CN110636212A - Information selection and configuration device and information selection and configuration method - Google Patents

Abstract

The information selection configuration device and the information selection configuration method of the invention comprise the following steps: a determination section for determining a configuration of attribute information of subject information for obtaining the subject selection information, based on a plurality of subject information stored in the storage medium, in accordance with a configuration of the attribute information associated with obtaining the subject selection information; a selection information determination unit for comparing at least 2 pieces of attribute information among the determined attribute information of the subject information to select attribute information of the subject selection information for display or a configuration of the information; and a display control unit for controlling to display a predetermined number of pieces of subject selection information, and displaying the pieces of subject selection information together with the acquired image of the detection data.

Description

Information selection and configuration device and information selection and configuration method

Technical Field

The invention discloses an information selection configuration device and an information selection configuration method, and relates to the application field of detection and image shooting.

Background

Various detection devices are widely used in industrial fields, for example, in an industrial field where a condition inspection is emphasized, it is important to periodically perform an image pickup of a device or the like as a part of the condition inspection by using a detection device such as a visible light image pickup device, a thermal imaging device, an ultraviolet image pickup device, a partial discharge device, a ground resistance, a voltmeter, or the like.

Naming recorded detection data is a key link of big data processing; if the naming is standard, the file of the detected data is easy to upload to a database for batch processing;

at present, an equipment account EXEAL form needing to be detected, such as a substation or a line, can be downloaded and obtained from a database of a user side, each piece of information of a detected object contains specified attribute information, and for reliability of subsequent uploading, a file of detection data needs to be named according to the attribute information obtained by the user side in an optimal mode;

referring to the table of fig. 3, a certain number of repeated information is included among the attributes of the subject information, such as: the attribute information of the device name includes information of "device area, device type, device name, or further includes the difference", and the information of the detected object and the named information of the detected object are generated and displayed according to the attribute information, so that inconvenience is reflected in 2 aspects

1) A selection interface of the information of the detected body;

referring to fig. 4, if the displayed attribute information is complete, the information may be too repetitive and the displayed information of the subject may be reduced; to ensure portability convenience, most portable instruments have a limited screen size, for example, thermal imagers typically have a 5 "screen; the area for displaying the information of the detected body is limited in size; the display of the information is repeated, so that the number of the displayed information of the detected body is reduced, and the observation is complicated;

referring to fig. 5, if part of the attribute is removed, the interface may be simplified, for example, the attribute of the device name is not displayed in fig. 5; but may result in incorrect information being displayed when there are multiple groups of devices of the same type in a device area.

2) The generated file name has more repeated information, so that the file name is overlong;

how to determine the constitution of the information of the tested body to be displayed is a problem;

therefore, it is understood that there is a need for an information selection and configuration device that can conveniently provide the prompt information of the subject for the user to take the image of the subject, thereby solving the existing problems.

Disclosure of Invention

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 an information selection and arrangement apparatus of the embodiment.

Fig. 2 is a profile view of an information selecting and configuring apparatus of the embodiment.

Fig. 3 is a schematic list example of the subject information contained in the data file stored in the storage medium.

Fig. 4-5 are schematic diagrams of a prior art subject information selection interface.

Fig. 6 is a schematic diagram of a selection interface of embodiment 1.

Fig. 7 is a control flowchart showing embodiment 1.

Detailed Description

The following describes an embodiment of the present invention, although in embodiment 1, a portable information selection and arrangement device with a picture taking function (hereinafter simply referred to as a picture device) is exemplified. But may also be applied to information selecting and configuring devices that process or receive detected data, such as a personal computer, a personal digital processing device, and the like. The device is also suitable for various detection devices such as a partial discharge instrument and the like, and is also suitable for various optical imaging devices.

The detection data is not limited to the AD value data of the video, and may be, for example, data obtained by subjecting the detection 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 imaging device according to embodiment 1.

