CN103428436B - Image recording apparatus and image recording method - Google Patents

Abstract

The invention discloses an image recording device and an image recording method, and relates to the application fields of image recording devices and image detection. In the prior art, the corresponding recording of the image file and the shot object information is inconvenient. The invention provides a video recording device and a video recording method, which specify special shot object information based on the pre-stored shot object information, and record the shot object information and a video file in a correlated way during recording; it is not necessary or easy to find and select the object information. Thus, the existing problems are solved.

Description

Image recording apparatus and image recording method

Technical Field

The invention discloses an image recording device and an image recording method, and relates to the application fields of image recording devices, image processing devices and image recording.

Background

In the industrial field where the condition inspection is emphasized, for example, it is important to periodically perform the inspection of the equipment or the like using an imaging device such as a visible light imaging device, a thermal imaging device, or an ultraviolet imaging device.

At present, the image file obtained by the image device is generated by the file name according to the time or sequence number; for subsequent archiving and analysis, and distinguishing the image file corresponding to the object to be shot, when shooting the image, the user is required to record the object information correspondingly according to the scene nameplate recognized or identified for the object to be shot, and the existing common recording mode is, for example, to record the file name of the image file and the corresponding object information manually, for example, to add the voice annotation of the object information in the scene to the image file; the above methods have various inconveniences such as inconvenient operation, easy error, influence on the shooting speed, large subsequent arrangement workload and the like. If a user holds a portable imaging device of the prior art, the workload is very large, and usually one person needs to shoot and another person needs to record paper during detection.

Since the application of image detection technology, there is no appropriate means to conveniently and quickly associate recorded image files with subject information. Those skilled in the art have attempted to solve this problem, such as patent document application nos.: 200410001328 discloses a camera, which can be used to inform the information of the identified object by receiving the wireless label ID installed on the object, so as to facilitate the associated recording, but the wireless label is inconvenient to install, the cost is increased, and the wireless label is not suitable for some occasions with large electromagnetic interference, so that how to conveniently record the associated image file and the object information is a difficult problem.

Therefore, it is understood that there is a need for an image recording apparatus that can solve the existing problems by allowing a user to easily perform the related recording of the subject information and the image file.

Further, for portable image recording devices, the size of the screen is limited, typically between 3.5 inches and 6 inches; when the characters of the shot object indication information are more, how to facilitate the observation of a user is also a problem of optimization consideration; when the number of the shot object information is large, how to rapidly call and display the shot object information without occupying the operation resources of the processor is also a problem of optimization consideration; after the subject information is recorded in association with the image file, how to facilitate the computer to quickly read the subject information is also a problem of optimization consideration.

Disclosure of Invention

The invention provides a video recording device and video recording method, according to a plurality of object information, for example represent the object to be shot, appoint the object information as the special object information from it while shooting; the user can take the shot object by the shooting method, and the image data is associated and recorded with the information related to the appointed special shot object information, so that the shot object indication information can be displayed or switched according to the sorting sequence (as the shooting sequence) of the shot object information, and the shot object information does not need to be searched or is easy to be searched and selected. Obviously, the shooting speed is improved, omission is not easy to occur, and the operation is simple.

Therefore, the invention adopts the following technical scheme that the image recording device comprises:

an acquisition unit for acquiring image data; an information specifying unit configured to specify subject information as special subject information based on the plurality of subject information stored in the information storage unit; a recording unit configured to record, in response to a recording instruction operation or in accordance with a predetermined recording condition, predetermined video data in association with information on the specified special subject information, the predetermined video data being obtained by performing predetermined processing on the video data acquired by the acquisition unit and/or the video data acquired by the acquisition unit;

the information specifying unit switches the specified special subject information in the order of the subject information based on the subject information stored in the information storage unit in response to a switching instruction operation or in accordance with a predetermined switching condition.

