CN106686224B - Multiple cell-phone number polymerizations and system - Google Patents
Multiple cell-phone number polymerizations and system Download PDFInfo
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- CN106686224B CN106686224B CN201611182165.0A CN201611182165A CN106686224B CN 106686224 B CN106686224 B CN 106686224B CN 201611182165 A CN201611182165 A CN 201611182165A CN 106686224 B CN106686224 B CN 106686224B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72403—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
- H04M1/72406—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by software upgrading or downloading
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/006—Call diverting means
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72484—User interfaces specially adapted for cordless or mobile telephones wherein functions are triggered by incoming communication events
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- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Human Computer Interaction (AREA)
- Computer Networks & Wireless Communication (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The embodiment of the invention discloses a kind of multiple cell-phone number polymerizations and systems, and the polymerization includes: Connection Step: assistant's machine is connected to ... through the network main mobile phone;Signal receiving step: the analog signal that mobile communication base station sends over and the digital signal that main mobile phone is sended over by network are received;Signal switch process: being converted into digital signal for the analog signal received, and the digital signal received is converted into analog signal;And signal transmitting step: the digital signal that will convert into is sent to main mobile phone by network, and the analog signal that will convert into is wirelessly transmitted to mobile communication base station.The embodiment of the present invention is sent by the way that the analog signal of mobile communication is converted into digital signal by network, and multiple phone numbers are aggregated on a mobile phone by realization, and then realizes Multi-Subscriber Number, solves the worry for needing to carry multiple mobile phones when people's trip.
Description
Technical field
The present invention relates to field of cloud computer technology more particularly to a kind of multiple cell-phone number polymerizations and systems.
Background technique
The appearance of mobile phone changes people's lives mode, and mobile phone becomes the indispensable communication tool of people.Traditional
Call forwarding only have operator provide call forwarding, but can only forward call, cannot use other mobile phone transferring short messages, hair
It send short message and makes a phone call, realize Multi-Subscriber Number function.
Summary of the invention
The technical problem to be solved by the embodiment of the invention is that a kind of multiple cell-phone number polymerizations and system are provided,
So as to can be realized Multi-Subscriber Number function.
In order to solve the above-mentioned technical problem, the embodiment of the present invention proposes a kind of multiple cell-phone number polymerizations, feature
It is, client software module is installed on householder's mobile phone and assistant's machine, the communication of assistant's machine is made to go to main mobile phone, realizes one
Machine more numbers, the polymerization includes:
Connection Step: assistant's machine is connected to ... through the network main mobile phone;
Signal receiving step: the analog signal and main mobile phone that reception mobile communication base station sends over are transmitted across by network
The digital signal come;
Signal switch process: being converted into digital signal for the analog signal received, and the digital signal received is converted
At analog signal;And
Signal transmitting step: the digital signal that will convert into is sent to main mobile phone by network, the simulation letter that will convert into
Number it is wirelessly transmitted to mobile communication base station.
Correspondingly, the embodiment of the invention also provides a kind of multiple cell-phone number paradigmatic systems, the paradigmatic system includes master
Client software module is installed on mobile phone and assistant's machine, main mobile phone and assistant's machine, the communication of assistant's machine is made to go to main mobile phone, it is real
Existing Multi-Subscriber Number, the paradigmatic system further include:
Link block: assistant's machine is connected to ... through the network main mobile phone;
Signal receiving module: the analog signal and main mobile phone that reception mobile communication base station sends over are transmitted across by network
The digital signal come;
Signal conversion module: being converted into digital signal for the analog signal received, and the digital signal received is converted
At analog signal;And
Signal transmission module: the digital signal that will convert into is sent to main mobile phone by network, the simulation letter that will convert into
Number it is wirelessly transmitted to mobile communication base station.
For the embodiment of the present invention by proposing a kind of multiple cell-phone number polymerizations and system, the polymerization includes connection
Step, signal receiving step, signal switch process and signal transmitting step, by the way that the analog signal of mobile communication to be converted into counting
Word signal is sent by network, and multiple phone numbers are aggregated on a mobile phone by realization, and then realizes Multi-Subscriber Number, solves people
Need to carry the worries of multiple mobile phones when go on a journey.
