CN108389284B - Gate identity rapid verification system and method based on mobile phone IMSI identification technology - Google Patents
Gate identity rapid verification system and method based on mobile phone IMSI identification technology Download PDFInfo
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- CN108389284B CN108389284B CN201810048665.8A CN201810048665A CN108389284B CN 108389284 B CN108389284 B CN 108389284B CN 201810048665 A CN201810048665 A CN 201810048665A CN 108389284 B CN108389284 B CN 108389284B
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- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C9/00—Individual registration on entry or exit
- G07C9/20—Individual registration on entry or exit involving the use of a pass
- G07C9/22—Individual registration on entry or exit involving the use of a pass in combination with an identity check of the pass holder
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Abstract
The invention discloses a gate identity rapid verification system and a gate identity rapid verification method based on a mobile phone IMSI identification technology, and provides a rapid and accurate identity verification technology suitable for a gate array by advanced technical means, thereby solving the problem of long time consumption of the traditional non-inductive payment identity verification; the invention can enable the user to quickly carry out identity authentication through the mobile phone without carrying other articles or cards or contacting with equipment, has extremely short authentication time, improves the passing efficiency of the user, has very good user experience and solves the problems existing in the existing identity authentication mode.
Description
Technical Field
The invention relates to the technical field of entrance guard gates, in particular to a gate identity rapid verification system and method based on a mobile phone IMSI identification technology.
Background
The gate is a passage blocking device (passage management apparatus) for managing the flow of people and regulating the entrance and exit of pedestrians, and is first applied to a subway ticket checking system. However, with the development of urban construction, a plurality of scene fields gradually start to use the gate machines, and a plurality of gate machines are combined and arranged together to form a gate machine array for more people to use the gate at the same time. At present, the identity verification method of the gate mainly verifies the identity of the passer through technologies such as RFID card verification, fingerprint identification, face identification and the like.
However, the above verification methods have the following disadvantages: (1) the RFID card needs to be carried by a user, and sometimes a plurality of different RFID cards need to be carried due to more in-out scenes, which is very inconvenient; (2) the fingerprint identification mode requires that a user puts a finger on an identification area before passing through a gate to carry out fingerprint identification, the device compares the acquired fingerprint with all effective fingerprints stored in a background one by one to finish verification, the verification speed is low, and the mode requires that the user finger is in contact with the device, so the experience effect is poor; (3) the face recognition mode requires that a face of a user is aligned to the face recognition module before the user passes through the gate, the face recognition module takes a face image of the user through the camera, the image is sent to the background and compared with all effective images stored in the background, the data processing capacity is large, and the verification speed is low.
Most of the current common gate identity authentication means need to send collected information to a background for comparison before a user passes a gate, and when the background sample data is increased, the authentication speed is greatly reduced, so that the passing efficiency is influenced.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a system and a method for rapidly verifying the identity of a gate based on the IMSI identification technology of a mobile phone, so that a user can rapidly verify the identity through the mobile phone, the passing efficiency of the user is improved, and the user experience is very good.
In order to solve the above technical problems, the present invention provides a system for rapidly verifying a gate identity based on a mobile phone IMSI identification technology, comprising: the system comprises a cloud background 2, a server end 8, a main base station 3 and a network switch 7 which are arranged in a gate array, and a main control unit 4, sub base stations 5 and a photoelectric detection unit 6 which are arranged in each gate host 1; the main base station 3 is connected with all the sub base stations 5 through a bus, the main control unit 4 in each gate host 1 can upload data to the server end 8 through the network switch 7, the main base station 3 is connected with the cloud background 2 through a network cable, and the photoelectric detection unit 6 is in communication connection with the main control unit 4.
Preferably, the main base station 3 includes an electromagnetic energy constraint device, a monitoring unit, a microprocessor, an analysis processing unit, a bus transmission module and a network transmission module; the electromagnetic energy restraint device comprises a shielding box, a radio frequency antenna plate and a wave absorbing plate, wherein the radio frequency antenna plate and the wave absorbing plate are arranged in the shielding box; the monitoring unit comprises a radio frequency module and a modem; the analysis processing unit comprises a DSP processor and a plurality of FLASH for storing a protocol stack; the radio frequency module obtains a radio frequency signal of an interception channel through the electromagnetic energy constraint device, a baseband signal is obtained after modulation and demodulation are carried out through the modem, and the microprocessor converts the baseband signal into a 15-digit IMSI number and an 8-digit signal intensity value through protocol stack rule conversion in the FLASH.
