CN109410355B

CN109410355B - Non-perception sign-in method, sign-in equipment and sign-in system

Info

Publication number: CN109410355B
Application number: CN201811016394.4A
Authority: CN
Inventors: 陈娅芳; 李政军
Original assignee: Hunan New Cloudnet Technology Co ltd
Current assignee: Hunan youzhiduo Technology Co.,Ltd.
Priority date: 2018-08-31
Filing date: 2018-08-31
Publication date: 2021-10-01
Anticipated expiration: 2038-08-31
Also published as: CN109410355A

Abstract

The invention discloses an imperceptible sign-in method, sign-in equipment and a sign-in system, wherein the method comprises the following steps: the preset communication frequency of the check-in equipment is matched with the fixed communication frequency band of the check-in receiving base station of the current preset check-in area, the communication range of the check-in receiving base station of the current preset check-in area is entered to establish communication, and check-in information is transmitted to a background system to complete the check-in of the current preset check-in area; the check-in equipment receives the communication frequency information to complete communication frequency updating, and the communication frequency is matched with the fixed communication frequency band of the check-in receiving base station in the next preset check-in area; the check-in equipment enters a next preset check-in area to complete the next check-in; the steps are repeated until the check-in of all the preset check-in areas is completed. The method has the advantages of high check-in efficiency, good flexibility, high accuracy and the like.

Description

Non-perception sign-in method, sign-in equipment and sign-in system

Technical Field

The invention relates to the technical field of sign-in, in particular to an imperceptible sign-in method, sign-in equipment and a sign-in system, and is particularly used for school sign-in management of students.

Background

In the teaching management, need carry out the attendance to the student condition of attending a class, traditional attendance mode like roll call, sign in etc. need occupy mr and student's teaching time and go on, and the waste time is inefficient. Although there is an information sign-in mode through mobile phone positioning, code scanning and the like in the prior art, for students in middle and primary schools, in order to not affect the class discipline and the attention of the students, schools generally do not allow the students to use mobile phones, so the sign-in mode which needs to use intelligent devices such as mobile phones is not suitable for the sign-in of the students in middle and primary schools. And through the mode that the student wears RFID electronic tags, the student reads RFID electronic tags information through the read write line that sets up in the classroom and accomplishes the sign-in, the student also must queue up and sign in on professional reading and writing equipment, has the not high shortcoming of efficiency equally. Therefore, further research is necessary to improve the efficiency of check-in.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the technical problems in the prior art, the invention provides a non-perception check-in method, check-in equipment and a check-in system which have high check-in efficiency, good flexibility and high accuracy.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

a non-aware check-in method, comprising the steps of:

the preset communication frequency of the check-in equipment is matched with the fixed communication frequency band of the check-in receiving base station of the current preset check-in area, the communication range of the check-in receiving base station of the current preset check-in area is entered to establish communication, and check-in information is transmitted to a background system to complete the check-in of the current preset check-in area;

the check-in equipment receives the communication frequency information to complete communication frequency updating, and the communication frequency is matched with the fixed communication frequency band of the check-in receiving base station in the next preset check-in area; the check-in equipment enters a next preset check-in area to complete the next check-in; the steps are repeated until the check-in of all the preset check-in areas is completed.

Furthermore, the communication frequency updating time is after the information interaction between the check-in equipment and the check-in receiving base station of the current preset check-in area is completed;

the communication frequency information is generated by reading the frequency band adjusting table by the background system and is transmitted to the check-in equipment; the frequency band adjusting table comprises time period information and communication frequency information corresponding to the time period;

and the background system reads the communication frequency information corresponding to the time period information and transmits the communication frequency information to the check-in equipment.

Furthermore, the check-in process of completing any preset check-in area by the check-in equipment comprises multiple check-in information transmission.

Furthermore, the check-in process of the check-in equipment in any preset check-in area at least comprises a first check-in formed by check-in information transmission corresponding to the starting stage of the time period, a second check-in formed by check-in information transmission corresponding to the middle stage of the time period and a third check-in formed by check-in information transmission corresponding to the ending stage of the time period.

