CN111006704A - Sensor data processing method, management platform and sensor header - Google Patents

Abstract

The embodiment of the application provides a sensor data processing method, a management platform and a sensor header, wherein the method comprises the following steps: receiving a first data uploading request sent by a first sensor header, wherein the first data uploading request comprises: the first acquisition data and the equipment identification of the first sensor header; based on the equipment identification of the first sensor header, if it is determined that historical acquisition data uploaded by the first sensor header is not stored in the management platform and it is determined that a binding relationship between the first sensor header and a target sensor exists in the management platform, acquiring sensor parameters of the target sensor, and sending the sensor parameters of the target sensor to the first sensor header, wherein the sensor parameters of the target sensor are uploaded in advance by the second sensor header; the first collected data is stored based on the device identification of the first sensor header. Therefore, after the sensor gauge head in the sensor is replaced, the sensor does not need to be manually calibrated again.

Description

Sensor data processing method, management platform and sensor header

Technical Field

The application relates to the technical field of sensors, in particular to a sensor data processing method, a management platform and a sensor header.

Background

In recent years, the types of existing sensor products are very wide, such as pressure sensors, liquid level sensors, temperature sensors, and the like. In practical applications, with the wide application of sensor products in various fields, how to conveniently detect, repair or replace a fault of a sensor product is an important research content.

At present, in order to facilitate the failure detection, maintenance or replacement of sensor products, the sensor products are usually designed in a modular manner according to the functions realized by the conventional sensor products, and the sensor products mainly comprise: the sensor and the sensor gauge head can be detachably connected, wherein the sensor is mainly used for carrying out periodic data acquisition, and the sensor gauge head is mainly used for receiving acquisition data output by the sensor, uploading the acquisition data to a management platform/management device, displaying the acquisition data to a user and the like.

However, when the sensor head mounted on the sensor needs to be replaced with a new sensor head from the original sensor head, the sensor needs to be manually calibrated again in order to enable the sensor after the sensor head is replaced to continue to work normally, and the operation is very troublesome.

Disclosure of Invention

In view of this, the embodiment of the application provides a sensor data processing method, a management platform and a sensor header, which can realize that the sensor is not required to be manually re-calibrated after the sensor header of the sensor is replaced, and are very convenient and fast.

The embodiment of the application mainly provides the following technical scheme:

in a first aspect, an embodiment of the present application provides a sensor data processing method, where the method includes: receiving a first data uploading request sent by a first sensor header, wherein the first data uploading request comprises: first collected data and an equipment identifier of the first sensor header, wherein the first collected data is obtained through a target sensor; in response to the first data uploading request, determining whether historical acquisition data uploaded by the first sensor header is stored in a management platform or not based on the equipment identification of the first sensor header; if the historical acquisition data uploaded by the first sensor header is not stored, determining whether a binding relationship between the first sensor header and the target sensor exists in a management platform or not based on the equipment identification of the first sensor header; if the binding relationship between the first sensor header and the target sensor is determined to exist, acquiring sensor parameters of the target sensor based on the binding relationship between the first sensor header and the target sensor, and sending the sensor parameters of the target sensor to the first sensor header, wherein the sensor parameters of the target sensor are uploaded by a second sensor header in advance; storing the first collected data based on the device identification of the first sensor header.

In a second aspect, an embodiment of the present application provides a sensor data processing method, where the method includes: obtaining sensor parameters of the target sensor, wherein the sensor parameters of the target sensor are generated by manually calibrating the target sensor by a user; receiving third acquisition data output by the target sensor; processing the third acquired data based on the sensor parameters of the target sensor to obtain second acquired data; sending a second data uploading request to a management platform, wherein the second data uploading request comprises: the second acquisition data and the equipment identifier of the second sensor header; receiving a parameter uploading notification message sent by the management platform, wherein the parameter uploading notification message is used for notifying the second sensor header of uploading sensor parameters of the target sensor; responding to the parameter uploading notification message, and sending a response message to the management platform, wherein the response message comprises: the device identification of the second sensor gauge head and the sensor parameters of the target sensor are used for enabling the management platform to issue the sensor parameters of the target sensor to the first sensor gauge head when the sensor gauge head installed on the target sensor is replaced by the first sensor gauge head.

In a third aspect, an embodiment of the present application provides a sensor data processing method, where the method includes: receiving first acquisition data output by a target sensor; determining whether sensor parameters of the target sensor are stored in a local storage space; if the sensor parameters of the target sensor are determined not to be stored, sending a first data uploading request to a management platform so that the management platform issues the sensor parameters of the target sensor which are uploaded to the management platform in advance by a second sensor header, wherein the first data uploading request comprises: first collected data and an equipment identifier of the first sensor header; receiving sensor parameters of the target sensor sent by the management platform, wherein the sensor parameters of the target sensor are uploaded to the management platform by a second sensor header; storing sensor parameters of the target sensor.

In a fourth aspect, an embodiment of the present application provides a management platform, where the management platform includes: at least one processor; and at least one memory, bus connected with the processor; the processor and the memory complete mutual communication through the bus; the processor is used for calling the program instructions in the memory so as to execute the steps of the sensor data processing method.

In a fifth aspect, embodiments of the present application provide a sensor head that is detachably mountable to a sensor; the sensor header includes: at least one processor; and at least one memory, bus connected with the processor; the processor and the memory complete mutual communication through the bus; the processor is used for calling the program instructions in the memory so as to execute the steps of the sensor data processing method.