Preferably, the sub-base station 5 comprises an electromagnetic energy polymerization device, a monitoring unit, a microprocessor, an analysis processing unit and a bus transmission module; the electromagnetic energy polymerization device comprises a radio frequency antenna plate 13 and a ring-shaped ferrite 14 arranged on the back surface of the radio frequency antenna plate; the radio frequency antenna plate 13 and the annular ferrite 14 are arranged inside a shielding box 15, the shielding box 15 is five-sided closed, and only the top surface is provided with a circular opening 16.
Preferably, the diameter of the circular opening 16 is 30-40 mm, the outer diameter of the annular ferrite 14 is 30mm, the inner diameter is 25mm, and the height is 30-50 mm.
Correspondingly, the gate identity rapid verification method based on the mobile phone IMSI identification technology comprises the following steps:
(1) detecting, identifying, screening and analyzing all mobile phone IMSIs near the gate array through the main base station 3;
(2) the main base station 3 sends the screened and analyzed IMSI number to the cloud background 2 through the network;
(3) the cloud background 2 compares all IMSI numbers sent by the main base station 3 with a large sample comparison base for verification, and feeds back the IMSI numbers passing the verification to the main base station 3;
(4) the main base station 3 sends all the IMSI numbers passing the verification near the gate array to the sub base stations 5 in each gate 1 in a bus mode, so that the sub base stations 5 generate a small sample comparison base;
(5) the photoelectric detection unit 6 in the gate 1 identity authentication area detects the object above the identity authentication area at any moment;
(6) when an object is detected to be placed in the identity verification area, the photoelectric detection unit 6 sends the sensing signal to the main control unit 4 positioned in the local machine;
(7) after receiving the signal, the main control unit 4 immediately sends a command to the sub base station 5 in the local machine, so as to acquire the IMSI of the mobile phone near the identity authentication area of the local machine;
(8) if the IMSI number of the mobile phone is successfully obtained, the sub-base station 5 compares the IMSI number with a small sample comparison library in a memory;
(9) if the comparison is successful, the sub-base station 5 sends a verification passing command to the main control unit 4 of the local machine, and sends the IMSI number passing the verification to the main control unit 4;
(10) after receiving the command, the main control unit 4 controls the gate to open, and simultaneously transmits the IMSI number to the server 8 through the network switch 7.
Preferably, in the step (1), the detection, identification, screening and analysis of the IMSI of all the mobile phones near the gate array by the master base station 3 specifically includes the following steps:
(11) a radio frequency module in the main station 3 acquires a radio frequency signal of an interception channel through an electromagnetic energy constraint device;
(12) when the signal is intercepted, the host station 3 converts the analog signal into a digital baseband signal through modulation and demodulation by a modem;
(13) the main base station 3 transmits the digital baseband signal to the DSP processor through the microprocessor in a SPI bus communication mode;
(14) the DSP processor converts the digital baseband signal into a 15-digit IMSI number and an 8-digit signal strength value according to a protocol stack conversion rule in the FLASH, and returns a conversion result to the microprocessor in an SPI bus communication mode;
(15) the microprocessor judges the signal strength value of 8 bits at first, if the signal strength value is lower than the threshold value, the microprocessor discards the signal; if the signal intensity value is higher than the set threshold value, the microprocessor saves the IMSI number;
(16) and (5) repeating the steps (11) to (15) to obtain the IMSI number information of other mobile phones near the gate array.
