[ detailed description ] embodiments
The present invention is described in detail with reference to the following embodiments, and those skilled in the art will understand the advantages and effects of the present invention from the disclosure of the present specification. The present disclosure may be practiced or applied to other embodiments and its several details are capable of modification in various respects, all without departing from the present disclosure. The drawings of the present invention are merely schematic illustrations, and are not drawn to scale, but are presented in advance. The following embodiments will further describe the related technical content of the present creation in detail, but the disclosure is not intended to limit the scope of the present creation.
It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements or signals, these elements or signals should not be limited by these terms. These terms are used primarily to distinguish one element from another, or from one signal to another. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.
The creation discloses a detection device capable of identifying identity, which is characterized in that a component capable of being read with a unique Identifier (ID) is arranged in the detection device, and the detection device can provide an external device for reading the identifier and can bind a user identity for identification labels in various forms, such as graphs, radio frequency labels or near field communication chips (NFC chips) capable of recording the identifier.
The detecting device can be matched with a mobile terminal, as shown in the system example diagram formed by the detecting device capable of identifying identity and the mobile terminal shown in fig. 1.
In this embodiment, the detecting device 10 is provided, the appearance configuration is not limited to that shown in the figure, the detecting device 10 has a housing, in which an identification component 101 and a detecting component 102 are mainly provided, the identification component 101 is a circuit component that transmits an identifier of the detecting device 10 in a wireless communication manner, such as a near field communication chip, in which a unique identifier for identifying the detecting device 10 is recorded, and the detecting component 102 detects a sample, such as a sample sampled on a user's body, by a detection reagent, and generates a readable detection result after the detection.
This example shows that the user can establish an association with the detection device 10 through the mobile terminal 100 of the user, and according to the embodiment, an application corresponding to the detection device 10 can be executed in the mobile terminal 100. Before the testing device 10 is unsealed, the testing reagent in the testing component 102 may be provided with a fragile label, and when a user wants to use the testing device 10 to test a sample of a certain body part, such as saliva, mucosa or specific tissue, the fragile label should be removed and the testing should be started, and a waiting time may be needed. When the detection result is obtained, the user may operate the application program so that the mobile terminal 100 obtains the detection result of the detection apparatus 10.
For example, when the detection result generated by the detection device 10 shows an eye-interpretable color or line, the application program may be operated to start the camera function of the mobile terminal 100 to capture the detection result, store the detection result in the memory of the mobile terminal 100, or transmit the detection result to an external system. In another embodiment, the application program may also activate a specific wireless communication function in the mobile terminal 100 to read the detection result from the detection device 10 in a wireless transmission manner.
The mobile terminal 100 shown in this figure may be an electronic device of a user, in which a user name and an identity identifier after user identity authentication are displayed, and a detection identifier read from the identification component 101 of the detection device 100 is further included, and the detection device 10 is bound with the user identity through an application program in the mobile terminal 100, so that the detection result can be prevented from being falsely used by others.
Fig. 2 is a schematic diagram of an embodiment of a system formed by an identity-recognizable detection apparatus and a mobile terminal.
According to the illustrated embodiment, in which several main components of the detection device 20 are displayed, several accommodating spaces are provided in the housing of the detection device 20, wherein the accommodated components, such as the identification component 201, may be a wireless identification tag or, preferably, may be a near field communication chip recorded with a unique identifier; the detection component 202 contains a drug for detecting specific tissues of the body, and can present the detection result in an eye-readable manner or form a detection result signal for reading by the mobile terminal 200.
The mobile terminal 200 is provided with an identifier reading unit 211, which can obtain the identifier or the detection result of the detection device 20 in a wireless communication manner, such as a near field communication circuit, for reading the identifier in the near field communication chip of the detection device 20 and binding the detection result with the user identity in the mobile device 200. When the detection result is generated, the mobile terminal 200 reads the detection result generated by the detection apparatus 20 through the detection result reading unit 212, in an embodiment, the detection result may be encoded as a wireless signal, so that the mobile terminal 200 can read the detection result from the nfc chip in the detection apparatus 20 through the detection result reading unit 212. The code processed by the data processing unit 213 may be transmitted to an external system, such as a specific cloud platform, through the communication unit 214, where the cloud platform may provide detection warning, management, and storage of detection results (including bound user identities).
