report to the expert device 15 via the network 14 according to the professional analysis request contained in the analysis request, so that an operator (e.g. a professional doctor) of the expert device 15 can provide a professional analysis opinion according to the content of the analysis report, and transmit the professional analysis opinion directly from the expert device 15 or through the server 13 to the user of the client device 12a, 12b, 12 c.

In the embodiment, the tester 11 is a head-mounted tester, which is connected to the terminal devices 12a, 12b, 12c through a connection cable of a USB interface. The terminal device 12a, 12b, 12c is an electronic information appliance capable of executing the client application and capable of connecting to the network 14, such as but not limited to: notebook computers, desktop computers, tablet computers, or Smart phones (Smart phones), among others. The network 14 may be one of the following: a cellular phone communication network, a wired or wireless local area network, or the Internet.

In the biological and organ function inspection system of the present invention, since the client devices 12a, 12b, 12c do not need to include a database for analyzing the scan records, the users of the client devices 12a, 12b, 12c can purchase the inspection machine 11 at a relatively low price without simultaneously purchasing an expensive database, and still obtain the analysis report through the remotely located server 13. Therefore, general individual users (e.g., terminal devices), clinics (e.g., terminal devices), and company lines (e.g., terminal devices) can purchase and configure the inspection machine 11 and enjoy the services provided by the biological and organ function inspection system of the present invention at a relatively low price.

FIG. 2 is a block diagram of a detecting machine in an inspection system according to an embodiment of the present invention. In this embodiment, the detecting device 11 includes: an electromagnetic wave scanning module 111, an electromagnetic wave receiving module 112, a control unit 113, an input/output (I/O) interface 114, and a power module 115. The electromagnetic wave scanning module 111 is used for generating the electromagnetic wave signal and emitting the electromagnetic wave signal toward the living being to perform the scanning operation. The electromagnetic wave receiving module 112 is used for receiving a reflected electromagnetic wave signal corresponding to the scanning operation from the living being. The control unit 113 is connected to and used for controlling the electromagnetic wave scanning module 111 and the electromagnetic wave receiving module 112, and can generate the scanning result according to the reflected electromagnetic wave signal from the electromagnetic wave receiving module 112. The input/output interface 114 is connected to the control unit 113, and the input/output interface 114 can be connected to the client devices 12a, 12b, 12c to transmit the scan result. In the embodiment, the input/output interface 114 includes a USB interface, so that the inspection machine 11 and the client devices 12a, 12b, and 12c can be connected and transmit data through USB connection lines. The power module 115 is connected to the control unit 113 for providing power required by the operation of the inspection machine 11. In this embodiment, the power module 115 may include a battery module, or may obtain power from the client device through a USB cable, or may obtain external power through a power line. In one embodiment, the wavelength of the electromagnetic wave signal generated and emitted by the electromagnetic wave scanning module 111 of the detector 11 falls within the range from the infrared wavelength to the visible red wavelength.

Please refer to fig. 3, which is a block diagram illustrating software functions of a client device, a server and an expert device in an inspection system according to an embodiment of the present invention.

In the present embodiment, the client application executed by the client device 120 includes the following software modules: a login module 1201, a detection machine control module 1202, a data processing module 1203, and a memory module 1204. The login module 1201 is used to log in the server 130 through the network 14 and establish a connection with the server 130, so that the scan record can be transmitted to the server 130 after the login is completed. The inspection machine control module 1202 is used to control the scanning operation of the inspection machine 11. The data processing module 1203 is configured to receive the scan result from the inspection machine 11 and convert it into the scan record, and to receive the analysis report from the server 130 and display the analysis report on a display screen of the client device 120. The memory module 1204 is used for storing the scan record and the analysis report.

In the present embodiment, the server 130 executes the following software modules: an authorization check module 1301, a data transmission module 1302, a data analysis module 1303, an expert management module 1304, an accounting module 1305, a database 1306, and a report sending module 1307. The authorization check module 1301 is used to accept a login request from the ue 120 and check whether the login request is authorized. The data transmission module 1302 receives the scan record from the client device 120 if the login request is authorized. The data analysis module 1303 is used for analyzing the scan record and generating the analysis report. The expert management module 1304 is used to establish an online with the expert device 150, transmit the analysis report to the expert device 150, and receive the professional analysis opinion from the expert device 150. The accounting module 1305 is used for generating the billing information according to the analysis request and managing an accounting record for the user of the client device 120. The database 1306 at least stores the related data required for generating the analysis report according to the scan record. The report sending module 1307 is used to transmit the analysis report to the client device 120. In one embodiment, the database 1306 further includes a customer database for storing personal data and stored value data of customers, and an intervention and advice database for storing intervention and advice data associated with different health states of organs. The accounting module 1305 further includes a billing module for calculating charges for providing different services and a value storing module for receiving the value storing operation of the user. The data transmission module 1302 further comprises a client data uploading module for receiving the uploaded data (e.g. scan record) from the client device, an expert data downloading module for cooperating with the expert management module 1304 and transmitting the scan record to the expert device, and a short message (e-mail or online real-time communication) module for sending the professional analysis opinion or the related intervention and suggestion data to the user.