Preferably, in the step (3), the comparing and verifying, by the cloud background 2, all IMSI numbers sent by the main base station 3 with the large sample comparison database specifically includes the following steps:
(31) the cloud background 2 acquires the 15-digit IMSI numbers of all the mobile phones sent by the main base station 3 through the network and then covers the 15-digit IMSI numbers into an IMSI number temporary storage structure body;
(32) the cloud background 2 takes out the first group of IMSI numbers in the structure body;
(33) and (3) carrying out 1: n, comparing the two; if an array which is identical to the IMSI number exists in the cloud background database, the cloud background can feed back the IMSI number to the main base station through the network; if the IMSI number and the white list in all the cloud background databases are not complete, the cloud background 2 does not feed the IMSI number back to the host station;
(34) and (4) the cloud background 2 takes out the next group of IMSI numbers in the structure body, compares the IMSI numbers according to the step (33), and selects whether to feed back according to the comparison result until all the IMSI numbers in the structure body are compared.
The invention has the beneficial effects that: the invention provides a rapid and accurate identity authentication technology suitable for a gate array by advanced technical means, thereby solving the problem of long time consumption of the traditional non-inductive payment identity authentication; the invention can enable the user to quickly carry out identity authentication through the mobile phone without carrying other articles or cards or contacting with equipment, has extremely short authentication time, improves the passing efficiency of the user, has very good user experience and solves the problems existing in the existing identity authentication mode.
Drawings
FIG. 1 is a schematic diagram of the system of the present invention.
Fig. 2 is a schematic diagram of the state of the user's mobile phone entering the detection range of the main base station according to the present invention.
FIG. 3 is a diagram illustrating a state where a user's mobile phone arrives at a gate verification area according to the present invention.
Fig. 4 is a schematic diagram of the present invention detecting, identifying, screening and analyzing IMSI of all handsets near the gate array via the master base station.
Fig. 5 is a schematic structural diagram of a main base station of the present invention.
Fig. 6 is a bottom view of the rf antenna board of the present invention.
Fig. 7 is a schematic view of an electromagnetic energy polymerizing apparatus according to the present invention.
Detailed Description
As shown in fig. 1, a system for fast verifying gate identity based on IMSI identification technology of a mobile phone includes: the system comprises a cloud background 2, a server end 8, a main base station 3 and a network switch 7 which are arranged in a gate array, and a main control unit 4, sub base stations 5 and a photoelectric detection unit 6 which are arranged in each gate host 1; the main base station 3 is connected with all the sub base stations 5 through a bus, the main control unit 4 in each gate host 1 can upload data to the server end 8 through the network switch 7, the main base station 3 is connected with the cloud background 2 through a network cable, and the photoelectric detection unit 6 is in communication connection with the main control unit 4.
The gate host 1 is composed of a case, a gate controller and a gate, and the gate is controlled by the controller according to the verification authorization sent by the main control unit 4, so that the passing or blocking of personnel is realized.
As shown in fig. 5, the main base station 3 is configured to detect, analyze, and acquire the IMSI of the mobile phone near the gate array, the detection distance of the main base station 3 is set to 10 meters to 30 meters, when the mobile phone of the user enters the range, the main base station 3 may actively acquire the IMSI number of the mobile phone of the user, and send the analyzed IMSI number to the cloud background 2 for verification through the network. The main base station 3 communicates with all the sub base stations of the gate array through a bus, and sends the IMSI number near the gate array passing the verification to each sub base station, so that the sub base station 5 generates a small sample comparison base.
As shown in fig. 6 and 7, the main base station 3 includes an electromagnetic energy restriction device, a listening unit, a microprocessor, an analysis processing unit, a bus transmission module, and a network transmission module; the electromagnetic energy restraint device comprises a shielding box, a radio frequency antenna plate and a wave absorbing plate, wherein the radio frequency antenna plate and the wave absorbing plate are arranged in the shielding box; the monitoring unit comprises a radio frequency module and a modem; the analysis processing unit comprises a DSP processor and a plurality of FLASH for storing a protocol stack; the radio frequency module obtains the radio frequency signal of the interception channel through the electromagnetic energy constraint device, obtains the baseband signal after modulation and demodulation, and the microprocessor converts the baseband signal into a 15-digit IMSI number and an 8-digit signal intensity value through protocol stack rule conversion in FLASH.