Detailed description of the invention
Fig. 1 is the flow diagram of multiple cell-phone number polymerizations of the embodiment of the present invention.
Fig. 2 is the flow diagram of the Connection Step of the embodiment of the present invention.
Fig. 3 is the module diagram of multiple cell-phone number paradigmatic systems of the embodiment of the present invention.
Fig. 4 is the structural schematic diagram of the link block of the embodiment of the present invention.
Fig. 5 is the structural schematic diagram of multiple cell-phone number paradigmatic systems of the embodiment of the present invention.
Drawing reference numeral explanation
Main mobile phone setting steps S1
Connection Step S2
Receive sub-step S21
Decoding sub-step S22
Certification connection sub-step S23
Signal receiving step S3
Signal switch process S4
Signal transmitting step S5
Main mobile phone setup module 10
Link block 20
Receiving submodule 21
Decoding sub-module 22
Certification connection submodule 23
Signal receiving module 30
Signal conversion module 40
Signal transmission module 50.
Specific embodiment
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
It mutually combines, invention is further described in detail in the following with reference to the drawings and specific embodiments.
If directional instruction (such as up, down, left, right, before and after ...) is only used for explaining at certain in the embodiment of the present invention
Relative positional relationship, motion conditions etc. under one particular pose (as shown in the picture) between each component, if the particular pose is sent out
When raw change, then directionality instruction also correspondingly changes correspondingly.
If in addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and should not be understood as
Its relative importance of indication or suggestion or the quantity for implicitly indicating indicated technical characteristic.Define as a result, " first ",
The feature of " second " can explicitly or implicitly include at least one of the features.
Fig. 1 is please referred to, multiple cell-phone number polymerizations of the embodiment of the present invention mainly include main mobile phone setting steps S1, connect
Meet step S2, signal receiving step S3, signal switch process S4 and signal transmitting step S5.
Main mobile phone setting steps S1: the instruction of the main mobile phone of user setting is received, by main mobile phone access network.For example, user
The mobile phone of one installation client software is arranged as main mobile phone, and the cell-phone number for the one or more assistant's machines to be connected is set
Code, while by main mobile phone access network.
Connection Step S2: assistant's machine is connected to ... through the network main mobile phone.
Signal receiving step S3: the analog signal and main mobile phone that reception mobile communication base station sends over pass through network and send
The digital signal to come over.Analog signal and digital signal content include one of voice, video, short message and multimedia message or more
Kind.
Signal switch process S4: being converted into digital signal for the analog signal received, and the digital signal received is turned
Change analog signal into.
Signal transmitting step S5: the digital signal that will convert into is sent to main mobile phone by network, the simulation that will convert into
Signal is wirelessly transmitted to mobile communication base station.
As an implementation, signal receiving step S3 further includes that control signal receives sub-step: it is logical to receive main mobile phone
Cross the control signal of network transmission.For example, control signal control assistant's machine answers or refuses incoming call, also control assistant's machine transfers to electricity
Words and transmission short message.
Referring to figure 2., as an implementation, Connection Step S2 further includes receiving sub-step S21, decoding sub-step
S22 and certification connection sub-step S23.
Receive sub-step S21: receive main mobile phone by using preset secret key by preset authentication information carry out coding plus
Close obtained encryption information.For example, preset authentication information can be the phone number of assistant's machine.
Decoding sub-step S22: the encryption information received is decoded.
Certification connection sub-step S23: the decoded information obtained after decoding being carried out to compare certification with preset authentication information,
It authenticates and successfully then passes through network connection with main mobile phone.
As an implementation, certification connection is carried out using following steps in Connection Step S2:
Step 1: initialization system definition: main mobile phone is CU, and assistant's machine SU, CU and SU communicated by network, CU and
SU distrusts mutually, needs to carry out two-way authentication.
Step 2: define system private key: main mobile phone code key is KCU, assistant's machine code key is KSU, code key KCU、KSUIt is respectively stored in
In major and minor mobile phone, it is not leaked.
