阅读说明：本技术 处理方法、处理系统及信息追加装置、检测装置、处理装置 (Processing method, processing system, information adding device, detection device, and processing device ) 是由 王浩 于 2021-05-31 设计创作，主要内容包括：本发明的处理方法、处理系统及信息追加装置、检测装置、处理装置,涉及检测应用领域。本发明提供的识别信息追加的方法,提高后续批处理的速度；以此,解决现存问题。(The invention discloses a processing method, a processing system, an information adding device, a detection device and a processing device, and relates to the field of detection application. The method for adding the identification information improves the speed of subsequent batch processing; thus, the existing problems are solved.)

1. The processing method comprises an information adding step, a detection data acquiring step and a data processing step;

the information adding step includes:

an acquisition step for acquiring information of a subject;

an information generation step of generating additional identification information corresponding to the subject information based on the subject information;

an additional identification information recording step of recording the additional identification information in association with the subject information;

an output step, which is used for outputting a task data packet, wherein the task data packet at least comprises specified attribute information of the tested object and additional identification information related to the information of the tested object;

the detection data acquisition step comprises

An importing step for acquiring a data packet;

a selection step of selecting the subject information and/or the additional identification information;

and a recording step of recording the acquired detection data in association with the additional identification information to obtain a detection data packet.

2. The data processing step of configuring basic information including the subject information and the additional identification information obtained in the information adding step; comprises that

An acquisition step for reading a detection data packet;

a matching step for analyzing the additional identification information associated with the detection data packet and matching the additional identification information in the basic data in the data processing device;

and recording, namely associating the matched detection data with corresponding information items of the detected body in the basic data for recording.

3. A processing system including at least 1 information adding device, 1 detecting device, and 1 processing device;

the information adding device includes:

an acquisition unit configured to acquire information of a subject;

an additional identification information generation unit for generating additional identification information corresponding to the measured object information based on the measured object information;

an additional identification information recording unit configured to record the additional identification information in association with the subject information;

an output unit configured to output a data packet including a predetermined attribute of at least one piece of subject information and additional identification information associated with the subject information;

the detection device comprises

An import section for acquiring a packet;

a selection unit for selecting the subject information or adding the identification information;

a recording unit configured to record the acquired detection data in association with the additional identification information to obtain a detection packet;

the processing device is configured with basic information, and the basic information comprises the measured object information and the additional identification information obtained by the additional identification information adding device; comprises that

An acquisition section for reading the detection packet;

a matching unit for analyzing the additional identification information associated with the detection packet and matching the additional identification information in the basic data in the data processing device;

and the recording part is used for associating and recording the matched detection data with the corresponding information items of the detected body in the basic data.

4. Information adding device

An acquisition unit configured to acquire information of a subject;

an information generating unit for generating additional identification information corresponding to the measured object information based on the measured object information;

an information recording unit configured to record the additional identification information in association with the subject information;

and an output unit configured to output a task packet, the task packet including at least a predetermined attribute of one piece of subject information and additional identification information associated with the subject information.

5. Detection device

The import part is used for acquiring the task data packet;

a selection unit for selecting the subject information or adding the identification information;

a recording unit configured to record the acquired detection data in association with the additional identification information;

a processing device configured with basic information including the subject information and the additional identification information obtained by the information adding device;

an acquisition section for reading the detection packet;

a matching unit for analyzing the additional identification information associated with the detection packet and matching the additional identification information in the basic data in the data processing device;

and the recording part is used for associating and recording the matched detection data with the corresponding information items of the detected body in the basic data.

6. The test device of claim 4, having

A display control unit for controlling the display unit to display the image generated by the image data and displaying a predetermined number of pieces of subject instruction information based on the plurality of pieces of subject information stored in the information storage unit;

an information specifying section that specifies subject information as special subject information based on a user's selection; a display control unit configured to control a display unit to display the image generated by the image data and to display, in a special display mode, subject instruction information obtained based on the special subject information specified by the information specifying unit;

a recording unit configured to record, in response to a recording instruction, predetermined image data in association with information on the specified specific subject information, the predetermined image data being obtained by performing predetermined processing on the image data acquired by the acquiring unit and/or the image data acquired by the acquiring unit; or the predetermined video data is transmitted remotely by wireless.

7. The detection apparatus according to claim 4, wherein the recording unit generates a video file based on predetermined video data, and the recording unit includes a file name generation unit configured to generate a file name of the video file, the file name including additional identification information.

8. The test device of claim 7, wherein the file name further comprises information related to the location of the subject, the type of the subject, and the number; or the information related to the location, type and number of the measured object, and one or more of time, part of the measured object and shooting angle information of the measured object.

9. The detecting device according to claim 4, wherein the detecting device is a portable image capturing device with a capturing function, which is composed of one or more of a visible light capturing device, a thermal imaging device, an ultraviolet capturing device, and a laser imaging device, the detecting data acquiring portion is used for capturing and acquiring image data, and has at least one image sensor; or the detection device is a non-imaging detection device and is provided with a non-imaging sensor.