The electromagnetic energy constraint device is used for constraining the electromagnetic energy of a mobile communication pedigree and realizing the obvious distinction of the signal intensity of the mobile phone at different distances from the device. The interception unit is used for intercepting and acquiring IMSI information and signal strength of all mobile phones in the monitoring range of the main base station. The microprocessor is used for screening the obtained IMSI information according to the signal intensity; the network transmission module is responsible for uploading the analyzed IMSI number to a cloud background for verification; and the system is also responsible for sending the IMSI number passing the verification to each sub base station through a bus transmission module. The analysis processing unit is used for analyzing, encrypting and packaging the IMSI information; the analysis processing unit is connected with the microprocessor by adopting two-way communication.
The sub-base station 5 comprises an electromagnetic energy polymerization device, a monitoring unit, a microprocessor, an analysis processing unit and a bus transmission module; the electromagnetic energy polymerization device comprises a radio frequency antenna plate 13 and a ring-shaped ferrite 14 arranged on the back surface of the radio frequency antenna plate; the radio frequency antenna plate 13 and the annular ferrite 14 are arranged inside the shielding box 15, five surfaces of the shielding box 15 are closed, and only the top surface is provided with a circular opening 16; the diameter of the circular opening 16 is 30-40 mm, the outer diameter of the annular ferrite 14 is 30mm, the inner diameter is 25mm, and the height is 30-50 mm.
The photoelectric detection unit 6 is installed in an authentication area at the end part of the gate and used for detecting whether a mobile phone is placed in the authentication area, preferably, the photoelectric detection unit 6 can adopt a diffuse reflection sensor, the light beam emission direction of the diffuse reflection sensor faces the position of the authentication area, when the mobile phone is placed in the authentication area, the light beam emitted by the diffuse reflection sensor is reflected back to the sensor by a mobile phone body, so that an induced electric signal is generated and is rapidly transmitted to the main control unit 4 of the local machine, and the main control unit 4 can immediately inform the sub-base station 5 of the local machine to acquire the IMSI number of the mobile phone in the authentication area when receiving the signal.
The sub base station 5 is used for detecting, analyzing and acquiring the IMSI of the mobile phone in the identity authentication area, and the detection distance of the sub base station 5 is set to be 5-20 cm; when the sub base station 5 receives the identity verification command sent by the main control unit 4, the sub base station 5 immediately obtains the IMIS number of the mobile phone in the identity verification area, compares the IMIS number with the small sample comparison library in the temporary memory, and sends the comparison result to the main control unit 4 of the local machine.
The main control unit 4 is a core control component inside each gate, and preferably, the main control power supply can adopt an industrial computer which is provided with a GPIO interface and can receive an induced electrical signal transmitted by the photoelectric detection unit 6 of the local computer. The main control unit 4 is connected with the sub base station 5 of the machine through a serial port data line to realize data bidirectional communication, and the main control unit 4 can issue commands to the gate controller to control the opening and closing of the gate.
The invention provides a system and a method for rapidly verifying the identity of a gate based on the IMSI identification technology of a mobile phone, wherein the method comprises the following steps:
step 4, the main base station 3 sends all the IMSI numbers passing the verification near the gate array to the sub base stations 5 in each gate 1 in a bus mode, so that the sub base stations 5 generate a small sample comparison base;
step 5, a photoelectric detection unit 6 in the identity verification area of the gate 1 detects an object above the identity verification area at any time;
step 6, when an object is detected to be placed in the identity verification area, the photoelectric detection unit 6 sends the induction signal to the main control unit 4 positioned in the local machine;
step 7, after receiving the signal, the main control unit 4 immediately sends a command to the sub base station 5 in the local machine, so as to acquire the IMSI of the mobile phone near the identity authentication area of the local machine;
step 9, if the comparison is successful, the sub-base station 5 sends a verification passing command to the main control unit 4 of the local machine, and sends the IMSI number passing the verification to the main control unit 4;
step 10, after receiving the command, the main control unit 4 controls the gate to open, and simultaneously transmits the IMSI number to the server end 8 through the network switch 7;
as shown in fig. 4, step 1 specifically includes the following sub-steps:
(11) a radio frequency module in the main station 3 acquires a radio frequency signal of an interception channel through an electromagnetic energy constraint device;
(12) when the signal is intercepted, the host station 3 converts the analog signal into a digital baseband signal through modulation and demodulation by a modem;
(13) the main base station 3 transmits the digital baseband signal to the DSP processor through the microprocessor in a SPI bus communication mode;
(14) the DSP processor converts the digital baseband signal into a 15-digit IMSI number and an 8-digit signal strength value according to a protocol stack conversion rule in the FLASH, and returns a conversion result to the microprocessor in an SPI bus communication mode;
(15) the microprocessor judges the signal strength value of 8 bits at first, if the signal strength value is lower than the threshold value, the microprocessor discards the signal; if the signal intensity value is higher than the set threshold value, the microprocessor saves the IMSI number;
(16) and (5) repeating the steps (11) to (15) to obtain the IMSI number information of other mobile phones near the gate array.