According to the sensor data processing method, the management platform and the sensor gauge outfit provided by the embodiment of the application, under the condition that the sensor gauge outfit installed on the target sensor is replaced by the first sensor gauge outfit, when the management platform receives a first data uploading request sent by the first sensor gauge outfit, the first data uploading request comprises: the management platform can respond to the first data uploading request and determine whether historical acquired data uploaded by the first sensor header is stored in the management platform or not based on the equipment identifier of the first sensor header; next, if it is determined that the historical acquisition data uploaded by the first sensor header is not stored in the management platform, the management platform may determine whether a binding relationship between the first sensor header and the target sensor exists in the management platform based on the device identifier of the first sensor header; finally, if the binding relationship between the first sensor header and the target sensor exists in the management platform, the management platform can acquire sensor parameters of the target sensor based on the binding relationship between the first sensor header and the target sensor, send the sensor parameters of the target sensor to the first sensor header, and store first acquired data based on the equipment identifier of the first sensor header, wherein the sensor parameters of the target sensor are uploaded in advance by the second sensor header. In this way, since the sensor parameter of the target sensor is previously uploaded to the management platform by the second sensor header before the sensor header mounted on the target sensor is replaced with the first sensor header, the sensor parameter of the target sensor can be delivered to the first sensor header through the management platform after the sensor header mounted on the target sensor is replaced with the first sensor header. Therefore, the first sensor gauge head can directly work based on the sensor parameters of the target sensor, and therefore the sensor can be calibrated again without manpower after the sensor gauge head installed on the sensor is replaced, and the method is very convenient and fast.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. Other advantages of the present application may be realized and attained by the instrumentalities and combinations particularly pointed out in the specification and the drawings.

Drawings

The accompanying drawings are included to provide an understanding of the present disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the examples serve to explain the principles of the disclosure and not to limit the disclosure.

FIG. 1 is a schematic diagram of a sensor data processing system according to an embodiment of the present application;

FIG. 2 is a first schematic flow chart illustrating a sensor data processing method according to an embodiment of the present disclosure;

FIG. 3A is a second flowchart illustrating a sensor data processing method according to an embodiment of the present disclosure;

fig. 3B is a schematic flowchart illustrating a sensor data processing method according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a management platform in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a sensor head in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

An embodiment of the present application provides a data processing system, which may include: sensors, sensor headers and a management platform. Wherein the sensor head is detachably mountable to the sensor.

Fig. 1 is a schematic structural diagram of a sensor data processing system in an embodiment of the present application, and referring to fig. 1, at a first time, a sensor head mounted on a sensor 100 is a first sensor head 101; at a second time prior to the first time, the sensor head mounted on the sensor 100 is the second sensor head 102. Here, the first sensor header 101 and the second sensor header 102 are two identical sensor headers.

Here, the sensors are primarily used for periodic data acquisition. For example, taking a sensor as a liquid level sensor as an example, the acquired data obtained by the sensor is liquid level data; taking a sensor as a temperature sensor as an example, the acquired data obtained by the sensor is temperature data; taking the sensor as a pressure sensor as an example, the acquired data obtained by the sensor is pressure data.

Here, the sensor header is mainly used for receiving the collected data output by the sensor, uploading the collected data to the management platform, displaying the collected data to the user, and the like.

In practical applications, the sensor may be a liquid level sensor or a pressure sensor, and of course, the sensor may also be other types of sensor products capable of mounting a sensor head, such as a temperature sensor. Here, the embodiment of the present application does not specifically limit the type of the sensor.

In practical applications, the management platform may be implemented by a cloud service platform, and the management platform may be capable of managing the sensor and the sensor header. For example, the management platform may be configured to wirelessly communicate with the sensor header and receive the acquired data acquired by the sensor uploaded by the sensor header; the management platform can be used for storing sensor parameters of the sensor; the management platform can be used for sending sensor parameters of the sensor to a newly replaced sensor header on the sensor and the like. Of course, the management platform may also be implemented by other types of platforms, and the embodiments of the present application are not specifically limited herein.

The following describes a sensor data processing method provided in the embodiments of the present application with reference to the above data processing system.

The embodiment of the application provides a sensor data processing method which is applied to a management platform. Fig. 2 is a first schematic flow chart of a sensor data processing method in an embodiment of the present application, and referring to fig. 2, the sensor data processing method may include:

s201: receiving a first data uploading request sent by a first sensor header;

wherein, the first data upload request includes: the first acquisition data and the equipment identification of the first sensor header, wherein the first acquisition data is acquired by the target sensor.

As an example, after the sensor header in the target sensor is replaced with the first sensor header, when the target sensor obtains the first collected data, the target sensor outputs the first collected data to the first sensor header, and then the first sensor header may upload the first collected data to the management platform by sending the first data upload request to the management platform, so that the management platform may receive the first collected data sent by the first sensor header and the device identifier of the first sensor header. Next, in response to the first data upload request, the management platform may determine whether it is necessary to issue the sensor parameter of the target sensor to the first sensor header based on the device identifier of the first sensor header by performing S202 to S203.

S202: determining whether historical acquisition data uploaded by the first sensor header is stored in the management platform or not based on the equipment identifier of the first sensor header;

as an example, when the management platform determines that the historical collected data uploaded by the first sensor header is not stored in the management platform by executing S202, the management platform may only determine that the first sensor header is a sensor header newly installed on the target sensor, and in this case, the first sensor header may be a sensor header newly replaced on the target sensor or a sensor header first installed on the target sensor. Then, the management platform needs to execute step S203 to further determine whether the sensor parameter of the target sensor needs to be sent to the first sensor header or the sensor parameter of the target sensor needs to be uploaded to the first sensor header.

As an example, when the management platform determines that the management platform stores the historical collected data uploaded by the first sensor header by executing S202, in one aspect, the management platform may determine that the first sensor header stores the sensor parameter of the target sensor, and at this time, the first sensor header can normally operate based on the sensor parameter of the target sensor. On the other hand, the management platform can determine that the binding relationship between the first sensor header and the target sensor exists in the management platform, and the sensor parameters of the target sensor are stored in the management platform, at this time, the management platform does not need to issue the sensor parameters of the target sensor to the first sensor header, and does not need to inform the first sensor header of uploading the sensor parameters of the target sensor. Then, the management platform may directly execute S205 to store the first collected data sent by the first sensor header.

