CN113194409B - Method for establishing WIFI probe on android device for detection and counting passenger flow - Google Patents
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Abstract
The invention provides a method for establishing a WIFI probe on an android device for detection and counting passenger flow, which comprises the following steps: the android device regularly broadcasts and sends a detection data packet carrying the address and the port of the node to an external environment through a broadcasting module; the mobile user equipment automatically searches nearby AP wireless access points, and returns a response packet carrying the MAC address of the mobile user equipment and WIFI signal intensity data of the mobile user equipment; the WIFI probe uploads the response packet to a WIFI probe control system; and the statistical analysis module records the mapping relation between the MAC address of the mobile user equipment and the detection time into a passenger flow record table. The invention realizes the function of counting the flow of the passengers arriving at the store, so that the merchant can effectively know the flow of the passengers arriving at the store, clearly know the number and the distribution of the new passengers and the frequent passengers, clearly know the preferred commodities of the new passengers and the frequent passengers arriving at the store, and further provide more competitive commodities.
Description
Technical Field
The invention belongs to the technical field of WIFI probe application, and particularly relates to a method for establishing a WIFI probe on android equipment to detect and count passenger flow.
Background
With the development of mobile payment, mobile payment functions are basically opened in places such as shops, supermarkets and the like, namely: and the user of the store adopts payment equipment such as an Android mobile phone and the like, and after the payment equipment is connected with WIFI provided by the place, the process of code scanning payment transaction is realized.
The above payment shopping method has the following problems: the payment transaction function of the user is realized only through WIFI in places such as shops and supermarkets, and the function is single.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides a method for establishing a WIFI probe on an android device for detection and counting passenger flow, which can effectively solve the problems.
The technical scheme adopted by the invention is as follows:
the invention provides a method for establishing a WIFI probe on an android device for detection and counting passenger flow, which comprises the following steps of:
step 1, the core of the android device is an inner core layer; the kernel layer is provided with an AP WPS mode for opening WIFI protection setting aiming at the AP wireless access point mode and is used for loading network WLAN configuration;
step 2, the android device configures an AP wireless access point control system WPA hostapd and an AP wireless access point drive system WPA _ supplicant;
wherein:
the AP wireless access point driving system wpa _ supplicant is directly connected with the wireless access point mode switch through a driving interface and is used for controlling the wireless access point mode switch to open or close the AP wireless access point mode;
the AP wireless access point control system WPA hostapd is connected with the AP wireless access point driving system WPA _ supplicant and used for sending a control message to the AP wireless access point driving system WPA _ supplicant or receiving a message returned by the AP wireless access point driving system WPA _ supplicant;
step 3, configuring a WIFI probe and a WIFI probe control system for the android device; WIFI probe control system is used for controlling the state of WIFI probe, includes: controlling the WIFI probe to be turned on, controlling the WIFI probe to be turned off and reading WIFI probe information;
step 4, the android device configures a network connection parameter configuration module;
the network connection parameter configuration module is configured to configure the network connection parameters of the android device, and includes: configuring an address and a port of the node for providing external services, and if the network connection parameters are not configured, the node does not provide external services; if the network connection parameters are configured, other nodes can actively connect the node;
step 5, when the android device needs to detect and count the passenger flow, the android device is started to initialize the wireless network WLAN, and wireless network WLAN configuration is loaded, so that an AP WPS mode is set for WIFI protection of an AP wireless access point mode;
step 6, under the WIFI protection setting AP WPS mode, the AP wireless access point control system WPA hostapd issues an instruction for opening a wireless access point mode switch to the AP wireless access point drive system WPA _ suppicant;
the AP wireless access point driving system wpa _ supplicant drives a wireless access point mode switch to be turned on through a driving interface, so that the AP wireless access point is provided for an external environment;
when providing an AP wireless access point, a network connection parameter configuration module configures an address and a port of the node for providing service to the outside; meanwhile, the WIFI probe control system opens the WIFI probe;
step 7, the android device broadcasts and sends a detection data packet carrying the address and the port of the node to the external environment at regular time through a broadcasting module;
step 8, when the WIFI-opened mobile user equipment exists in the external environment, the mobile user equipment automatically searches for nearby AP wireless access points, and in the process of searching for the AP wireless access points, when a detection data packet is searched, the mobile user equipment returns a response packet carrying the MAC address of the mobile user equipment and WIFI signal intensity data of the mobile user equipment; meanwhile, the destination address carried by the response packet is the node address and the port in the detection data packet;
step 9, after the WIFI probe is opened, the WIFI probe is continuously in a monitoring state, when any response packet is monitored, whether the response packet is the response packet of the node is judged according to the node address and the port of the WIFI probe, and if the response packet is the response packet of the node, the step 10 is executed; otherwise, continuing to monitor;
step 10, when the WIFI probe monitors a response packet of a node, the WIFI probe uploads the response packet to the WIFI probe control system;
step 11, the WIFI probe control system transmits the response packet to a statistical analysis module;
step 12, the statistical analysis module analyzes the response packet to obtain a mobile user equipment MAC address and mobile user equipment WIFI signal intensity data, and obtains the distance between the mobile user equipment and the android device according to the mobile user equipment WIFI signal intensity data, and if the distance is smaller than a set threshold value, the mobile user equipment enters a detection area; then step 13 is executed; otherwise, the mobile user equipment is indicated not to enter the detection area, and the response packet is discarded;
and step 13, the statistical analysis module records the mapping relation between the MAC address of the mobile user equipment and the detection time into a passenger flow volume record table.
