CN113762432A

CN113762432A - Unit code based management and control method and management and control system thereof

Info

Publication number: CN113762432A
Application number: CN202010513235.6A
Authority: CN
Inventors: 黄巨交; 邱诚钢; 莫凡; 张银春
Original assignee: Zhejiang Dakai Information Technology Co ltd
Current assignee: Zhejiang Dakai Information Technology Co ltd
Priority date: 2020-06-01
Filing date: 2020-06-08
Publication date: 2021-12-07

Abstract

The invention provides a unit code-based management and control method and a unit code-based management and control system, wherein the management and control method comprises the following steps: acquiring characteristic information and a space-time trajectory of a personal user based on a unit user code authorized by the personal user to a unit user within a preset range of the location of the unit user; and controlling a control user based on the feature information and the spatiotemporal trajectory of the individual user and the unit user code, wherein the control user is selected from combining one or both of the individual user and the unit user.

Description

Unit code based management and control method and management and control system thereof

Technical Field

The invention relates to the field of unit user management and control, in particular to a unit code-based management and control method and a unit code-based management and control system.

Background

Currently, in an era of informatization being continuously promoted, science and technology can provide more convenience for people, wherein an individual user can be screened and controlled by various technical means.

For example, a certain office building discriminates and controls the employees who are working through a certain technical means, and non-working personal users cannot freely go in and out of the certain office building. The commonly adopted means is that each internal staff holds a certain elevator card or identity card and other identification objects to be identified and pass through, the existing hardware equipment is needed, if the identification objects are lost, personal information is lost, and even a hole of the office building management and control system is caused. Such a management and control system not only needs a large amount of hardware support and is higher in cost, but also easily causes a complex operation procedure when an individual user of the management and control system changes, and hinders efficient and convenient development of the management and control system.

The existing new scientific and technological means are widely applied, for example, screening and control can be realized when certain people pass in and out of certain areas by adopting human face comparison, mobile phone positioning, identity card verification and the like. However, these control means all rely on various hardware devices, and need to invest a lot of funds and time to build up and use, such as after searching for information, browsing information, etc., send related information to push to individual users, so as to facilitate the individual users to browse more conveniently and comfortably, and provide more intelligent service experience.

In addition, some apps directly obtain relevant other personal information of an individual user to conduct business activities to govern the spatiotemporal trajectory of the individual user. Since such managed partial data may involve a large amount of personal privacy data, a personal information leakage problem may be caused.

The method for stealing the personal privacy data cannot be comprehensively spread, and the method can quickly realize the wide personal user line management and control.

Disclosure of Invention

The invention aims to provide a unit code-based management and control method and a unit code-based management and control system, which realize the tracking of the space-time trajectory of at least one person user based on a unit code.

Another objective of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which can track and control a target user by tracking the time and space of the individual user.

Another object of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which can effectively manage and control a large number of individual users by tracking the time and space permitted by the individual users.

Another object of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which can manage and control the close contacts of a specific individual user through the spatio-temporal analysis of the individual user.

Another objective of the present invention is to provide a unit code-based management and control method and system, which directly communicate with an alarm mechanism through space-time management and control of an individual user, so as to implement security management and control of the specific individual user.

Another object of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which can obtain the authorization of the individual user by scanning the two-dimensional code, and is fast and convenient.

Another objective of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which generate a corresponding location code for the individual user to authorize the route information of the individual user at the location.

Another objective of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which generate a corresponding location code, and the individual user is authorized by scanning the two-dimensional code, i.e. can authorize the route information of the individual user at the location.

Another objective of the present invention is to provide a unit code-based management and control method and system, which have a wide application range and can support the use of almost all personal activity scenarios such as residence, consumption, and travel.

Another objective of the present invention is to provide a unit code-based management and control method and a management and control system thereof, which can realize tight combination of personnel information, time information and site information and support multi-dimensional accurate tracking.

Additional advantages and features of the invention will be set forth in the detailed description which follows and in part will be apparent from the description, or may be learned by practice of the invention as set forth hereinafter.

In accordance with one aspect of the present invention, the aforementioned and other objects and advantages are achieved by a method for managing at least one managing user, wherein the managing user can be divided into at least one individual user and at least one unit user, comprising the steps of:

acquiring characteristic information and a space-time trajectory of a personal user based on a unit user code authorized by the personal user to a unit user within a preset range of the location of the unit user; and

and controlling a control user based on the feature information and the spatio-temporal trajectory of the individual user and the unit user code, wherein the control user is selected from one or two of the individual user and the unit user.

According to an embodiment of the present invention, the step of tracking the individual user of the management and control method further comprises the steps of:

in response to scanning the unit code, obtaining the characteristic information and the spatiotemporal trajectory of the individual user authorized for the unit user.

According to an embodiment of the present invention, the step of generating the registration code of the management and control method further includes the following steps:

generating at least two types of labels, wherein the labels comprise at least one common label and at least one special label; and

matching at least one of the tags to the individual user.

According to an embodiment of the present invention, the step of matching at least one of the tags of the management method further comprises the following steps after the step of the individual user:

tracking feature information and the spatiotemporal trajectory of a target user marked as a special label; and

locking at least one of the close contacts of the target user.

According to an embodiment of the present invention, the step of tracking the target user marked as a special label by the management and control method further comprises the following steps:

locking the close contact of the same said unit user within the tracking time to obtain the real-time said spatiotemporal trajectory and said characteristic information of the close contact.

According to an embodiment of the present invention, the step of locking the intimate contact of the management and control method further comprises the steps of:

sending a warning message to the corresponding close contact person.

According to an embodiment of the present invention, the step of tracking the individual user who is marked as a special label by the management method further comprises the steps of:

and sending the space-time trajectory of the target user to the users within a certain real-time range in a pre-judging mode.

According to an embodiment of the present invention, the management and control method further includes the steps of:

sharing the characteristic information, the spatial information of the individual user and the close contacts thereof to other systems.

According to another aspect of the present invention, the present invention further provides a management and control system, including:

a matching module, wherein said matching module generates a unique individual code for each said individual user and a unique unit code and corresponding at least one tag for each said unit user;

a scanning module, wherein the scanning module obtains authorization of a spatiotemporal trajectory of the individual user by scanning a unit of the unit code;

a tracking module, wherein said tracking module receives said real-time spatiotemporal trajectory of a human user; and

a processing module, wherein the processing module receives the information sent by the registration module, the matching module and the tracking module and manages a management user, wherein the management user is selected from one or both of the combination of the individual user and the unit user.