S203: determining whether a binding relationship between the first sensor header and the target sensor exists in the management platform or not based on the equipment identifier of the first sensor header;

here, the binding relationship between the first sensor header and the target sensor may be established based on the sensor parameter of the first sensor header corresponding to the target sensor.

As an example, when the management platform determines that the management platform does not store the historical collected data uploaded by the first sensor header, and determines that the management platform has a binding relationship between the first sensor header and the target sensor, the management platform may determine that the first sensor header is a sensor header newly replaced on the target sensor, the management platform stores sensor parameters of the target sensor uploaded by other sensor headers, such as the second sensor header, and the first sensor header does not store the sensor parameters of the target sensor, and at this time, the management platform may determine that the sensor parameters of the target sensor need to be issued to the first sensor header. Then the management platform may execute S204 to S205 to send the sensor parameters of the target sensor to the first sensor header.

S204: acquiring sensor parameters of a target sensor based on a binding relationship between a first sensor gauge head and the target sensor, and sending the sensor parameters of the target sensor to the first sensor gauge head;

s205: the first collected data is stored based on the device identification of the first sensor header.

Wherein the sensor parameters of the target sensor are pre-uploaded by the second sensor header.

Here, the second sensor header may be a sensor header that is installed at the time when the user manually calibrates the target sensor on which the target sensor is installed.

Here, the sensor parameters of the target sensor may include: property parameters of the target sensor.

In practical applications, the sensor parameters of the sensors are different according to different sensor types. For example, taking the example that the sensor is a wireless liquid level sensor, and assuming that the sensor is disposed on a tank under test to collect liquid level data of the cryogenic vessel using the sensor, wherein the tank under test may store a medium under test, sensor parameters of the sensor may include: the capacitance value of zero point is a capacitance value measured when the measured medium is not stored in the measured tank, the incremental capacitance value is a difference value between the capacitance value measured when the measured medium is stored in the measured tank and the capacitance value of zero point, and the medium information can be one of liquid oxygen, liquid nitrogen and liquefied natural gas. Of course, the sensor parameters of the sensor may also include other parameter information, and the embodiments of the present application are not particularly limited herein.

For example, assume that the installation process of the sensor header on the target sensor is, in the order of installation: when a user manually calibrates a target sensor, the sensor gauge outfit installed on the target sensor at that time is a second sensor gauge outfit, and then, when the sensor gauge outfit of the target sensor is replaced by the first sensor gauge outfit from the second sensor gauge outfit, at this moment, the second sensor gauge outfit is the original sensor gauge outfit installed on the target sensor, and correspondingly, the first sensor gauge outfit is a new sensor gauge outfit installed on the target sensor. The time at which the sensor parameters of the target sensor are uploaded beforehand by the second sensor head is then before the time at which the sensor head mounted on the target sensor is exchanged from the second sensor head to the first sensor head.

For another example, assume that the installation process of the sensor header on the target sensor is as follows: when a user manually calibrates a target sensor, the sensor gauge head installed on the target sensor at that time is the second sensor gauge head, next, the sensor gauge head of the target sensor is replaced by the third sensor gauge head, and then, when the sensor gauge head of the target sensor is replaced by the third sensor gauge head into the first sensor gauge head, then, the time for uploading the sensor parameters of the target sensor in advance through the second sensor gauge head is before the time for replacing the sensor gauge head installed on the target sensor by the second sensor gauge head into the third sensor gauge head.

In other embodiments of the present application, taking as an example that the sensor head mounted on the target sensor is replaced by the first sensor head from the second sensor head, in a specific implementation process, before S201, the method may further include the following steps 200a to 200 d:

step 200 a: acquiring the equipment identification of the second sensor header and the sensor parameters of the target sensor, which are sent by the second sensor header;

in another embodiment of the present application, the step 200a may include: receiving a second data uploading request sent by a second sensor header, wherein the second data uploading request comprises: second acquisition data and equipment identification of a second sensor header, wherein the second acquisition data is acquired through a target sensor; responding to a second data uploading request, and determining whether historical acquisition data uploaded by a second sensor header is stored in the management platform or not based on the equipment identifier of the second sensor header; if the historical acquisition data uploaded by the second sensor header is not stored, determining whether a binding relationship between the second sensor header and the target sensor exists in the management platform or not based on the equipment identifier of the second sensor header; if the binding relationship between the second sensor header and the target sensor does not exist, sending a parameter uploading notification message to the second sensor header, wherein the parameter uploading notification message is used for notifying the second sensor header to upload sensor parameters of the target sensor; receiving a response message sent by the second sensor header, wherein the response message comprises: the device identification of the second sensor header and the sensor parameters of the target sensor.

As an example, when the management platform determines that the management platform does not store the historical collected data uploaded by the second sensor header, and determines that the management platform does not have the binding relationship between the second sensor header and the target sensor, the management platform may determine that the second sensor header is the sensor header initially installed on the target sensor, and the second sensor header may store the sensor parameters of the target sensor generated by the user performing manual calibration on the target sensor, at this time, the management platform may determine that the second sensor header needs to be notified to upload the sensor parameters of the target sensor, so as to replace the sensor header installed on the target sensor with another sensor header (e.g., the first sensor header) from the second sensor header, the management platform may issue the sensor parameters of the target sensor to the other sensor header, the other sensor gauge heads can quickly replace the second sensor gauge head to work based on the sensor parameters of the target sensor, so that the sensor is not required to be manually calibrated again after the sensor gauge head of the sensor is replaced.