Technical Field

The invention discloses a processing method, a processing system, an information adding device, a detection device and a processing device, and relates to the application field of detection and detection data processing.

Background

Detection devices, such as image capture devices and partial discharge detection devices, are widely used in industrial fields, for example, in industrial fields where maintenance is important, regular imaging of equipment or the like using imaging devices such as visible light imaging devices, thermal imaging devices, and ultraviolet imaging devices is an important part of maintenance.

In order to facilitate subsequent batch processing of images, such as files and pictures, the technology is available, measured object information is recorded in a file-related mode, for example, the equipment 1A in the equipment area 1 of the transformer substation 1 is convenient for batch processing, and measured objects with the same appearance can be distinguished; if the file is named, the key information of the tested object is configured in the file name, so that the batch processing speed can be improved, for example, the device 1A in the device area 1 of the transformer substation 1 looks at jpg.

During subsequent batch processing, a plurality of key attribute information associated with the detection data are required, if the key words to be matched comprise the transformer substation 1, the equipment area 1, the equipment 1 and the A, the key words are matched with the corresponding attribute information of the equipment information ledger in the database, the processing such as uploading of the database can be completed, and if the data volume is large, the key words adopting the attribute information can influence the matching speed.

Therefore, it is appreciated that a need exists for a process that addresses the problems that exist today.

Disclosure of Invention

The invention provides a processing method, which comprises an additional identification information processing step, a detection data acquisition step and a data processing step;

the additional identification information processing step includes:

an acquisition step for acquiring information of a subject;

an additional identification information generation step of generating additional identification information corresponding to the measured object information based on the measured object information;

an additional identification information recording step of recording the additional identification information in association with the subject information;

an output step, which is used for outputting a task data packet, wherein the task data packet at least comprises specified attribute information of the tested object and additional identification information related to the information of the tested object;

the detection data acquisition step comprises

An importing step for acquiring a data packet;

a selection step of selecting the subject information and/or the additional identification information;

and a recording step of recording the acquired detection data in association with the additional identification information to obtain a detection data packet. (File name, additional identification information, and information on the subject)

The data processing step of configuring basic information including the subject information and the additional identification information obtained by the additional identification information adding device; comprises that

An acquisition step for reading a detection data packet;

a matching step for analyzing the additional identification information associated with the detection data packet and matching the additional identification information in the basic data in the data processing device;

and recording, namely associating the matched detection data with corresponding information items of the detected body in the basic data for recording. (mismatch match for keyword match, original ID match)

The invention also provides a processing system, which comprises at least 1 additional identification information additional device, 1 detection device and 1 processing device;

the identification information adding device includes:

an acquisition unit configured to acquire information of a subject;

an additional identification information generation unit for generating additional identification information corresponding to the measured object information based on the measured object information;

an additional identification information recording unit configured to record the additional identification information in association with the subject information;

and an output unit configured to output a data packet including a predetermined attribute of at least one piece of subject information and additional identification information associated with the subject information.

The detection device comprises

An import section for acquiring a packet;

a selection unit for selecting the subject information or adding the identification information;

and a recording unit configured to record the acquired detection data in association with the additional identification information to obtain a detection packet. (File name, additional identification information, and information on the subject)

The processing device is configured with basic information, and the basic information comprises the measured object information and the additional identification information obtained by the additional identification information adding device; comprises that

An acquisition section for reading the detection packet;

a matching unit for analyzing the additional identification information associated with the detection packet and matching the additional identification information in the basic data in the data processing device;

and the recording part is used for associating and recording the matched detection data with the corresponding information items of the detected body in the basic data.

Other aspects and advantages of the invention will become apparent from the following description.

Description of the drawings:

fig. 1 is an electrical block diagram of a detection device of the embodiment.

Fig. 2 is an external view of the portable detection device according to the embodiment.

Fig. 3 is a diagram showing an example of a packet containing subject information.

Fig. 4 is a diagram showing an example of an information adding apparatus and a processing apparatus.

Fig. 5 is an example of a flow of additional identification information generation.

Fig. 6 is an exemplary diagram of a task packet, which includes object information and additional identification information.

Fig. 7 is a flowchart example of detection data acquisition.

Fig. 8 is a display interface diagram of an example of the subject information selection.

Fig. 9 is an exemplary diagram of the flow of data processing.

Detailed Description

The following describes an embodiment of the present invention, although in embodiment 1, the present invention exemplifies a detection apparatus with an image capturing function. But may also be applied to a processing device that continuously receives image data, such as a processing device of a personal computer, a personal digital processing device, or the like; the method is also applicable to various non-imaging detection devices, such as non-imaging partial discharge detectors and the like.

The video data is not limited to the AD value data of the video, and may be, for example, data obtained by subjecting the video data to predetermined processing, for example, image data, or compressed data obtained by mixing one or more of these data.

Exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. Note that the following examples are to be described for better understanding of the present invention, so the scope of the present invention is not limited and various forms within the scope of the present invention may be changed.