Further, the check-in equipment and the check-in receiving base station communicate through 2.4G communication technology.

Furthermore, the check-in equipment which does not complete check-in also comprises check-in reminding information which is sent by the background system through the wireless Ethernet or the mobile communication network.

A non-aware check-in method, comprising the steps of:

the check-in receiving base stations of each preset check-in area have fixed communication frequency bands, and the check-in receiving base stations with overlapped communication ranges in different preset check-in areas have different fixed communication frequency bands;

the check-in receiving base station of the current preset check-in area communicates with the check-in equipment matched with the fixed communication frequency band of the check-in receiving base station, receives the check-in information of the check-in equipment and submits the check-in information to a background system, and the current check-in is completed; the current check-in receiving base station transmits the received communication frequency information to the check-in equipment so that the check-in equipment completes communication frequency updating; the communication frequency is matched with the fixed communication frequency band of the sign-in receiving base station of the next preset sign-in area; and the sign-in receiving base station of the next preset sign-in area establishes communication with the sign-in equipment to complete the next sign-in, and the step is repeated until the sign-in of all the preset sign-in areas is completed.

Furthermore, the check-in receiving base stations in different preset check-in areas have different fixed communication frequency bands.

An imperceptible check-in device includes a frequency adjustment unit and a communication unit;

the frequency adjusting unit is used for finishing communication frequency updating according to the communication frequency information;

and the communication unit is used for communicating with the check-in receiving base station to submit the check-in information and receive the communication frequency information transmitted by the background system.

Further, the communication unit is also used for receiving the check-in reminding information.

Further, the communication unit comprises a 2.4G communication unit, and/or a wireless ethernet communication unit, and/or a mobile communication network unit.

A non-perception check-in system comprises a check-in device, a check-in receiving base station and a background system;

the check-in equipment is the check-in equipment;

the check-in receiving base station is arranged in each preset check-in area, has a fixed communication frequency band, is used for receiving check-in information submitted by check-in equipment which is positioned in the range of the preset check-in area and has a communication frequency positioned in the range of the fixed communication frequency band, and uploads the check-in information to the background system;

the background system is used for registering and managing the check-in information of the check-in equipment.

Furthermore, different check-in receiving base stations which belong to different preset check-in areas and have overlapped communication ranges have different fixed communication frequency bands.

Further, the background system is also used for configuring a frequency band adjustment table for the check-in equipment and sending the frequency band adjustment table to the check-in equipment.

Further, the check-in equipment and the check-in receiving base station communicate through a 2.4G communication technology; the background system is also used for sending check-in reminding information to the check-in devices which do not complete check-in through the wireless Ethernet or the mobile communication network.

Compared with the prior art, the invention has the advantages that:

1. the invention sets the check-in receiving base station with specific communication frequency band for the preset check-in area (such as classroom, enterprise office, work area, meeting room and other specific areas needing check-in), the check-in person carries the check-in equipment, the communication frequency of the check-in equipment is matched with the communication frequency band of the check-in receiving base station of the area needing check-in, and the check-in equipment sends the check-in information to the check-in receiving base station in a wireless communication mode, and the user does not need to carry out any check-in operation, so that the non-perception check-in can be completed.

2. According to the invention, the communication frequency of the check-in equipment is matched with the communication frequency band of the check-in receiving base station, so that the check-in equipment can only communicate with the specific check-in receiving base station within a specific time period to complete check-in, thereby effectively preventing wrong check-in caused by various reasons and ensuring the accuracy and reliability of check-in. The communication frequency information is generated by reading the frequency band adjusting table by the background system, and the check-in equipment receives the communication frequency information to update the communication frequency, so that the check-in equipment does not need a reading module and a processing module for processing the frequency band adjusting table, the size and the power consumption of the check-in equipment are reduced, and the standby time of the check-in equipment is prolonged.