FIG. 3 is a schematic diagram of a system formed by an ID-recognizable detection apparatus and a mobile terminal.
The exemplary embodiment of the detecting device 30 shown in fig. 2 shows that the identification component 301 is a circuit component for transmitting the identifier of the detecting device 30 in a wireless communication manner, and the detecting component 302 is used for detecting the sample with a detection reagent, and generating a readable detection result after the detection. In this embodiment, the detecting device 30 further includes a communication unit 303, so that the detecting device 30 can be connected to the mobile terminal 200 in a wireless communication manner, mainly by using the communication technology to transmit the detection result, and a control unit 304 is further provided, wherein the control unit 304 is electrically connected to the identification component 301, the detecting component 302 and the communication unit 303, for controlling the operation of the detecting device 30 capable of identifying the identity. After the detection of the sample is completed by the detection module 302, the control unit 304 obtains the detection result, and the communication unit 303 transmits the detection result to the mobile terminal 200, for example, the detection result reading unit 212 obtains the detection result, and may perform a preliminary process, such as encoding, storing, and binding the user identity, and then perform other applications.
In addition to the use of the terminal usage detection device and the mobile terminal, a detection system can be formed with a cloud platform, as shown in fig. 4, which is an embodiment of a system architecture in which a terminal user connects to the cloud platform through a network.
The detection system is provided with a server 400 providing cloud services, wherein a database 410 is provided to form a cloud platform capable of serving a plurality of users, and one or more end users operate the detection device and the mobile terminal to bind detection results and user identities. According to the embodiment of the detection system in the figure, a plurality of users operate the detection devices 411,421 and 431 for detecting the recognizable identities of the samples, and the users can operate the respective mobile terminals 41,42 and 43 to obtain the detection results generated by the respective detection devices 411,421 and 431, and then transmit the detection results to the server 400 through the network 40, and store the detection results in the database 410, wherein the stored data at least comprises the detection results obtained by the respective detection devices 411,421 and 431 and the user identity bound to each detection result through the identifier of the device.
According to one embodiment, after the user completes the respective test samples through the test devices 411,421,431, the test results can be obtained by the control unit in the respective test devices 411,421,431, and then the test results can be transmitted to the mobile terminals 41,42,43 through the communication unit, or the test results of the respective home can be transmitted to the server 400 through the mobile terminals 41,42, 43.
The detection device, the mobile terminal, and the detection system formed with the server are applied, wherein the operation method refers to the system operation flow chart for obtaining the detection result and record shown in fig. 5.
Initially, the user uncovers the detection device and starts to perform the detection and obtain the detection result (step S501), for example, the detection items that can be performed are mainly virus detection for specific diseases, detection functions such as nucleic acid detection, serum antibody screening or antigen screening, etc., and after the user touches the detection medicament on the detection device with his/her own sample, the detection result, such as color or line, can be finally generated and viewed by the eye, or converted into an electrical signal for transmission.
At this time, the user can operate the mobile terminal to open the application therein (step S503), perform user identity authentication (step S505), so that the application can obtain the user identity data, and then activate the corresponding reading circuit to read the detection device identifier (step S507), and obtain the detection result (step S509), and can establish the user identity, the association between the detection device (identifier) and the detection result through the application of the mobile terminal (step S511), and accordingly establish the detection record (step S513).
In another embodiment, when the detection is completed and the detection result is generated, the user can operate the application program to start the function of shooting the image in the mobile terminal, and then read the identifier of the detection device, the detection result can be shot, and the detection record is established after the user identity is bound. In another embodiment, in addition to binding the detection result and the user identity in the mobile terminal, the user identity, the detection device (identifier) and the detection result may be uploaded to the cloud platform, and then the association between the user identity, the detection device and the detection result is established in the server, and the detection record is established in the database in the server.
