CN107360164B - User name authentication method and non-differential correction distributed processing system - Google Patents

Abstract

The invention discloses a non-difference correction distributed processing system based on a reference station receiver and an authentication method thereof. The method comprises the following steps: the user terminal first accesses the server. The server authenticates the user of the user terminal, after the authentication is passed, the regional reference station receiver closest to the user is determined from the plurality of regional reference station receivers to be used as a reference station receiver needing to be connected, then a legal user is sent to the reference station receiver needing to be connected, connection information related to the reference station receiver needing to be connected is sent to the user terminal, the user terminal is connected with the reference station receiver by utilizing the connection information, the reference station receiver needing to be connected judges whether the user terminal is sent to the user terminal of the server or not, and if the user terminal is sent to the user terminal of the user terminal, the connection is established. By the method, not only is the occupation of bandwidth resources by redundant information reduced, but also potential safety hazards are reduced.

Description

User name authentication method and non-differential correction distributed processing system

Technical Field

The invention relates to a user name authentication method, in particular to a non-differential correction number distributed processing system based on a reference station receiver and a user name authentication method thereof.

Background

Shanghai Senan satellite navigation technology, Inc. filed a patent application entitled "non-difference correction distributed processing system and method based on reference station receiver" with application number "201510430018. X" on 7/21/2015. The distributed processing system comprises a server and a plurality of regional reference stations, wherein the server comprises a reference station regional code address server (PPPRA server), a precision orbit clock error server and a phase fraction estimation server. In the above processing system, a regional user terminal (also referred to as a user terminal) needs to access a regional reference station receiver of a regional reference station to acquire data. As the user location changes, the connected regional reference station receiver is replaced. In order to guarantee the benefit of the user, the processing system needs to authenticate the user.

Disclosure of Invention

The problem solved by the invention is that the distributed processing system based on the non-differential correction number has the requirement of user name authentication.

In order to solve the above problems, the present invention provides a user name authentication method. The method is applied to a non-difference correction distributed processing system based on a reference station receiver. The distributed processing system comprises a server and a plurality of regional reference stations, and the authentication method comprises the following steps: the server receives an access request from a user terminal, determines a reference station receiver to be connected from the plurality of regional reference stations under the condition that a user corresponding to the access request is a legal user, sends identification information of the user terminal to the reference station receiver, and sends connection information of the reference station receiver to be connected to the user terminal; and the reference station receiver to be connected receives an access request from the user terminal, wherein the access request comprises identification information and the connection information, and the connection is established under the condition that the identification information is matched with the received identification information and the connection information is correct.

In a further aspect, the method further includes prohibiting the user from accessing the server if the user corresponding to the access request is not a legitimate user.

In a further scheme, the connection information comprises an IP (Internet protocol) of a reference station receiver to be connected, a port number and a source node; the identification information is the equipment number, user name and password of the user terminal or the user-defined identification.

In a further scheme, the server stores a registered user list, after receiving an access request, obtains user identification information from the access request, judges that the user identification information is matched with user information in the user list, and if the user identification information is matched with the user information in the user list, the user is a legal user.

In a further aspect, the determining a reference station receiver to be connected from the plurality of regional reference stations includes the following steps: the access request received by the server comprises the position of the user terminal and the server stores the position information lists of all the reference station receivers; and the server calculates one or more reference station receivers closest to the user terminal as the reference station receivers needing to be connected according to the position of the user terminal and the position information list.

The invention also discloses a non-difference correction number distributed processing system based on the reference station receiver, which comprises a server and a plurality of regional reference stations, wherein the server receives an access request from a user terminal, determines the reference station receiver to be connected from the regional reference stations under the condition that a user corresponding to the access request is a legal user, sends the identification information of the user terminal to the reference station receiver to be connected, and sends the connection information of the reference station receiver to be connected to the user terminal; and the reference station receiver to be connected receives an access request from the user terminal, wherein the access request comprises identification information and the connection information, and the connection is established under the condition that the identification information is matched with the received identification information and the connection information is correct.

In a further aspect, the server includes a storage unit, a receiving unit, a processing unit, and a transmitting unit. The storage unit stores a registered user list and connection information of each regional reference station. The receiving unit receives an access request from a user terminal and transmits the access request to the processing unit. The processing unit obtains the user identification information of the user terminal from the access request and obtains the registered user list from the storage unit, verifies whether the user identification information is matched with the user information in the user registration list, and determines a reference station receiver to be connected from the regional reference station and generates a first sending instruction and a second sending instruction under the condition of matching. And the sending unit sends the connection information of the reference station receiver to be connected to the user terminal according to the first sending instruction, and sends the identification information to the reference station receiver to be connected according to the second sending instruction.