Step 3: defining system access password PU: it is P that SU, which receives user setting access password,SU, CU receives user's input should
Access password PCU, wherein PU=PCU=PSUWhen, two-way authentication can be passed through, otherwise authentification failure, and require PSU、PCUIt does not let out
Dew.
Step 4: generate challenge random number R: authentication initiator (can be CU and be also possible to SU) locally generate one with
Machine number r, and read current time t, then:
R=r | t;
Wherein, which is possible to be tampered, if be tampered only by network transmission to other side in transmission process
It can cause authentification failure, will not cause to palm off authentication result.
Step 5: generating session password: after CU and SU generates random number R, generating corresponding meeting using aes algorithm
Words code key KSCU、KSSUWith PSCU、PSSU;
KSCU=AES (K=KCU, IV=R);
KSSU=AES (K=KSU, IV=R);
PSCU=PSSU=AES (K=PU, IV=R).
Wherein, K indicates the code key of aes algorithm input, and IV indicates initial vector;KSCUMain mobile phone code key K is utilized for CUCUIt produces
Raw session code key;KSSUAssistant's machine code key K is utilized for SUSUThe session code key of generation;PSCUAccess password P is utilized for CUCU(or
PU) generate session code key;PSSUAccess password P is utilized for SUSU(or PU) generate session code key;
Step 6:SU generates challenge code CSU: P is plain text;
CSU=AES (K=KSSU, IV=R, P=PSU);
CSUCU is sent to by network after generation.
Step 7:CU generates challenge response code RCSU:
RCSU=AES (K=PSCU, IV=R, P=PCU|CSU);
Wherein, PCU|CSUFor access password PCUWith challenge code CSUCharacter string connection;
RCSUSU is sent to by network after generation.
Step 8:SU verifying challenge response code RCSU: decryption RCSUObtain RC-1 SU, C is cryptogram;
RC-1 SU=AES-1(K=PSSU, IV=R, C=RCSU)=P'SU|C'SU;
Wherein, C is cryptogram, decrypted result RC-1 SUP' is divided by lengthSUAnd C'SUTwo parts, P'SUExpression corresponds to
Access password PSUDecrypted result, C'SUIt indicates to correspond to challenge code CSUDecrypted result;
Then C' is decryptedSU,
C'-1 SU=AES-1(K=KSSU, IV=R, C=C'SU)=P "SU;
Wherein, decrypted result C'-1 SUP " is denoted as corresponding to access passwordSU;
If PSU=P'SU=P "SU, then certification passes through and is attached, otherwise authentification failure.
Referring to figure 3. to 5, multiple cell-phone number paradigmatic systems of the embodiment of the present invention include main mobile phone and assistant's machine, main hand
Client software module is installed on machine and assistant's machine, the communication of assistant's machine is made to go to main mobile phone, realizes Multi-Subscriber Number, it is described poly-
Collaboration system further includes that main mobile phone setup module 10, link block 20, signal receiving module 30, signal conversion module 40 and signal pass
Defeated module 50.
Main mobile phone setup module 10: the instruction of the main mobile phone of user setting is received, by main mobile phone access network.
Link block 20: assistant's machine is connected to ... through the network main mobile phone.For example, assistant's machine and main mobile phone pass through network connection
Corresponding assistant's machine is attached with main mobile phone by network by Cloud Server, Cloud Server.
Signal receiving module 30: the analog signal and main mobile phone that reception mobile communication base station sends over pass through network and send
The digital signal to come over.
Signal conversion module 40: being converted into digital signal for the analog signal received, and the digital signal received is turned
Change analog signal into.
Signal transmission module 20: the digital signal that will convert into is sent to main mobile phone by network, the simulation that will convert into
Signal is wirelessly transmitted to mobile communication base station.
As an implementation, signal receiving module 30 further includes control signal receiving submodule, and control signal receives
Submodule receives the control signal that main mobile phone is sent by network.
Referring to figure 4., as an implementation, link block 20 further includes receiving submodule 21, decoding sub-module 22
And certification connection submodule 23.
Receiving submodule 21 receives main mobile phone and preset authentication information is carried out coding encrypting by using preset secret key
Obtained encryption information.
The encryption information received is decoded by decoding sub-module 22.