In the present embodiment, the expert device 150 executes software modules including: a login module 1501, a data download module 1502, and an opinion analysis reply module 1503. The login module 1501 is used for logging in the server 130 through the network 14 and establishing a connection with the server 130. The data download module 1502 is used for receiving the analysis report from the server 13. The analytic opinion reply module 1503 is used for accepting input data from an operator (e.g., a physician) of the expert device 150 to generate the professional analytic opinion for transmission to the client device 120. In one embodiment, the professional opinion is first transmitted from the expert device 150 to the server 130, and then transmitted by the server 130 to the user of the client device 120 via various existing digital transmission media; wherein, the digital transmission medium can be (but is not limited to) one of the following modes: short messages, email, real-time online communication software, private web pages, or other digital transmission media. In another embodiment of the present invention, the expert device 150 may also directly transmit the professional opinion to the user of the client device 120 by short message, email, real-time online communication software or other digital transmission media without going through the server 130.

Please refer to fig. 4, which is a flowchart illustrating an exemplary method for examining biological and organ functions according to the present invention. Before the method for examining biological and organ functions according to the present invention is performed, an examination system according to the present invention as shown in fig. 1 is first provided, and the examination system at least includes: the system comprises a detection machine, a client device, a server and an expert device. In this embodiment, the checking method includes the following steps executed in the client device:

step 201: and starting. The client application program of the present invention is executed by the user on the client device operated by the user to start the checking method of the present invention.

Step 202: and logging in the server. Under the control of the login module of the client application program, the client device is connected and logged in the server through a network.

Step 203: after the detection machine is confirmed to be connected to the client device, under the control of a detection machine control module of the client application program, the detection machine executes a scanning program and uses an electromagnetic wave signal to perform a scanning operation on a biological object to obtain a scanning result; the data processing module of the client application program of the client device can convert the scanning result into a scanning record and store the scanning record in the memory module.

Step 204: the scan record and an analysis request are transmitted by the client device to the remotely located server over the network under control of the data processing module of the client application.

Step 205: under the control of the data processing module of the client application program, the client device receives an analysis report returned by the server, displays the analysis report on the client device in an imaging mode, and stores the analysis report in a memory module.

In this embodiment, the checking method includes the following steps executed in the server:

step 211: and (6) checking authorization. When the login-side device attempts to log in to the server in step 202, the authorization check module executed in the server performs an authorization check on the user of the login-side device, including requesting the user to input a user ID and a password to see whether the user is an authorized user who has logged in advance and whether the user's balance stored in the check system in advance is sufficient to use the check system (step 212: checking whether the user has right to use the check system). If yes, go to step 215; if "no", then step 213 is performed.

Step 213: the accounting module of the server executes the member application and value storage program. If the user is a user who has not logged in advance, the accounting module enters a program for applying for joining a member; if the user is logged on but has insufficient value, or is a newly joined member, a payment process for adding new value is executed (step 214).

Step 215: data is received. Once it is confirmed that the user has the right to use the service of the checking system, the data transmission module of the server receives the scanning record and the analysis request from the client device, and stores the scanning record in the database.