The imaging 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 relevant parts via a control and data bus 12 and is responsible for overall control of the imaging 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 kinds of signal processing, digital detection data (video AD value data) is generated. In the present embodiment, the photographing section 1 is an example of an acquisition section for photographing to obtain (digital) detection data. An image processing unit 2 for performing predetermined processing on the detection data obtained by the imaging unit 1 to obtain image data of a video; 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 detection 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 the digital detection data into data suitable for display, recording, and the like in various types of imaging devices, not limited to the visible light imaging device.

When the imaging device 13 is a variety of different types of imaging devices, there are differences in optical components, image sensors, and the like, and differences in image processing methods. In one embodiment, when the imaging device 13 is a thermal imaging device, the imaging unit 1 is configured by 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) detection data by the AD conversion circuit. The image processing unit 2 performs predetermined processing on the (thermal) detection 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) detection data or the set range of the AD value, and the specific color value corresponding to the AD value of the (thermal) detection 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 information selection configuration apparatuses such as various types of imaging apparatuses such as a visible light photographing apparatus, a thermal imaging apparatus, an ultraviolet photographing apparatus, a laser imaging apparatus, and the like; or a device which simultaneously comprises a shooting function formed by more than one device combination, namely the information selection and configuration 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 communication I/F5 is an interface for connecting the video apparatus 13 to an external device such as an external computer, a storage apparatus, or a video apparatus, in accordance with a communication specification such as USB, 1394, or a network.

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 detection 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 mounted in a card slot of the main body of the video apparatus 13, and records data such as detection 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.

A storage medium for storing a plurality of pieces of subject information, which may be, for example, a storage medium in the imaging 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 imaging device 13 by wire or wirelessly, such as other storage devices communicating via wire or wirelessly connected with the communication I/F5, or other storage media in a camera, a computer, etc., are also possible. Preferably, the subject information is stored in advance in the imaging device 13 or in a nonvolatile storage medium connected thereto.

The subject information is information related to the subject, and includes, for example, information representing a subject location, a subject area, a type, a number, and the like, and various information such as an attribution unit, a classification level (for example, a voltage level, an importance level, and the like), a model number, a manufacturer, performance, and characteristics, a past imaging or inspection history, a manufacturing date, and a service life, which are related to the subject.

Referring to fig. 3, in practical application, an electric power device is taken as an example;

the information of the measured body of the substation equipment generally comprises a substation name, a voltage level of an equipment area, an equipment area name, an equipment type, an equipment name and a phase; the device area may have various examples of division modes, such as a voltage class area, a large-scale master device, an interval, and the like; the device name may also contain the device number, e.g., "X00".

The operation unit 11: the control unit 10 executes a program corresponding to various operations performed by the user based on an operation signal from the operation unit 11. The operation section 11 is realized by, for example, a plurality of keys, a touch panel, or the like shown in fig. 2.

In the following, an information selection arrangement method will be described, in which a data file of subject information, as shown in an exemplary list in fig. 3, is stored in advance in the memory card 8, and is also generally referred to as a task package, before the main shooting. The present embodiment is explained with reference to fig. 3 to 7.

The control unit 10 controls the overall operation of the video device 13, and the control unit 10 is realized by, for example, a CPU, an MPU, an SOC, a programmable FPGA, or the like. The flash memory 9 stores therein a program for control and various data used in control of each part. The control program causes the control section 10 to execute control of processing in a plurality of modes, and when the power is turned on, the control section 10 initializes the internal circuit and then enters a standby shooting mode, that is, the shooting section 1 shoots and obtains detection data, the image processing section 2 performs predetermined processing on the detection data shot by the shooting section 1 and stores the detection data in the temporary storage section 6, and the control section 10 executes control of the display control section 3 to continuously display an image on the display section 4 in the form of a moving image, and in this state, the control section 10 performs control to continuously monitor whether or not processing in another mode is switched to or shutdown operation is performed according to a predetermined condition, and if so, enters corresponding processing control. At this time, for example, selecting a task package for generating the information of the tested body; a user selects the substation 1 according to task packages of a plurality of substations, and then enters display control of information of a tested object; referring to fig. 7, the control procedure of the subject selection information is as follows:

step a01, the control unit 10 determines attribute information for obtaining subject selection information;

for example, determining attribute information including "voltage level, device area name, device type, device name or phase difference" for obtaining the subject selection information; the name of the transformer substation can be selected when the task package is loaded, so that the name of the transformer substation can not be displayed in the selection information of the tested object;

according to the convenience of use, the structure of the attribute information to be preserved in the subsequent processing can be configured in advance, in this example, the attribute information to be preserved includes: "voltage class, device area name, device type, device name or phase.

A step a02 of comparing contents of a plurality of attribute information of the subject information; then, in step a03, the specific composition of the displayed attribute information or information is determined;

then, processing is carried out according to the configuration strategy of the attribute information; if at least 2 pieces of attribute information in the determined attribute information of the measured object information are compared according to the configuration strategy of the attribute information, the attribute information or the information composition of the measured object selection information for display is selected, wherein if repeated information appears in the 2 pieces of attribute information, the repeated information in one piece of attribute information is omitted; the omission may be non-display such as marking non-display or deletion;

in this example, the configuration policy is to omit the device name if the device name already contains "voltage class, device area name, device type, phase", omit the repeated information before the specific information if the device name contains the specific information such as number, and phase.

Specifically, according to the comparison between the attribute information, the attribute information with the repeated information is omitted, and/or the repeated information in the attribute information is omitted and displayed in a concise hierarchical manner;

referring to fig. 6, for the measured object information 301, "220 KV, equipment zone 1, equipment type 1, equipment zone 1 equipment type 1 phase a, phase a"; the processed content is '220 KV, equipment area 1, equipment type 1 and phase A'; the device name attribute information "device zone 1 device type 1A phase" is omitted, and is displayed in a multi-level state;

for the measured object information 302, "220 KV, equipment area 1, equipment type 2, equipment area 1X00 equipment type 1A phase, a phase"; the processed content comprises 220KV, equipment area 1, equipment type 2 and X00 equipment type 2A phase; the display of the phase attribute and the repeated information "device area 1" before X00 is omitted;

in addition, the typeface of the equipment area 1 in the equipment name can also be reserved, and the displayed content is '220 KV, equipment area 1, equipment type 2, equipment area 1X00 equipment type 2A phase'; among the device names of "device zone 1X00 device type 2A phase", device zone 1 may be omitted because of duplication with the device zone attribute "device zone 1", but it is preferable that device type 2 with the number "X00" is not omitted because of avoiding misinterpretation of displaying only the number.

Step A04, display is performed, for example, so that the image and the selection information of the specified number of the tested bodies are displayed simultaneously

Then, during recording, a file name with the information of the measured object can be generated, the file name 'substation 1-220 KV-equipment area 1-device type 1-a phase.GIF' associated with the information of the measured object 301, and the file name 'substation 1-220 KV-equipment area 1-device type 2-X00 device type 2A phase.GIF' associated with the information of the measured object 302 can be generated "

The repeatability of the information can be compared according to the attribute information of different measured objects, so that the displayed attribute information or information composition of different measured objects is different, and the purpose of convenient observation is achieved.

Other embodiments

In another embodiment, after the processing in step a03, a new task package may be generated from the processed subject selection information for subsequent use.

As described above, based on the pre-stored information of the tested body, the composition of the attribute information in the information of the tested body is firstly determined, and then, when displaying, the method is simple and reasonable and is convenient to observe; example 1 is a preferred embodiment, although it is not necessary that all of the above advantages be achieved simultaneously in any one product that embodies the invention.

The present invention is applied to the imaging device 13 having a photographing function in the above-described embodiments, and is also applicable to an imaging processing device or the like that receives and processes detection data from the outside.