As shown in fig. 2 and fig. 3, the using method of the present invention is as follows, when a user mobile phone enters the detection range of the main base station, the host station will detect, identify and analyze all nearby IMSI of the mobile phone, and upload the IMSI number to the cloud background 2 for verification, and send the feedback IMSI number that passes verification to the sub base station in each gate to generate a small sample library, when the user arrives at the gate and puts the mobile phone in the authentication area, the main control unit 4 will receive the signal of the photoelectric detection unit 6, and immediately control the sub base station of the local machine to obtain the IMSI number of the mobile phone in the authentication area, and compare the IMSI number with the small sample library, if the comparison is successful, directly control the gate to open, put the user to pass, if the comparison is unsuccessful, the gate will not be opened.
The comparison and verification of all IMSI numbers sent by the main base station 3 and the large sample comparison database by the cloud background 2 specifically comprises the following steps:
(31) the cloud background 2 acquires the 15-digit IMSI numbers of all the mobile phones sent by the main base station 3 through the network and then covers the 15-digit IMSI numbers into an IMSI number temporary storage structure body;
(32) the cloud background 2 takes out the first group of IMSI numbers in the structure body;
(33) and (3) carrying out 1: n, comparing the two; if an array which is identical to the IMSI number exists in the cloud background database, the cloud background can feed back the IMSI number to the main base station through the network; if the IMSI number and the white list in all the cloud background databases are not complete, the cloud background 2 does not feed the IMSI number back to the host station;
(34) and (4) the cloud background 2 takes out the next group of IMSI numbers in the structure body, compares the IMSI numbers according to the step (33), and selects whether to feed back according to the comparison result until all the IMSI numbers in the structure body are compared.
The invention provides a rapid and accurate identity authentication technology suitable for a gate array by advanced technical means, thereby solving the problem that the traditional non-inductive payment identity authentication consumes long time. The invention can enable the user to quickly carry out identity authentication through the mobile phone without carrying other articles or cards or contacting with equipment, has extreme authentication time, improves the passing efficiency of the user, has very good user experience and solves the problems of the existing identity authentication mode.
Claims (5)
1. Quick verification system of floodgate machine identity based on cell-phone IMSI identification technology, its characterized in that includes: the system comprises a cloud background (2), a server end (8), a main base station (3) and a network switch (7) which are arranged in a gate array, and a main control unit (4), sub-base stations (5) and a photoelectric detection unit (6) which are arranged in each gate host (1); the main base station (3) is connected with all the sub-base stations (5) through a bus, a main control unit (4) in each gate host (1) can upload data to a server end (8) through a network switch (7), the main base station (3) is connected with the cloud background (2) through a network cable, and the photoelectric detection unit (6) is in communication connection with the main control unit (4); the main base station (3) comprises an electromagnetic energy constraint device, a monitoring unit, a microprocessor, an analysis processing unit, a bus transmission module and a network transmission module; the electromagnetic energy restraint device comprises a shielding box, a radio frequency antenna plate and a wave absorbing plate, wherein the radio frequency antenna plate and the wave absorbing plate are arranged in the shielding box; the monitoring unit comprises a radio frequency module and a modem; the analysis processing unit comprises a DSP processor and a plurality of FLASH for storing a protocol stack; the radio frequency module acquires a radio frequency signal of an interception channel through the electromagnetic energy constraint device, a baseband signal is acquired after modulation and demodulation are carried out through the modem, and the microprocessor converts the baseband signal into a 15-digit IMSI number and an 8-digit signal intensity value through protocol stack rule conversion in FLASH; the subbase station (5) comprises an electromagnetic energy polymerization device, a monitoring unit, a microprocessor, an analysis processing unit and a bus transmission module; the electromagnetic energy polymerization device comprises a radio frequency antenna plate (13) and a ring-shaped ferrite (14) arranged on the back surface of the radio frequency antenna plate; the radio frequency antenna plate (13) and the annular ferrite (14) are arranged inside the shielding box (15), five surfaces of the shielding box (15) are closed, and only the top surface is provided with a circular opening (16).
