CN110839236B - Wireless internet access management method based on physical identity authentication - Google Patents

Abstract

The invention relates to a wireless internet access management method based on physical identity authentication, which comprises the following steps: configuring a plurality of labels with unique physical identities, and establishing networking and positioning between each label and a wireless gateway; allocating a plurality of MAC addresses to each label, and binding the MAC addresses with the physical ID of the label; verifying whether the MAC address of the mobile terminal requesting to surf the internet is bound with the label or not, and if not, refusing the surfing request of the mobile terminal requesting to surf the internet; positioning the position of the mobile terminal requesting to surf the internet by using the wireless gateway; judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not, and if not, rejecting the request of surfing the internet of the mobile terminal requesting to surf the internet; and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority. The invention can prevent unauthorized equipment from accessing the wireless network, and effectively solves the phenomena of network rubbing, illegal invasion and the like.

Description

Wireless internet access management method based on physical identity authentication

Technical Field

The invention relates to the technical field of wireless communication, in particular to a wireless internet access management method based on physical identity authentication.

Background

Most of the existing WIFI wireless networks use standard protocols to verify and communicate wireless terminals, the phenomenon of network rubbing cannot be prevented, the function of anti-phishing is not provided, and a great deal of inconvenience is brought to the management of a network manager. Meanwhile, the phenomenon that some users use clone identities to carry out invasion cannot be avoided well, and great potential safety hazards are brought to a wireless network of a family or a merchant.

Disclosure of Invention

Therefore, a wireless internet access management method based on physical identity authentication is needed, unauthorized devices can be prevented from accessing a wireless network, and phenomena such as network rubbing and illegal intrusion are effectively avoided.

In order to achieve the above purpose, the invention adopts the following technical scheme.

The invention firstly provides a wireless internet access management method based on physical identity authentication, which is used for performing internet access management on a mobile terminal which is connected to a wireless gateway to request internet access, and the method comprises the following steps:

configuring a plurality of labels with unique physical identities, and establishing networking and positioning between each label and a wireless gateway;

distributing a plurality of MAC addresses for each label, and binding the MAC addresses with the physical ID of the label;

verifying whether the MAC address of the mobile terminal requesting to surf the Internet is bound with the label or not, if so, executing the next step; otherwise, refusing the request of the mobile terminal for surfing the Internet;

positioning the position of the mobile terminal requesting to surf the internet by utilizing the wireless gateway;

judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not, if so, executing the next step; otherwise, refusing the request of the mobile terminal for surfing the Internet;

and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority.

Preferably, the step of configuring a plurality of tags with unique physical identities and establishing networking and positioning between each tag and the wireless gateway specifically comprises:

and the labels are respectively connected with the wireless gateway through a low-power-consumption Internet of things, and are positioned by utilizing the Internet of things.

Preferably, the step of locating the labels using the internet of things specifically includes:

adopting a wireless gateway with MIMO antenna to deduce the approximate position of the label by RSSI positioning method;

calculating a position conversion matrix of the label by utilizing the matrix of each MIMO antenna receiving signal of the wireless gateway to obtain the accurate position of the label, wherein the position conversion matrix is as follows:

wherein,

k is the number of the antennas, kl is the distance of the label antennas, P is the radiation power of the label, and KS is the power received by the wireless gateway.

Preferably, before the step of determining whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a predetermined value, the method further includes the steps of:

and if the calculation result of the position conversion matrix f (x, y) is greater than 1, matching the position obtained by positioning through the position conversion matrix f (x, y) with the position obtained by positioning through the Internet of things, and omitting the position with lower precision to obtain the position with higher precision.

Preferably, after the step of establishing networking and positioning between each sticker and the wireless gateway, the method further comprises the steps of:

and calibrating the space of the label.