Fig. 1 is an electrical block diagram of an imaging device according to embodiment 1. Fig. 2 is an external view of the portable imaging device according to embodiment 1.

The detection device 13 includes an imaging unit 1, an image processing unit 2, a display control unit 3, a display unit 4, a communication I/F5, a temporary storage unit 6, a memory card I/F7, a memory card 8, a flash memory 9, an operation unit 11, and a control unit 10, and the control unit 10 is connected to the above-described respective units via a control and data bus 12 and is responsible for overall control of the detection device 13.

In one embodiment, the image pickup unit 1 is composed of an optical member, a lens driving member, an image sensor, a signal preprocessing circuit, and the like, which are not shown, as an example of a visible light image pickup device. The optical member is composed of an optical lens, and the subject image is incident on the image sensor from the optical member. The lens driving unit drives the lens to perform focusing or zooming operations according to a control signal of the control unit 10, and may be a manually adjusted optical unit. The image sensor is configured by, for example, a CMOS image sensor or the like, and converts a subject image passing through an optical component into an electric signal. The signal preprocessing circuit includes a sampling circuit, an AD conversion circuit, and the like, and performs signal processing such as sampling, automatic gain control, AD conversion, and the like on an electric signal generated from the image sensor at a predetermined cycle; as a result of various signal processes, digital video data (video AD value data) is generated. In the present embodiment, the imaging section 1 is an example of an acquisition section for capturing and obtaining (digital) image data. An image processing unit 2 for performing a predetermined process on the video data obtained by the imaging unit 1 to obtain video image data; for example, various image processing such as white balance compensation processing, Y compensation processing, and YC conversion processing is performed to generate image data including a digitized luminance signal and color difference signals. Further, the image processing unit 2 is configured to obtain image data of a video by performing predetermined processing on the video data based on control by the control unit 10, and then record the image data of the video on a recording medium such as the memory card 8. The image processing unit 2 may be implemented by a DSP, another microprocessor, a programmable FPGA, or the like, or may be integrated with or the same as the control unit 10. The image processing section 2 converts digital image data into data suitable for display, recording, and the like in various types of imaging devices, not limited to visible light imaging devices.

When the detection device 13 is various types of imaging devices, there are differences in optical components, sensors, and the like, and differences in image processing manners. In one embodiment, when the detection device 13 is a thermal imaging device, the imaging unit 1 includes an optical component, a lens driving component, an infrared detector, a signal preprocessing circuit, and the like, which are not shown. The optical component is composed of an infrared optical lens for focusing the received infrared radiation to the infrared detector. The lens driving part drives the lens to perform focusing or zooming operation according to a control signal of the control part 10. An infrared detector, such as a refrigeration or non-refrigeration type infrared focal plane detector, converts infrared radiation passing through the optical components into electrical signals. The signal preprocessing circuit includes a sampling circuit, an AD conversion circuit, and the like, performs signal processing such as sampling and automatic gain control on a signal read from the infrared detector at a predetermined cycle, and converts the signal into digital (thermal) image data by the AD conversion circuit. The image processing unit 2 performs predetermined processing on the (thermal) image data obtained by the imaging unit 1, and the image processing unit 2 performs processing for converting the data into data suitable for display, recording, and the like, such as correction, interpolation, pseudo-color, compression, decompression, and the like. In one embodiment, the corresponding pseudo color plate range is determined according to the range of the AD value of the (thermal) image data or the set range of the AD value, and the specific color value corresponding to the AD value of the (thermal) image data in the pseudo color plate range is used as the image data of the corresponding pixel position in the thermal image (infrared thermal image).

These differences do not make a significant difference in the following embodiments. The idea of the following embodiments is applicable to general image capturing devices, such as various types of imaging devices, e.g., a visible light capturing device, a thermal imaging device, an ultraviolet capturing device, and a laser imaging device; or a device which simultaneously comprises a shooting function formed by more than one device combination, namely the image shooting device can be provided with a plurality of image sensors of the same type or different types.

The display control unit 3 performs display of the image data for display stored in the temporary storage unit 6 on the display unit 4 based on the control of the control unit 10. The display control unit 3 may be integrated with the image processing unit 2 or the control unit 10.

The communication I/F5 is an interface for connecting the detection device 13 to an external device such as an external computer, a storage device, or a video device, or an interface for communication such as a cloud server, according to a wired or wireless communication standard such as USB, 1394, network, WIFI, 4G, or bluetooth.

The temporary storage unit 6 is a volatile memory such as a RAM or a DRAM, and functions as a buffer memory for temporarily storing the image data output from the imaging unit 1, and also functions as a work memory for the image processing unit 2 and the control unit 10, and temporarily stores data processed by the image processing unit 2 and the control unit 10. In addition, the memory, the register, or the like included in the processor such as the control unit 10 or the image processing unit 2 may be interpreted as a type of temporary storage unit.

The memory card I/F7 is connected to the memory card I/F7 as an interface of the memory card 8, as a rewritable nonvolatile memory, and is detachably attached to a card slot of the main body of the detection device 13, and records data such as video data under the control of the control unit 10.