Step 200 b: establishing a binding relationship between the second sensor header and the target sensor based on the equipment identifier of the second sensor header and the sensor parameter of the target sensor;

as an example, after the management platform obtains the device identifier of the second sensor header and the sensor parameter of the target sensor, which are sent by the second sensor header, the management platform may implement a binding operation on the target sensor and the second sensor header by establishing an association relationship between the device identifier of the second sensor header and the sensor parameter of the target sensor, that is, implement establishment of a binding relationship between the second sensor header and the target sensor.

Step 200 c: obtaining a first header replacing instruction;

wherein, first gauge outfit is changed the sensor gauge outfit that the instruction is used for the installation on the characterization object sensor and is changed into first sensor gauge outfit by the second sensor gauge outfit, and first gauge outfit is changed the instruction and includes: the device identification of the second sensor header and the device identification of the first sensor header.

For example, when the sensor header installed on the target sensor needs to be replaced by the first sensor header from the second sensor header, the target sensor and the second sensor header need to be unbound on the management platform, and the target sensor and the first sensor header need to be bound again on the management platform, so that the user can perform corresponding replacement operation on the management platform, such as inputting a unbinding instruction, and thus the management platform can obtain the first header replacement instruction.

Step 200 d: and executing the first gauge head replacement instruction, removing the binding relationship between the second sensor gauge head and the target sensor based on the equipment identifier of the second sensor gauge head, the equipment identifier of the first sensor gauge head and the sensor parameter of the target sensor, and establishing the binding relationship between the first sensor gauge head and the target sensor.

In a specific implementation process, after the management platform obtains a first header replacement instruction, the management platform can execute the first header replacement instruction, firstly cancel the association relationship between the device identifier of the header of the second sensor and the sensor parameter of the target sensor, so as to realize the operation of unbinding the target sensor and the header of the second sensor, namely, release the binding relationship between the header of the second sensor and the target sensor; and then, establishing an association relation between the equipment identifier of the first sensor header and the sensor parameter of the target sensor to realize the binding operation of the target sensor and the first sensor header, namely establishing the binding relation between the first sensor header and the target sensor. Therefore, when the first sensor gauge head first transmits the acquired data to the management platform, the management platform can determine that the first sensor is a newly replaced sensor gauge head installed on the target sensor, and transmits the sensor parameters of the target sensor to the first sensor gauge head. Therefore, the target sensor does not need to be calibrated again after the sensor gauge head of the target sensor is replaced, and the first sensor gauge head can replace the second sensor gauge head to work normally.

In another embodiment of the present application, taking as an example that the sensor header mounted on the target sensor is replaced with the first sensor header from the second sensor header, and then is replaced with the third sensor header from the first sensor header, in a specific implementation process, after S205, the method may further include the following steps 206a to 206 b:

step 206 a: obtaining a second header replacing instruction;

wherein, the sensor gauge head that the instruction was changed to the third sensor gauge head by first sensor gauge head to the sensor gauge head that second gauge head was used for the installation on the characterization target sensor, and the instruction is changed to the second gauge head includes: the device identification of the first sensor header and the device identification of the third sensor header.

For example, when the sensor header installed on the target sensor needs to be replaced by the third sensor header from the first sensor header, the target sensor needs to be unbound from the first sensor header on the management platform, and the target sensor needs to be unbound again with the third sensor header on the management platform, so that the user can perform corresponding replacement operation on the management platform, such as inputting a unbinding instruction, and thus the management platform can obtain the second header replacement instruction.

Step 206 b: and executing a second gauge outfit replacing instruction, removing the binding relationship between the first sensor gauge outfit and the target sensor based on the equipment identification of the first sensor gauge outfit, the equipment identification of the third sensor gauge outfit and the sensor parameter of the target sensor, and establishing the binding relationship between the third sensor gauge outfit and the target sensor.

In a specific implementation process, after the management platform obtains a second header replacement instruction, the management platform can execute the second header replacement instruction, and firstly cancel the association relationship between the equipment identifier of the first sensor header and the sensor parameter of the target sensor to realize the operation of unbinding the target sensor and the first sensor header, namely, the binding relationship between the first sensor header and the target sensor is canceled; and then, establishing an association relation between the equipment identifier of the third sensor header and the sensor parameter of the target sensor to realize the binding operation of the target sensor and the third sensor header, namely establishing the binding relation between the third sensor header and the target sensor. Therefore, when the third sensor gauge outfit uploads the acquired data to the management platform for the first time, the management platform can determine that the third sensor is a newly replaced sensor gauge outfit installed on the target sensor, and sends the sensor parameters of the target sensor to the third sensor gauge outfit. Therefore, the target sensor does not need to be calibrated again after the sensor gauge head of the target sensor is replaced, and the third sensor gauge head can replace the first sensor gauge head to work normally.

As can be seen from the above, in the sensor data processing method provided in the embodiment of the present application, when the sensor header installed on the target sensor is replaced with the first sensor header, after the management platform receives the first data upload request sent by the first sensor header, the first data upload request includes: the method comprises the steps that first collected data and equipment identification of a first sensor header are obtained through a target sensor; the management platform can respond to the first data uploading request and determine whether the management platform stores historical acquisition data uploaded by the first sensor header or not based on the equipment identifier of the first sensor header; next, if the management platform determines that the historical acquisition data uploaded by the first sensor header is not stored in the management platform, the management platform may determine whether a binding relationship between the first sensor header and the target sensor exists in the management platform based on the device identifier of the first sensor header; and finally, if the management platform determines that the binding relationship between the first sensor header and the target sensor exists in the management platform, the management platform can acquire sensor parameters of the target sensor based on the binding relationship between the first sensor header and the target sensor and send the sensor parameters of the target sensor to the first sensor header, wherein the sensor parameters of the target sensor are uploaded in advance by the second sensor header, and first acquisition data are stored based on the equipment identifier of the first sensor header. In this way, since the sensor parameter of the target sensor is previously uploaded to the management platform by the second sensor header before the sensor header mounted on the target sensor is replaced with the first sensor header, the sensor parameter of the target sensor can be delivered to the first sensor header through the management platform after the sensor header mounted on the target sensor is replaced with the first sensor header. Therefore, the first sensor gauge head can directly work based on the sensor parameters of the target sensor, and therefore the sensor can be calibrated again without manpower after the sensor gauge head installed on the sensor is replaced, and the method is very convenient and fast.