Preferably, the step of calibrating the space of the label specifically includes:

the method comprises the steps of firstly calibrating any labels in any 4 different horizontal spaces with the distance larger than 1.5 m, then repeating the steps for calibrating the labels in another horizontal space with the height difference larger than 1.5 m, and establishing a spatial coordinate matrix with the gateway as a coordinate center.

Preferably, the method further comprises the steps of:

the label is positioned once every certain time, and the position information of the label in the wireless gateway is updated.

Preferably, the method further comprises the steps of:

and updating the position of the networked mobile terminal at regular intervals, judging whether the relative distance between the mobile terminal and the corresponding label is greater than the preset value again, and if so, disconnecting the network connection of the mobile terminal.

Preferably, the label and the wireless gateway are positioned by WiFi, loRa, bluetooth, zigBee or RFID technology.

The invention also provides a wireless internet access management method based on physical identity authentication, which is used for performing internet access management on a mobile terminal which is connected to a wireless gateway to request internet access, and comprises the following steps:

configuring a plurality of labels with unique physical identities and at least two wireless gateways, dividing areas to establish networking and positioning between the labels and the wireless gateways, wherein one wireless gateway is arranged in each area, and each wireless gateway corresponds to a certain number of labels;

allocating a plurality of MAC addresses to each label, and binding the MAC addresses with the physical ID of the label;

the method comprises the steps that the MAC address of a mobile terminal requesting to surf the internet is verified by using a wireless gateway to verify whether the MAC address is bound with one label or not, whether the label is networked with the wireless gateway or not is verified, and if yes, the next step is executed; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

respectively positioning the mobile terminal requesting to surf the internet and the positions of the corresponding labels by utilizing the wireless gateway;

judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not, if so, executing the next step; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority.

The invention utilizes the label to bind the MAC address of the wireless terminal requesting to surf the internet, then respectively positions the label and the wireless terminal and judges whether the positions of the label and the wireless terminal are together, if so, the internet is allowed to surf the internet, otherwise, the internet surfing request of the mobile terminal is refused. The invention adopts a double authentication mode of physical identity authentication and distance authentication, can quickly discover a clone address and identity, effectively prevents unauthorized wireless equipment from accessing a wireless network, thereby really realizing the functions of preventing from stealing the network and preventing from phishing, can also utilize a positioning principle to divide network areas, ensures that networking equipment in each area can automatically realize the effect of breaking the network when people walk, increases the difficulty of external malicious invasion, reduces the network security risk caused by internal illegal operation, and improves the network security.

Drawings

Fig. 1 is a schematic flowchart illustrating a wireless internet access management method based on physical identity authentication in a first embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating a wireless internet access management method based on physical identity authentication in the second embodiment.

The implementation of the objects of the present invention and their functions and principles will be further explained in the detailed description with reference to the attached drawings.

Detailed Description

The following further description is made with reference to the drawings and specific embodiments.

The first embodiment is as follows:

as shown in fig. 1, this embodiment provides a wireless internet access management method based on physical identity authentication, which is used to perform internet access management on a mobile terminal connected to a wireless gateway to request internet access, and the method includes the following steps:

s1: configuring a plurality of labels with unique physical identities, and establishing networking and positioning between each label and a wireless gateway;

s2: distributing a plurality of MAC addresses for each label, and binding the MAC addresses with the physical ID of the label;

s3: verifying whether the MAC address of the mobile terminal requesting to surf the internet is bound with the label; if yes, executing the next step;

s31: otherwise, refusing the network access request of the mobile terminal requesting to access the network;

s4: positioning the position of the mobile terminal requesting to surf the internet by using the wireless gateway;

s5: judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not; if yes, executing the next step; otherwise, go to step S31;

s6: and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority.

Wherein, the step S1 of configuring a plurality of labels with unique physical identities and establishing networking and positioning between each label and the wireless gateway specifically comprises:

and the labels are respectively connected with the wireless gateway through a low-power-consumption Internet of things, and are positioned by utilizing the Internet of things.