The flash memory 9 stores therein a program for control and various data used in control of each part.

An information storage unit for storing the subject information, which may be, for example, a storage medium in the detection device 13, such as a nonvolatile storage medium like the flash memory 9 and the memory card 8, or a volatile storage medium like the temporary storage unit 6; other storage media connected with the detection device 13 by wire or wirelessly, such as other storage devices communicating through wire or wirelessly connected with the communication I/F5, or storage media of other shooting devices, computers, cloud servers, and the like; the detection device 13 can obtain navigation information and information of a detected object of other devices in a wired or wireless mode; preferably, the navigation information and the plurality of pieces of object information are stored in advance in the detection device 13 or in a nonvolatile storage medium connected thereto, and necessary information including the navigation information, the orientation information, the bar code of the barcode, the corresponding pieces of object information, and associated additional identification information thereof may be associated with each other according to different detection tasks, and a task package may be created in advance and selected.

In other examples, the navigation information, and various necessary information related to the navigation information, such as view, tour route, detection location, target area, target, information of the object and additional identification information corresponding thereto, may be obtained, selected, or analyzed in one or more of the following ways:

1) pre-stored in the information storage part;

2) obtained by an orientation obtaining part; or obtained by analyzing or reselecting the positioning information obtained by the direction obtaining part;

an orientation acquisition unit for acquiring information such as GPS, compass, indoor positioning device, and the like; the direction information may be directly used as the information of the object, and preferably, the information of the object may be associated by analyzing or selecting the direction information, the correspondence between the direction information and the information of the object.

3) Obtained wirelessly or by wire through the communication I/F5;

for example, an external computer or device such as a command center is wirelessly connected with the imaging device through 4G \ WIFI and the like, so that information of a detected body and navigation information which need to be detected can be sent to the imaging device.

4) Obtaining through code scanning;

for example, the information of the detected side body of the detected object is obtained through the identification code pasted on the spot and the self-carried or connected code scanning device of the imaging device.

5) Obtaining by induction;

for example, information of the subject is obtained by wireless sensing.

6) Shooting the data by a shooting device carried by the image device or analyzing the data obtained by shooting;

for example, a picture of the visible light equipment card is taken through a carried visible light camera and stored in association with image data as the information of the detected body; during subsequent batch processing, the keywords of the information of the tested body can be automatically analyzed by the polished rod number plate, so that the batch processing is performed. Or directly analyzing the photo of the visible light equipment card to obtain the information of the detected body, and storing the information in association with the image data.

7) Obtaining through voice analysis;

for example, the voice of the field personnel is collected and stored as the information of the detected body in association with the image data; during subsequent batch processing, keywords of the information of the tested body can be analyzed through voice to perform batch processing. Or directly analyzing the voice to obtain the information of the detected body, and storing the information in association with the image data. Analyzing to obtain the information of the tested body;

it should be noted that, in the process of recognizing the information of the subject by voice analysis or taking a picture, the processing unit 2 in the imaging device may perform corresponding recognition processing to obtain the information of the subject; preferably, at this time, template data or matching data commonly used in the related identification process may be stored in a storage medium of the imaging device according to the range of the applied subject information to accelerate the speed of analysis and identification; for example, according to the detected body information of the equipment in a certain substation, the matching data or template data of the related voice recognition is stored in the storage medium in advance, or is also associated with the substation information, so that the voice recognition speed can be increased, and the capacity of the template data or the matching data can be reduced.

Or the information of the detected body can be acquired by an image device or partially processed, and is stored in association with the image data, and then corresponding identification processing is carried out to obtain the information of the detected body; or the information can be collected by an image device or partially processed and sent to a special processing device wirelessly or by wire to analyze the information of the detected body and then received to obtain the information of the detected body; the requirements of the processing device of the image device can be reduced; and, under the unobstructed circumstances of wireless communication, can accelerate the speed of discerning the processing.

The navigation information, the composition information of the navigation information can generally comprise a view, a tour route, a detection position or a shooting position, a region of a target area, a target region and the like; preferably, the system also can comprise information such as roads and the like;

in one example, the information of the measured object is information related to the measured object, such as information representing the location, type, number, etc. of the measured object, so as to facilitate the identification on site by the user; the system may further include one or more of various information such as the unit of attribution, classification level (e.g., voltage level, importance level, etc.), model, manufacturer, performance, and characteristics of the subject, history of past shooting or inspection, date of manufacture, and lifetime. The information contained in the information of the measured object is convenient for a user to determine the measured object to be shot when generating the indication information of the measured object; such as recording in association with image data, should facilitate subsequent processing such as batch analysis. Preferably, the information of the tested object can also comprise other identity information related to the tested object, such as ID code; so as to correspond to a specific tested object during batch processing.