According to one embodiment of the invention, the processing module reviews the characteristic information and the spatiotemporal trajectory of a target user and the close contacts thereof marked as the special label.

According to an embodiment of the present invention, the management and control system further includes a registration module, wherein the registration module receives a feature information of the individual user and the unit user, and sends the feature information of the individual user and the unit user to the matching module.

According to one embodiment of the invention, the scanning module is externally disposed on a client system to scan the unit code.

According to an embodiment of the present invention, the management and control system further comprises a communication module, wherein the communication module receives real-time information of the individual user and transmits the feature information and the spatiotemporal trajectory labeled as the target user and the close contact thereof.

According to an embodiment of the present invention, the management and control system further includes a storage module, wherein the storage module stores information of the registration module, the matching module, the processing module, and the tracking module.

According to an embodiment of the present invention, the matching module includes a registration code matching unit and a tag matching unit, wherein the registration code matching unit matches a unique one-person code corresponding to each of the individual users and a unique one-unit code corresponding to each of the unit users, and wherein the tag matching unit matches the tag corresponding to each of the individual users and the tag corresponding to each of the unit users.

According to another aspect of the present invention, there is further provided a management system adapted to manage at least one management user, wherein the management user can be divided into at least one personal user and at least one unit user, comprising:

a client system, wherein said client system comprises a scanning module, wherein said scanning module obtains authorization of a personal user within a predetermined range of a location of a unit user; and

a terminal system; wherein the terminal system includes:

a tracking module, wherein the tracking module obtains a feature information and a spatiotemporal trajectory of the individual user; and

According to one embodiment of the present invention, said terminal system includes a display module, wherein said display module transmits said characteristic information and said spatiotemporal trajectory of each of said individual users and said target users and said close contacts thereof.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the claims.

Drawings

Fig. 1, fig. 2, fig. 3A, fig. 3B, fig. 4, fig. 5A, fig. 5B, fig. 6 and fig. 7 are schematic application diagrams of a management and control method according to a first preferred embodiment of the present invention

Fig. 8 is an application diagram of a management use method for managing a user according to a second preferred embodiment of the present invention.

Fig. 9A, 9B, 9C and 9D are schematic views of a user interface according to a second preferred embodiment of the present invention, respectively.

Fig. 10 is a schematic diagram of an application scenario for managing the scanning of the unit code by the user according to the third preferred embodiment of the present invention.

FIG. 11A, FIG. 11B, FIG. 11C and FIG. 11D are views illustrating a third preferred embodiment of the present invention

Fig. 12 is a schematic diagram of a management and control system according to a fourth preferred embodiment of the present invention.

Fig. 13 is an application schematic diagram of a management and control system according to a fourth preferred embodiment of the present invention.

Fig. 14 is a schematic diagram of a management and control system according to a fifth preferred embodiment of the present invention.

Fig. 15 is an application schematic diagram of a management and control system according to a fifth preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art 102 that in the present disclosure, the terms "longitudinal," "lateral," "up," "down," "front," "back," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, the above terms should not be construed as limiting the present invention.

Referring to fig. 1 to 7, a regulation method based on unit user specific code according to a first preferred embodiment of the present invention is disclosed and explained in detail, wherein the regulation method can be applied to the supervision of a regulation user 100. The management and control method authorizes a unit user 101 of a characteristic information 302 and a space-time track 303 of the individual user 102, such as route information, user identification information and the like, through the individual user 102 with a registration code 301 to track the individual user 102. In other words, the person information, the time information and the site information are closely combined through authorized user tracking, and multi-dimensional accurate tracking of the group can be supported. Tracking of other individual users 102 authorized for the same unit user 101 at the same tracking time 305 is accomplished by tracking the spatiotemporal trajectory 303 of a target user 104.

Preferably, the characteristic information 302 of the individual user 102 includes, but is not limited to, information that allows access to its route information, personal identity information 302, and the like.

It is worth mentioning that the personal identity information of the individual user 102 includes, but is not limited to, the name, gender, country, security information, and the like of the characteristic information 302.

Preferably, the characteristic information 302 of the unit user 101 includes, but is not limited to, information such as a geographical location, a name, a corresponding unique identification code and address, and a type of the unit user 101.

Further, the administrative user 100 can be divided into at least one of the unit user 101 and at least one of the individual users 102. Further, the unit user 101 registers a unit code 3011, and the individual user 102 registers a person code 3012.

The unit code 3011 includes a unique identification code of the unit user 101 and information on an address, a type, and the like. It is worth mentioning that the unit code 3011 may generate a corresponding enterprise code, cell code, building code, car code, ship code, etc. based on different types.

For example, for a specific area of a work unit user 101a, there are a great many personal users 102 that need to enter and exit each day, but for safety or other issues, the work unit user 101a needs to mark the personal users 102 that enter and exit the work unit user 101a, and when the personal users 102 working in the work unit user 101a can freely enter and exit the work unit user 101a, the information of the relevant personal users 102 can be collected and marked to collect the characteristic information 302 of the relevant people entering and exiting the work unit user 101 a. However, since such collecting information of the relevant personal user 102 needs to rely on the initiative of the personal user 102, when the relevant personal user 102 does not want to disclose the characteristic information 302 of the user, especially the route information, the work unit user 101a cannot confirm the accuracy of the information, which causes some unstable factors, for example, when the personal user 102 is contacted due to special situations, the information may not be equivalent and the characteristic information 302 of the personal user 102 cannot be confirmed.

Referring to the first preferred embodiment of the present invention, the scanning process in the management and control method authorizes the feature information 302 of the individual user 102 by scanning the registration code 301.

Preferably, the two-dimensional code is adopted as a main input front end, so that the cost is extremely low and the deployment is convenient.

Referring to fig. 1-7, a first preferred embodiment of the present invention is disclosed and explained in detail, wherein the individual users 102 are a first individual user 102a and a second individual user 102b, respectively, wherein the first individual user 102a enters the work unit user 101a and authorizes the unit user 101 to obtain the spatio-temporal trajectory 303 of the first individual user 102a by means of a code sweep and to be matched to a class a tag 3041. More preferably, the first personal user 102a is matched to a green code 3013. When the second individual user 102B enters the work unit user 101a, the unit user 101 is authorized by the second individual user 102B to obtain the spatio-temporal trajectory 303 of the second individual user 102B by means of code scanning and is matched to a class B label 3042. More preferably, the second human user 102b is matched to a red code 3014.