2. The mobile phone IMSI identification technology-based gate identity rapid verification system of claim 1, wherein the diameter of the circular opening (16) is 30-40 mm, the outer diameter of the ring-shaped ferrite (14) is 30mm, the inner diameter is 25mm, and the height is 30-50 mm.
3. The gate identity rapid verification method based on the mobile phone IMSI identification technology is characterized by comprising the following steps:
(1) detecting, identifying, screening and analyzing all mobile phone IMSIs near the gate array through the main base station (3);
(2) the main base station (3) sends the screened and analyzed IMSI number to the cloud background (2) through the network;
(3) the cloud background (2) compares all IMSI numbers sent by the main base station (3) with a large sample comparison base for verification, and feeds back the IMSI numbers passing the verification to the main base station (3);
(4) the main base station (3) sends all the IMSI numbers passing the verification near the gate array to the sub-base stations (5) in each gate (1) in a bus mode, so that the sub-base stations (5) generate a small sample comparison base;
(5) a photoelectric detection unit (6) in the identity verification area of the gate (1) detects an object above the identity verification area at any time;
(6) when an object is detected to be placed in the identity verification area, the photoelectric detection unit (6) sends the sensing signal to a main control unit (4) located in the local machine;
(7) after receiving the signal, the main control unit (4) immediately sends a command to a sub base station (5) in the local machine, so as to acquire the IMSI of the mobile phone near the identity authentication area of the local machine;
(8) if the IMSI number of the mobile phone is successfully acquired, the sub-base station (5) compares the IMSI number with a small sample comparison database in a memory;
(9) if the comparison is successful, the sub base station (5) sends a verification passing command to the main control unit (4) of the local machine, and sends the IMSI number passing the verification to the main control unit (4);
(10) after receiving the command, the main control unit (4) controls the gate to open, and simultaneously transmits the IMSI number to the server side (8) through the network switch (7).
4. The method for rapidly verifying the identity of the gate based on the IMSI identification technology of the mobile phone according to claim 3, wherein in the step (1), the step of detecting, identifying, screening and analyzing all the IMSIs of the mobile phones near the gate array by the master base station (3) specifically comprises the following steps:
(11) a radio frequency module in the host station (3) acquires a radio frequency signal of an interception channel through an electromagnetic energy constraint device;
(12) when the signal is intercepted, the host station (3) converts the analog signal into a digital baseband signal through modulation and demodulation by a modem;
(13) the main base station (3) transmits the digital baseband signal to the DSP processor through the microprocessor in a SPI bus communication mode;
(14) the DSP processor converts the digital baseband signal into a 15-digit IMSI number and an 8-digit signal strength value according to a protocol stack conversion rule in the FLASH, and returns a conversion result to the microprocessor in an SPI bus communication mode;
(15) the microprocessor judges the signal strength value of 8 bits at first, if the signal strength value is lower than the threshold value, the microprocessor discards the signal; if the signal intensity value is higher than the set threshold value, the microprocessor saves the IMSI number;
(16) and (5) repeating the steps (11) to (15) to obtain the IMSI number information of other mobile phones near the gate array.
5. The gate identity rapid verification method based on the IMSI identification technology of the mobile phone according to claim 3, wherein in the step (3), the cloud background (2) compares all IMSI numbers sent by the main base station (3) with the large sample comparison database for verification specifically comprises the following steps:
(31) the cloud background (2) acquires the 15-digit IMSI numbers of all the mobile phones sent by the main base station (3) through the network and then covers the 15-digit IMSI numbers into an IMSI number temporary storage structure body;
(32) the cloud background (2) takes out the first group of IMSI numbers in the structure body;
(33) and (3) carrying out 1: n, comparing the two; if an array which is identical to the IMSI number exists in the cloud background database, the cloud background can feed back the IMSI number to the main base station through the network; if the IMSI number is not identical to the white list in all cloud background databases, the cloud background (2) does not feed the IMSI number back to the host station;
(34) and (4) the cloud background (2) takes out the next group of IMSI numbers in the structure body, compares the IMSI numbers according to the step (33), and selects whether to feed back according to the comparison result until all the IMSI numbers in the structure body are compared.