In a further aspect, the processing unit generates an instruction to prohibit the user from accessing the server when the user corresponding to the access request is not a valid user.

In a further scheme, the storage unit further stores a location information list of all reference station receivers, and the access request includes the location of the user terminal; the specific step of the processing unit determining the reference station receiver to be connected from the regional reference stations is to calculate one or more reference station receivers closest to the user terminal as the reference station receiver to be connected according to the position of the user terminal and the position information list.

In a further scheme, the connection information related to the reference station receiver to be connected comprises an IP, a port number and a source node of the reference station receiver to be connected; the identification information is the equipment number, user name and password of the user terminal or the user-defined identification.

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

1. the method comprises the steps that a user terminal accesses a server firstly, the server authenticates the user terminal, after authentication is passed, a reference station receiver in the area close to the user is calculated to serve as a reference station receiver to be connected with the user, a legal user is sent to the reference station receiver to be connected, connection information of the reference station receiver to be connected is sent to the user terminal, the user terminal is connected with the reference station receiver by utilizing the connection information, the reference station receiver judges whether the user terminal applying for connection is the legal user terminal sent to the user terminal by the server or not, if yes, connection is allowed to be established, and through the mode, occupation of bandwidth resources by redundant information is reduced, and potential safety hazards are reduced.

2. Because only legal users are sent to the reference station receiver needing to be connected, the reference station receiver only stores the information of the legal users which are pre-connected, thereby reducing the occupation of the storage space of the reference station receiver by the information of the legal users.

3. The server stores the latest registered user information, so that the timeliness of the registered user can be ensured, and the registration waiting time is saved.

Drawings

FIG. 1 is a schematic block diagram of a prior art non-differential correction distributed processing system based on a reference station receiver;

fig. 2 is a flow chart of the username authentication method of the present invention.

Detailed Description

For the purpose of illustrating the technical content, the constructional features, the achieved objects and the effects of the invention in detail, reference will be made to the following detailed description of the embodiments in conjunction with the accompanying drawings.

Referring to fig. 2, in order to solve the problem that the non-differential correction number distributed processing system based on the reference station receiver in the prior art needs to authenticate the user name, the present invention provides a user name authentication method. The authentication method comprises the following steps:

1) the PPPRA server stores the IP, the port number, the source node and the latest registered user list of the reference station receiver of each regional reference station. The non-difference correction number distributed processing system based on the reference station receiver comprises a reference station area code address server (PPPRA server), a precision orbit clock error server and a phase decimal estimation server. In the case where the reference station area code address server, the precision orbit clock error server, and the phase fraction estimation server constitute one server, the IP, the port number, the source node, and the latest registered user list of the reference station receiver of each of the aforementioned area reference stations are stored in the server.

2) The user terminal accesses the PPPRA server, and the PPPRA server locally verifies whether the terminal is legal or not; the specific steps can be as follows: the user terminal sends an access request to the PPPRA server. The access request includes a username, a password, and a location of the user terminal. After receiving an access request, the PPPRA server obtains a user name and a password from the access request, judges whether the user name and the password are matched with the user name and the password in a registered user list, and if the user name and the password are matched, the user corresponding to the access request is a legal user; and if not, the user corresponding to the access request is not a legal user.

3) Under the condition that the user is a legal user, the PPPRA server calculates one or more reference station receivers closest to the user terminal as reference station receivers needing to be connected according to the position of the user terminal and the positions of the reference station receivers in the position information list, and obtains the IP (Internet protocol) number, the port number and the source node of the reference station receivers; in the case that the user is not a legitimate user, the PPPRA server prohibits the user terminal from accessing.

4) The PPPRA server sends the user information (user name and password) of the user terminal to the reference station receiver needing to be connected, and sends the IP, the port number and the source node of the reference station receiver needing to be connected to the user terminal. In this step, in order to further enhance the security, the effective time of the user information on the reference station receiver to be connected is also set, which may be generally set to 1 minute; alternatively, the number of times of user information error is set, for example, 3 times.

5) And the user terminal sends an access request to the reference station receiver to be connected after the user terminal passes the user name authentication in the PPPRA server and acquires the IP, the port number and the source node of the reference station receiver to be connected. The access request includes user information (username and password). There are two ways to issue an access request to a reference station receiver to be connected: 5.1) the user can input the IP, the port number, the source node, the user name and the password on the interface of the user terminal to send an access request to a reference station receiver to be connected; and 5.2) the user terminal automatically sends an access request to the reference station receiver to be connected after receiving the IP, the port number and the source node of the reference station receiver to be connected.