It is worth mentioning that in the first preferred embodiment of the present invention, the work unit user 101a is just an example, wherein the work unit user 101a may be implemented as a mobile device, a location of a transportation means. For example, the unit code 3011 is provided in a public vehicle, a subway, an airplane, a subway, a motor car, a ship, and the like, so as to realize personnel access inquiry, unit user access record, riding record, subway record, ship record, alarm display, and close-contact personnel tracking.

It is worth mentioning that the a-type tag 3041 is a general tag, wherein the B-type tag 3042 is a special tag.

The second human user 102b is queried about the spatiotemporal trajectory 303 of the second human user 102a over a tracking time 305. Further, the second human user 102b traverses a restaurant 100b, wherein all of the individual users 102 (including the first individual user 102a) of the work unit user 101a and the restaurant 100b during the tracked time 305 are notified that the second human user 102b is active at a particular time for a particular unit user 101. For example, the second human user 102b enters the restaurant 100b at 8:00 and the work unit user 101a at 9:00, wherein the individual users 102 at the restaurant 100b during the tracking time 305 are all notified of their information.

Further, each of the individual users 102, such as the first individual user 102a within the work unit user 101a, is forensically notified that the second individual user 102b is about to enter the work unit user 101 a.

The control method not only can track each target user 104 and at least one close contact person 103, i.e. the target user 104 and the close contact person 103 thereof, but also can predict the target user 104 about to enter a certain unit user 101.

The management and control method comprises the following steps:

(a) acquiring the unique unit code 3011 corresponding to the unit user 101 and a unique person code 3012 of the individual user 102 according to the feature information 302 of the individual user 102 and the feature information 302 of the unit user 101; and

(b) the feature information 302 and the spatio-temporal trajectory 303 of the individual user 102 are obtained in the form of the unit code 3011 authorized for the unit user 101.

The unit code 3011 authorized for the unit user 101 in step (b) of the administration method may be implemented to authorize the characteristic information 302 and the spatiotemporal trajectory 303 of the individual user 102 for the unit user 101 in response to the single action.

It is worth mentioning that the spatiotemporal trajectory 303 includes a plurality of spatiotemporal trajectories and their corresponding temporal information of the individual user 102 in real time.

Referring to fig. 2, the single action in step (b.1) of the governing method is implemented as a bit-scan code action.

Preferably, the single action is to scan the registration code 301 of the unit user 101 to allow the characteristic information 302 of the individual user 102 to be mutually authorized with the characteristic information 302 of the unit user 101.

Optionally, the single action is to scan one of the individual users 102 to allow the characteristic information 302 of the individual user 102 to be mutually authorized with the characteristic information 302 of the unit user 101.

Referring to the first preferred embodiment of the present invention, step (a) of the management and control method further includes the following steps:

(c) at least one of the tags 304 is matched to the individual user 102.

Further, the step (c) of the management and control method further includes the steps of:

(c.1) generating at least two types of labels 304; and

(c.2) matching at least one of said tags 304 of said individual user 102 to said personal code 3012 based on said characteristic information 302 of said individual user 102.

Further, the step (c.2) of the management and control method further comprises the steps of:

(c.2.1) the class A tag 3041 of the individual user 102 matching a common label; and

(c.2.2) the class B tag 3042 of the individual user 102 matching a special token.

It is worth mentioning that the label 304 may be displayed in superposition with the registration code 301, such as a two-dimensional code distinguished by colors.

More preferably, step (c.2.1) of the management and control method further comprises the steps of:

a green tag is matched to the personal code 3012 of the individual user 102 to obtain the green code 3013.

More preferably, step (c.2.2) of the management and control method further comprises the steps of:

a red label is matched to the personal code 3012 of the personal user 102 to obtain the red code 3014.

In other embodiments, the color of the label 304 may be various colors, such as yellow, blue, black, etc., and the invention is not limited thereto.

Optionally, the tag 3042 may also be a class C tag in real time, where the class C tag may be labeled yellow, and the administrative user 100 facing the labeled class C tag may be tracked and kept in social distance with the other individual users 102.

(c.3) updating the tags 304 of the unit users 101 in real time.

The individual users 102 at the unit users 101 may be notified in a timely manner when the noted unit users 101 are marked as the class B tags 3042.

The individual user 102 is tagged with different tags 304 based on the characteristic information 302 of the individual user 102. For example, for the work unit user 101a, the person who works for the work unit user 101a is the class a tag 3041, and the person who has a single visit is the class B tag 3042. Through the setting of the tag, different rights can be provided for different individual users 102. For example, the personal user 102 of the class A tag may freely enter and exit the work unit user 101 a. The target user 104 can scan the characteristic information 302 authorized to go in and out of the work unit user 101a, so as to achieve the accuracy of the personnel information.

Preferably, the tag 304 may be displayed superimposed on the registration code 301. Further, the label 304 and the personal code 3012 are displayed superimposed. The label 304 and the unit code 3011 are also displayed superimposed.

That is, the governing method may store the characteristic information 302 of the individual user 102. Only the characteristic information 302 of the individual user 102 and the characteristic information 302 of the work unit user 101a need to be mutually authorized, i.e., the characteristic information 302 of the individual user 102 is stored.

Preferably, the tags 304 are differentiated in colors such as red, blue, yellow, etc., and the sound is played to differentiate the different categories of the tags 304 so that the individual users 102 or the unit users 101 can be more conveniently differentiated.

In a first preferred embodiment of the present invention, the individual user 102 is tagged with different individual tags according to the characteristic information 302 of the individual user 102. For example, for the work unit user 101a, the class a tag 3041 is a person working on the work unit user 101a, the class B tag 3042 is a person with frequent visit, and the class B tag 304 is a person with single visit, and different permissions can be provided for different individual users 102 through the setting of the tags. For example, the personal user 102 of the class A tag may freely enter and exit the work unit user 101 a. The target user 104 can scan and confirm the information, and can go in and out the work unit user 101a once when permission is obtained. If the individual user 102 who is not registered registers his/her personal information to generate the registration code 301, the work unit user 101a can be accessed when permission is obtained.

