CN113965275A - Wireless base function detection method based on Bluetooth communication - Google Patents

Abstract

The invention provides a wireless base function detection method based on Bluetooth communication, which comprises the following steps: the wireless base comprises a base processing module, a first Bluetooth module, an RS232 serial port, a PINPAD serial port, an OTG interface, a code scanning module and a first WIFI module; the detection terminal device comprises a detection processor, a second Bluetooth module and a second WIFI module. A wireless base is bound through a mobile device, so that all functions of the wireless base are detected, detection results of a plurality of mobile devices are compared, and the detection system can be used for a production line of the transmitting device and other scenes needing detecting device signals. The invention simultaneously detects all nearby wireless base signals, encrypts, decrypts and interacts data, and compares and records detection results; therefore, the detection range is expanded, the labor cost on the production line is greatly saved, the detection results of a plurality of mobile devices are compared, and the stability and the reliability of the detection data are enhanced.

Description

Wireless base function detection method based on Bluetooth communication

Technical Field

The invention belongs to the technical field of wireless communication detection, and particularly relates to a wireless base function detection method based on Bluetooth communication.

Background

On the wireless base production line, the function of each wireless base needs to be detected, and the function normality of each functional module of the wireless base is ensured. The existing detection mode is as follows: a plurality of posts are arranged, and each post detects one functional module of the wireless base. Such a detection method has the following problems: the detection efficiency is low, and the accuracy of the detection data cannot be ensured.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a wireless base function detection method based on Bluetooth communication, which can effectively solve the problems.

The technical scheme adopted by the invention is as follows:

the invention provides a wireless base function detection method based on Bluetooth communication, which comprises the following steps:

step S1, the wireless base comprises a base processing module, a first Bluetooth module, an RS232 serial port, a PINPAD serial port, an OTG interface, a code scanning module and a first WIFI module; the detection terminal device comprises a detection processor, a second Bluetooth module and a second WIFI module;

step S2, detecting that a plurality of wireless bases exist in the environment; the first Bluetooth module of each wireless base continuously sends out radio frequency signals in a certain range nearby the first Bluetooth module;

the detection processor of the detection terminal equipment searches all nearby radio frequency signals through the second Bluetooth module, analyzes a mac address from the radio frequency signals for the radio frequency signals with the searched strength exceeding a set value, binds the mac address to the detection processor, enters the step S2 after the binding is successful, and otherwise repeats the radio frequency signal searching process;

step S3, supposing that the mac address of the wireless base WB currently bound by the processor is detected; the detection processor and the wireless base WB establish Bluetooth communication connection;

the detection processor is configured with a complete machine detection mode and a single detection mode; the single detection mode comprises a serial port detection mode, an OTG detection mode, a code scanning module detection mode and a WIFI module detection mode;

if the detection processor is currently configured to be in the complete machine detection mode, sequentially executing a serial port detection mode, an OTG detection mode, a code scanning module detection mode and a WIFI module detection mode, and then executing step S4; if the detection processor is currently configured in the single detection mode, selectively executing a serial port detection mode, an OTG detection mode, a code scanning module detection mode or a WIFI module detection mode according to the currently selected single function, and then executing step S4;

wherein: the detection mode of each single detection mode is specifically as follows:

step S3A, the serial port detection mode is as follows:

a1, the detection processor sends a serial port detection instruction to the base processing module through Bluetooth communication connection;

a2, after receiving the serial port detection instruction, the base processing module detects the type of the serial port currently connected with the password keyboard, if the serial port is an RS232 serial port, A3 is executed; if the serial port is the PINPAD serial port, A4 is executed;

a3, the base processing module sends a detection message to the password keyboard through the RS232 serial port, and judges whether a detection response message returned by the password keyboard is received within a set time, if so, a conclusion that the RS232 serial port communication is normal is obtained; if not, obtaining a conclusion that the RS232 serial port communication is abnormal; then a5 is executed;