Step 216: the data is analyzed. Then, the data analysis module of the server analyzes the scan record according to the content of the analysis request, i.e. analyzes and compares the data in the scan record acquisition database (step 217) to generate an analysis report and billing information. In this embodiment, the user of the client device can select in advance what degree of analysis is to be performed, the different degree of analysis has different charging criteria, and the content of the analysis request specifies the type of analysis selected by the user. For example, the user of the client device may select a universal basic scan analysis service for the whole body system, and the user can enjoy the service of analyzing the basic scan record by the server with only a low cost of one or several dollars. The user of the client device can also choose to perform detailed scanning and analysis services for a certain organ of the human body, and the user can enjoy the services of analyzing the detailed scanning record of the organ by the server only by paying the cost of several dollars to tens of dollars. If the user wishes to have professional medical personnel (e.g., physicians) to assist professional commentary and suggested professional analytic opinion services for his analytic reports, the user can select the option of professional medical health examination scanning service and pay a fee of tens of dollars to hundreds of dollars; at this time, the analysis request includes a professional analysis request, and after the server completely analyzes the report, the server not only transmits the analysis report back to the client device, but also transmits the analysis report to the expert device through the expert management module and the data transmission module according to the professional analysis request included in the analysis request, so that an operator (i.e. a doctor) of the expert device can review the content of the analysis report and provide professional analysis opinions to a user of the client device. Wherein the professional analysis opinion is transmitted to the user of the client device in one of the following ways: the system comprises a client device, an expert device, a server, a short message, an email, real-time online communication software or other digital transmission media, wherein the expert device directly transmits the short message, the email, the real-time online communication software or other digital transmission media to the client device or transmits the short message, the email, the real-time online communication software or other digital transmission media to the server and then transmits the short message, the email, the real-time online communication software or other digital transmission media to the client device.

Step 218: and sending the report. Once the server completes the analysis report, the server transmits the analysis report to the client device through the report sending module and displays the analysis report on the client device in an imaging way, and the server executes a charging program for the user of the client device through the accounting module according to the charging information; for example, the user is charged according to the charging information aiming at the stored value balance stored in advance in the checking system, and if the balance is insufficient, the accounting module informs the user to pay.

Please refer to fig. 5, which is a schematic diagram of an operation interface displayed on a client device after the client device executes a client application program in the inspection system according to the present invention. In an embodiment of the present invention, after the client devices 12a, 12b, and 12c execute the client application and successfully log into the server 13, an operation interface screen as shown in fig. 5 is displayed on a display screen 121 of the client device, which includes: a customer data block 1211, an account information block 1212, a plurality of scan menu options 1213, 1214, 1215, and a plurality of function options 1216, 1217. The client data block 1211 stores user basic data, such as but not limited to: customer name, case number, customer number, gender, blood type, date of birth, contact data (e.g., telephone), etc. The account information block 1212 records the user's remaining value and a value option; when the user clicks the value-storing option, the accounting module of the server will start and guide the user to carry out the value-storing operation. The function options 1216, 1217 include, but are not limited to, a modify personal data option and an end option. The plurality of scan menu options 1213, 1214, 1215 can include (but are not limited to): a whole-body system scanning option (general basic scanning analysis service for the whole-body system), an organ function examination option (detailed scanning analysis service for a certain organ of the human body), a professional medical health examination option (professional analysis opinions provided by professional doctors on analysis reports), and the like, and the charge amount of each option is noted in each option. The user can point and select an option to make the analysis request generated by the client device include the corresponding analysis request content, so as to inform the server to perform the corresponding analysis operation. For example, after the whole body scanning option is clicked, the server performs a preliminary analysis on the detection result (scanning record), determines the degree of functional impairment of the nine major systems of the whole body, compares the results with intervention treatments or suggestions in the database, transmits an analysis report to the client device through the network, and transmits related information about the intervention treatments or suggestions to the user through a short message, an EMAIL, or a WeChat. For another example, when the organ function examination option is selected, the server will perform a preliminary analysis on the results of the examination (scan records) to determine the degree of functional impairment of major organs of the whole body, such as but not limited to bones, shoulder joints, hip joints, knee joints, esophagus, lung, liver, stomach, rectum, male pelvic organs, female pelvic organs, lymphatic vessels, thyroid, pancreas, duodenal region, uterus, eyeball, adrenal gland, twelve-pair cranial nuclei, kidney, testis, ureter, prostate, trachea and bronchus, pituitary nucleus, optic nerve, fallopian tubes and ovaries, heart valves, gall bladder, thymus, spinal nerves, head, heart, thorax, spine, ascending aorta, thoracic region 6, pancreatic tissue, larynx and trachea, branches of superior mesenteric artery and portal vein, major blood vessels of trunk, cerebral vessels, intestinal tract, mammary tissue, Spleen, cerebral veins, lumbar sacral plexus, diaphragm, pelvis, lumbar spine, caudal spine, vas deferens, teeth, vessels in the posterior wall of the heart, vessels in the anterior wall of the heart, renal vessels, first lumbar vertebra, and body muscles, etc., after comparison with intervention treatments or recommendations in the database, the analysis report is transmitted to the client device via the network, and information about the intervention treatments or recommendations is transmitted to the user via a short message, an EMAIL, or a micro message. For another example, after ordering the professional medical health examination option, the server will perform a preliminary analysis on the detection result (scan record), and transmit the analysis report to a remote expert device through a network, and notify the on-duty professional treatment team (physician) with a short message and a WeChat. The expert (doctor) can download the analysis report to the expert end device through the operation interface of the expert end device, view the detailed data of the detection result of the analysis report, then connect to the expert operation page of the remote server, choose the intervention treatment or input the professional suggestion (professional analysis opinion) to the server, and then the server transmits the relevant information of the professional analysis opinion to the user by short message, EMAIL, WeChat or other digital transmission media. The message content of "professional opinion analysis" or "related intervention treatment or suggestion" in the present invention can be presented in a plain text manner, and examples thereof are as follows: "moderate dysfunction of digestive system" (1) suggests that vegetables, fruits and whole grains, which are easy to digest and absorb and contain abundant cellulose, can stimulate the secretion of digestive gland and help gastric juice digestion. High sugar, high fat foods such as cakes, cheese, processed foods and meats, etc. should also be reduced. (2) The habit of regular exercise is cultivated, the exercise of abdominal muscles is better, and fast walking and competitive walking are good choices. (3) It is recommended to take co-factors (co-factors) such as probiotics, triterpenes polysaccharide, and Antrodia camphorata solid culture essence. (4) Colon detoxification and purification is recommended. (5) The course of activating liver, pancreas and organ tissue cells is recommended. S is a