6) After receiving an access request of a user terminal, a reference station receiver needing to be connected compares user information (user name and password) in the access request with user information (user name and password) cached in the receiver, if the user information (user name and password) is matched with the user information, the reference station receiver establishes connection between the user terminal and the reference station receiver, after the connection is established, data is sent to the user terminal, and if the user terminal is not matched with the reference station receiver, the user terminal is forbidden to be connected with the reference station receiver. In the case where the validity time of the user information is set, it is necessary to determine not only whether the user information matches but also whether the validity period of the user information input is within the validity time. Under the condition that the user information is matched and the validity period of inputting the user information is within the validity period, the reference station receiver needing to be connected judges the user as a legal user and allows the user terminal to be connected; in the case where the user information matches but the validity period for inputting the user information is not within the validity period, the user terminal is not allowed to connect. In the case where the number of user information errors (for example, the aforementioned 3 times) is set, it is determined not only whether the user information matches but also the number of user information errors. If the user information error is more than 3 times, the reference station receiver needing to be connected considers that the user terminal is not a legal user terminal and does not allow the user terminal to be connected; if the number of times of error of the user information is less than or equal to 3 times and the user information is matched, the reference station receiver needing to be connected judges that the user terminal is a legal user terminal, and the user terminal is allowed to be connected.

In the method, the user name and the password sent by the user terminal to the PPPRA server are used for distinguishing whether the user terminal is a legal user registered on the PPPRA server. As a variation of this scheme, the user may register with the PPPRA server, and after the registration is passed, the PPPRA server stores the device number of the user terminal, and then the user terminal accesses the PPPRA server through the device number. If the PPPRA server finds the equipment number in the storage record, the user of the user terminal is judged to be a legal user. For reference, the PPPRA server may also determine whether the user of the user terminal is a valid user through the unique code number. The user name and password, the device number and the code number are one kind of user identification information. The user identification information may be of other configurations as long as the PPPRA server can achieve the purpose of determining a valid user.

In the method, the identification information is mainly used for identifying whether the user terminal sending the access request is the user terminal sent to the user terminal by the PPPRA server by the reference station receiver needing to be connected, so long as the purpose can be achieved. The identification information may be a device number, a user name and password of the user terminal or a user-defined identification. The user-defined identifier may be an identifier which is generated by the PPPRA server according to a preset algorithm and consists of numbers, letters, numbers and characters and the like.

In the method, the user terminal accesses the reference station receiver based on the TCP/IP protocol, so that the PPPRA server sends connection information to the user terminal, which is the IP, the port number and the source node of the reference station receiver to be connected, when the user is a legal user. When the user terminal is connected to the reference station receiver in other manners, the connection information is also changed according to the manner, and only needs to be used for connecting the user terminal and the reference station receiver, which is not described herein again.

The method comprises the steps that a user terminal accesses a PPPRA server firstly, the PPPRA server authenticates the user terminal, after the authentication is passed, a regional reference station receiver closest to the user is determined to be used as a reference station receiver needing to be connected, legal user information is sent to the reference station receiver needing to be connected, connection information of the reference station receiver needing to be connected is sent to the user terminal, the user terminal is connected with the reference station receiver by utilizing the connection information, the reference station receiver judges whether the user terminal is the PPPRA server and sends the user terminal to the user terminal, and if the user terminal is the reference station receiver, connection is established. In this way, the above method has the following advantages: 1) not only reducing the occupation of bandwidth resources by redundant information, but also reducing potential safety hazards; 2) only legal users are sent to the reference station receiver needing to be connected, and the reference station receiver only stores the information of the legal users which are pre-connected, so that the storage space occupation of the reference station receiver is reduced; 3) the PPPRA server stores the latest registered user information, so that the timeliness of the registered user can be ensured, and the registration waiting time is saved.

The invention also discloses a non-differential correction number distributed processing system based on the reference station receiver by taking the user name authentication method as reference. The system includes a PPPRA server and a plurality of regional reference stations. The PPPRA server receives an access request from a user terminal, verifies whether a user corresponding to the access request is a legal user, determines a reference station receiver needing to be connected from the regional reference station if the user corresponding to the access request is the legal user, sends identification information of the legal user to the reference station receiver needing to be connected, and sends connection information of the reference station receiver needing to be connected to the user terminal. And the reference station receiver to be connected receives an access request from the user terminal, wherein the access request comprises identification information and the connection information, and the connection is established under the condition that the identification information is matched with the received identification information and the connection information is correct.