3. The invention belongs to different check-in areas, but the communication frequency bands of the check-in receiving base stations with overlapped communication ranges are not overlapped, namely different communication frequency bands are provided, so that the condition that the same check-in equipment checks in on a plurality of check-in receiving base stations belonging to different check-in areas or the condition that the check-in equipment checks in on the check-in receiving base stations which should not check in can be effectively prevented under the condition that a plurality of check-in areas are required to be divided in a small range such as a school, and the like, and the check-in accuracy and reliability can be effectively ensured.

4. The check-in equipment can acquire a frequency band adjusting table (such as an electronic curriculum schedule adopted by a school, and indicates the class time, class place and communication frequency band of the check-in receiving base station of a student, so that the communication frequency of the check-in equipment is set to be matched with the communication frequency band), the frequency band adjusting table records that the check-in equipment should adopt a certain specific communication frequency within a certain specific time period, so that the check-in equipment can communicate with the check-in receiving base station in a certain specific check-in area, the flexibility of the check-in equipment is ensured, check-in information can be configured at the background according to needs, and the check-in information is directly downloaded from the background system by the check-in equipment, is automatically updated, does not need manual configuration of a user, and is good in convenience.

5. The sign-in equipment of the invention adopts the 2.4G communication technology to communicate with the sign-in receiving base station, submit the sign-in information and acquire the frequency band adjusting table, and simultaneously, the sign-in success information fed back by a background system, the non-sign-in information and the like can be acquired through the Ethernet wireless network or the mobile communication network, so that the prompt can be provided for the user, meanwhile, the power consumption and the cost of the sign-in equipment are also considered, all functions can be realized under the conditions of low power consumption and low cost, the cruising ability of the sign-in equipment is improved, and the sign-in equipment can be conveniently industrially produced and popularized and applied in large batch.

Drawings

FIG. 1 is a schematic flow chart of an embodiment of the present invention;

FIG. 2 is a schematic diagram of an application scenario according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an embodiment of the present invention;

fig. 4 is a schematic system structure according to an embodiment of the present invention.

Detailed Description

The invention is further described below with reference to the drawings and specific preferred embodiments of the description, without thereby limiting the scope of protection of the invention.

As shown in fig. 1, in the non-sensing check-in method of this embodiment, the preset communication frequency of the check-in device is matched with the fixed communication frequency band of the check-in receiving base station in the current preset check-in area, the communication range of the check-in receiving base station in the current preset check-in area is entered to establish communication, and check-in information is transmitted to the background system to complete the check-in of the current preset check-in area; the check-in equipment receives the communication frequency information to complete communication frequency updating, and the communication frequency is matched with the fixed communication frequency band of the check-in receiving base station in the next preset check-in area; the check-in equipment enters a next preset check-in area to complete the next check-in; the steps are repeated until the check-in of all the preset check-in areas is completed.

In this embodiment, one or more check-in receiving base stations may be set in the same preset check-in area according to needs, such as the area size of the preset check-in area and the signal coverage of the check-in receiving base stations. Different sign-in receiving base stations in the same preset sign-in area have the same preset communication frequency band. The check-in receiving base stations in different preset check-in areas with overlapped communication ranges have different preset communication frequency bands.

In the present embodiment, an application scenario of a school is taken as an example, as shown in fig. 2 and 4, a check-in area is preset as a classroom, and there may be any plurality of check-in areas according to a schedule arrangement, such as classroom 1 and classroom 2 in fig. 2. Each classroom can be provided with at least one check-in receiving base station, such as classroom 1 is provided with 2 check-in receiving base stations, station 1 and station 2 in fig. 2, classroom 2 is provided with 1 check-in receiving base station, station 3. The solid circles in fig. 2 represent the communication coverage of the station 1, and the dotted circles represent the communication coverage of the station 3. Stations 1 and 2 are used to receive check-in information for check-in devices in classroom 1, and station 3 is used to receive check-in information for check-in devices in classroom 2. The communication frequency bands of the central station 1 and the central station 2 are the same, such as the frequency band A, the communication frequency band of the central station 3 is the frequency band B, the frequency band A and the frequency band B are different communication frequency bands, the communication coverage range of the central station 1 and the central station 2 in the classroom 1 and the communication coverage range of the central station 3 in the classroom 2 have a common communication range area D, namely when any check-in equipment reaches the common communication range of the central station 1 and the central station 3, the check-in equipment can only communicate with the check-in receiving base station with the same communication frequency band, such as the communication frequency band of the check-in equipment X is A, in the common communication range area D, the check-in equipment X can only communicate with the check-in receiving base station 1 or 2, and the check-in is completed in the classroom 1, so that the false check-in can be effectively prevented.