Preferably, after step 13, the method further comprises:
and step 14, analyzing the passenger flow volume record table by the statistical analysis module to obtain each mobile user equipment which is arranged according to the occurrence frequency of the MAC address from large to small.
Preferably, the method further comprises the following steps:
and step 15, the statistical analysis module obtains a current real-time passenger flow volume record table, and displays all the surrounding mobile user equipment according to the chart mode that the number of times of occurrence of the MAC address is from large to small and the distance is from short to long.
The method for establishing the WIFI probe on the android device to detect and count the passenger flow has the following advantages:
on the basis of android devices such as original transaction payment, the WIFI probe function is added, so that the function of counting the arriving store passenger flow is achieved, a merchant can effectively know the arriving store passenger flow, the number and distribution of new passengers and frequent passengers in the store are clear, the preferred commodities of the new passengers and the frequent passengers are clear, and the competitive commodities are provided.
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Fig. 1 is a schematic flow diagram of a method for detecting and counting passenger flow by creating a WIFI probe on an android device according to the present invention.
Detailed Description
In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The invention provides a method for detecting and counting passenger flow by establishing a WIFI probe on android equipment, which can carry out real-time counting and historical counting on the passenger flow to a store while providing a WIFI network for a user to carry out code scanning payment transaction, so that a merchant can effectively know the passenger flow to the store, the number and distribution of new passengers and frequent visitors in the store are clear, the preferred commodities of the new passengers and the frequent visitors are clear, and more competitive commodities are provided.
Referring to fig. 1, the present invention provides a method for creating WIFI probe detection and counting passenger flow on an android device, comprising the following steps:
step 1, the core of the android device is an inner core layer; the kernel layer is provided with an AP WPS mode for opening WIFI protection setting aiming at the AP wireless access point mode and is used for loading network WLAN configuration, so that subsequent detection is carried out in a safe mode, and in practical application, the configuration item can be loaded when the android device is started to initialize the WLAN.
In the invention, the android device is an intelligent device arranged at a merchant, such as an intelligent POS machine.
Step 2, the android device configures an AP wireless access point control system WPA hostapd and an AP wireless access point drive system WPA _ supplicant;
wherein:
the AP wireless access point driving system wpa _ supplicant is directly connected with the wireless access point mode switch through a driving interface and is used for controlling the wireless access point mode switch to open or close the AP wireless access point mode;
the AP wireless access point control system WPA hostapd is connected with the AP wireless access point driving system WPA _ supplicant and used for sending a control message to the AP wireless access point driving system WPA _ supplicant or receiving a message returned by the AP wireless access point driving system WPA _ supplicant;
step 3, configuring a WIFI probe and a WIFI probe control system for the android device; WIFI probe control system is used for controlling the state of WIFI probe, includes: controlling the WIFI probe to be turned on, controlling the WIFI probe to be turned off and reading WIFI probe information;
step 4, the android device configures a network connection parameter configuration module;
the network connection parameter configuration module is configured to configure the network connection parameters of the android device, and includes: configuring the address and port of the node for providing external service, and if the network connection parameter is not configured, the node does not provide external service; if the network connection parameters are configured, other nodes can actively connect the node;
step 5, when the android device needs to detect and count the passenger flow, the android device is started to initialize the wireless network WLAN, and wireless network WLAN configuration is loaded, so that an AP WPS mode is set for WIFI protection of an AP wireless access point mode;
step 6, under the WIFI protection setting AP WPS mode, the AP wireless access point control system WPA hostapd issues an instruction for opening a wireless access point mode switch to the AP wireless access point drive system WPA _ suppicant;
the AP wireless access point driving system wpa _ supplicant drives a wireless access point mode switch to be turned on through a driving interface, so that the AP wireless access point is provided for an external environment;
when providing an AP wireless access point, a network connection parameter configuration module configures an address and a port of the node for providing service to the outside; meanwhile, the WIFI probe control system opens the WIFI probe;
according to the WIFI probe control system, the WIFI probe control system is provided with a jni interface which is used for opening the WIFI probe, closing the WIFI probe and reading the information of the WIFI probe, so that the state of the WIFI probe is controlled, or the information collected by the WIFI probe is read.