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1538571A1 (en) * | 2003-12-01 | 2005-06-08 | Nagracard S.A. | Identification method based on mobile equipment |
CN102740225A (en) * | 2012-05-23 | 2012-10-17 | 东南大学 | Device and method for obtaining international mobile equipment identifier of mobile communication terminal by base station |
CN103679885A (en) * | 2013-12-02 | 2014-03-26 | 大连智慧城科技有限公司 | Door control identity recognition system and method based on mobile terminal |
CN104091374A (en) * | 2014-06-17 | 2014-10-08 | 东南大学常州研究院 | Real-time attendance method adopting GSM/3G mobile phone perception technology |
CN104243167A (en) * | 2014-09-29 | 2014-12-24 | 重庆大学 | Method and system for intelligently perceiving identities on basis of mobile terminals |
CN105260757A (en) * | 2015-10-22 | 2016-01-20 | 上海澄真信息科技有限公司 | Ticket checking system combining palm vein authentication and mobile positioning and method |
CN107133792A (en) * | 2017-04-20 | 2017-09-05 | 王�华 | The subway payment system and method for payment of a kind of utilization mobile terminal payment |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI255628B (en) * | 2003-09-26 | 2006-05-21 | Lite On Technology Corp | Door lock apparatus with security authentication by wireless communication device and method for the same |
CN101631302B (en) * | 2008-07-14 | 2012-03-07 | 中兴通讯股份有限公司 | Method and device for acquiring international mobile subscriber identity of mobile communication terminal by base station |
CN101568072B (en) * | 2009-05-27 | 2011-06-01 | 侯怀德 | Mobile terminal emergency communication method and device |
CN106295787B (en) * | 2015-05-29 | 2019-02-26 | 中国移动通信集团浙江有限公司 | A kind of passenger flow statistical method and device based on mobile signaling protocol |
CN106951876A (en) * | 2017-03-27 | 2017-07-14 | 北京品恩科技股份有限公司 | A kind of three-dimensional portrait synthesis recognition system |
CN206759738U (en) * | 2017-03-28 | 2017-12-15 | 云南省金马安防设备制造厂 | Mobile phone terminal search and control device based on mobile phone signal |
CN107103575A (en) * | 2017-04-13 | 2017-08-29 | 南京熊猫电子股份有限公司 | A kind of rail traffic ticket automatic selling and checking system credit payment method based on mobile phone IMEI acquisition techniques |
-
2018
- 2018-01-18 CN CN201810048665.8A patent/CN108389284B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1538571A1 (en) * | 2003-12-01 | 2005-06-08 | Nagracard S.A. | Identification method based on mobile equipment |
CN102740225A (en) * | 2012-05-23 | 2012-10-17 | 东南大学 | Device and method for obtaining international mobile equipment identifier of mobile communication terminal by base station |
CN103679885A (en) * | 2013-12-02 | 2014-03-26 | 大连智慧城科技有限公司 | Door control identity recognition system and method based on mobile terminal |
CN104091374A (en) * | 2014-06-17 | 2014-10-08 | 东南大学常州研究院 | Real-time attendance method adopting GSM/3G mobile phone perception technology |
CN104243167A (en) * | 2014-09-29 | 2014-12-24 | 重庆大学 | Method and system for intelligently perceiving identities on basis of mobile terminals |
CN105260757A (en) * | 2015-10-22 | 2016-01-20 | 上海澄真信息科技有限公司 | Ticket checking system combining palm vein authentication and mobile positioning and method |
CN107133792A (en) * | 2017-04-20 | 2017-09-05 | 王�华 | The subway payment system and method for payment of a kind of utilization mobile terminal payment |
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