Particularly, for example, all classes of a single student sign in a single day, such as primary and secondary school students, the location of the school is fixed. Except for scenes such as physical classes or auditorium meetings, the attendance is mostly concentrated in fixed classrooms, so that the sign-in areas are preset to be the fixed classrooms, playgrounds and auditorium. And a frequency band adjusting table is stored in the background system, the frequency band adjusting table comprises time period information and communication frequency information corresponding to the time period, and the time period information is the starting time of the activities. The communication frequency information is matched with a fixed communication frequency band corresponding to the check-in receiving base station in the activity field. For the application scene adopting the fixed classroom, because each class of each student is in class in the same classroom, the communication frequency of the electronic school boards of the students can be directly fixed to be matched with the communication frequency band of the sign-in receiving base station of the classroom. However, for the application scenario of middle school or university, the students may have a class-walking mechanism because the locations of the students are not fixed, that is, as shown in fig. 2, a student may have a class in classroom 1 before and a class in classroom 2 after, if the communication frequency of the electronic school badge is fixed, the student will have no way to complete the check-in 2 classrooms. Therefore, a frequency band adjusting table of the background system is needed to be used, the frequency band adjusting table is matched with the class schedule of the student, in the scene, the previous class is in the classroom 1, the communication frequency band signed to the receiving base station in the classroom 1 is the frequency band A, and the class time is from 8 to 8 points and 45 minutes; in the later class, the communication frequency band signed to the receiving base station in the classroom 2 is the frequency band B, and the class time is from 9 o 'clock to 9 o' clock and 45 minutes. Therefore, the communication frequency of the electronic school board of the student is preset to a frequency matching the frequency band a, and thus the electronic school board establishes communication with the check-in receiving base station in the classroom 1 at 8 o' clock to complete check-in. And in the period from 8 o ' clock to 8 o ' clock and 45 o ' clock, after the sign-in is finished, other information interaction transmission between the sign-in equipment (such as an electronic school sign) and the sign-in receiving base station (an electronic whiteboard) is also finished, for example, the operation of selecting questions, judging the questions to be answered and displaying the answer results on the electronic whiteboard is finished by utilizing the operation buttons of the electronic school sign. The teacher can operate and send out an instruction for finishing information interaction on the electronic whiteboard, and then the electronic whiteboard transmits the communication frequency information received from the background system to the sign-in equipment through manual operation, or the electronic whiteboard automatically transmits the communication frequency information received from the background system to the sign-in equipment; of course, the communication frequency information received from the background system can be automatically transmitted to the check-in equipment by the teacher operation or the electronic whiteboard when the class time is over or near to the end, such as 8 o 'clock 43 or 8 o' clock 45. And the check-in equipment receives the communication frequency information to complete the communication frequency updating and becomes the frequency matched with the frequency band B.

At point 9, the student enters the next preset check-in area, classroom 2, and establishes communication with the electronic whiteboard of the check-in receiving base station. Therefore, the communication frequency of the classroom needing to sign in can be accurately matched according to the content of the school timetable of the student without manual operation of the student, and the sign-in of the classroom can be finished as long as the student reaches the classroom with the electronic school card.