In another aspect, an image capturing apparatus includes: an acquisition unit configured to acquire image data; a display control unit for displaying a predetermined number of pieces of subject instruction information in the order of sorting the pieces of subject information, based on the pieces of subject information stored in the information storage unit; an information specifying section that specifies subject information as special subject information therein based on a user's selection; and a recording unit configured to record, in response to a recording instruction operation or in accordance with a predetermined recording condition, predetermined video data obtained by performing predetermined processing on the video data acquired by the acquisition unit and/or the video data acquired by the acquisition unit, in association with information on the specified special subject information.

The image recording method of the present invention comprises the following steps:

an obtaining step for obtaining image data;

an information specifying step of specifying object information as special object information based on the plurality of object information stored in the information storage unit;

a recording step of recording, in response to a recording instruction operation or in accordance with a predetermined recording condition, information relating to specified special subject information in association with predetermined image data obtained by performing predetermined processing on the image data acquired by the acquiring step and/or the image data acquired by the acquiring step;

the information specifying step switches the specified special subject information in the order of the subject information based on the subject information stored in the information storage unit in response to a switching instruction operation or in accordance with a predetermined switching condition.

Further, the present invention provides a computer program to be executed in a video recording apparatus, the computer program causing the video recording apparatus to execute:

an obtaining step for obtaining image data;

an information specifying step of specifying object information as special object information based on the plurality of object information stored in the information storage unit;

a recording step of recording, in response to a recording instruction operation or in accordance with a predetermined recording condition, information relating to specified special subject information in association with predetermined image data obtained by performing predetermined processing on the image data acquired by the acquiring step and/or the image data acquired by the acquiring step;

the information specifying step switches the specified special subject information in the order of the subject information based on the subject information stored in the information storage unit in response to a switching instruction operation or in accordance with a predetermined switching condition.

An embodiment of the present invention further provides a readable storage medium storing a computer program, wherein the computer program causes an image recording apparatus to execute the steps of:

an acquisition step for acquiring image data;

a display control step of displaying a predetermined number of pieces of subject instruction information in the order of sorting the pieces of subject information based on the pieces of subject information stored in the information storage unit;

an information specifying step of specifying subject information as special subject information therein based on a user's selection;

and a recording step of recording, in response to a recording instruction operation or in accordance with a predetermined recording condition, information relating to the specified particular subject information in association with predetermined video data obtained by the acquiring step and/or data obtained by performing predetermined processing on the video data obtained by the acquiring step.

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 image recording apparatus according to an embodiment.

FIG. 2 is an external view of the image recording apparatus according to the embodiment.

Fig. 3 is a display interface diagram showing a task and sort setting menu.

Fig. 4 is a control flow diagram showing an example of an information pattern.

Fig. 5 is a schematic list example of the object information stored in the information storage section.

FIG. 6 is a schematic diagram of a setup interface for one example of a sort setup process.

Fig. 7 is an example of a sorting factor corresponding to the subject information obtained after the sorting setting.

Fig. 8 is a display interface diagram showing an example of switching of the subject instruction information to be particularly displayed.

Fig. 9 is a display interface diagram showing two examples of the subject instruction information which is displayed in particular.

Fig. 10 is a diagram illustrating an example of a data structure of a recorded video file.

Fig. 11 is a schematic diagram showing the distribution of the objects in the equipment areas 1, 2, 3 in the substation 1 and the shooting route in the sorting order corresponding to the objects according to embodiment 1.

Fig. 12 is a control flow diagram showing another example of the information mode.

Fig. 13 is a schematic diagram of a setting interface of an example of the filter condition.

Fig. 14 is a schematic diagram of a setting interface of another example of the filter condition.

Fig. 15 is another example of a schematic list of the subject information stored in the information storage section.

Fig. 16 is another example of a schematic list of subject information filtered in accordance with the filtering condition.

Fig. 17 is a display interface diagram before and after adjustment of the sort order.

Fig. 18 is a schematic diagram of a setup interface of an example of a group setup interface.

Fig. 19 is a control flow chart showing another example of the information mode.

Fig. 20 is a schematic diagram of a setting interface that is another example of the filter condition.