Please refer to fig. 6, which is a diagram illustrating an embodiment of an imaging analysis report displayed on a display screen of a client device in an inspection system according to the present invention. Taking the user clicking the "organ function check option", the client device will control the detection machine to scan one or some or even all of the organs of the user's body, generate a scan record and transmit the scan record to the server. Then, after receiving the scanning record transmitted from the client device and the analysis request containing the indication of the 'organ function check option', the server performs the analysis procedure of organ function check on the scanning record according to the content of the analysis request, generates an analysis report and transmits the analysis report back to the client device and deducts money according to the stored value account of the user. After receiving the analysis report, the client device displays the analysis report on its display screen in an imaging manner, as shown in fig. 6, which is one embodiment. As shown in fig. 6, the display screen 122 of the client device can display a display including (but not limited to): an index specification block 123, a scan waveform diagram block 124, and an organ (or body, or tissue) diagram block 125. The organ (or human body, or tissue) diagram block 125 displays a diagram of a human organ or tissue, and a plurality of pointers are marked at various positions of the organ, and the pointers are used for indicating the health status of the organ at the positions of the pointers. Each of the different indicators has a different color, number and shape for representing different health statuses, and the contents thereof are described in the indicator description block 123. For example, the upright hexagonal indicator 1231 of number 1 indicates very healthy, the lying hexagonal indicator 1232 of number 2 indicates still healthy, the regular triangle indicator 1233 of number 3 indicates a need to pay a little attention, the inverted triangle indicator 1234 of number 4 indicates a need to keep attention to track but not yet reach the degree of illness, the upright quadrilateral (diamond) indicator 1235 of number 5 indicates an existing illness state, and the square indicator 1236 of number 5 indicates a serious illness state; in other words, a smaller number of pointers indicates healthier, while the numbers 5 and 6 of the pointers 1235, 1236 indicate that the location of the organ has assumed a diseased state. For example, as shown in fig. 6, the indicators 5 and 6 are not shown in the organ diagram block, which indicates that the analysis report shows that the lung is not diseased, but the inverted triangle indicator 1234 with a number 4 is shown in the trachea portion, which indicates that the trachea of the subject may be somewhat uncomfortable, and although not yet diseased, needs to be continuously noticed and tracked. The waveform of the scanning waveform image block can provide the record for medical professionals to interpret the scanning.