The check-in equipment in the embodiment is an electronic school badge, the electronic school badge stores basic information of students, such as school numbers, names, classes and the like, and has a wireless communication function, the electronic school badge can communicate with the check-in receiving base station, the check-in receiving base station opens a check-in interface when entering a communication range of the check-in receiving base station, and the electronic school badge can send the information of the school numbers, the names and the like stored in the electronic school badge to the check-in receiving base station, so that the check-in is completed. Or: the electronic school sign is an electronic school sign, the electronic school sign is provided with a unique identification code, the identification code corresponds to students uniquely, the electronic school sign can communicate with the sign-in receiving base station, the sign-in receiving base station enters a communication range of the sign-in receiving base station, the sign-in interface is opened by the sign-in receiving base station, the electronic school sign submits identification code information of the electronic school sign to a background system through the sign-in receiving base station, the background system reads the identification code and compares the identification code prestored in the background system with a corresponding relation table of the students, and therefore information such as the school numbers, names and the like of the signed-in students is confirmed, and sign-in is completed. In this embodiment, the background system may further send the check-in condition to the display device for displaying, and specifically, for example, for the school application scenario of this embodiment, the check-in information may be sent to an electronic whiteboard in a classroom; for example, for application scenes such as enterprises and the like, the check-in information can be sent to a notice display screen and the like, so that feedback of the check-in condition is realized.

Check-in devices such as electronic school cards are limited in size and weight due to their portability, resulting in relatively small battery capacity. In the embodiment, the communication frequency information is generated by reading the frequency band adjustment table by the background system, and the check-in equipment receives the communication frequency information to update the communication frequency, so that the check-in equipment does not need a reading module and a processing module for processing the frequency band adjustment table, the size and the power consumption of the check-in equipment are reduced, the standby time of the check-in equipment is prolonged, the portability is increased, and the cost of the check-in equipment is reduced.

In this embodiment, the communication frequency update time is after the information interaction between the check-in device and the check-in receiving base station in the current preset check-in area is completed. The communication frequency information is generated by reading the frequency band adjusting table by the background system and is transmitted to the check-in equipment; the frequency band adjusting table comprises time period information and communication frequency information corresponding to the time period; and the background system reads the communication frequency information corresponding to the time period information and transmits the communication frequency information to the check-in equipment.

After the communication frequency of the check-in equipment is updated, the check-in equipment is not matched with the check-in receiving base station in the current preset check-in area any more and loses communication connection, so that the communication frequency needs to be updated after information interaction with the check-in receiving base station in the current preset check-in area is completed, and the use is not influenced. The check-in equipment can also be connected to a processing terminal through a data line, such as a computer with matched software, and the communication frequency of the check-in equipment is manually updated. By the mode, even if the class site of a class is temporarily adjusted in the school educational administration, the sign-in equipment can be matched with the communication frequency band of the sign-in receiving base station in a new class classroom to complete the sign-in. Of course, the school educational administration temporarily adjusts the place of a class in a class, and can directly modify the frequency band adjustment table. And the background system reads the modified frequency band adjusting table, generates communication frequency information and transmits the communication frequency information to the sign-in equipment by the currently established communication sign-in receiving base station.

In this embodiment, the check-in process of completing any preset check-in area by the check-in equipment comprises multiple check-in information transfer, namely, the check-in process comprises multiple check-in, so that the class condition of the student is accurately acquired.

In this embodiment, the process of the check-in device completing the check-in of any preset check-in area at least includes a first check-in formed by check-in information transfer corresponding to the beginning stage of the time period, a second check-in formed by check-in information transfer corresponding to the middle stage of the time period, and a third check-in formed by check-in information transfer corresponding to the ending stage of the time period. If in a lesson, can carry out once and sign in at the beginning of class, in class and when leaving class to judge whether the student appears phenomenon such as late arrival, early retreat, better acquisition student's the condition of attending class.

In the present embodiment, the check-in device and the check-in receiving base station communicate with each other by using a 2.4G communication technology. The 2.4G communication technology has the advantage of low energy consumption, and meanwhile, the communication frequency band can be conveniently divided. Therefore, the energy consumption level of the check-in equipment can be effectively reduced, and the endurance time of the check-in equipment is prolonged.