The Internet of things comprises a WiFi antenna positioning technology, a LoRa wireless positioning technology, a Bluetooth technology, a ZigBee technology or RFID and the like, and has networking and indoor positioning functions.

The WiFi antenna positioning technology is based on a plurality of antennas, and complex large-range positioning can be achieved. Long Range Radio (Long Range Radio) is a conventional wireless communication technology with low power consumption and Long Range, and is a GPS-free solution for low power wide area networks. The Bluetooth technology is a global specification for wireless data and voice communication, is a special short-distance wireless communication technology for establishing a communication environment for fixed and mobile equipment based on low-cost short-distance wireless connection, and can realize short-distance communication and a positioning function based on an RSSI (Received Signal Strength Indication) positioning principle. The ZigBee (Zigbee) technology is a communication technology suitable for electronic components with short transmission range and low data transmission rate, can realize wireless networking of various different digital devices, enables the digital devices to realize mutual communication or access the Internet, and can realize the accurate wireless positioning resolution of 0.25M with the highest accuracy. The basic principle of RFID positioning is that a set of fixed readers reads characteristic information (such as an identity ID, received signal strength, and the like) of a target RFID tag, and a proximity method, a multi-edge positioning method, received signal strength, and the like can be used to determine the location of the tag, thereby implementing positioning.

In this embodiment, the step S4 of positioning the labels by using the internet of things specifically includes:

s41: acquiring the approximate position of the label by an RSSI (received signal strength indicator) positioning method by adopting a wireless gateway with an MIMO (multiple input multiple output) antenna;

s42: calculating a position conversion matrix of the label by utilizing the matrix of each MIMO antenna receiving signal of the wireless gateway to obtain the accurate position of the label, wherein the position conversion matrix is as follows:

wherein,

k is the number of the antennas, kl is the distance of the label antennas, P is the radiation power of the label, and KS is the power received by the wireless gateway.

Of course, the method can also be used for positioning the mobile terminal requesting to surf the internet.

Then, step S5 is executed, and before step S5 is executed, the method may further include the steps of:

s43: and if the calculation result of the position conversion matrix f (x, y) is greater than 1, matching the position obtained by positioning through the position conversion matrix f (x, y) with the position obtained by positioning through the Internet of things, and omitting the position with lower precision to obtain the position of the card paste or the mobile terminal with higher precision.

Since the result of the position conversion matrix is not unique due to the presence of interference radio signals or wall obstruction in the environment, it is necessary to match the approximate position of the RSSI and use more accurate position information as the actual position of the mobile terminal or the card sticker.

In this embodiment, after step S1, the method further includes the steps of:

s11: and calibrating the space of the label.

Specifically, the step of calibrating the space of the label specifically includes:

the method comprises the steps of firstly calibrating any labels in any 4 different horizontal spaces with the distance larger than 1.5 m, then repeating the steps for calibrating the labels in another horizontal space with the height difference larger than 1.5 m, and establishing a spatial coordinate matrix with the gateway as a coordinate center.

Further, the method comprises the steps of:

s12: the label is positioned once every certain time, and the position information of the label in the wireless gateway is updated.

Further, the method also comprises the following steps:

s44: and updating the position of the networked mobile terminal at regular intervals, judging whether the relative distance between the mobile terminal and the corresponding label is greater than the preset value again, and if so, disconnecting the network connection of the mobile terminal.

In this embodiment, when the tag and the wireless gateway are located by WiFi, loRa, bluetooth, zigBee or RFID technology, a passive tag, such as an electronic tag of RFID or ZigBee, is preferably used, so as to save hardware cost and maintenance cost.

The working principle of the embodiment is as follows: the wireless gateway (such as a wireless router) is attached with a plurality of labels, the labels have unique physical identities, each label is bound with a certain number of pre-acquired MAC addresses of wireless terminals (such as mobile phones) requesting to surf the internet, the labels are networked with the wireless gateway through the internet of things respectively, and the labels are positioned by the wireless gateway and marked in an operating system of the wireless gateway. The wireless gateway positions the label once every certain time to obtain the latest position information of the label.