In one embodiment, various information in the measured object information is configured in the form of classified information, and an information storage unit shown in an exemplary list in fig. 3 stores one implementation diagram of the measured object information, each of which is configured by attribute information of a plurality of predetermined attributes, such as measured object information "substation 1 equipment area 1 device 1A phase" having attribute information "substation 1" corresponding to a substation attribute 701, attribute information "equipment area 1" corresponding to an equipment area attribute 702, attribute information "equipment 1" corresponding to an equipment type attribute 703, and attribute information "a phase" corresponding to a phase attribute 704. However, the present invention is not limited to this, and the subject information may be stored in other forms than the information classification form.

As shown in fig. 4, as examples of the information adding device, various processing devices such as a notebook computer, a server, a mobile phone, a local area network server, a cloud server, and the like can be given.

As shown in fig. 5, an example of the information addition processing flow;

step A01, obtaining the information of the tested object, for example, importing the data file containing the information of the tested object, such as an EXEAL form, into the information processing device; in this embodiment, the table shown in fig. 3 is added with identification information as an example.

Step A02, the information processing device processes each piece of measured body information in the measured body information table;

if according to the specific coding rule, generating corresponding additional identification information, such as an additional ID number, and storing the generated ID code in association with the information of the tested object; the additional identification information generation processing is completed.

Preferably, the detected body information is read one by one, and compared with the detected body basic information in the database of the information adding device, if the detected body basic information is repeated with the detected body information items contained in the detected body basic information, the compared keyword attributes can be configured in advance, in order to avoid repeated generation of ID numbers, the detected body information can be ignored, and then the next piece of detected body information is read for comparison processing;

if the measured body information item is not overlapped with the measured body information item contained in the measured body basic information, the measured body information can be added into the measured body basic information to be used as a new measured body information item, corresponding additional identification information, such as an additional ID number, can be generated according to a specific coding rule, and the generated ID code is stored in a manner of being associated with the measured body information. The additional identification information generation processing is completed.

The basic information of the measured object is information related to the measured object, for example, identity information representing specific self-attributes of the measured object, such as the location, the equipment type, the number and the like of the measured object; for example, the database includes a plurality of pieces of basic information of the measured object, and each piece of basic information of the measured object includes information representing the related information of the measured object, including information such as ' attribution unit, measured object location ' transformer substation, equipment area ', equipment type, phase, additional identification information, and the like; further, information such as the device model, the original ID number, the voltage class, the importance class, the manufacturer, the performance, the characteristics, the history of the past shooting or inspection, the manufacturing date, and the lifetime may be included. Preferably, the reference image configuration data corresponding to the subject, information on an analysis region, an analysis mode, a diagnosis rule, and part information may be further included according to a specific application of the detection. The basic information of the detected body can be formed in various ways according to different applications.

When necessary, the range of the information of the detected body can be specified from the information processing device to generate a task packet of the detection task; for example, if the acquisition of the task package of the substation 1 is instructed, the task package of the substation 1 can be output.

In another example, the field-used detection device communicates with the cloud server wirelessly, and the range of the object information can be specified from the cloud server (information processing device) to obtain the task package of the detection task, or the object information and the additional identification information corresponding to the object information can be obtained.

In some industries, such as the power industry, part of the equipment information carries the original ID, and in this case, preferably, additional identification information is also generated to avoid influence and confusion of the processing speed in the subsequent batch processing due to the fact that part of the equipment has the original ID and part of the equipment does not have the original ID.

In addition, even if the original ID exists, the original ID is not always present for the component, angle, and the like of the device, and therefore, additional identification information is generated for the device entry according to the characteristics of the detection task, and the subsequent processing speed can be greatly increased.

FIG. 6 shows an example with a generated identification code; each piece of equipment information carries additional identification information in the flow of fig. 5; of these items 606 and 607, the additional identification information is different as different entries.

The additional identification information can be digital codes, character codes, two-dimensional codes, bar codes and the like; the number and character codes are conveniently configured in the file name generated during detection; and the two-dimensional code, the bar code and the like are conveniently configured in an image generated during detection. For example, the additional identification information ID1 is actually an 8-bit encoded WYXWCX05.

In addition, in the method of selecting the object information such as sensing of the field device and two-dimensional code scanning, the object information related to the corresponding processing and the additional identification information corresponding thereto may be stored in the task package in association with each other.

Preferably, the information adding device may output a packet of the basic information of the object based on a predetermined range, in order to avoid repeated generation of the additional identification information; the data packet comprises the information of the tested body and the corresponding additional identification information thereof, and can be provided for other data processing devices, so that the data processing devices can obtain the basic information of the tested body; in this way, the subject basic information of the information adding device and the data processing device 2 is kept as consistent as possible at least in the keyword information involved in the detection of the data batch processing.

Therefore, it is preferable that the cloud server and the lan server are used as the additional identification device and the data processing device for a user with a large number of subjects, so that the basic information of the subjects is consistent, and the generation and unification of the additional identification information are easily controlled.

Preferably, the computers in the network are allowed to generate additional identification information in both permission configurations, and when there is a conflict, the processing device selects the additional identification information of the higher rank and replaces the additional identification information of the lower rank. Preferably, the information synchronization process may be performed periodically, for example, once a day, to ensure the consistency of the computers connected to each other, the information of the subject, and the additional identification information.