As can be seen from the above, the system for examining biological and organ functions according to the present invention is very low in cost because the analysis of the scan record is performed by the remote server and database, and the expensive database contents do not need to be configured in the client device, so that a general individual, a small clinic and a company can purchase a set of detectors and use their own original computer as the client device; in addition, the operation of the client device and the detection machine is very simple, and the analysis report is more clearly displayed in an imaging mode, so that the method is easily popularized to the public of society, and common people can frequently track the health state of the common people or other people (such as guests of a small clinic or employees of a company, etc.) at ordinary times; moreover, the user does not need to perform detection at the same place. If the doctor needs to give advice, the doctor can pay a little fee, and the doctor can provide the professional analysis opinions for the user of the client device to refer to according to the analysis report.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations, or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (5)

1. An examination system for biological and organ functions, comprising:

a detector, which executes a scanning program and uses an electromagnetic wave signal to perform a scanning operation on a living being and obtain a scanning result;

a client device connected to the detection machine, executing a client application program on the client device, the client application program being used for controlling the scanning program and receiving the scanning result, the client application program of the client device converting the scanning result into a scanning record; and

a server, which is used for connecting the client device with the server through a network, so that the client device can transmit the scanning record and an analysis request to the server through the network;

the server analyzes the scanning record according to the analysis request to generate an analysis report and charging information, returns the analysis report to the client device and displays the analysis report on a display screen of the client device in an imaging mode, and executes a charging program for a user of the client device according to the charging information;

the client application executed by the client device includes the following software modules:

a login module, which is used for logging in the server through the network and establishing connection with the server so as to transmit the scanning record to the server after logging in;

the detection machine control module is used for controlling the operation of the detection machine;

a data processing module for receiving the scanning result from the detection machine and converting it into the scanning record, and for receiving the analysis report from the server and displaying it on the display screen of the client device; and

a memory module for storing the scanning record and the analysis report;

wherein, an organ schematic diagram block can be displayed on the display screen of the client device; the organ schematic diagram block can display a schematic diagram of a human organ, and a plurality of indexes are marked on a plurality of positions of the organ; the indexes are used for marking the health state of the organ at each index position; wherein, each different index has different colors, numbers or shapes respectively, and is used for representing different health states;

wherein, this detection machine is including:

an electromagnetic wave scanning module for generating the electromagnetic wave signal and emitting the electromagnetic wave signal toward the living being to perform the scanning operation;

an electromagnetic wave receiving module for receiving a reflected electromagnetic wave signal from the living being corresponding to the scanning operation;

a control unit connected to and used for controlling the electromagnetic wave scanning module and the electromagnetic wave receiving module and generating the scanning result according to the reflected electromagnetic wave signal from the electromagnetic wave receiving module;

an output/input interface connected to the control unit and capable of being connected to the client device via the output/input interface to transmit the scanning result; and

the power supply module is connected with the control unit and used for providing power supply required by the operation of the detection machine;

wherein, the server comprises a database at least storing relevant data required for generating the analysis report according to the scanning result; the server analyzes the scanning result and finds out the corresponding health status data of the organ from the database to generate the analysis report;

the database is based on a large amount of advanced sampling and acquires a large amount of comparison data, namely the content of the reflected electromagnetic wave signal corresponds to the comparison data of various health states of the organ, and then the database is established according to the large amount of comparison data; once the database is established, the health status data of the organ corresponding to the content of the reflected electromagnetic wave signal of a user can be found from the database according to the content of the reflected electromagnetic wave signal, so as to provide a reference for the medical professional to preliminarily evaluate the health status of the organ.

2. The system of claim 1, further comprising an expert device, said expert device being connected to said server via said network; wherein, the analysis request comprises a professional analysis request; the server transmits the analysis report to the expert device through the network according to the professional analysis request contained in the analysis request, so that an operator of the expert device can provide a professional analysis opinion according to the content of the analysis report and transmit the professional analysis opinion to a user of the client device through the expert device.

3. The system as claimed in claim 2, wherein the professional opinion analysis is transmitted to the user of the client device in one of the following ways: short message, email, real-time online communication software.

4. The system of claim 1, wherein the inspection machine is a head-mounted inspection machine.

5. The system for examining biological and organic functions as claimed in claim 2, wherein said server comprises the following software modules:

an authorization checking module, configured to receive a login request from the client device and check whether the login request is authorized;

a data transmission module, which receives the scanning record from the client device under the premise that the login request is authorized;

a data analysis module for analyzing the scanning record and generating the analysis report;

the expert end management module is used for establishing connection with the expert end, transmitting the analysis report to the expert end and receiving the professional analysis opinions from the expert end;

an accounting module for generating the billing information according to the analysis request and for managing an accounting record for a user of the client device;

and

a report sending module for transmitting the analysis report to the client device;

moreover, the expert device comprises the following software modules:

a login module, which is used for logging in the server through the network and establishing connection with the server;

a data download module for receiving the analysis report from the server; and

an analysis opinion reply module for generating the professional analysis opinion for transmitting to the client device.

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