Based on the foregoing embodiments, embodiments of the present application provide a sensor data processing method. The method can be applied to the following scenes: the initial sensor gauge outfit installed on the target sensor is a second sensor gauge outfit, a user carries out manual calibration on the target sensor provided with the second sensor gauge outfit, and the second sensor gauge outfit uploads the sensor parameters of the target sensor to the management platform.

Fig. 3A is a schematic flowchart of a second sensor data processing method in an embodiment of the present application, and referring to fig. 3A, the sensor data processing method may include:

s301: the second sensor gauge head obtains sensor parameters of the target sensor;

the sensor parameters of the target sensor are generated by manually calibrating the target sensor by a user.

S302: the second sensor gauge head receives third acquisition data output by the target sensor;

s303: the second sensor header processes the third acquired data based on the sensor parameters of the target sensor to obtain second acquired data;

s304: the second sensor header sends a second data uploading request to the management platform;

wherein, the second data upload request includes: second acquisition data and device identification of second sensor header

S305: the management platform responds to the second data uploading request, and determines whether the management platform stores historical acquisition data uploaded by the second sensor header or not based on the equipment identifier of the second sensor header;

as an example, if the management platform determines that the management platform does not store the historical collected data uploaded by the second sensor header, S306 is executed.

S306: the management platform determines whether a binding relationship between the second sensor header and the target sensor exists in the management platform based on the equipment identifier of the second sensor header;

as an example, if the management platform determines that the binding relationship between the second sensor header and the target sensor does not exist in the management platform, S307 is executed.

S307: the management platform sends a parameter uploading notification message to the second sensor header;

and the parameter uploading notification message is used for notifying the second sensor header to upload the sensor parameters of the target sensor.

S308: the second sensor header responds to the parameter uploading notification message and sends a response message to the management platform;

wherein the response message includes: the device identification of the second sensor header and the sensor parameters of the target sensor.

S309: and the management platform establishes a binding relationship between the second sensor header and the target sensor based on the equipment identifier of the second sensor header and the sensor parameter of the target sensor.

Therefore, the process that the parameter information of the target sensor is uploaded to the management platform by the second sensor header is completed.

Next, a process of replacing the sensor header attached to the target sensor with the first sensor header from the second sensor header and issuing the sensor parameters of the target sensor to the first sensor header by the management platform will be described.

In another embodiment of the present application, referring to fig. 3B, after S309, the sensor data processing method may further include:

s310: the management platform obtains a first header replacing instruction;

wherein, first gauge outfit is changed the sensor gauge outfit that the instruction is used for the installation on the characterization object sensor and is changed into first sensor gauge outfit by the second sensor gauge outfit, and first gauge outfit is changed the instruction and includes: the device identification of the second sensor header and the device identification of the first sensor header.

S311: the management platform executes the first gauge head replacement instruction, removes the binding relationship between the second sensor gauge head and the target sensor based on the equipment identification of the second sensor gauge head, the equipment identification of the first sensor gauge head and the sensor parameter of the target sensor, and establishes the binding relationship between the first sensor gauge head and the target sensor;

s312: the first sensor gauge head receives first acquisition data output by a target sensor;

s313: the first sensor header determines whether sensor parameters of a target sensor are stored in a local storage space;

if the first sensor header determines that the local storage space of the first sensor header does not store the sensor parameters of the target sensor, S314 is executed.

S314: the method comprises the steps that a first sensor header sends a first data uploading request to a management platform;

wherein, the first data upload request includes: the first collected data and the device identification of the first sensor header.

S315: the management platform responds to the first data uploading request, and determines whether historical acquisition data uploaded by the first sensor header is stored in the management platform or not based on the equipment identification of the first sensor header;

if the management platform determines that the historical collected data uploaded by the first sensor header is not stored in the management platform, S316 is executed.

S316: the management platform determines whether a binding relationship between the first sensor header and the target sensor exists in the management platform based on the equipment identifier of the first sensor header;

if the management platform determines that the binding relationship between the first sensor header and the target sensor exists in the management platform, S317 is executed.

S317: the management platform acquires sensor parameters of the target sensor based on the binding relationship between the first sensor gauge head and the target sensor, and sends the sensor parameters of the target sensor to the first sensor gauge head;

s318: the management platform stores the first collected data based on the device identification of the first sensor header.

S319: the first sensor header stores sensor parameters of the target sensor.

In another embodiment of the present application, after S319, the method may further include: the first sensor gauge head receives fourth acquired data output by the target sensor; the first sensor gauge head processes the fourth acquired data based on the sensor parameters to obtain fifth acquired data; the first sensor header sends a third data uploading request to the management platform, wherein the third data uploading request comprises: and the fifth collected data and the equipment identifier of the first sensor header, so that the management platform stores the fifth collected data based on the equipment identifier of the first sensor header.

As can be seen from the above, in the sensor data processing method provided in the embodiment of the present application, after a user calibrates a target sensor equipped with a second sensor header, the second sensor header may obtain sensor parameters of the target sensor; next, the management platform may send a parameter upload notification message to the second sensor header, where the parameter upload notification message is used to instruct the second sensor header to upload the sensor parameters of the target sensor, so that the second sensor header uploads the sensor parameters of the target sensor to the management platform; then, when the sensor header mounted on the target sensor is replaced with the first sensor header from the second sensor header, the management platform may issue the sensor parameter of the target sensor to the first sensor header, so that the first sensor header operates based on the sensor parameter of the target sensor instead of the second sensor header. Therefore, the sensor can be calibrated again without manual work after the sensor gauge head of the sensor is replaced.