a4, the base processing module sends a detection message to the password keyboard through the PINPAD serial port, and judges whether a detection response message returned by the password keyboard is received within a set time, if so, a conclusion that the PINPAD serial port is normal in communication is obtained; if not, obtaining a conclusion that the PINPAD serial port communication is abnormal; then a5 is executed;

a5, the base processing module sends the communication detection conclusion of the RS232 serial port or the PINPAD serial port to the detection processor;

in step S3B, the detection mode of the OTG detection mode is:

b1, the detection processor sends an OTG function detection instruction to the base processing module through Bluetooth communication connection;

b2, after receiving the OTG function detection instruction, the base processing module writes a specific character string into the connected storage device through the USB interface; then, reading the specific character string from the storage device, and obtaining a conclusion that the OTG function is normal if the reading is successful; otherwise, obtaining the conclusion of OTG function abnormity;

b3, the base processing module sends the detection conclusion of the OTG function to the detection processor;

step S3C, the detection mode of the code scanning module detection mode is:

c1, the detection processor sends a code scanning module function detection instruction to the base processing module through Bluetooth communication connection; meanwhile, the detection processor generates a specific two-dimensional code picture and sends the specific two-dimensional code picture to the base processing module;

c2, after the base processing module receives the code scanning module function detection instruction, starting a code scanning module, scanning the specific two-dimensional code picture to obtain a code scanning result, and then sending the code scanning result to the detection processor;

c3, detecting whether the received code scanning result is consistent with the stored code scanning result by the processor, if so, obtaining the conclusion that the code scanning module is normal in function; otherwise, obtaining the conclusion that the function of the code scanning module is abnormal;

step S3D, the detection mode of the WIFI module detection mode is:

d1, the detection processor sends a WIFI module function detection instruction to the base processing module through the Bluetooth communication connection; meanwhile, the detection processor starts a second WIFI module and sends the password and the specific detection character string of the second WIFI module to the base processing module;

d2, after the base processing module receives the WIFI module function detection instruction, starting the first WIFI module, and establishing WIFI connection between the first WIFI module and the second WIFI module by adopting the received password;

then, the first WIFI module returns a response character string of the specific detection character string to the detection processor through the WIFI connection;

d3, judging whether the second WIFI module can receive the response character string returned by the first WIFI module within the set time or not by the detection processor, and if so, obtaining a conclusion that the first WIFI module is normal in function; otherwise, obtaining a conclusion that the first WIFI module is abnormal in function;

step S4, the detection processor generates a function detection conclusion of the current bound wireless base WB; then, the wireless base WB is unbound; and binding and function detection are carried out on the next wireless base again.

Preferably, the detection terminal device is an android mobile device.

The wireless base function detection method based on Bluetooth communication provided by the invention has the following advantages:

a wireless base is bound through a mobile device, so that all functions of the wireless base can be detected, detection results of a plurality of mobile devices are compared, and the detection system can be used for a production line of the transmitting device and other scenes needing detecting signals of the device. The invention simultaneously detects all nearby wireless base signals, encrypts, decrypts and interacts data, and compares and records detection results; therefore, the detection range is expanded, the labor cost on the production line is greatly saved, the detection results of a plurality of mobile devices are compared, and the stability and the reliability of the detection data are enhanced.

Drawings

Fig. 1 is a schematic flow chart of a method for detecting functions of a wireless base based on bluetooth communication 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 discloses a wireless base function detection method based on Bluetooth communication, which comprises a detection terminal device and a plurality of wireless bases, wherein each wireless base is provided with a transmitting device, and a radio frequency signal can be sent within a certain range through the transmitting device; the detection terminal device is used as a single server to detect and bind with the radio frequency signals transmitted by the wireless bases around the detection terminal device. The advantages are that: based on Bluetooth communication, all wireless base signals nearby are detected simultaneously through operation of one detection terminal device, a designated wireless base is selected to be bound with the wireless base, data is encrypted, decrypted and interacted, and multiple functions of the wireless base are automatically detected and result recording is conducted. Therefore, the invention enlarges the detection range of the wireless base, greatly saves the labor cost on the production line, can compare the detection results of a plurality of wireless bases and enhances the stability and reliability of the detection data.