In a variant embodiment of the present invention, the classification of the tags 304 may be at least three, for example, the tags 304 may be classified into the class a tags 3041, the class B tags 3042, and a class C tags 3043. For example, when the management method is applied to the individual users 102 distributed by the unit user 101, the management method may be combined with the distribution method thereof, wherein the class a tag 3041 may smoothly pass through, the target user 104 may take other measures to pass through, and the individual users 102 of the class C tag are not allowed to pass through, so as to distribute different individual users 102.

(c.2.2) of the steps of the method of policing further comprises the steps of:

(d) locking the characteristic information 302 of the target user 104 and the spatiotemporal trajectory 303 in real time.

Further, the step (d) of the management and control method further includes the steps of:

acquiring characteristic information 302 corresponding to the target user 104;

obtaining the real-time spatiotemporal trajectory 303 of the target user 104 tagged as such; and

the feature information 302 of each of the unit users 101 in the traced route corresponding to the target user 104 is acquired.

Optionally, in step (d) of the management and control method, obtaining the real-time geographic time information tagged as the target user 104 is authorized to be obtained by the individual user 102.

When the individual user 102 is matched to the class B tag 3042, the route of the individual user 102 can be tracked, preventing accidents.

The tags 304 of the individual users 102 may be updated in real-time.

The tags 304 of the unit users 101 can be updated in real time.

Further, the tags 304 of the individual users 102 and the tags 304 of the unit users 101 may be updated in real time. When the label 304 of the individual user 102 passing the unit user 101 is the red code 3014, the label 304 of the unit user 101 is the red code 3014, and the label 304 of the close contact 103 within the tracking time 305 is also the red code 3014. That is, or, the individual user 102 may track each individual user 102 and the area in which it is located.

Further, a certain individual user 102 of the same unit user 101 is marked as the red code 3014, and all the unit users 101 that the individual user 102 passes through in the area are marked as the red code 3014. The close contacts 103 of the individual users 102 are similarly tagged to better track the specifically tagged governing user 100.

It is worth mentioning that the target user 104 may come from a variety of branding channels such as a social security system, the work unit user's 101a security system, and the like. The type B tag 3042 may be a tag for dangerous persons or key important persons, and the present invention is not limited thereto, and may be variously labeled according to specific needs.

Further, step (d) of the management and control method is further followed by the steps of:

(e) the close contact 103 of the target user 104 is locked.

It is worth mentioning that the search operation for locking the individual user 102 is based on parallel computing, and the close contact person 103 can be quickly searched in mass data, so as to realize quick management and control of the epidemic involved persons.

Further, the step (e) of the management and control method further includes the steps of:

(e.1) locking the characteristic information 302 of other said individual users 102 of the same said unit user 101 within said tracked time 305; and

(e.2) locking the spatiotemporal trajectories 303 in real time of other said individual users 102 of the same said unit user 101 within said tracked time 305.

Referring to the first preferred embodiment of the present invention, step (c.3) is performed after step (e) of the management and control method, that is, the label 304 of the target user 104 and the close contact 103 thereof is updated to the red code 3014 after the target user 104 and the close contact 103 thereof are locked.

Further, step (e.2) of the management and control method is further followed by the steps of:

(f) transmitting the spatiotemporal trajectory 303 of the target user 104 to the governing user 100 authorized by the same unit user 101 within the tracking time 305.

Optionally, after the step (e.2) of the management and control method, further comprising the steps of:

(f') transmitting the spatio-temporal trajectory 303 authorized by the unit user 101, labeled as the class B tag 3042, to the individual users 102 in the same area in a predetermined manner according to the spatio-temporal trajectory 303 of the target user 104.

That is, the individual user 102 may be brought to the attention of the individual user 102 who is about to be in the same area as the target user 104 in advance, depending on the real-time location of the spatiotemporal trajectory 303 of the target user 104.

Referring to the first preferred embodiment of the present invention, the step (f') of the management and control method further includes the steps of:

(f.1') transmitting the feature information 302 of the unit user 101 updated with the B-type tag 3042 to the individual users 102 and the unit users 101 in a certain area in a predetermined manner according to the spatio-temporal trajectory 303 of the target user 104.

Optionally, step (f') of the management and control method further comprises the steps of:

(f.1 ") updating in real-time the characteristic information 302 and the spatiotemporal trajectory 303 of the target user 104 and the close contacts 103 thereof.

Preferably, the spatiotemporal trajectory 303 includes a plurality of spatiotemporal trajectories and their corresponding temporal information of the individual user 102 in real time.

Referring to the first preferred embodiment of the present invention, after the step (f) of the management and control method, further comprising the steps of:

(g) storing the governing user 100 and the characteristic information 302 and the spatiotemporal trajectory 303 thereof.

More preferably, the method further includes, after the step (h), the steps of:

(g') sharing the controlling user 100 and its feature information 302 and the spatiotemporal trajectory 303.

It should be noted that the shared object may be a cloud or other systems, such as a public safety system, other similar management and control systems, and various systems with different properties, such as a cloud, a public broadcasting system, a media system, and the like, and the present invention is not limited thereto.

Preferably, in the step (g'), the management and control method may be shared by a public security system, other similar management and control systems, and a plurality of systems with different properties such as a cloud, a public broadcasting system, a media system, etc. to implement information transparency, wherein the management and control method may also mark the tag 304 of the individual user 102 on the individual user 102 or the unit user 101 according to information provided by other systems.

Referring to fig. 8 to 9C, a second preferred embodiment of the present invention is disclosed and explained in detail, based on a method for using the management system, comprising the following steps:

(j) obtaining an interface 306 by a single action; and

(k) when an individual user 102 has registered, authorizing a feature information 302 of the individual user 102 to the unit user 101 to display a registration code interface 3062; when the individual user 102 is not registered, the characteristic information 302 of the individual user 102 is entered at one of the registration interfaces in a classification registration interface 3061 to match to a corresponding one of the person code 3012 and at least one of the second type tag 304.

Referring to fig. 8, the step (j) of the usage method based on the management and control system further includes the following steps:

(j.1) a unit code 3011 for a unit user 101 is scanned.

Further, the use method based on the management and control system further comprises the following steps:

(l) An emergency management information corresponding to the authorized unit user 101 is received.

The emergency management information may be the characteristic information 302 and a temporal trajectory 303 of the individual user 102 within a tracking time 305 and authorized by the same unit user 101 by the specially-labeled individual user 102.

It is worth mentioning that the general labels can be represented by a type a label 3041 of the at least two types of labels 304, and the special labels can be represented by a type B label 3042 of the at least two types of labels 304.