Fig. 21 is an example of a schematic list of the subject information contained in the data files 1, 2, and 3 and a schematic list of the subject information and the sort order determined after the group sorting and filtering.

Fig. 22 is a schematic diagram of a shooting route in the sorting order according to embodiment 3.

Fig. 23 is a block diagram showing an electrical configuration of an image capturing system in which the image processing apparatus 100 and the image pickup apparatus 101 of embodiment 4 are connected.

Fig. 24 is a schematic diagram of an implementation of an image capturing system formed by connecting the image processing device 100 and the image capturing device 101.

Detailed Description

The following describes an embodiment of the present invention, although in embodiment 1, an image recording apparatus with an image capturing function (hereinafter simply referred to as an image apparatus) is exemplified. 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 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 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 a 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, and converts an object 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 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) 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. For example, in the present embodiment, in the normal mode, a video generated from video data obtained by shooting is continuously displayed; in the information mode, the subject instruction information and the video (including the moving video and the still video) to be displayed in particular are displayed at the same time, and in the reproduction mode, the video read out from the memory card 8 and expanded is displayed, and various setting information can be displayed. Specifically, in one embodiment, the display control unit 3 includes a VRAM, a VRAM control means, a signal generation means, and the like, and based on the control of the control unit 10, the signal generation means periodically reads the image data read from the temporary storage unit 6 and stored in the VRAM from the VRAM via the VRAM control means, generates a display signal such as a video signal, outputs the display signal, and displays the display signal on the display unit 4; in the present embodiment, the display section 4 is taken as an example of the display section 4. The display unit 4 may be another display device connected to the imaging device 13, and the imaging device 13 itself may have no display device in its electrical configuration. Obviously, when the display device is not present in the electrical configuration of the video device 13 itself, the control unit 10 may control the output of the image data for display, for example, the image data for display may be output through an image output interface (for example, various wired or wireless image output interfaces such as an AV port and an RJ45 port) (the control unit 10, the display control unit 3, and the like are examples of the display control unit); the display control unit controls the display unit to display the image, including the display output. 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 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 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, and the memory card 8 as a rewritable nonvolatile memory is detachably mounted in a card slot of the main body of the video apparatus 13, and data such as video data is recorded 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 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 a subject, and includes, for example, information representing a subject location, a type, a number, and the like, and various information related to a subject, 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 history of past shooting or inspection, a manufacturing date, and a lifetime.

In a preferred embodiment, various pieces of information in the subject information are configured in the form of classified information, and an information storage unit shown in an exemplary list 5001 in fig. 5 stores one implementation diagram of the subject information, each piece of the subject information being configured by attribute information of a plurality of prescribed attributes, such as the subject information 500 "substation 1 equipment area 1 device ia phase" having attribute information "substation 1" corresponding to the substation attribute 501, "equipment area 1" corresponding to the equipment area attribute 502, "attribute information" device i "corresponding to the device type attribute 503, and attribute information" a phase "corresponding to the phase attribute 504. However, the present invention is not limited to this, and the subject information may be stored in other forms than the information classification form.

The operation unit 11: the control unit 10 executes a program in response to an operation signal from the operation unit 11, for example, when a user performs various operations such as a switching instruction operation, a recording instruction operation, or an input of setting information. For example, the operation unit 11 is configured by a recording key 1 (configured to perform a recording instruction operation), a switching key 2 (configured to perform a switching instruction operation of the object information), a focus key 3, a confirmation key 4, a cross key 5, and the like shown in fig. 2, or the recording key 1, the switching key 2, and the like may be configured to perform an operation of a predetermined instruction, and the control unit 10 continuously executes recording and switching processing in response to a signal of the operation. Without being limited thereto, the operation may be realized by the touch panel 6, a voice recognition unit, or the like.

In the present embodiment, the control section 10 functions as an example of a sort determination section, an information specification section, a display control section, and a progress statistics section. In this embodiment, a scene in which a user performs image detection on power devices in the device area 1(1101), the device area 2(1102), and the device area 3(1103) in the substation 1 shown in fig. 11 is taken as an example. Before the main shooting, a data file containing subject information as shown in an exemplary list in fig. 5 is stored in advance in the flash memory 9. The present embodiment is explained with reference to fig. 3 to 11.