When a wireless terminal needs to be connected with a wireless gateway to surf the internet, the MAC address of the wireless terminal needs to be verified to verify whether the wireless terminal is bound with the label or not, the step is equivalent to identity authentication, and a user adopting a cloned identity can be prevented from accessing the network. If the wireless terminal does not bind any label, the wireless terminal is regarded as an illegal user, and the wireless gateway automatically rejects the network access request. If the MAC address of the wireless terminal is bound with a label, the identity of the wireless terminal needs to be further verified, for example, the wireless terminal is positioned, the position of the wireless terminal is matched with the position of the label bound with the wireless terminal, whether the relative distance between the wireless terminal and the label is smaller than a preset value (for example, 0.5 m) or not is judged, if yes, the wireless terminal is proved to have a legal identity, otherwise, the wireless terminal is still regarded as an illegal user, and the wireless gateway automatically rejects an internet access request, so that the phenomenon of network rubbing is prevented.

Example two:

referring to fig. 2, the present invention further provides a wireless internet access management method based on physical identity authentication, which is used for performing internet access management on a mobile terminal connected to a wireless gateway to request internet access, and the method includes the steps of:

SP1: configuring a plurality of labels with unique physical identities and at least two wireless gateways, dividing areas to establish networking and positioning between the labels and the wireless gateways, wherein one wireless gateway is arranged in each area, and each wireless gateway corresponds to a certain number of labels;

SP2: allocating a plurality of MAC addresses to each label, and binding the MAC addresses with the physical ID of the label;

SP3: verifying whether the MAC address of the mobile terminal requesting to surf the internet is bound with one label, verifying whether the label is networked with the wireless gateway, and executing the next step if the MAC address of the mobile terminal requesting to surf the internet is bound with one label;

SP31: otherwise, refusing the network access request of the mobile terminal requesting to access the network;

SP4: respectively positioning the mobile terminal requesting to surf the internet and the positions of the corresponding labels by using the wireless gateway;

SP5: judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not, if so, executing the next step; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

SP6: and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority.

The difference between this embodiment and the first embodiment is that at least two wireless gateways are introduced in this embodiment to perform regional network management on the current environment, and a wireless terminal in each region can only connect to a wireless gateway in this region to request internet access, but cannot connect to a wireless gateway in another region, so that a function of dividing internet access permission according to a spatial region can be implemented, for example, a wireless router in an office is not allowed to be connected in a conference room, and a wireless router in a technical part cannot be accessed by an employee in a business part, and the like.

Therefore, the wireless internet access management method based on physical identity authentication of the embodiment not only has all functions described in the embodiment, but also can realize the function of dividing internet access permission according to the space region, can achieve the network management effect of network disconnection of people with a matched company regulation and regulation system, increases the difficulty of malicious cracking outside, and reduces the network security risk brought by internal illegal operation.

In summary, the invention binds the MAC address of the wireless terminal requesting to surf the internet by using the label, then determines whether the positions of the label and the wireless terminal are together by respectively positioning the label and the wireless terminal, if so, the internet is allowed to surf the internet, otherwise, the internet surfing request of the mobile terminal is refused. The invention adopts a double authentication mode of physical identity authentication and distance authentication, can quickly discover a clone address and identity, effectively prevents unauthorized wireless equipment from accessing a wireless network, thereby really realizing the functions of preventing from stealing the network and preventing from phishing, can also utilize a positioning principle to divide network areas, ensures that networking equipment in each area can automatically realize the effect of breaking the network when people walk, increases the difficulty of external malicious invasion, reduces the network security risk caused by internal illegal operation, and improves the network security.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention.