Step 7, the android device broadcasts and sends a detection data packet carrying the address and the port of the node to the external environment at regular time through a broadcasting module;
step 8, when the WIFI-opened mobile user equipment exists in the external environment, the mobile user equipment automatically searches for nearby AP wireless access points, and in the process of searching for the AP wireless access points, when a detection data packet is searched, the mobile user equipment returns a response packet carrying the MAC address of the mobile user equipment and WIFI signal intensity data of the mobile user equipment; meanwhile, the destination address carried by the response packet is the node address and the port in the detection data packet;
step 9, after the WIFI probe is opened, the WIFI probe is continuously in a monitoring state, when any response packet is monitored, whether the response packet is the response packet of the node is judged according to the node address and the port of the WIFI probe, and if the response packet is the response packet of the node, the step 10 is executed; otherwise, continuing to monitor;
step 10, when the WIFI probe monitors a response packet of a node, the WIFI probe uploads the response packet to the WIFI probe control system;
step 11, the WIFI probe control system transmits the response packet to a statistical analysis module;
step 12, the statistical analysis module analyzes the response packet to obtain a mobile user equipment MAC address and mobile user equipment WIFI signal intensity data, and obtains the distance between the mobile user equipment and the android device according to the mobile user equipment WIFI signal intensity data, and if the distance is smaller than a set threshold value, the mobile user equipment enters a detection area; then step 13 is executed; otherwise, the mobile user equipment is indicated not to enter the detection area, and the response packet is discarded;
specifically, in this step, since the WIFI signal strength data of the mobile user equipment is in a proportional relationship with the distance from the mobile user equipment to the android device, that is: the closer the distance, the stronger the signal; the further the distance, the weaker the signal. Thus, the signal strength can be converted into a corresponding distance. Thereby identifying whether the mobile user device has entered a store.
Because the MAC address of the mobile user equipment is unique, the mobile user equipment is uniquely identified by the MAC address.
And step 13, the statistical analysis module records the mapping relation between the MAC address of the mobile user equipment and the detection time into a passenger flow volume record table.
After step 13, the method further comprises:
and step 14, analyzing the passenger flow volume record table by the statistical analysis module to obtain each mobile user equipment which is arranged according to the occurrence frequency of the MAC address from large to small.
Further comprising:
and step 15, the statistical analysis module obtains a current real-time passenger flow volume record table, and displays all the surrounding mobile user equipment according to the chart mode that the number of times of occurrence of the MAC address is from large to small and the distance is from short to long.
In addition, the number of times of repurchase and the frequency of customers can be counted by counting the number of times of occurrence of the same MAC address in a period of time. On one hand, aiming at the acquaintances, the preference of the customers can be known by combining the things purchased by the customers; on the other hand, aiming at new customers, the attraction of the product to new users can be known by combining MAC address information and information of new customer bargaining. By combining the shopping information of the acquaintances and the shopping information of the new customers, the products can be updated according to the preference of the customers and the profitability of the products, so that more competitive products can be provided.
In practical application, an APK application module can be developed on android equipment, the APK application module is provided with an operation interface, and the operation interface is provided with a WIFI probe on button option, a WIFI probe off button option and a button option for reading information collected by the WIFI probe. Can be used by terminal merchants.
In addition, the APK application module is provided with a history display interface and a real-time display interface.
The historical display interface is associated with the statistical analysis module and is used for displaying the statistical analysis result of the passenger flow in a period of time, and the historical display interface comprises:
1) listing all the mobile user equipment in the periphery from near to far according to the number of times of the MAC address;
2) the information is displayed by a chart according to the passenger flow information of each day, each week and each month, and the preference and the shopping frequency of new passengers and frequent passengers are known.
The real-time display interface is associated with the statistical analysis module and used for displaying the real-time situation of the current business-to-store passenger flow, and comprises the following steps: the users who arrive at the store in real time at that time are arranged and displayed according to the number of times of the appearance of the MAC addresses. And moreover, the display interface is refreshed in real time for the shop assistant to check.
The invention provides a method for establishing a WIFI probe on an android device for detection and counting passenger flow, which has the following advantages:
on the basis of android devices such as original transaction payment, the WIFI probe function is added, so that the function of counting the arriving store passenger flow is achieved, a merchant can effectively know the arriving store passenger flow, the number and distribution of new passengers and frequent passengers in the store are clear, the preferred commodities of the new passengers and the frequent passengers are clear, and the competitive commodities are provided.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and improvements can be made without departing from the principle of the present invention, and such modifications and improvements should also be considered within the scope of the present invention.