Based on the same inventive concept, the embodiment of the application provides a management platform. The management platform may include: the receiving unit is used for receiving a first data uploading request sent by a first sensor header, wherein the first data uploading request comprises: the method comprises the steps that first collected data and equipment identification of a first sensor header are obtained through a target sensor; the first determining unit is used for responding to the first data uploading request, and determining whether historical acquisition data uploaded by the first sensor header is stored in the management platform or not based on the equipment identifier of the first sensor header; the second determining unit is used for determining whether the binding relationship between the first sensor header and the target sensor exists in the management platform or not based on the equipment identification of the first sensor header if the first determining unit determines that the historical acquisition data uploaded by the first sensor header is not stored; the acquisition and sending unit is used for acquiring sensor parameters of the target sensor based on the binding relationship between the first sensor header and the target sensor and sending the sensor parameters of the target sensor to the first sensor header if the second determination unit determines that the binding relationship between the first sensor header and the target sensor exists, wherein the sensor parameters of the target sensor are uploaded by the second sensor header in advance; and the first storage unit is used for storing the first acquisition data based on the equipment identification of the first sensor header.

In other embodiments of the present application, the management platform may further include: the first obtaining unit is used for obtaining the equipment identifier of the second sensor gauge head and the sensor parameter of the target sensor, which are sent by the second sensor gauge head; the establishing unit is used for establishing a binding relationship between the second sensor gauge outfit and the target sensor based on the equipment identification of the second sensor gauge outfit and the sensor parameter of the target sensor; a second obtaining unit, configured to obtain a first header replacement instruction, where the first header replacement instruction is used to represent that a sensor header installed on a target sensor is replaced with a first sensor header by a second sensor header, and the first header replacement instruction includes: the equipment identifier of the second sensor header and the equipment identifier of the first sensor header; and the first execution unit is used for executing the first gauge head replacement instruction, removing the binding relationship between the second sensor gauge head and the target sensor based on the equipment identifier of the second sensor gauge head, the equipment identifier of the first sensor gauge head and the sensor parameter of the target sensor, and establishing the binding relationship between the first sensor gauge head and the target sensor.

In this embodiment of the application, the first obtaining unit, configured to obtain the device identifier of the second sensor header and the sensor parameter of the target sensor, where the device identifier is sent by the second sensor header, includes: the first obtaining unit is configured to receive a second data upload request sent by a second sensor header, where the second data upload request includes: second acquisition data and equipment identification of a second sensor header, wherein the second acquisition data is acquired through a target sensor; responding to a second data uploading request, and determining whether historical acquisition data uploaded by a second sensor header is stored in the management platform or not based on the equipment identifier of the second sensor header; if the historical acquisition data uploaded by the second sensor header is not stored, determining whether a binding relationship between the second sensor header and the target sensor exists in the management platform or not based on the equipment identifier of the second sensor header; if the binding relationship between the second sensor header and the target sensor does not exist, sending a parameter uploading notification message to the second sensor header, wherein the parameter uploading notification message is used for notifying the second sensor header to upload sensor parameters of the target sensor; receiving a response message sent by the second sensor header, wherein the response message comprises: the device identification of the second sensor header and the sensor parameters of the target sensor.

In other embodiments of the present application, the management platform may further include: and the second storage unit is used for storing the first acquisition data based on the equipment identifier of the first sensor header if the second determination unit determines that the historical acquisition data uploaded by the first sensor header is stored.

In other embodiments of the present application, the management platform may further include: a third obtaining unit, configured to obtain a second gauge outfit replacement instruction, where the second gauge outfit replacement instruction is used to represent that a sensor gauge outfit installed on a target sensor is replaced with a third sensor gauge outfit by a first sensor gauge outfit, and the second gauge outfit replacement instruction includes: the equipment identifier of the first sensor header and the equipment identifier of the third sensor header; and the second execution unit is used for executing the second gauge head replacement instruction, removing the binding relationship between the first sensor gauge head and the target sensor based on the equipment identifier of the first sensor gauge head, the equipment identifier of the third sensor gauge head and the sensor parameter of the target sensor, and establishing the binding relationship between the third sensor gauge head and the target sensor.

Based on the same inventive concept, the embodiment of the application provides a sensor gauge outfit. The sensor head may include: the system comprises a first obtaining unit, a second obtaining unit and a control unit, wherein the first obtaining unit is used for obtaining sensor parameters of a target sensor, and the sensor parameters of the target sensor are generated by manually calibrating the target sensor by a user; the first receiving unit is used for receiving third acquisition data output by the target sensor; the second acquisition unit is used for processing the third acquisition data based on the sensor parameters of the target sensor to acquire second acquisition data; the first sending unit is configured to send a second data upload request to the management platform, where the second data upload request includes: the second acquisition data and the equipment identifier of the second sensor header; the second receiving unit is used for receiving a parameter uploading notification message sent by the management platform, wherein the parameter uploading notification message is used for notifying the second sensor header of uploading sensor parameters of the target sensor; a second sending unit, configured to send a response message to the management platform in response to the parameter upload notification message, where the response message includes: and the equipment identifier of the second sensor gauge head and the sensor parameters of the target sensor so that the management platform can issue the sensor parameters of the target sensor to the first sensor gauge head when the sensor gauge head mounted on the target sensor is replaced by the first sensor gauge head.