The detection system provides a service for binding the user identity and the detection result, and can synchronize with the detection result of the application program in the mobile terminal, and update the detection result at any time or at regular time, and in related embodiments, reference may be made to a flowchart of an embodiment in which the cloud platform shown in fig. 6 notifies the detection result.
In this embodiment, one of the detection services provided by the cloud platform is to provide each user to establish a detection schedule (step S601), synchronize the latest detection result with the mobile terminal of the user at regular time, form a reminding message according to the set time (step S603), remind the user to perform detection through the push function of the application (step S605), upload the detection result to the cloud platform after detection is completed (step S607), and form a notification message after being interpreted by the cloud platform (step S609).
In addition to establishing the detection result of the bound user identity, establishing the detection schedule for each user, and prompting the detection and generating the service of the notification information, the detection system also provides various services related to the health of the user, so that a comprehensive health service related to the health of the user can be provided, and reference can be made to the system architecture embodiment diagram of the detection system shown in fig. 7. The server included in the detection system provides various services related to the health data of the user, and obviously, the detection system can obtain various health information through the mobile terminal of the user, including various physiological sensing data, medication information and the like.
This example shows various data services in the server of the detection system 70, wherein the data mainly includes user data 71, which describes basic data 711, detection history 712 and detection data 713 about the user using the detection device and accessing the detection system data; various analysis reports 72 are provided, such as gender and age distribution 721, affiliated area distribution 722, user number statistics 723, user detection result statistics 724, detection tracing statistical analysis 725, user shedding rate statistics 726 and post-detection symptom statistics 727 which are established according to data uploaded by multiple users; further, management data such as authority assignment 731 and new account 732 of the staff management 73 are included.
According to the content of the embodiments of the detection device and the detection system capable of identifying the identity, the device and the system can realize the following technical characteristics:
1. the detection device capable of identifying identity is a self-test medical reagent, such as an antigen fast-screening reagent, wherein an identification component, preferably a near field communication chip, capable of recording and transmitting a device identifier is arranged, when a user wants to use the self-test detection reagent, a fragile label (electronic label) on the detection reagent is torn off, the fragile label is connected with a mobile terminal (such as a mobile phone) of the user, real-name information of the user is verified, and the detection reagent is used as a special reagent for the user without causing a problem of fraudulent use.
2. After the user finishes the self-test detection, the user communicates with the medical reagent through a near field communication technology by the mobile terminal, the detection result of the reagent is transmitted to the mobile terminal, at the moment, the detection result can be stored in the mobile terminal, or the mobile terminal and the cloud platform are connected, and the detection result is uploaded to the cloud platform to be stored and recorded.
3. In another mode of transmitting the detection result, the user uses the photographing function of the mobile terminal or other devices to capture the detection result of the testing device by photographing and recording, and then uploads the detection result to the cloud platform for interpretation of the result.
4. Through the identity binding function of the identification component in the detection device, other users can not repeatedly use the detection result of the original user as other users, and the problem that the same detection result is repeatedly used by multiple people is effectively avoided.
5. The mobile terminal can also add a schedule of self-test detection through a corresponding application program, and add reminding/alarming information, for example, when the detection schedule time is exceeded or the detection result is abnormal, the mobile terminal can send out reminding/alarming or execute reminding or alarming through a cloud platform.
6. Through the application program, the mobile terminal can update the detection schedule after the user completes the medical detection.
In summary, according to the detection apparatus and the detection system capable of identifying identity described in the above embodiments, particularly, the detection apparatus is provided with the identification component recording the unique identifier, and particularly can be a near field communication chip, so that the detection result can be directly read by the mobile terminal, or the detection result can be bound with the user identity in a manner of shooting the detection result, thereby establishing the association, and achieving the purpose of monitoring the real-name authentication without falsely using the detection result.
The above disclosure is only a preferred embodiment of the present invention and is not intended to limit the scope of the claims, so that all the modifications of the equivalent technology using the contents of the specification and drawings are included in the scope of the claims.