Referring to fig. 9D, the usage method based on the management and control system further includes the following steps:

(m) querying the spatiotemporal trajectory 303 corresponding to the unit user 101 for which it is authorized.

Preferably, when a query interface 3063 is displayed, the administrative user 100 may not only display the spatiotemporal trajectory 303 of himself, but also display the spatiotemporal trajectory 303 of the individual user 102 that is specially marked in the same area and the corresponding feature information 302 of the unit user 101.

Referring to fig. 10 to 11C, a usage method based on a management system according to a second preferred embodiment of the present invention is disclosed and explained in detail, wherein the usage method based on the management system includes the following steps:

(o) receiving an interface 306 in a single action; and

(p) when the unit user 101 has registered, authorizing a feature information 302 of the unit user 101 to the individual user 102 to display a registration code page 3061; when the unit user 101 is not registered, the feature information 302 of the unit user 101 is input to match with a corresponding unit code 3011 and at least one of the at least two types of tags 304 in a classification registration interface 3062.

It should be mentioned that the single action may be scanning the two-dimensional code, or directly clicking to enter the page, and the single action may be selected according to an autonomous habit in this embodiment.

Referring to fig. 11D, the usage method based on the management and control system further includes the following steps:

(q) receiving an emergency management message from one of the individual users 102 within a tracked time 305 that is specially marked.

The emergency management information may be the characteristic information 302 and a temporal trajectory 303 of the individual user 102 within a tracking time 305 and authorized by the same unit user 101 by the individual user 102 that is specially marked.

It is worth mentioning that the management and control calculation method further includes the following steps:

(A) generating the unit codes 3021 of the n unit users 101 as C1 … Cn;

(B) forming respective access records of P1 … Pm in such a manner that when m individual users 102 access the respective unit users 101 in a unit user time, the unit codes 3021 are scanned;

(C) upon appearing as the class B tab, locking the individual user 102 marked as the class B tab and the corresponding respective unit user 101; and

(D) locking the close contacts 103 of the individual user 102.

Preferably, the management and control computing method further includes the steps of:

(E) transmitting the associated spatiotemporal trajectory 303 to each of the close contacts 103.

Further, the step (C) of the management and control calculation method further includes the steps of:

according to the individual users 102 labeled as the B-class labels, a unit user list of A2, A5, An in time order is formed by obtaining the individual users 102 labeled as the B-class labels after the spatio-temporal trajectory 303 of the tracking time 305, wherein the unit user list respectively corresponds to the unit users 101 of C2, C5, Cx scanned by the individual users 102 labeled as the B-class labels.

Further, the step (D) of managing the calculation method further includes the steps of:

to find sibling people within all X minutes of said individual users 102 labeled as said class B tags, query in order C2, C5, List C2List (P2, P3, P5, P3, P2), C3List (P7, P8, P7), CxList (P2, P4, P2) of said individual users 102 in siblings of 3 minute periods (greater than or equal to T-3 minutes, less than or equal to T +3 minutes) before and after the occurrence time T of P1;

collecting the lists of the individual users 102 in the same row, obtaining a summary List C2List [ (P2, 2), (P3, 2), (P5, 1) ], C3List [ (P7, 2), (P8, 1) ], CxList [ (P2, 2), (P4, 1) ]; and

close contact persons who exclude P1 were C2List (P2, P3, P5), C3(P7, P8), Cx (P2, P4).

More preferably, the usage method based on the management and control system further comprises the following steps:

(r) querying the spatiotemporal trajectory 303 of the corresponding individual user 102 for each time period.

More preferably, the usage method based on the management and control system further comprises the following steps: and

(s) obtaining the analysis result of the space-time trajectory 303 within a certain time, so as to better regulate and control the control process.

Referring to fig. 12 and 13, a managing system according to a fourth preferred embodiment of the present invention is disclosed and explained in detail, wherein the managing system is a new embodiment different from the first preferred embodiment, wherein the managing system may include a registration module 10, a scanning module 20, a matching module 30, a processing module 40 and a tracking module 50 to manage a feature information 302 and a spatiotemporal trajectory 303 of a managing user 100.

The registration module 10 receives at least one input of the feature information 302 by the controlling user 100 and can obtain the spatiotemporal trajectory 303 of the controlling user 100. The matching module 30 may match a registration code 301 and a tag 304 of each of the governing users 100. The tracking module 50 obtains the spatiotemporal trajectory 303 of the user 102 upon obtaining authorization of the governing user 100.

The administrative user 100 can be divided into a personal user 101 and a unit user 102, wherein the registration module 10 receives the feature information 302 of the personal user 101 and sends the feature information to the matching module 30 to be matched with a person code 3012, and wherein the registration module 10 receives the feature information 302 of the unit user 102 and sends the feature information to the matching module 30 to be matched with a unit code 3011.

Preferably, the characteristic information 302 of the individual user 102 includes, but is not limited to, allowable preference, individual identity information 302, habit behavior, and the like.

Further, the registration module 10 includes a user registration unit 11 and a unit user registration unit 12. The user registration unit 11 receives the feature information 302 of the individual user 102 and then sends the feature information to the matching module 30. The unit user registration unit 12 receives the feature information 302 of the unit user 101 and then sends the feature information to the matching module 30.

The scanning module 20 scans and identifies the individual code 3012 and the unit code 3011, wherein the scanning module 20 borrows a client system of the user to achieve fast scanning. The scanning module 20 is communicatively connected to the registration system 10 and the matching module 30.

The matching module 30 includes a registration code matching unit 31 and a tag matching unit 32. The registration code matching unit 31 matches the registration code 301 of each of the administrative users 100. The tag matching unit 32 matches at least one of at least two types of the tags 304 for each of the administrative users 100.

Further, the registration code matching unit 31 matches the unit code 3011 of each of the unit users 101, and the registration code matching unit 31 matches the personal code 3012 of each of the individual users 102. The tag matching unit 32 matches at least one of the at least two types of tags 304 of the individual user 102.

Preferably, the registration code matching unit 31 includes a registration code generating section 311 and a registration code matching section 312. The label matching unit 32 includes a label generating section 321, a label assigning section 322, and a label updating section 323.