Based on the same inventive concept, the embodiment of the application provides a sensor gauge outfit. The sensor head may include: the first receiving unit is used for receiving first acquisition data output by the target sensor; the determining unit is used for determining whether sensor parameters of the target sensor are stored in the local storage space; the first sending unit is used for sending a first data uploading request to the management platform if the determining unit determines that the sensor parameters of the target sensor are not stored, so that the management platform issues the sensor parameters of the target sensor which are uploaded to the management platform in advance by the second sensor header, wherein the first data uploading request comprises: the first acquisition data and the equipment identification of the first sensor header; the second receiving unit is used for receiving the sensor parameters of the target sensor sent by the management platform, wherein the sensor parameters of the target sensor are uploaded to the management platform by the second sensor header; and the storage unit is used for storing the sensor parameters of the target sensor.

In other embodiments of the present application, the sensor head may further include: the third receiving unit is used for receiving fourth acquisition data output by the target sensor; the acquisition unit is used for processing the fourth acquired data based on the sensor parameters to acquire fifth acquired data; a second sending unit, configured to send a third data upload request to the management platform, where the third data upload request includes: and the fifth collected data and the equipment identifier of the first sensor header, so that the management platform stores the fifth collected data based on the equipment identifier of the first sensor header.

Based on the same inventive concept, the embodiment of the application provides a management platform. Fig. 4 is a schematic structural diagram of a management platform in an embodiment of the present application, and referring to fig. 4, the management platform 40 includes: at least one processor 41; and at least one memory 42, a bus 43 connected to the processor 41; wherein, the processor 41 and the memory 42 complete the communication with each other through the bus 43; the processor 41 is configured to call program instructions in the memory 42 to perform the steps of the sensor data processing method in one or more of the embodiments described above.

Based on the same inventive concept, the embodiment of the application provides a sensor gauge outfit. Fig. 5 is a schematic structural diagram of a sensor head in an embodiment of the present application, and referring to fig. 5, the sensor head 50 includes: at least one processor 51; and at least one memory 52, a bus 53 connected to the processor 51; wherein, the processor 51 and the memory 52 complete the communication with each other through the bus 53; the processor 51 is configured to call program instructions in the memory 52 to perform the steps of the sensor data processing method in one or more of the above embodiments.

Accordingly, based on the same inventive concept, embodiments of the present application further provide a processor, where the processor is configured to execute a program, where the program executes to perform the steps of the sensor data processing method in one or more embodiments described above.

The Processor may be implemented by a Central Processing Unit (CPU), a MicroProcessor Unit (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like. The Memory may include volatile Memory in a computer readable medium, Random Access Memory (RAM), and/or nonvolatile Memory such as Read Only Memory (ROM) or Flash Memory (Flash RAM), and the Memory includes at least one Memory chip.

It should be noted that, in the embodiments of the present application, if the sensor data processing method in one or more embodiments described above is implemented in the form of a software functional module and sold or used as a standalone product, it may also be stored in a computer readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present application may be essentially implemented or portions thereof that contribute to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for enabling an electronic device (which may be a personal computer, a server, or a network device) to execute all or part of the methods of the embodiments of the present application.

Accordingly, based on the same inventive concept, embodiments of the present application further provide a computer-readable storage medium, where the computer-readable storage medium includes a stored program, and when the program runs, the management platform or the sensor header where the storage medium is located is controlled to execute the steps of the sensor data processing method in one or more embodiments described above.

Here, it should be noted that: the above description of the sensor header, management platform or computer readable storage medium embodiments is similar to the description of the method embodiments above, with similar beneficial effects as the method embodiments. For technical details not disclosed in embodiments of the sensor header, management platform or computer readable storage medium of the present application, reference is made to the description of embodiments of the method of the present application for understanding.

The present application describes embodiments, but the description is illustrative rather than limiting and it will be apparent to those of ordinary skill in the art that many more embodiments and implementations are possible within the scope of the embodiments described herein. Although many possible combinations of features are shown in the drawings and discussed in the detailed description, many other combinations of the disclosed features are possible. Any feature or element of any embodiment may be used in combination with or instead of any other feature or element in any other embodiment, unless expressly limited otherwise.

The present application includes and contemplates combinations of features and elements known to those of ordinary skill in the art. The embodiments, features and elements disclosed in this application may also be combined with any conventional features or elements to form a unique inventive concept as defined by the claims. Any feature or element of any embodiment may also be combined with features or elements from other inventive aspects to form yet another unique inventive aspect, as defined by the claims. Thus, it should be understood that any of the features shown and/or discussed in this application may be implemented alone or in any suitable combination. Accordingly, the embodiments are not limited except as by the appended claims and their equivalents. Furthermore, various modifications and changes may be made within the scope of the appended claims.

Further, in describing representative embodiments, the specification may have presented the method and/or process as a particular sequence of steps. However, to the extent that the method or process does not rely on the particular order of steps set forth herein, the method or process should not be limited to the particular sequence of steps described. Other orders of steps are possible as will be understood by those of ordinary skill in the art. Therefore, the particular order of the steps set forth in the specification should not be construed as limitations on the claims. Further, the claims directed to the method and/or process should not be limited to the performance of their steps in the order written, and one skilled in the art can readily appreciate that the sequences may be varied and still remain within the spirit and scope of the embodiments of the present application.

It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by several physical components in cooperation. Some or all of the components may be implemented as software executed by a processor, such as a digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

Claims (10)

1. A method of sensor data processing, the method comprising:

receiving a first data uploading request sent by a first sensor header, wherein the first data uploading request comprises: first collected data and an equipment identifier of the first sensor header, wherein the first collected data is obtained through a target sensor;

in response to the first data uploading request, determining whether historical acquisition data uploaded by the first sensor header is stored in a management platform or not based on the equipment identification of the first sensor header;

if the historical acquisition data uploaded by the first sensor header is not stored, determining whether a binding relationship between the first sensor header and the target sensor exists in a management platform or not based on the equipment identification of the first sensor header;

if the binding relationship between the first sensor header and the target sensor is determined to exist, acquiring sensor parameters of the target sensor based on the binding relationship between the first sensor header and the target sensor, and sending the sensor parameters of the target sensor to the first sensor header, wherein the sensor parameters of the target sensor are uploaded by a second sensor header in advance;

storing the first collected data based on the device identification of the first sensor header.