Certification connection submodule 23 carries out the decoded information obtained after decoding with preset authentication information to compare certification, recognizes
It demonstrate,proves and successfully then passes through network connection with main mobile phone.
As an implementation, certification connection is carried out using following steps in link block 20:
Step 1: initialization system definition: main mobile phone is CU, and assistant's machine SU, CU and SU communicated by network, CU and
SU distrusts mutually, needs to carry out two-way authentication.
Step 2: define system private key: main mobile phone code key is KCU, assistant's machine code key is KSU, code key KCU、KSUIt is respectively stored in
In major and minor mobile phone, it is not leaked.
Step 3: defining system access password PU: it is P that SU, which receives user setting access password,SU, CU receives user's input should
Access password PCU, wherein PU=PCU=PSUWhen, two-way authentication can be passed through, otherwise authentification failure, and require PSU、PCUIt does not let out
Dew.
Step 4: generate challenge random number R: authentication initiator (can be CU and be also possible to SU) locally generate one with
Machine number r, and read current time t, then:
R=r | t;
Wherein, which is possible to be tampered, if be tampered only by network transmission to other side in transmission process
It can cause authentification failure, will not cause to palm off authentication result.
Step 5: generating session password: after CU and SU generates random number R, generating corresponding meeting using aes algorithm
Words code key KSCU、KSSUWith PSCU、PSSU;
KSCU=AES (K=KCU, IV=R);
KSSU=AES (K=KSU, IV=R);
PSCU=PSSU=AES (K=PU, IV=R).
Wherein, K indicates the code key of aes algorithm input, and IV indicates initial vector;KSCUMain mobile phone code key K is utilized for CUCUIt produces
Raw session code key;KSSUAssistant's machine code key K is utilized for SUSUThe session code key of generation;PSCUAccess password P is utilized for CUCU(or
PU) generate session code key;PSSUAccess password P is utilized for SUSU(or PU) generate session code key;
Step 6:SU generates challenge code CSU: P is plain text;
CSU=AES (K=KSSU, IV=R, P=PSU);
CSUCU is sent to by network after generation.
Step 7:CU generates challenge response code RCSU:
RCSU=AES (K=PSCU, IV=R, P=PCU|CSU);
Wherein, PCU|CSUFor access password PCUWith challenge code CSUCharacter string connection;
RCSUSU is sent to by network after generation.
Step 8:SU verifying challenge response code RCSU: decryption RCSUObtain RC-1 SU, C is cryptogram;
RC-1 SU=AES-1(K=PSSU, IV=R, C=RCSU)=P'SU|C'SU;
Wherein, C is cryptogram, decrypted result RC-1 SUP' is divided by lengthSUAnd C'SUTwo parts, P'SUExpression corresponds to
Access password PSUDecrypted result, C'SUIt indicates to correspond to challenge code CSUDecrypted result;
Then C' is decryptedSU,
C'-1 SU=AES-1(K=KSSU, IV=R, C=C'SU)=P "SU;
Wherein, decrypted result C'-1 SUP " is denoted as corresponding to access passwordSU;
If PSU=P'SU=P "SU, then certification passes through and is attached, otherwise authentification failure.
The working principle of the embodiment of the present invention are as follows: major and minor mobile phone all installs client software module, and receives user's authorization
Major and minor mobile phone is attached by network, and assistant's machine completes electromagnetic wave simulation signal and the mutual of network transmission digital signal turns;Often
A mobile phone can be arranged as main mobile phone or assistant's machine, can only have a mobile phone as main mobile phone in the mobile phone of all interconnections.Such as
Fig. 5, when the customers dial assistant user machine of user or when sending information to assistant's machine, mobile communication base station is transmitted the signal to
The signal is converted and is sent to main mobile phone by network by assistant's machine, assistant's machine, and user can pass through the client software of main mobile phone
Module answers the phone of assistant's machine or receives the short message of assistant's machine;When user needs to be made a phone call or sent short message using assistant's machine
To user client when, user can select specified assistant's machine by the client software module of main mobile phone and make a phone call or send out
Short message is sent, main mobile phone is transferred signals on specified assistant's machine by network, and assistant's machine is made a phone call after converting signal
Or send short message.