The invention provides a wireless base function detection method based on Bluetooth communication, which comprises the following steps with reference to fig. 1:

step S1, the wireless base comprises a base processing module, a first Bluetooth module, an RS232 serial port, a PINPAD serial port, an OTG interface, a code scanning module and a first WIFI module; the detection terminal device comprises a detection processor, a second Bluetooth module and a second WIFI module; the detection terminal device can be an android mobile device. The android mobile device is an android operating system mobile device serving as a server.

Step S2, detecting that a plurality of wireless bases exist in the environment; the first Bluetooth module of each wireless base continuously sends out radio frequency signals in a certain range nearby the first Bluetooth module;

the detection processor of the detection terminal equipment searches all nearby radio frequency signals through the second Bluetooth module, analyzes a mac address from the radio frequency signals for the radio frequency signals with the searched strength exceeding a set value, binds the mac address to the detection processor, enters the step S2 after the binding is successful, and otherwise repeats the radio frequency signal searching process;

step S3, supposing that the mac address of the wireless base WB currently bound by the processor is detected; the detection processor and the wireless base WB establish Bluetooth communication connection;

the detection processor is configured with a complete machine detection mode and a single detection mode; the single detection mode comprises a serial port detection mode, an OTG detection mode, a code scanning module detection mode and a WIFI module detection mode;

if the detection processor is currently configured to be in the complete machine detection mode, sequentially executing a serial port detection mode, an OTG detection mode, a code scanning module detection mode and a WIFI module detection mode, and then executing step S4; if the detection processor is currently configured in the single detection mode, selectively executing a serial port detection mode, an OTG detection mode, a code scanning module detection mode or a WIFI module detection mode according to the currently selected single function, and then executing step S4;

wherein: the detection mode of each single detection mode is specifically as follows:

step S3A, the serial port detection mode is as follows:

a1, the detection processor sends a serial port detection instruction to the base processing module through Bluetooth communication connection;

a2, after receiving the serial port detection instruction, the base processing module detects the type of the serial port currently connected with the password keyboard, if the serial port is an RS232 serial port, A3 is executed; if the serial port is the PINPAD serial port, A4 is executed;

a3, the base processing module sends a detection message to the password keyboard through the RS232 serial port, and judges whether a detection response message returned by the password keyboard is received within a set time, if so, a conclusion that the RS232 serial port communication is normal is obtained; if not, obtaining a conclusion that the RS232 serial port communication is abnormal; then a5 is executed;

a4, the base processing module sends a detection message to the password keyboard through the PINPAD serial port, and judges whether a detection response message returned by the password keyboard is received within a set time, if so, a conclusion that the PINPAD serial port is normal in communication is obtained; if not, obtaining a conclusion that the PINPAD serial port communication is abnormal; then a5 is executed;

a5, the base processing module sends the communication detection conclusion of the RS232 serial port or the PINPAD serial port to the detection processor;

in step S3B, the detection mode of the OTG detection mode is:

b1, the detection processor sends an OTG function detection instruction to the base processing module through Bluetooth communication connection;

b2, after receiving the OTG function detection instruction, the base processing module writes a specific character string into the connected storage device through the USB interface; then, reading the specific character string from the storage device, and obtaining a conclusion that the OTG function is normal if the reading is successful; otherwise, obtaining the conclusion of OTG function abnormity;

b3, the base processing module sends the detection conclusion of the OTG function to the detection processor;

step S3C, the detection mode of the code scanning module detection mode is:

c1, the detection processor sends a code scanning module function detection instruction to the base processing module through Bluetooth communication connection; meanwhile, the detection processor generates a specific two-dimensional code picture and sends the specific two-dimensional code picture to the base processing module;