For computers not in the same network, the high-level additional identification information can be manually configured and selected. For example, when the detection device detects, the task packet generated by the low-level additional identification device is adopted, and does not conform to the high-level additional identification information in the subsequent processing device, and the high-level additional identification information can be adopted; and the data packet of the basic information acquired in the device can be processed, and the additional identification information in the low-level additional identification device is optimized by a user.

As shown in fig. 7, the control unit 10 controls the overall operation of the detection device 13 for the flow of the detection device. The flash memory 9 stores therein a program for control and various data used in control of each part, including a task package including a table shown in fig. 6.

Step B01, reading the information of the tested object in the task package, and displaying the information of the tested object; as shown in fig. 8, a list of the information of the subject is displayed, or navigation information is further included; the user manually selects the corresponding measured object information according to the detected measured object, so that the selected additional identification information is determined during recording processing; the additional identification information may be displayed or not.

In other embodiments, the identification information or the measured object information is added, and the selection can be automatically performed, for example, automatically performed by scanning a code; for example, the information of the object is associated with orientation information such as GPS information, and the information of the object and/or the additional identification information can be automatically selected based on the orientation information such as GPS information acquired by the detection device;

step B02, recording process, or transmission process; (ii) a

Selecting information of a tested body; the user can select the information of the tested object, so that the additional identification code related to the recording processing can be determined; in other examples, the selection may be automatic, such as by matching GPS location information to identify the subject information and/or the corresponding additional identification information;

the control unit 10 as a recording unit associates and records predetermined video data with information on the specified specific subject information in response to a recording instruction operation or in accordance with predetermined recording conditions.

The predetermined image data is image data obtained by imaging with the imaging unit and/or image data obtained by performing predetermined processing on the image data obtained by imaging with the imaging unit.

Specifically, in one embodiment, in response to a recording instruction operation by the operation unit 11, the control unit 10 controls the image processing unit 2 to read a signal by the image sensor to obtain image data, and performs a predetermined image data compression process on the image data, or performs a predetermined process such as correction or interpolation on the image data, and then performs a compression process to associate information on the designated subject information in the temporary storage unit 6 with the compressed image data, and generates a detection file to be recorded in the memory card 8, and ends the process. Further, the compression may be performed after the information is added.

The information related to the selected measured body information at least comprises additional identification information, and can also comprise all information of the measured body information or part of the information; a preferred embodiment includes adding identification information and predetermined keyword information;

in one embodiment of the related record, information related to the specified specific subject information is added as information of video data in a predetermined format. The information related to the specific subject information may be recorded in an information file or an index file related to the detection file, and the control unit 10 may generate the information file or the index file.

Preferably, the recording unit has a file name generating means for generating a file name of the detection file, the file name including at least the additional identification information; preferably, the attribute information includes additional identification information and attribute information defined by the subject information;

for example, the generated detection file name: wyxwcx05. jpg;

preferably, generating a 1C phase WYXWCX05.jpg of a 1 device in a 1 device area of the transformer substation;

but attribute information is not classified and stored, so that subsequent batch processing is not convenient, and the computer is inconvenient to recognize mixed characters; preferably, the file name including the classification information is generated by performing information classification arrangement based on the classification information in the subject information, and for example, the file name is generated based on predetermined attribute information: 1-equipment region 1-equipment 1-C phase-WYXWCX05. jpg of transformer substation, wherein attribute information can be classified in a separation mode of "" equal division; further, a file name is generated in combination with the time information "20120223", for example, 20120223-substation 1-equipment area 1-equipment 1-C phase-wyxwcx05. jpg;

the essence of the associated record is to record the information needed for subsequent batch analysis, the file name contains the information of the tested object, so that the user can conveniently check the file name, and the identifiable file name containing the classification information is generated according to the classification information in the information of the tested object, so that the subsequent batch analysis can conveniently read and identify the classification information in the file name.

Preferably, the classification information in the file name should include information representing the identity of the subject.

Preferably, the file name should include various information required for batch processing or various information for accelerating batch processing speed; according to the needs of various industries, the attribute information can be further subdivided into voltage classes, equipment numbers, position angles and the like; for the separation of various information, the convenient calling of batch processing is taken as the standard, so that the judgment is prevented from being confused; for example, if substation 1 device zone 1 device 1C has a corresponding original ID0, it may also be associated with a file; the subsequent treatment is convenient;

preferably, the recorded file can also comprise various information which is convenient to view and accelerates the batch processing speed; information such as a processing result of a picture or remark information; the information of the processing result can be from the information generating and associating method and the information generating and associating device, or can be from a remote processing device, such as a cloud server communicating with the information generating and associating method and the information generating and associating device, and the information generating and associating device can receive data, such as pictures, obtained by detection of the information generating and associating method and the information generating and associating device and send the data to the information generating and associating method and the information generating and associating device;

the information of the processing result may be, for example, analysis data, or a diagnosis result, or analysis data further containing a diagnosis result; may be part or all of the analytical data, or diagnostic results;