In addition, those of ordinary skill in the art will appreciate that realize above-described embodiment method in all or part of the process,
It is that relevant hardware can be instructed to complete by program, the program can be stored in a computer readable storage medium
In, the program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein, the storage medium can be magnetic
Dish, CD, read-only memory (Read-Only Memory, ROM) or random access memory (Random Access
Memory, RAM) etc..
It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding
And modification, the scope of the present invention are defined by the appended claims and their equivalents.
Claims (6)
1. a kind of multiple cell-phone number polymerizations, which is characterized in that be equipped with client software on householder's mobile phone and assistant's machine
Module makes the communication of assistant's machine go to main mobile phone, realizes that Multi-Subscriber Number, the polymerization include:
Connection Step: assistant's machine is connected to ... through the network main mobile phone;
Signal receiving step: assistant's machine receives the analog signal that mobile communication base station sends over and main mobile phone and is sent by network
The digital signal to come over;
Signal switch process: the analog signal received is converted into digital signal by assistant's machine, the number that will be received
Word signal is converted into analog signal;And
Signal transmitting step: the digital signal that assistant's machine will convert into is sent to main mobile phone by network, the simulation that will convert into
Signal is wirelessly transmitted to mobile communication base station;
Certification connection is carried out using following steps in the Connection Step:
Step 1: initialization system definition: main mobile phone is CU, and assistant's machine is that SU, CU and SU are communicated by network;
Step 2: define system private key: main mobile phone code key is KCU, assistant's machine code key is KSU, code key KCU、KSUBe respectively stored in it is main,
In assistant's machine;
Step 3: definition system access password is PU: it is P that SU, which receives user setting access password,SU, CU reception user, which inputs, to be accessed
Password is PCU, wherein PU=PCU=PSU;
Step 4: generate challenge random number R: authentication initiator locally generates a random number r, and reads current time t, then:
R=r | t;
Wherein, which passes through network transmission to other side;
Step 5: generating session password: after CU and SU generates random number R, it is secret to generate corresponding session using aes algorithm
Key KSCU、PSCUWith KSSU、PSSU;
KSCU=AES (K=KCU, IV=R);
KSSU=AES (K=KSU, IV=R);
PSCU=PSSU=AES (K=PU, IV=R);
Wherein, K indicates the code key of aes algorithm input, and IV indicates initial vector;KSCUMain mobile phone code key K is utilized for CUCUIt generates
Session code key;KSSUAssistant's machine code key K is utilized for SUSUThe session code key of generation;PSCUAccess password P is utilized for CUCUOr PUIt generates
Session code key;PSSUAccess password P is utilized for SUSUOr PUThe session code key of generation;
Step 6:SU generates challenge code CSU: P is plain text;
CSU=AES (K=KSSU, IV=R, P=PSU);
CSUCU is sent to by network after generation;
Step 7:CU generates challenge response code RCSU:
RCSU=AES (K=PSCU, IV=R, P=PCU|CSU);
Wherein, PCU|CSUFor access password PCUWith challenge code CSUCharacter string connection;
RCSUSU is sent to by network after generation;
Step 8:SU verifying challenge response code RCSU: decryption RCSUObtain RC-1 SU;
RC-1 SU=AES-1(K=PSSU, IV=R, C=RCSU)=P'SU|C'SU;
Wherein, C is cryptogram, decrypted result RC-1 SUP' is divided by lengthSUAnd C'SUTwo parts, P'SUIt indicates to correspond to access
Password PSUDecrypted result, C'SUIt indicates to correspond to challenge code CSUDecrypted result;
Then C' is decryptedSU, obtain C'-1 SU:
C'-1 SU=AES-1(K=KSSU, IV=R, C=C'SU)=P "SU;
Wherein, decrypted result C'-1 SUP " is denoted as corresponding to access passwordSU;
If PSU=P'SU=P "SU, then certification passes through and is attached, otherwise authentification failure.
2. multiple cell-phone number polymerizations as described in claim 1, which is characterized in that the signal receiving step further include:
Control signal receives sub-step: receiving the control signal that main mobile phone is sent by network.