The registration code generator 311 is communicably connected to the registration code matching unit 312. After receiving the feature information 302 and the tag 304 of the administrative user 100 of the tag assigning unit 322, the tag updating unit 323 can update the tag 304 in real time and then communicatively connect to the tag assigning unit 322. The registration code matching unit 312 and the registration code generating unit 311 are communicably connected to the registration module 10, the processing module 40, and the tracking module 50.

The registration code generator 311 generates a plurality of registration codes 301.

The registration code matching unit 312 matches the unique personal code 3012 after receiving the feature information 302 of the user registration unit 11, wherein the registration code matching unit 312 matches the personal code 3012 after receiving the feature information 302 of the user 102 sent by the user registration unit 11, and wherein the registration code matching unit 31 sends the personal code 3012 to the processing module 40. The registration code matching section 312 matches a unique one-unit code 3011 upon receiving the feature information 303 of the unit user 101. The registration code matching unit 312 sends the registration code 301 and the corresponding feature information 302 of the administrative user 100 to the processing module 40.

Further, the registration code matching section 312 sends the unit code 3011 and the feature information 302 of the corresponding unit user 101 to the processing module 40. The registration code matching section 312 sends the personal code 3012 and the corresponding feature information 302 of the individual user 102 to the processing module 40.

The tag generation unit 311 generates at least two tags 304.

Preferably, the tags 304 include a type a tag 3041 and a type B tag 3042, wherein the type a tag 3041 is a general tag, and the type B tag 3042 is a special tag. It will be understood and appreciated by those skilled in the art that the label 304 may include a plurality of labels, variously labeled.

The tag assigning section 322 matches at least one of the tags 304 upon receiving the characteristic information 302 of the individual user 102 sent by the user registration unit 11, wherein the tag assigning section 322 matches at least one of the tags 304 upon receiving the characteristic information 302 of the unit user 101 sent by the user registration unit 11. The label assigning part 322 sends the feature information 302 of the administrative user 100 and the corresponding label 304 to the processing module 40.

Further, the tag assigning part 322 transmits the characteristic information 302 of the unit user 101 and the corresponding tag 304 to the processing module 40. The registration code matching section 312 sends the characteristic information 302 of the individual user 102 and the corresponding tag 304 to the processing module 40.

The tag generation unit 311 generates at least two tags 304.

It is worth mentioning that the supervising user 100 may be matched with at least two of the tags 304 to be used for different categories.

The label 304 is preferably differentiated by color, such as red and green. Further, the labels 304 are distinguished in a red-yellow-green presentation manner, and the labels 304 and the registration codes 304 are combined to form a green code 3013 and a red code 3014.

Optionally, the label 304 may also be a plurality of labels 304, distinguished by a plurality of colors.

The tracking module 50 receives the administrative user 100 and the corresponding feature information 302 provided by the registration module 10, and then obtains the spatiotemporal trajectory 303 corresponding to the administrative user 100. The tracking module 50 sends the spatiotemporal trajectory 303 to the processing module 40. Further, the spatiotemporal trajectory 303 includes the geographic location and corresponding time of the governing user 100 to enable efficient tracking of the combination of the people, route and time.

The processing module 40 includes a data integration unit 41 and a data checking unit 42, wherein the data integration unit 41 integrates the data of the registration code assignment part 312, the tag assignment part 322 and the registration module 10. The data checking unit 42 checks the control user 100 marked with a special mark according to an integrated data of the data integration unit 41.

Further, the data integration unit 41 is communicatively connected to the label assigning part 322 to receive the label 304 and the corresponding feature information 302 of the controlling user 100 provided by the label assigning part 322. The data integration unit 41 is communicably connected to the registration code matching unit 312 to receive the registration code 301 and the corresponding feature information 302 of the administrative user 100 sent by the registration code matching unit 312. The data integration unit 41 is communicably connected to the registration module 10, and receives the feature information 302 of the administrative user 100 sent by the registration module 10. The data integration unit 41 is communicatively coupled to the tracking module 50 and receives the spatiotemporal trajectory 303 of the user provided by the tracking module 50.

Preferably, the data-reviewing unit 42 reviews the integrated data of the data-integrating unit 41 and locks the individual user 102 and the close contact 103 thereof, which are marked as special.

Preferably, the individual users 102 that are marked as special are marked as the red code 3014 and the administrative users 100 that are marked commonly are green codes.

Further, the processing module 40 further comprises a pre-judging unit 43, wherein the pre-judging unit 43 is communicably connected to the data checking unit 42, wherein the pre-judging unit 43 receives the data checking unit 42 and sends the individual user 102 marked as special and the close contact person 103 to pre-judge the position of the individual user 102 marked as special and the close contact person 103, and sends the pre-judging unit 43 to the communication module 70.

It is worth mentioning that the close contact 103 is entering and exiting the same unit user 101 as the individual user 102 marked with the red code 3014 for a tracked time 305. The trace time 305 is set according to different marking requirements, further governing the trajectory of the individual user 102 marked with the red code 3014 and timely mining each of the close contacts 103.

The tracking time 305 includes, but is not limited to, 3 minutes before and after.

Preferably, the managing system includes a storage module 60, and the storage module 60 receives data of the registration module 10, the scanning module 20, the matching module 30, the processing module 40, and the tracking module 50.

Optionally, the storage module 60 is implemented as a cloud or other system, and the invention is not limited in any way herein.

Further, the management and control system includes a communication module 70, wherein the communication module 70 receives real-time information of the individual user 101 and transmits the feature information 302 and the spatio-temporal trajectory 303 of the individual user 102 and the close contact person 103 which are marked.

It should be noted that the communication module 70 includes a sharing unit 71, a notification unit 72 and a display unit 73. The sharing unit 71 of the communication module 70 communicatively transmits the characteristic information 302 and the spatiotemporal trajectory 303 of the individual user 102 and the close contacts 103 thereof being tagged to the supervising user 100 in another system or the same area. The notification unit 72 sends a check result to the individual user 102 and the close contact person 103 marked with the red code 3014, which is locked by the data checking unit 42.

The troubleshooting results include the spatiotemporal trajectory 303 and the feature information 302 of the individual user 102 labeled as the red code 3014.

The notification unit 72 may notify the individual users 102 and their close contacts 103, each marked as the red code 3014, of a warning message in a warning manner.

The notification unit 72 may notify the feature information 302 and the spatiotemporal trajectory 303 of the individual users 102 and the close contacts 103 thereof each labeled as the red code 3014 to other the administrative users 100 in a certain area in a warning manner.