c2, after the base processing module receives the code scanning module function detection instruction, starting a code scanning module, scanning the specific two-dimensional code picture to obtain a code scanning result, and then sending the code scanning result to the detection processor;

c3, detecting whether the received code scanning result is consistent with the stored code scanning result by the processor, if so, obtaining the conclusion that the code scanning module is normal in function; otherwise, obtaining the conclusion that the function of the code scanning module is abnormal;

step S3D, the detection mode of the WIFI module detection mode is:

d1, the detection processor sends a WIFI module function detection instruction to the base processing module through the Bluetooth communication connection; meanwhile, the detection processor starts a second WIFI module and sends the password and the specific detection character string of the second WIFI module to the base processing module;

d2, after the base processing module receives the WIFI module function detection instruction, starting the first WIFI module, and establishing WIFI connection between the first WIFI module and the second WIFI module by adopting the received password;

then, the first WIFI module returns a response character string of the specific detection character string to the detection processor through the WIFI connection;

d3, judging whether the second WIFI module can receive the response character string returned by the first WIFI module within the set time or not by the detection processor, and if so, obtaining a conclusion that the first WIFI module is normal in function; otherwise, obtaining a conclusion that the first WIFI module is abnormal in function;

step S4, the detection processor generates a function detection conclusion of the current bound wireless base WB; then, the wireless base WB is unbound; and binding and function detection are carried out on the next wireless base again.

In the invention, as an embodiment, when the detection terminal device is used, one or more android mobile devices are generally required (including but not limited to), and each android mobile device can be bound with a different wireless base. Operating personnel operates tall and erect mobile device of ann, is responsible for operating the detection instrument, and tall and erect mobile device of ann can place in different positions to detect the wireless base signal on the assembly line under the different positions.

According to the wireless base function detection based on Bluetooth communication, all functions of the wireless base can be detected by binding the wireless base with one mobile device, detection results of a plurality of mobile devices are compared, and the detection system can be used for a production line of an emitting device and other scenes needing to detect signals of the device. The invention simultaneously detects all nearby wireless base signals, encrypts, decrypts and interacts data, and compares and records detection results; therefore, the detection range is expanded, the labor cost on the production line is greatly saved, the detection results of a plurality of mobile devices are compared, and the stability and the reliability of the detection data are enhanced.

The invention has the beneficial effects that:

1. based on bluetooth communication technology and TCP/IP agreement, through the operation of tall and erect mobile device of ann, detect near all wireless base signals simultaneously to carry out encryption and decryption and interaction to data, contrast, record the testing result.

2. The detection range is expanded, the detection of the used functional modules is concentrated on one post, the labor cost on the assembly line is greatly saved, meanwhile, the detection results of a plurality of wireless bases can be selectively compared, and the stability and the reliability of the detection data are enhanced.

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 (2)

1. A wireless base function detection method based on Bluetooth communication is characterized by comprising the following steps:

step S1, the wireless base comprises a base processing module, a first Bluetooth module, an RS232 serial port, a PINPAD serial port, an OTG interface, a code scanning module and a first WIFI module; the detection terminal device comprises a detection processor, a second Bluetooth module and a second WIFI module;

step S2, detecting that a plurality of wireless bases exist in the environment; the first Bluetooth module of each wireless base continuously sends out radio frequency signals in a certain range nearby the first Bluetooth module;

the detection processor of the detection terminal equipment searches all nearby radio frequency signals through the second Bluetooth module, analyzes a mac address from the radio frequency signals for the radio frequency signals with the searched strength exceeding a set value, binds the mac address to the detection processor, enters the step S2 after the binding is successful, and otherwise repeats the radio frequency signal searching process;

step S3, supposing that the mac address of the wireless base WB currently bound by the processor is detected; the detection processor and the wireless base WB establish Bluetooth communication connection;

the detection processor is configured with a complete machine detection mode and a single detection mode; the single detection mode comprises a serial port detection mode, an OTG detection mode, a code scanning module detection mode and a WIFI module detection mode;