taking an infrared thermal image as an example, assuming that the infrared thermal image obtained by shooting equipment 1C in the equipment area 1 of the substation 1 is analyzed, wherein S01MAX is 28.5, S02MAX is 32.0 ℃, and S02MAX-S01MAX is 3.5 ℃; the diagnosis result is as follows: defect! Or further comprises a suspected defect cause of "suspected wetting";

preferably, the information is recorded in association with the thermal image file; preferably, the information is embodied in a file name, so that calling in batch processing and direct checking and selecting by personnel are facilitated;

for example, the file name generated is one of the following types, defect-wyxwcx05. jpg; the temperature difference is 3.5-WYXWCX05.jpg; defect-temperature difference 3.5-transformer substation 1-equipment area 1-equipment 1-C phase- -WYXWCX05. jpg; the file name containing the analysis data or the diagnosis rule can be conveniently checked by personnel; more importantly, the speed can be greatly increased for the processing of big data, such as summarization, statistics, comparison, analysis and diagnosis; for example, all files are uploaded to a server in a wireless mode during shooting, for example, a cloud server, and processing such as summarizing and early warning can be performed according to information in file names under the condition that the files are not opened or specific analysis and diagnosis are not performed, so that corresponding speed can be greatly increased when the data volume is large.

The analysis data is not limited to the temperature data analysis of the infrared thermal image, and can also be various analyses of various images;

specifically, the diagnostic process includes, for example, the control unit 10 (as a diagnostic unit) comparing a diagnostic threshold value in a diagnostic rule corresponding to an analysis pattern based on an analysis result obtained by the analysis, and obtaining a diagnostic result by referring to a comparison relationship between the diagnostic threshold value and the analysis result in the diagnostic rule; the output of the diagnosis result may be a control signal, for example, the control unit 10 may be used as a notification control unit, for example, by displaying a change in text or image (including infrared thermography, reference image, etc.) on a display member, etc., or by a light generated by an indicator lamp, a sound prompt, a vibration, etc., as long as the method is perceivable by a user. Preferably, the control display unit 4 displays the diagnosis result, and further, may notify a user of a diagnosis threshold, a diagnosis basis, a defect type, a defect degree, a processing advice, and the like, which are related to the diagnosis, in a manner that can be perceived by the user, such as characters. Preferably, these relevant data are stored in association with the data of the diagnostic rule.

Remark information can be manually input or information obtained by other sensors of the information generation and association method and the information generation and association device; preferably, the file name can also be recorded, so that the file name can be directly called during subsequent batch processing; for example, the temperature difference 3.5-substation 1-equipment area 1-equipment 1-phase-WYXWCX 05-remark information jpg.

In another example, the captured image data may be transmitted to an external computer, storage device, or imaging device via the communication I/F5; for example, the data is wirelessly transmitted to a remote server through WIFI or 4G, so that subsequent data processing or real-time data analysis processing is facilitated; preferably, the image data and the associated subject information are transmitted together.

In another example, the process of the detection device 13 is a dynamic recording process of continuously recording the image data obtained by shooting at a predetermined frame rate; in this case, the selected subject information or the navigation information during the photographing process may be recorded in association with the corresponding frame. Preferably, the detection device 13 may be configured with a marking function and corresponding marking operation keys, and continuously record the captured image data at a predetermined frame rate during the dynamic recording process; and the response mark indicates that the specified image frame is recorded in association with the corresponding measured object information.

The control flow of the data processing apparatus is explained with reference to fig. 9.

The data processing device may be the same device as the information adding device or a different processing device; the data processing device is provided with the basic information of the measured object, and preferably, the basic information comprises the measured object information and the additional identification information obtained by the information adding device; preferably, the data processing device and the information adding device use unified basic information of the object.

A step C01 of selecting the detected data to be processed;

an acquisition section for reading the detection packet; reading the detection file, such as from the storage medium; the user may determine the inspection data to be processed by, for example, selecting the inspection files stored in the auxiliary storage 6 or the hard disk 5, and may not display the infrared thermal images obtained from the inspection data. In addition, the detection data selected by connecting the communication part 8 with external equipment comprises the connection with an external storage device or a thermal image shooting device, and the detection data to be processed can be obtained. In one embodiment, a predetermined amount of test data is automatically selected from the storage medium, for example, automatically selecting a test file in a memory card in the auxiliary storage, or without processing the display of the interface.

In another example, the detection data acquired by the detection device may be acquired wirelessly; if the detection device sends the acquired detection data and the associated additional identification information to the cloud server in real time;

step C02, matching processing, for analyzing the additional identification information associated with the selected detection data, or further including the information of the subject; matching with the measured body data information (including the measured body information and the additional identification information thereof) in the processing device database, wherein the matching can be carried out according to the specified keywords;

preferably, the matching process is configured to analyze additional identification information associated with the selected detection data, and match the additional identification information with additional identification information corresponding to the subject data information in the processing device database; the most rapid.