In the embodiment, an image processing device is taken as an example of an information selection configuration device; in the embodiment, the image capturing device is mounted on the inspection vehicle by using a cradle head, and is connected to the image processing device 100 by using a communication line such as a dedicated cable, or a local area network formed by a wired or wireless manner. The user views the subject image through the image processing apparatus 100. The image capturing device is connected to the image processing device 100 to constitute an image capturing system in the embodiment.

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.

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.

Claims (10)

1. An information selection configuration device, comprising:

a determination section for determining a configuration of attribute information of subject information for obtaining the subject selection information, based on a plurality of subject information stored in the storage medium, in accordance with a configuration of the attribute information associated with obtaining the subject selection information;

a selection information determination part for comparing at least 2 attribute information in the determined attribute information of the measured object information according to the configuration strategy of the attribute information to select the attribute information of the measured object selection information or the structure of the information for displaying, wherein if the 2 attribute information has repeated information, the repeated information in one attribute information is omitted or one attribute information is omitted;

and a display control unit for controlling to display a predetermined number of pieces of subject selection information, and displaying the pieces of subject selection information together with the acquired image of the detection data.

2. An information selection configuration device, comprising:

a determination section for determining a configuration of attribute information of subject information for obtaining the subject selection information, based on a plurality of subject information stored in the storage medium, in accordance with a configuration of the attribute information associated with obtaining the subject selection information;

a selection information determination part for comparing at least 2 attribute information in the determined attribute information of the measured object information according to the configuration strategy of the attribute information to select the attribute information of the measured object selection information or the structure of the information for displaying, wherein if the 2 attribute information has repeated information, the repeated information in one attribute information is omitted or one attribute information is omitted;

and a measured body information recording unit for recording the measured body information processed by the selection information determining unit.

3. An information selection configuration device, comprising:

a determination section for determining attribute information of subject information for obtaining subject selection information, according to a configuration of attribute information associated with obtaining the subject selection information, based on a plurality of subject information stored in a storage medium;

a record information specifying unit configured to compare at least 2 pieces of attribute information among the specified attribute information of the subject information to specify a configuration of the attribute information of the subject information to be recorded;

and a recording unit for recording the attribute information of the specified subject information in association with the acquired image of the detection data.

4. The information selection configuration apparatus of claim 1,

a display control unit configured to control a display unit to display a predetermined number of pieces of subject selection information while displaying an image generated by the detection data;

and a selection unit for selecting the subject selection information by the user.

5. The information selection configuration apparatus of claim 1,

if the attribute information has repeated information, the repeated information in one attribute information is not displayed.

6. The information selection configuration apparatus of claim 1,

if repeated information appears in the attribute information, the repeated information in one attribute information is omitted, and new information of the measured object is generated.

7. The information selection and configuration device of claim 1 wherein the information selection and configuration device is a detection device.

8. The information selection arrangement of claim 1, wherein the information selection arrangement is an infrared imaging device.

9. The information selection configuration method comprises the following steps:

a determination step of determining a configuration of attribute information of subject information for obtaining subject selection information according to a configuration of attribute information associated with obtaining subject selection information, based on a plurality of subject information stored in a storage medium;

a selection information determination step of comparing at least 2 pieces of attribute information among the determined attribute information of the subject information to select attribute information of the subject selection information for display or a configuration of the information;

and a display control step of controlling to display a predetermined number of pieces of subject selection information, and displaying the pieces of subject selection information together with the acquired image of the detection data.

10. The information selection configuration method comprises the following steps:

a determination step of determining attribute information of subject information for obtaining subject selection information according to a configuration of attribute information associated with obtaining subject selection information, based on a plurality of subject information stored in a storage medium;

a record information determination step of comparing at least 2 pieces of attribute information among the determined attribute information of the subject information to determine a configuration of the attribute information of the subject information to be recorded;

and a recording step of recording the attribute information of the determined subject information in association with the acquired image of the detection data.

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