Claims (10)

1. A wireless internet access management method based on physical identity authentication is used for internet access management of a mobile terminal which is connected to a wireless gateway to request internet access, and is characterized in that the wireless gateway is provided with a plurality of labels with unique physical identities, and the method comprises the following steps:

establishing networking and positioning between each label and the wireless gateway;

allocating a plurality of MAC addresses to each label, and binding the MAC addresses with the physical ID of the label;

verifying whether the MAC address of the mobile terminal requesting to surf the Internet is bound with the label or not, if so, executing the next step; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

positioning the position of the mobile terminal requesting to surf the internet by using the wireless gateway;

judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not, if so, executing the next step; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority.

2. The method of claim 1, wherein the step of establishing networking and positioning between the respective stickers and the wireless gateway specifically comprises:

and the labels are respectively connected with the wireless gateway through a low-power-consumption Internet of things, and are positioned by utilizing the Internet of things.

3. The method of claim 2, wherein the step of locating the labels using the internet of things specifically comprises:

adopting a wireless gateway with MIMO antenna to deduce the approximate position of the label by RSSI positioning method;

calculating a position conversion matrix of the label by utilizing the matrix of each MIMO antenna receiving signal of the wireless gateway to obtain the accurate position of the label, wherein the position conversion matrix is as follows:

wherein,

k is the number of the antennas, kl is the distance of the label antennas, P is the radiation power of the label, and KS is the power received by the wireless gateway.

4. The method as claimed in claim 3, wherein before the step of determining whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a predetermined value, the method further comprises the steps of:

and if the calculation result of the position conversion matrix f (x, y) is greater than 1, matching the position obtained by positioning through the position conversion matrix f (x, y) with the position obtained by positioning through the Internet of things, and omitting the position with lower precision to obtain the position with higher precision.

5. The method of claim 1, wherein said step of establishing networking and positioning between each tag and the wireless gateway is followed by the step of:

and calibrating the space of the label.

6. The method according to claim 5, characterized in that the step of calibrating the space of the sticker comprises in particular:

the method comprises the steps of firstly calibrating any labels in any 4 different horizontal spaces with the distance larger than 1.5 m, then repeating the steps for calibrating the labels in another horizontal space with the height difference larger than 1.5 m, and establishing a spatial coordinate matrix with the gateway as a coordinate center.

7. The method of claim 1, further comprising the step of:

the label is positioned once every certain time, and the position information of the label in the wireless gateway is updated.

8. The method of claim 7, further comprising the step of:

and updating the position of the networked mobile terminal at regular intervals, judging whether the relative distance between the mobile terminal and the corresponding label is greater than the preset value again, and if so, disconnecting the network connection of the mobile terminal.

9. The method as claimed in any one of claims 1 to 8, wherein the location between the tag and the wireless gateway is by WiFi, loRa, bluetooth, zigBee or RFID technology.

10. A wireless internet access management method based on physical identity authentication is used for internet access management of a mobile terminal which is connected to a wireless gateway to request internet access, and is characterized by comprising the following steps:

configuring a plurality of labels with unique physical identities and at least two wireless gateways, dividing areas to establish networking and positioning between the labels and the wireless gateways, wherein one wireless gateway is arranged in each area, and each wireless gateway corresponds to a certain number of labels;

distributing a plurality of MAC addresses for each label, and binding the MAC addresses with the physical ID of the label;

the method comprises the steps that the MAC address of a mobile terminal requesting to surf the internet is verified by using a wireless gateway to verify whether the MAC address is bound with one label or not, whether the label is networked with the wireless gateway or not is verified, and if yes, the next step is executed; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

respectively positioning the mobile terminal requesting to surf the internet and the positions of the corresponding labels by using the wireless gateway;

judging whether the relative distance between the mobile terminal requesting to surf the internet and the corresponding label is smaller than a preset value or not, if so, executing the next step; otherwise, refusing the network access request of the mobile terminal requesting to access the network;

and accessing the mobile terminal requesting to surf the internet into a network and distributing network authority.

Images