2. The method of claim 1, wherein prior to said receiving the first data upload request sent by the first sensor header, the method further comprises:

acquiring the equipment identification of the second sensor header and the sensor parameters of the target sensor, which are sent by the second sensor header;

establishing a binding relationship between the second sensor header and the target sensor based on the device identifier of the second sensor header and the sensor parameter of the target sensor;

obtaining a first header replacement instruction, wherein the first header replacement instruction is used for representing that a sensor header installed on the target sensor is replaced with the first sensor header by the second sensor header, and the first header replacement instruction includes: the device identifier of the second sensor header and the device identifier of the first sensor header;

and executing the first gauge head replacing instruction, removing the binding relationship between the second sensor gauge head and the target sensor based on the equipment identification of the second sensor gauge head, the equipment identification of the first sensor gauge head and the sensor parameter of the target sensor, and establishing the binding relationship between the first sensor gauge head and the target sensor.

3. The method of claim 2, wherein obtaining the device identifier of the second sensor header and the sensor parameter of the target sensor sent by the second sensor header comprises:

receiving a second data uploading request sent by the second sensor header, wherein the second data uploading request comprises: second acquisition data and the equipment identifier of the second sensor header, wherein the second acquisition data is obtained through the target sensor;

responding to the second data uploading request, and determining whether historical acquisition data uploaded by the second sensor header is stored in a management platform or not based on the equipment identification of the second sensor header;

if the historical acquisition data uploaded by the second sensor header is not stored, determining whether a binding relationship between the second sensor header and the target sensor exists in a management platform or not based on the equipment identifier of the second sensor header;

if the binding relationship between the second sensor header and the target sensor does not exist, sending a parameter uploading notification message to the second sensor header, wherein the parameter uploading notification message is used for notifying the second sensor header to upload the sensor parameters of the target sensor;

receiving a response message sent by the second sensor header, wherein the response message comprises: the device identification of the second sensor header and the sensor parameters of the target sensor.

4. The method of claim 1, wherein after determining whether historical acquisition data uploaded by the first sensor header is stored in a management platform based on the device identification of the first sensor header, the method further comprises:

and if the historical acquisition data uploaded by the first sensor header is determined to be stored, storing the first acquisition data based on the equipment identification of the first sensor header.

5. The method of claim 1 or 4, wherein after storing the first acquisition data based on the device identification of the first sensor header, the method further comprises:

obtaining a second gauge outfit replacing instruction, wherein the second gauge outfit replacing instruction is used for representing that the sensor gauge outfit installed on the target sensor is replaced by the first sensor gauge outfit into a third sensor gauge outfit, and the second gauge outfit replacing instruction comprises: the device identifier of the first sensor header and the device identifier of the third sensor header;

and executing the second gauge outfit replacing instruction, removing the binding relationship between the first sensor gauge outfit and the target sensor based on the equipment identification of the first sensor gauge outfit, the equipment identification of the third sensor gauge outfit and the sensor parameter of the target sensor, and establishing the binding relationship between the third sensor gauge outfit and the target sensor.

6. A method of sensor data processing, the method comprising:

acquiring sensor parameters of a target sensor, wherein the sensor parameters of the target sensor are generated by manually calibrating the target sensor by a user;

receiving third acquisition data output by the target sensor;

processing the third acquired data based on the sensor parameters of the target sensor to obtain second acquired data;

sending a second data uploading request to a management platform, wherein the second data uploading request comprises: the second acquisition data and the equipment identifier of the second sensor header;

receiving a parameter uploading notification message sent by the management platform, wherein the parameter uploading notification message is used for notifying the second sensor header of uploading sensor parameters of the target sensor;

responding to the parameter uploading notification message, and sending a response message to the management platform, wherein the response message comprises: the device identification of the second sensor gauge head and the sensor parameters of the target sensor are used for enabling the management platform to issue the sensor parameters of the target sensor to the first sensor gauge head when the sensor gauge head installed on the target sensor is replaced by the first sensor gauge head.

7. A method of sensor data processing, the method comprising:

receiving first acquisition data output by a target sensor;

determining whether sensor parameters of the target sensor are stored in a local storage space;

if the sensor parameters of the target sensor are determined not to be stored, sending a first data uploading request to a management platform so that the management platform issues the sensor parameters of the target sensor which are uploaded to the management platform in advance by a second sensor header, wherein the first data uploading request comprises: the first acquisition data and the equipment identification of the first sensor header;

receiving sensor parameters of the target sensor sent by the management platform, wherein the sensor parameters of the target sensor are uploaded to the management platform by a second sensor header;

storing sensor parameters of the target sensor.

8. The method of claim 7, wherein after said storing the sensor parameters of the target sensor, the method further comprises:

receiving fourth acquisition data output by the target sensor;

processing the fourth acquired data based on the sensor parameters to obtain fifth acquired data;

sending a third data upload request to the management platform, wherein the third data upload request comprises: the fifth collected data and the device identifier of the first sensor header, so that the management platform stores the fifth collected data based on the device identifier of the first sensor header.

9. A management platform, comprising:

at least one processor;

and at least one memory, bus connected with the processor;

the processor and the memory complete mutual communication through the bus; the processor is configured to invoke program instructions in the memory to perform the steps of the sensor data processing method according to any one of claims 1 to 5.

10. A sensor head, wherein the sensor head is removably mountable to a sensor; the sensor header includes: at least one processor; and at least one memory, bus connected with the processor;

the processor and the memory complete mutual communication through the bus; the processor is configured to invoke program instructions in the memory to perform the steps of the sensor data processing method according to claim 6 or any one of claims 7 to 8.

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