The display unit 73 may be remotely installed at the client system to display the feature information 302 and the spatiotemporal trajectory 303 of each individual user 102 and the individual of the unit user 101.

More preferably, the display unit 71 may display the related information of the notification unit 72.

Preferably, the sharing unit 71 can share to a public security system in an alarming manner. The common unit 71 may also be shared with different secure or media systems in a way that information is shared.

Referring to fig. 14 and 15, the administration system of the fifth preferred embodiment of the present invention is disclosed and explained in detail, wherein the administration system comprises a terminal system 10A and a client system 20A, wherein the client system 20A and the terminal system 10A, wherein the client system 20A is communicatively connected to the terminal system 10A.

The client system 20A sends a registration request to the terminal system 10A, and the terminal system 10A matches a registration code 301 according to a feature information 302 of each of the administrative users 100, so as to send the registration request to the client system 20A.

The client system 20A obtains the feature information 302 of the control user 100 and the authorization of a spatiotemporal trajectory 303, and then sends the authorization to the control terminal 10A. The client system 20A may send the spatiotemporal trajectory 303 of a target user 104 within the same region as each of the administrative users 100.

Preferably, the client system 20A may send the spatiotemporal trajectory 303 of an intimate contacter 103 of each of the administrative users 100 with the target users 104 within the area.

The terminal system 10A includes a registration module 11A, a matching module 12A, a processing module 13A, and a tracking module 14A. The registration module 11A, the matching module 12A, the tracking module 13A and the processing module 13A are communicatively connected.

The client system 20A includes a display module 21A and a scanning module 22A, wherein the scanning module 22A scans the registered unit code 3021 to communicatively jump to the display module 21A to display related information.

The registration module 11A receives at least one input of the feature information 302 by the controlling user 100 and can obtain the spatiotemporal trajectory 303 of the controlling user 100. The matching module 12A may match a registration code 301 and a tag 304 of each of the governing users 100. The tracking module 14A obtains the spatiotemporal trajectory 303 of the user 102 upon obtaining authorization of the governing user 100.

The administrative user 100 can be divided into a personal user 101 and a unit user 102, wherein the registration module 11A receives the feature information 302 of the personal user 101 and sends the feature information to the matching module 12A to be matched with a person code 3012, and wherein the registration module 11A receives the feature information 302 of the unit user 102 and sends the feature information to the matching module 12A to be matched with a unit code 3011.

Further, the registration module 11A includes a user registration unit 111A and a unit user registration unit 112A. The user registration unit 111A receives the feature information 302 of the individual user 102 and then sends the feature information to the matching module 12A. The unit user registration unit 112A receives the feature information 302 of the unit user 101 and then sends the feature information to the matching module 12A.

The scanning module 21A scans and identifies the personal code 3012 and the unit code 3011, wherein the scanning module 21A borrows the client system 20A of the user to realize fast scanning. The scanning module 21A is communicatively connected to the registration system 10 and the matching module 12A.

The matching module 12A includes a registration code matching unit 121A and a tag matching unit 122A. The registration code matching unit 121A includes a registration code generating section 311A and a registration code matching section 312A. The tag matching unit 122A includes a tag generation unit 1221A, a tag assignment unit 1222A, and a tag update unit 1223A.

The registration code generating portion 3121A is communicably connected to the registration code matching portion 3122A. Upon receiving the feature information 302 and the tag 304 of the administrative user 100 of the tag assigning unit 1222A, the tag updating unit 1223A updates the tag 304 in real time and then communicatively connects to the tag assigning unit 1222A. The registration code matching unit 312A and the registration code generation unit 311A are communicably connected to the registration module 11A, the processing module 13A, and the tracking module 14A.

Further, the registration code matching section 3122A may update the label 304 of the individual user 102 and the label 304 of the unit user 101 in real time, when the label 304 of the individual user 102 who passes through the unit user 101 is the red code 3014, the label 304 of the unit user 101 is the red code 3014, and the label 304 of the close contact 103 within the tracked time 305 is also the red code 3014.

The registration code generator 311A generates a plurality of registration codes 301.

The registration code matching unit 312A matches a unique person code 3012 after receiving the feature information 302 of the user registration unit 111A, wherein the registration code matching unit 312A matches the person code 3012 after receiving the feature information 302 of the user 102 sent by the user registration unit 111A, and the registration code matching unit 121A sends the person code 3012 to the processing module 13A. The registration code matching unit 312A matches a unique one-unit code 3011 upon receiving the feature information 303 of the unit user 101. The registration code matching unit 312A sends the registration code 301 and the corresponding feature information 302 of the administrative user 100 to the processing module 13A.

Further, the registration code matching section 312A transmits the unit code 3011 and the feature information 302 of the corresponding unit user 101 to the processing module 13A. The registration code matching section 312A sends the personal code 3012 and the feature information 302 of the corresponding individual user 102 to the processing module 13A.

The tag generation unit 311A generates at least two tags 304.

The tag assigning section 1222A matches at least one of the tags 304 after receiving the characteristic information 302 of the individual user 102 transmitted by the user registration unit 111A, wherein the tag assigning section 1222A matches at least one of the tags 304 after receiving the characteristic information 302 of the unit user 101 transmitted by the user registration unit 111A. The tag assigning part 1222A transmits the feature information 302 of the administrative user 100 and the corresponding tag 304 to the processing module 13A.

Further, the tag assigning part 1222A transmits the feature information 302 of the unit user 101 and the corresponding tag 304 to the processing module 13A. The registration code matching section 312A sends the characteristic information 302 of the individual user 102 and the corresponding tag 304 to the processing module 13A.

The tag generation unit 311A generates at least two tags 304.

It is worth mentioning that the supervising user 100 may be matched with at least two of the tags 304 to be used for different categories. It is worth mentioning that the tag 304 may be displayed superimposed with the registration code 301. Further, the label 304 and the personal code 3012 are displayed superimposed. The label 304 and the unit code 3011 are also displayed superimposed.

The label 304 is preferably differentiated by color, such as red and green. Further, the labels 304 are distinguished in red, yellow and green presentation, and the labels 304 and the registration codes 304 are combined to form a green code 3013 and a red code 3014.