Claims (3)
1. A method for creating a WIFI probe on an android device for detecting and counting passenger flow is characterized by comprising the following steps:
step 1, the core of the android device is an inner core layer; the kernel layer is provided with an AP WPS mode for opening WIFI protection setting aiming at the AP wireless access point mode and is used for loading network WLAN configuration;
step 2, the android device configures an AP wireless access point control system WPA hostapd and an AP wireless access point drive system WPA _ supplicant;
wherein:
the AP wireless access point driving system wpa _ supplicant is directly connected with the wireless access point mode switch through a driving interface and is used for controlling the wireless access point mode switch to open or close the AP wireless access point mode;
the AP wireless access point control system WPA hostapd is connected with the AP wireless access point driving system WPA _ supplicant and used for sending a control message to the AP wireless access point driving system WPA _ supplicant or receiving a message returned by the AP wireless access point driving system WPA _ supplicant;
step 3, configuring a WIFI probe and a WIFI probe control system for the android device; WIFI probe control system is used for controlling the state of WIFI probe, includes: controlling the WIFI probe to be turned on, controlling the WIFI probe to be turned off and reading WIFI probe information;
step 4, the android device configures a network connection parameter configuration module;
the network connection parameter configuration module is configured to configure the network connection parameters of the android device, and includes: configuring the address and port of the node for providing external service, and if the network connection parameter is not configured, the node does not provide external service; if the network connection parameters are configured, other nodes can actively connect the node;
step 5, when the android device needs to detect and count the passenger flow, the android device is started to initialize the wireless network WLAN, and wireless network WLAN configuration is loaded, so that an AP WPS mode is set for WIFI protection of an AP wireless access point mode;
step 6, under the WIFI protection setting AP WPS mode, the AP wireless access point control system WPA hostapd issues an instruction for opening a wireless access point mode switch to the AP wireless access point drive system WPA _ suppicant;
the AP wireless access point driving system wpa _ supplicant drives a wireless access point mode switch to be turned on through a driving interface, so that the AP wireless access point is provided for an external environment;
when providing an AP wireless access point, a network connection parameter configuration module configures an address and a port of the node for providing service to the outside; meanwhile, the WIFI probe control system opens the WIFI probe;
step 7, the android device broadcasts and sends a detection data packet carrying the address and the port of the node to the external environment at regular time through a broadcasting module;
step 8, when the WIFI-opened mobile user equipment exists in the external environment, the mobile user equipment automatically searches for nearby AP wireless access points, and in the process of searching for the AP wireless access points, when a detection data packet is searched, the mobile user equipment returns a response packet carrying the MAC address of the mobile user equipment and WIFI signal intensity data of the mobile user equipment; meanwhile, the destination address carried by the response packet is the node address and the port in the detection data packet;
step 9, after the WIFI probe is opened, the WIFI probe is continuously in a monitoring state, when any response packet is monitored, whether the response packet is the response packet of the node is judged according to the node address and the port of the WIFI probe, and if the response packet is the response packet of the node, the step 10 is executed; otherwise, continuing to monitor;
step 10, when the WIFI probe monitors a response packet of a node, the WIFI probe uploads the response packet to the WIFI probe control system;
step 11, the WIFI probe control system transmits the response packet to a statistical analysis module;
step 12, the statistical analysis module analyzes the response packet to obtain a mobile user equipment MAC address and mobile user equipment WIFI signal intensity data, and obtains the distance between the mobile user equipment and the android device according to the mobile user equipment WIFI signal intensity data, and if the distance is smaller than a set threshold value, the mobile user equipment enters a detection area; then step 13 is executed; otherwise, the mobile user equipment is indicated not to enter the detection area, and the response packet is discarded;
and step 13, the statistical analysis module records the mapping relation between the MAC address of the mobile user equipment and the detection time into a passenger flow volume record table.
2. The method for creating WIFI probe detection and statistics of passenger flow on android device as claimed in claim 1, further comprising after step 13:
and step 14, analyzing the passenger flow volume record table by the statistical analysis module to obtain each mobile user equipment which is arranged according to the occurrence frequency of the MAC address from large to small.
3. The method for creating WIFI probes for detection and statistics of passenger flow on an android device of claim 2, further comprising:
and step 15, the statistical analysis module obtains a current real-time passenger flow volume record table, and displays all the surrounding mobile user equipment according to the chart mode that the number of times of occurrence of the MAC address is from large to small and the distance is from short to long.
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