In this embodiment, the check-in device that does not complete check-in further includes receiving check-in reminding information sent by the background system through the wireless ethernet or the mobile communication network. If the student does not come to class, the student can not sign in through the electronic school board, the sign-in information of the student can not be recorded in the background system, at the moment, the background system can learn the information of the student who does not sign in through analyzing the sign-in data, and the reminding information of not signing in is sent to the electronic school board of the student through the wireless Ethernet or the mobile communication network. Of course, if the student signs in successfully, sign-in success information can also be sent to the electronic school card of the student. In this embodiment, the information is reliably pushed by virtue of the advantage of long communication distance through the wireless ethernet or the mobile communication network.

In the non-sensing check-in method of the embodiment, the check-in receiving base stations in each preset check-in area have fixed communication frequency bands, and the check-in receiving base stations with overlapped communication ranges in different preset check-in areas have different fixed communication frequency bands;

the check-in receiving base station of the current preset check-in area communicates with the check-in equipment matched with the fixed communication frequency band of the check-in receiving base station, receives the check-in information of the check-in equipment and submits the check-in information to a background system, and the current check-in is completed; the current check-in receiving base station transmits the received communication frequency information to the check-in equipment so that the check-in equipment completes communication frequency updating; the communication frequency is matched with the fixed communication frequency band of the sign-in receiving base station of the next preset sign-in area; and the sign-in receiving base station of the next preset sign-in area establishes communication with the sign-in equipment to complete the next sign-in, and the step is repeated until the sign-in of all the preset sign-in areas is completed. The method for non-inductive check-in this embodiment is the same as the method adopted by the check-in device in the above-mentioned method for non-inductive check-in, and the method of the present invention is only protected and explained from the side of the check-in receiving base station.

The non-perception check-in method can automatically finish check-in under the condition that a user does not need manual intervention, is high in check-in efficiency, high in accuracy and good in reliability, can conveniently and flexibly adjust the check-in area of the user, and can greatly improve the convenience of check-in management.

As shown in fig. 3, the non-sensory check-in apparatus of the present embodiment includes a frequency adjustment unit and a communication unit;

The communication unit is also used for receiving the frequency band adjusting table and updating the local frequency band adjusting table. The communication unit is also used for receiving the check-in reminding information. The communication unit comprises a 2.4G communication unit, and/or a wireless Ethernet communication unit, and/or a mobile communication network unit. The check-in equipment of the embodiment can realize the non-perception check-in of the user through the check-in method.

As shown in fig. 4, the non-aware check-in system of the present embodiment includes a check-in device, a check-in receiving base station and a background system; the check-in equipment is the check-in equipment; the check-in receiving base station is arranged in each preset check-in area, has a fixed communication frequency band, is used for receiving check-in information submitted by check-in equipment which is positioned in the range of the preset check-in area and has a communication frequency positioned in the range of the fixed communication frequency band, and uploads the check-in information to the background system; the background system is used for registering and managing the check-in information of the check-in equipment.

In this embodiment, different check-in receiving base stations in the same preset check-in area have the same communication frequency band. The different check-in receiving base stations which belong to different preset check-in areas and have overlapped communication ranges have different communication frequency bands. And the check-in receiving base station opens a check-in interface in a preset check-in time period according to a preset check-in requirement and receives check-in information submitted by the check-in equipment. The background system is also used for configuring a frequency band adjusting table for the check-in equipment and sending the frequency band adjusting table to the check-in equipment. And the background system sends the frequency band adjustment table to the check-in equipment through the check-in receiving base station. The check-in equipment and the check-in receiving base station are communicated through a 2.4G communication technology; the background system is also used for sending check-in reminding information to the check-in devices which do not complete check-in through the wireless Ethernet or the mobile communication network.

The non-perception check-in system of the embodiment can automatically complete check-in under the condition that a user does not need manual intervention through the non-perception check-in method, is high in check-in efficiency, high in accuracy and good in reliability, can conveniently and flexibly adjust the check-in area of the user, and can greatly improve the convenience of check-in management.

The foregoing is considered as illustrative of the preferred embodiments of the invention and is not to be construed as limiting the invention in any way. Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims

1. A non-aware check-in method, comprising the steps of:

the check-in equipment receives communication frequency information to complete communication frequency updating, and the communication frequency is matched with a fixed communication frequency band of a check-in receiving base station in a next preset check-in area; the check-in equipment enters a next preset check-in area to complete the next check-in; the steps are repeated until the check-in of all the preset check-in areas is completed.