Preferably, the supervising user 100 is matched to at least three of the tags 304 for different monitoring. The label 304 is preferably differentiated by color, such as red, yellow, and green. Further, the labels 304 are distinguished in a red-yellow-green presentation manner, and the labels 304 and the registration codes 304 are combined to form a green code 3013, a red code 3014, and a yellow code. For example, the governing user 100 holding the green code 3013 may be in a smooth co-line. The administrative user 100 holding the yellow code restricts the passing mode, for example, the administrative user 100 with different credit degrees is the authority to purchase the train, the airplane and the car in grades, and when the credit score is high, the administrative user 100 holds the green code 3013; when the credit score is in a low score, the administrative user 100 holds the yellow code; when the credit score is in a low score, the administrative user 100 holds the red code 3014 and is not allowed to ride the administrative user 100 on a long-distance public transport, such as a train, an airplane, or the like.

The tracking module 14A receives the administrative user 100 and the corresponding feature information 302 provided by the registration module 11A, and then obtains the spatiotemporal trajectory 303 corresponding to the administrative user 100. The tracking module 14A sends the spatiotemporal trajectory 303 to the processing module 13A. Further, the spatiotemporal trajectory 303 includes the geographic location and corresponding time of the governing user 100 to enable efficient tracking of the combination of the people, route and time.

The processing module 13A includes a data integration unit 131A and a data checking unit 132A, wherein the data integration unit 131A integrates the data of the registration code assigning unit 312A, the tag assigning unit 1222A and the registration module 11A. The data checking unit 132A checks the control user 100 marked specifically according to an integration data of the data integration unit 131A.

Further, the data integration unit 131A is communicably connected to the tag assigning part 1222A to receive the tags 304 and the corresponding feature information 302 of the governing user 100 provided by the tag assigning part 1222A. The data integration unit 131A is communicably connected to the registration code matching unit 312A to receive the registration code 301 and the corresponding feature information 302 of the administrative user 100 sent by the registration code matching unit 312A. The data integration unit 131A is communicably connected to the registration module 11A, and receives the feature information 302 of the administrative user 100 sent by the registration module 11A. The data integration unit 131A is communicatively coupled to the tracking module 14A and receives the spatiotemporal trajectory 303 of the user provided by the tracking module 14A.

Preferably, the data reviewing unit 132A reviews the consolidated data of the data consolidating unit 131A and locks the individual user 102 and the close contact 103 thereof, which are marked as special.

Preferably, the individual users 102 that are marked as special are marked as red codes and the administrative users 100 that are marked as normal are marked as green codes.

Further, the processing module 13A further comprises a pre-judging unit 133A, wherein the pre-judging unit 133A is communicably connected to the data checking unit 132A, wherein the pre-judging unit 133A pre-judges the position of the individual user 102 and the close contact person 103 marked as special after the data checking unit 132A sends the individual user 102 and the close contact person 103 marked as special, and sends the pre-judging unit 133A to the communication module 14A.

Further, the terminal system 10A comprises a communication module 15A, wherein the communication module 15A receives real-time information of the individual user 101 and transmits the feature information 302 and the spatio-temporal trajectory 303 of the individual user 102 and the close contacts 103 thereof which are marked.

It should be noted that the communication module 15A includes a sharing unit 151A and a notification unit 152A. The sharing unit 151A of the communication module 14A communicatively transmits the characteristic information 302 and the spatiotemporal trajectory 303 of the individual user 102 and the close contacts 103 thereof being tagged to the supervising user 100 in another system or the same area. The notification unit 152A sends a check result to the individual user 102 and the close contact person 103 marked with the red code 3014, which the data checking unit 132A locks.

The notification unit 152A may notify the individual users 102 and their close contacts 103, each marked as the red code 3014, of a warning message in a warning manner.

The notification unit 152A generates notification information for different administrative users 100, and notifies other administrative users 100 in a manner that a warning can be given to the characteristic information 302 and the spatiotemporal trajectory 303 of the individual user 102 and the close contacts 103 thereof each marked with the red code 3014 in a certain area.

Further, the notification unit 152A generates warning information for the individual user 102 that is matched 3013. Preferably, the notification unit 152A generates a specific solution to the individual user 102 matched 3013.

Further, the notification unit 152A generates warning information to the close contact person 103 who is located in the same unit user 101 as the individual user 102 who holds the red code 3014 at the tracking time 305. More preferably, the notification unit 152A may generate relevant protection regulations for the close contact 103.

The notification unit 152A generates warning information for the unit user 101.

The notification unit 152A generates warning information for each of the individual users 102 and the unit users 101 in the large area.

The display module 21A may be remotely installed at the client system to display the characteristic information 302 and the spatiotemporal trajectory 303 of each individual user 102 and the individual of the unit user 101.

More preferably, the display module 21A may display the related information of the notification unit 152A.

Preferably, the sharing unit 151A may share to a public security system in an alarming manner. The sharing unit 151A may also share information in different secure or media systems.

Preferably, the terminal system 10A includes a storage module 16A, and the storage module 16A receives data of the registration module 11A, the scanning module 21A, the matching module 12A, the processing module 13A, and the tracking module 14A.

Optionally, the storage module 16A is implemented as a cloud or other system, and the invention is not limited in any way herein.

The embodiments of the various embodiments can be freely combined, and the invention is not limited in any way in this respect.

It should be understood by those skilled in the art that the embodiments of the present invention described above and illustrated in the accompanying drawings are illustrative only and not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims

1. A control method based on unit codes is characterized by comprising the following steps:

2. The administration method according to claim 1, wherein the step of tracking individual users of the administration method further comprises the steps of:

3. The management and control method according to claim 1, wherein the management and control method further comprises the steps of:

matching at least one of the tags to the individual user.

4. The governing method according to claim 3, wherein the step of said governing method of matching at least one of said tags further comprises, after said individual user step, the steps of:

locking at least one of the close contacts of the target user.

5. The governing method according to claim 4, wherein the step of the governing method of tracking the target user marked as a special label further comprises the steps of:

6. The governing method according to claim 4, wherein said step of said governing method of tracking said individual user tagged as a special tag further comprises the steps of:

7. A management and control system, comprising:

8. The governance system according to claim 7, wherein said processing module scrutinizes said feature information and said spatiotemporal trajectory of a target user and said close contacts thereof tagged as said special tag.

9. A management and control system adapted to manage at least one management and control user, wherein the management and control user can be divided into at least one individual user and at least one unit user, comprising:

a terminal system; wherein the terminal system includes:

10. A management and control system according to claim 9, wherein said processing module scrutinizes said feature information and said spatiotemporal trajectory of a target user and said close contacts thereof tagged as said special tag.