if the detection processor is currently configured to be in the complete machine detection mode, sequentially executing a serial port detection mode, an OTG detection mode, a code scanning module detection mode and a WIFI module detection mode, and then executing step S4; if the detection processor is currently configured in the single detection mode, selectively executing a serial port detection mode, an OTG detection mode, a code scanning module detection mode or a WIFI module detection mode according to the currently selected single function, and then executing step S4;

wherein: the detection mode of each single detection mode is specifically as follows:

step S3A, the serial port detection mode is as follows:

a1, the detection processor sends a serial port detection instruction to the base processing module through Bluetooth communication connection;

a2, after receiving the serial port detection instruction, the base processing module detects the type of the serial port currently connected with the password keyboard, if the serial port is an RS232 serial port, A3 is executed; if the serial port is the PINPAD serial port, A4 is executed;

a3, the base processing module sends a detection message to the password keyboard through the RS232 serial port, and judges whether a detection response message returned by the password keyboard is received within a set time, if so, a conclusion that the RS232 serial port communication is normal is obtained; if not, obtaining a conclusion that the RS232 serial port communication is abnormal; then a5 is executed;

a4, the base processing module sends a detection message to the password keyboard through the PINPAD serial port, and judges whether a detection response message returned by the password keyboard is received within a set time, if so, a conclusion that the PINPAD serial port is normal in communication is obtained; if not, obtaining a conclusion that the PINPAD serial port communication is abnormal; then a5 is executed;

a5, the base processing module sends the communication detection conclusion of the RS232 serial port or the PINPAD serial port to the detection processor;

in step S3B, the detection mode of the OTG detection mode is:

b1, the detection processor sends an OTG function detection instruction to the base processing module through Bluetooth communication connection;

b2, after receiving the OTG function detection instruction, the base processing module writes a specific character string into the connected storage device through the USB interface; then, reading the specific character string from the storage device, and obtaining a conclusion that the OTG function is normal if the reading is successful; otherwise, obtaining the conclusion of OTG function abnormity;

b3, the base processing module sends the detection conclusion of the OTG function to the detection processor;

step S3C, the detection mode of the code scanning module detection mode is:

c1, the detection processor sends a code scanning module function detection instruction to the base processing module through Bluetooth communication connection; meanwhile, the detection processor generates a specific two-dimensional code picture and sends the specific two-dimensional code picture to the base processing module;

c2, after the base processing module receives the code scanning module function detection instruction, starting a code scanning module, scanning the specific two-dimensional code picture to obtain a code scanning result, and then sending the code scanning result to the detection processor;

c3, detecting whether the received code scanning result is consistent with the stored code scanning result by the processor, if so, obtaining the conclusion that the code scanning module is normal in function; otherwise, obtaining the conclusion that the function of the code scanning module is abnormal;

step S3D, the detection mode of the WIFI module detection mode is:

d1, the detection processor sends a WIFI module function detection instruction to the base processing module through the Bluetooth communication connection; meanwhile, the detection processor starts a second WIFI module and sends the password and the specific detection character string of the second WIFI module to the base processing module;

d2, after the base processing module receives the WIFI module function detection instruction, starting the first WIFI module, and establishing WIFI connection between the first WIFI module and the second WIFI module by adopting the received password;

then, the first WIFI module returns a response character string of the specific detection character string to the detection processor through the WIFI connection;

d3, judging whether the second WIFI module can receive the response character string returned by the first WIFI module within the set time or not by the detection processor, and if so, obtaining a conclusion that the first WIFI module is normal in function; otherwise, obtaining a conclusion that the first WIFI module is abnormal in function;

step S4, the detection processor generates a function detection conclusion of the current bound wireless base WB; then, the wireless base WB is unbound; and binding and function detection are carried out on the next wireless base again.

2. The method for detecting the function of the wireless base based on the Bluetooth communication as claimed in claim 1, wherein the detection terminal device is an android mobile device.

Images