2. The method of claim 1, wherein the communication frequency update time is after information interaction between the check-in device and a check-in receiving base station of a current preset check-in area is completed;

the communication frequency information is generated by reading a frequency band adjusting table by the background system and is transmitted to the check-in equipment; the frequency band adjusting table comprises time period information and communication frequency information corresponding to the time period;

3. The method of claim 1, wherein the check-in device completes a check-in process for any one of the predefined check-in areas including multiple check-in information transfers.

4. The method of claim 3, wherein the check-in process of the check-in device to complete any preset check-in area at least comprises a first check-in formed by check-in information transfer corresponding to a beginning stage of a time period, a second check-in formed by check-in information transfer corresponding to an intermediate stage of the time period, and a third check-in formed by check-in information transfer corresponding to an ending stage of the time period.

5. The imperceptible check-in method of claim 1, wherein the check-in device communicates with the check-in receiving base station via 2.4G communications technology.

6. The method of any of claims 1-5, wherein the check-in devices that do not complete check-in further comprise accepting check-in reminder information sent by the background system via a wireless Ethernet or a mobile communication network.

7. A non-aware check-in method, comprising the steps of:

the check-in receiving base station of the current preset check-in area communicates with check-in equipment matched with the fixed communication frequency band of the check-in receiving base station, receives check-in information of the check-in equipment and submits the check-in information to a background system, and current check-in is completed; the current check-in receiving base station transmits the received communication frequency information to check-in equipment so that the check-in equipment completes communication frequency updating; the communication frequency is matched with a fixed communication frequency band of a check-in receiving base station of a next preset check-in area; and the sign-in receiving base station of the next preset sign-in area establishes communication with the sign-in equipment to complete the next sign-in, and the step is repeated until the sign-in of all the preset sign-in areas is completed.

8. The method of claim 7, wherein each of the check-in receiving base stations in different predetermined check-in areas have different fixed communication frequency bands.

9. An imperceptible check-in device is characterized by comprising a frequency adjusting unit and a communication unit;

the frequency adjusting unit is used for finishing communication frequency updating according to the communication frequency information, and the updated communication frequency is matched with the fixed communication frequency band of the sign-in receiving base station in the next preset sign-in area;

the communication unit is used for communicating with the check-in receiving base station of the current preset check-in area matched with the communication frequency to submit check-in information and receiving the communication frequency information transmitted by the background system through the check-in receiving base station of the current preset check-in area.

10. The non-sensory check-in device of claim 9, wherein the communication unit is further configured to receive a check-in reminder message.

11. An imperceptible check-in device according to claim 9 or 10, wherein the communication unit comprises a 2.4G communication unit, and/or a wireless ethernet communication unit, and/or a mobile communication network unit.

12. A non-perception check-in system is characterized by comprising a check-in device, a check-in receiving base station and a background system;

the check-in apparatus being as claimed in any one of claims 9 to 11;

the check-in receiving base station is arranged in each preset check-in area, has a fixed communication frequency band, is used for receiving check-in information submitted by the check-in equipment which is positioned in the range of the preset check-in area and has the communication frequency positioned in the range of the fixed communication frequency band, and uploads the check-in information to a background system;

and the background system is used for registering and managing the check-in information of the check-in equipment.

13. The system of claim 12, wherein different ones of the check-in receiving base stations that belong to different predetermined check-in areas and overlap in communication range have different fixed communication bands.

14. The system of claim 13, wherein the check-in device performs a check-in process for any one of the predefined check-in areas including multiple check-in information transfers.

15. The system of claim 12, wherein the backend system is further configured to configure a frequency band adjustment table for the check-in device and send the frequency band adjustment table to the check-in device.

16. The system of any of claims 12-15, wherein the check-in device communicates with the check-in receiving base station via 2.4G communication technology; the background system is also used for sending check-in reminding information to the check-in equipment which does not complete check-in through the wireless Ethernet or the mobile communication network.