Describing the information contained in the file name of the detected file by matching processing; preferably, whether the file name has the additional identification information or whether the file is associated with the additional identification information may be inquired, and if so, the matching processing of the additional identification information is performed;

if the file is not associated with the additional identification information, whether the file has or is associated with the original ID can be inquired, and if so, the matching processing of the original ID is carried out; if the original ID does not exist, matching processing is carried out according to keywords in the file name.

The source may include one or more of a file name of the test file, an information index file attached to the test file and associated with the test file.

The correlation between the detected body information and the detected data, the detected body information can be attached to the detected data, for example, attached to the detected file (including attached to the file name), and at this time, the detected body information can be obtained by analyzing the detected file; the information of the subject may be added to an information index file associated with the test file, and in this case, the information of the subject may be obtained by parsing the information index file.

Step C03, judging whether the files are matched, if the detected body data information matched with the additional identification information is not found, returning to step C01, and reselecting one detection file from the multiple selected detection files for subsequent processing; preferably, for example, the detection file that does not match (does not relate to the subject information, or does not match the subject information with the subject data information) is recorded in a predetermined area of the hard disk of the processing device, and is stored in a predetermined folder, for example, so that the user can check with certainty whether the detection file is the subject data information or the subject information. If the matching is carried out, the next step is carried out;

step C04, recording the detection data and the data information of the object; for example, the detection file is stored in a specified area of a hard disk, and the file name or the index information of the thermal image file is associated with the information of the measured object data, for example, a new record in a database is generated or data of a specific structure in a data file is generated.

And the recording part is used for associating and recording the matched detection data with the corresponding information items of the detected body in the basic data.

And C05, judging whether the processing of the selected detection files is finished or not, if not, returning to C01, sequentially selecting the next detection file, and repeating the subsequent steps.

As described above, the additional identification information associated with the detection data is analyzed and matched with the additional identification information of the subject data information, and the matched detection data and the subject data information are recorded in an associated manner; the processing speed is improved, and the manual workload is greatly saved; for example, the detection data of the batch can be conveniently uploaded to an infrared spectrum database, and the beneficial effect of automatic batch sorting is realized.

For the arrangement of the thermal image dynamic file, the similar processing as the steps can be carried out according to the additional identification information and the detected body information related to the detection data in the thermal image dynamic file; when part of detection data is associated with the additional identification information, the additional identification information respectively associated with the part of detection data can be analyzed, the part of detection data is matched with the information of the detected body, and the matched detection data and the information of the detected body are subjected to associated recording; for example, extracting detection data from a thermal image dynamic file and carrying out associated recording with data information of a detected object; for example, the storage address of the thermal image dynamic file, the file name of the thermal image dynamic file, the frame time sequence of the matched detection data (such as the frame number in the thermal image dynamic file) and the information of the measured object are recorded in a correlated manner; for example, the file name of the thermal image dynamic file (for example, all frames of the thermal image dynamic file are associated with the same measured object information) and the measured object data information are recorded in an associated manner. Also, in one embodiment, sequential processing may be performed, for example, in frame timing; in another embodiment, the thermal image dynamic file is associated with an information index file, and the information index file comprises additional identification information associated with the detection data, information of the detected object and frame timing information of the detection data in the thermal image dynamic file; the information index file can also be used for obtaining the information of the detected object associated with the detection data and carrying out subsequent matching and recording processing.

In another embodiment, the storage medium stores an information index file, and the information index file can be selected by a user or automatically read from the storage medium, and the information index file comprises index information of the detection data and additional identification information corresponding to the detection data; additional identification information corresponding to the detection data or the information of the detected object can be obtained by analyzing the information index file; matching the obtained additional identification information with additional identification information corresponding to the subject data information in the subject data storage unit (storage medium); and performing association recording on the detection data corresponding to the matched detected body information and the detected body data information matched with the detected body information.

Furthermore, the information related to the detection data, such as the information index file, is not limited to being stored in the same storage medium as the detection data; for example, the information index file obtained by connecting the communication unit 8 to the external device includes an information index file obtained by connecting to an external storage device or a thermal image capturing device, and the detection data is stored in an externally provided storage medium.

Obviously, different combinations of the above working steps can be used to obtain more embodiments. Obviously, more embodiments are possible according to different combinations of the above-described modes of operation.

In addition, the processing and control functions of some or all of the components in embodiments of the present invention may also be implemented using dedicated circuits or general purpose processors or programmable FPGAs. Although the functional blocks in the drawings may be implemented by hardware, software, or a combination thereof, there is generally no need for structures to implement the functional blocks in a one-to-one correspondence; for example, a functional block may be implemented by one software or hardware unit, or a functional block may be implemented by multiple software or hardware units.

In addition, in the embodiment, the application of the object to be measured in the power industry is taken as an example of a scene, and the method is also applicable to various industries of image detection.

It is not necessary for any product that implements an embodiment of the invention to achieve all of the above-described advantages simultaneously. The foregoing describes only embodiments of the invention and is presented by way of illustration rather than limitation, and further modifications and variations of the embodiments may be made by persons skilled in the art in light of the foregoing description without departing from the spirit or scope of the invention.