3. multiple cell-phone number polymerizations as described in claim 1, which is characterized in that before the Connection Step further include:
Main mobile phone setting steps: the instruction of the main mobile phone of user setting is received, by main mobile phone access network.
4. a kind of multiple cell-phone number paradigmatic systems, which is characterized in that the paradigmatic system includes main mobile phone and assistant's machine, main mobile phone
And client software module is installed on assistant's machine, so that the communication of assistant's machine is gone to main mobile phone, realizes Multi-Subscriber Number, the polymerization
System further include:
Link block: assistant's machine is connected to ... through the network main mobile phone;
Signal receiving module: assistant's machine receives the analog signal that mobile communication base station sends over and main mobile phone and is sent by network
The digital signal to come over;
Signal conversion module: the analog signal received is converted into digital signal by assistant's machine, the number that will be received
Word signal is converted into analog signal;And
Signal transmission module: the digital signal that assistant's machine will convert into is sent to main mobile phone by network, the simulation that will convert into
Signal is wirelessly transmitted to mobile communication base station;
Certification connection is carried out using following steps in the link block:
Step 1: initialization system definition: main mobile phone is CU, and assistant's machine SU, CU and SU are communicated by network;
Step 2: define system private key: main mobile phone code key is KCU, assistant's machine code key is KSU, code key KCU、KSUBe respectively stored in it is main,
In assistant's machine;
Step 3: defining system access password PU: it is P that SU, which receives user setting access password,SU, CU receive user input the access
Password PCU, wherein PU=PCU=PSU;
Step 4: generate challenge random number R: authentication initiator locally generates a random number r, and reads current time t, then:
R=r | t;
Wherein, which passes through network transmission to other side;
Step 5: generating session password: after CU and SU generates random number R, generating corresponding session using aes algorithm and use
Code key KSCU、KSSUWith PSCU、PSSU;
KSCU=AES (K=KCU, IV=R);
KSSU=AES (K=KSU, IV=R);
PSCU=PSSU=AES (K=PU, IV=R);
Wherein, K indicates the code key of aes algorithm input, and IV indicates initial vector;KSCUMain mobile phone code key K is utilized for CUCUIt generates
Session code key;KSSUAssistant's machine code key K is utilized for SUSUThe session code key of generation;PSCUAccess password P is utilized for CUCUOr PUIt generates
Session code key;PSSUAccess password P is utilized for SUSUOr PUThe session code key of generation;
Step 6:SU generates challenge code CSU: P is plain text;
CSU=AES (K=KSSU, IV=R, P=PSU);
CSUCU is sent to by network after generation;
Step 7:CU generates challenge response code RCSU:
RCSU=AES (K=PSCU, IV=R, P=PCU|CSU);
Wherein, PCU|CSUFor access password PCUWith challenge code CSUCharacter string connection;
RCSUSU is sent to by network after generation;
Step 8:SU verifying challenge response code RCSU: decryption RCSUObtain RC-1 SU;
RC-1 SU=AES-1(K=PSSU, IV=R, C=RCSU)=P'SU|C'SU;
Wherein, C is cryptogram, decrypted result RC-1 SUP' is divided by lengthSUAnd C'SUTwo parts, P'SUIt indicates to correspond to access
Password PSUDecrypted result, C'SUIt indicates to correspond to challenge code CSUDecrypted result;
Then C' is decryptedSU,
C'-1 SU=AES-1(K=KSSU, IV=R, C=C'SU)=P "SU;
Wherein, decrypted result C'-1 SUP " is denoted as corresponding to access passwordSU;
If PSU=P'SU=P "SU, then certification passes through and is attached, otherwise authentification failure.
5. multiple cell-phone number paradigmatic systems as claimed in claim 4, which is characterized in that the signal receiving module further include:
Control signal receiving submodule: the control signal that main mobile phone is sent by network is received.
6. multiple cell-phone number paradigmatic systems as claimed in claim 4, which is characterized in that the paradigmatic system further include:
Main mobile phone setup module: the instruction of the main mobile phone of user setting is received, by main mobile phone access network.
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