In a specific scheme, the PPPRA server includes a storage unit, a receiving unit, a processing unit, and a transmitting unit. The storage unit stores a list of registered users and connection information of the regional reference stations. The receiving unit receives an access request from a user terminal and transmits the access request to the processing unit. The processing unit obtains the user identification information of the user terminal from the access request and obtains the registered user list from the storage unit, verifies whether the user identification information is matched with the user information in the user registration list, and determines a reference station receiver to be connected from the regional reference station and generates a first sending instruction and a second sending instruction under the condition of matching. And the sending unit sends the connection information of the reference station receiver to be connected to the user terminal according to the first sending instruction, and sends the identification information of the user terminal to the reference station receiver to be connected according to the second sending instruction.

In a further aspect, the storage unit further stores a location information list of all reference station receivers, and the access request includes a location of the user terminal; and the processing unit determines a reference station receiver needing to be connected from the regional reference stations, and calculates one or more reference station receivers closest to the user terminal as the reference station receiver needing to be connected according to the position of the user terminal and the position information list.

The advantages of the system are the same as those of the method, and are not described in detail herein.

Claims (8)

1. The user name authentication method is applied to a non-difference correction number distributed processing system based on a reference station receiver, the distributed processing system comprises a server and a plurality of regional reference stations, and is characterized in that: the authentication method comprises the following steps:

the server receives an access request from a user terminal, wherein the access request comprises the position of the user terminal: under the condition that the user corresponding to the access request is a legal user, the server determines a reference station receiver needing to be connected from the plurality of regional reference stations according to the position of the user terminal, sends the identification information of the user terminal to the reference station receiver and sends the connection information of the reference station receiver needing to be connected to the user terminal; the reference station receiver needing to be connected receives an access request from a user terminal, the access request comprises identification information and the connection information, and connection is established under the condition that the identification information is matched with the received identification information and the connection information is correct;

or, when the user corresponding to the access request is not a legitimate user, the user is prohibited from accessing the server.

2. The username authentication method of claim 1, wherein: the connection information comprises an IP (Internet protocol) of a reference station receiver to be connected, a port number and a source node; the identification information is the equipment number, user name and password of the user terminal or the user-defined identification.

3. The username authentication method of claim 1, wherein: the server is internally stored with a registered user list, after receiving an access request, user identification information is obtained from the access request, the user identification information is judged to be matched with the user information in the user list, and if the user identification information is matched with the user information in the user list, the user is a legal user.

4. The username authentication method of claim 1, wherein: the method for determining the reference station receiver to be connected from the plurality of regional reference stations comprises the following steps:

the access request received by the server comprises the position of the user terminal and the server stores the position information lists of all the reference station receivers;

and the server calculates one or more reference station receivers closest to the user terminal as the reference station receivers needing to be connected according to the position of the user terminal and the position information list.

5. A non-differential corrections distributed processing system based on a reference station receiver, the system comprising a server and a plurality of regional reference stations, characterized in that:

the server receives an access request from a user terminal, the access request comprises the position of the user terminal, and whether a user corresponding to the access request is a legal user is verified:

if so, the server determines a reference station receiver to be connected from the regional reference station according to the position of the user terminal, sends the identification information of the user terminal to the reference station receiver to be connected, and sends the connection information of the reference station receiver to be connected to the user terminal; the reference station receiver needing to be connected receives an access request from a user terminal, the access request comprises identification information and the connection information, and connection is established under the condition that the identification information is matched with the received identification information and the connection information is correct;

alternatively, when the user corresponding to the access request is not a legitimate user, an instruction is generated to prohibit the user from accessing the server.

6. The reference station receiver-based non-differential corrections distributed processing system of claim 5 wherein: the server comprises a storage unit, a receiving unit, a processing unit and a sending unit, wherein,

the storage unit stores a registered user list and connection information of receivers of the reference stations in each area;

the receiving unit receives an access request from a user terminal and transmits the access request to the processing unit;

the processing unit obtains the user identification information of the user terminal from the access request and obtains the registered user list from the storage unit, verifies whether the user identification information is matched with the user information in the user registration list, determines a reference station receiver to be connected from the regional reference station and generates a first sending instruction and a second sending instruction under the condition of matching;

and the sending unit sends the connection information to the user terminal according to the first sending instruction and sends the identification information to the reference station receiver needing to be connected according to the second sending instruction.

7. The reference station receiver-based non-differential corrections distributed processing system of claim 6 wherein: the storage unit also stores a position information list of all reference station receivers, and the access request comprises the position of the user terminal; the specific step of the processing unit determining the reference station receiver to be connected from the regional reference stations is to calculate one or more reference station receivers closest to the user terminal as the reference station receiver to be connected according to the position of the user terminal and the position information list.

8. The processing system of claim 6, wherein: the connection information comprises an IP (Internet protocol) of a reference station receiver to be connected, a port number and a source node; the identification information is the equipment number, user name and password of the user terminal or the user-defined identification.

Images