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 an internal circuit and then enters a standby shooting mode, that is, the shooting section 1 shoots and obtains image data, the image processing section 2 performs predetermined processing on the image data shot and obtained by the shooting section 1 and stores the image data in the temporary storage section 6, and the control section 10 executes control of the display control section 3 to continuously display images on the display section 4 in the form of moving images, 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. Referring to fig. 4, the control steps of the information mode are as follows:

in step S101, the control unit 10 performs control to continuously monitor whether or not the user selects the information mode through the operation unit 11, and when it is detected that the information mode is selected, the process proceeds to step S102.

In step S102, a ranking factor of the subject information is set.

The control section 10 controls to cause the display section 4 to display a setting interface as shown in fig. 3, having a plurality of setting items such as a group setting item 301 configured to perform a group sorting setting operation, a sorting factor item 302 performing a subject information sorting factor setting operation, a filter condition item 303 performing a filter condition setting operation, an information display setting item 304, and a determination item 300 determining settings; and then continuously detects whether the user selects one of the setting items to perform the setting operation or determines the determination item 300. Entering a corresponding setting interface if one of the setting items is selected, returning to the setting interface shown in fig. 3 after completing the corresponding setting and determining, and the control part 10 continuing to detect whether the user selects one of the setting items to perform the setting operation or to determine the determination item 300; then, when the determination of the determination item 300 is detected, the process proceeds to step S103; here, if the determination is made on the determination item 300 and no other setting operation is performed, the flow proceeds to step S103 in accordance with the previous default setting.

In this embodiment, the user selects the ranking factor item 302; next, in response to this operation, the control section 10 causes the display section 4 to display a ranking setting interface 6000 as shown in fig. 6, and the user performs setting of ranking factors of the subject information against the substation layout as shown in fig. 11. In the present embodiment, the display section 4, the operation section 11, and the control section 10 constitute an example of the sort setting section.

The control unit 10 transfers the object information stored in the flash memory 9 to the temporary storage unit 6, and the transferred object information may be all attribute information or predetermined partial attribute information of the object information; further, the object information may be transferred to the temporary storage unit 6 when the power is turned on.

A sorting setting section for a user to set a sorting factor of the subject information; the sorting setting section has a keyword determination unit for determining a keyword relating to subject sorting; a ranking factor determining unit for determining a ranking factor of the keyword; the ranking setting section is configured to obtain a ranking factor of the subject information by combining the first keyword ranking factor or the first keyword ranking factor with the auxiliary keyword ranking factor. The sorting factor may be a sorting order or a sorting rule, such as a numeric sorting rule, an alphabetic sorting rule, a Chinese pinyin sorting rule, a Chinese stroke sorting rule, a sorting rule obtained by manually sorting keywords by a user, and the like.

Wherein the sorting setting section is configured to set the first keyword sorting factor as the sorting factor of the subject information when the subject information participating in the sorting is all subject information having different first keywords. When a plurality of pieces of object information with the same first keyword in the sorted object information are referred to, the sorting factor of the object information is decided by the combination of the first keyword sorting factor and the auxiliary keyword sorting factor. A keyword as a first ranking element is referred to as a first keyword; the secondary keyword ranking factors include at least a ranking factor of the second keyword, and the keyword that is the second ranking factor in the subject information is referred to as the second keyword. When a plurality of pieces of subject information having the same first keyword and second keyword, the auxiliary keyword ranking factor includes at least the second keyword and a third keyword ranking factor, and a keyword which is a third ranking factor in the subject information is called a third keyword; and so on.

A keyword determination unit for determining a keyword related to the ranking; for example, one or more of the following implementations may be used to determine the keywords associated with the ranking. Wherein, when having the first keyword and the auxiliary keyword, the same or different determination embodiments may be employed.

One embodiment, on the basis of the information of the shot object stored in the information storage part, inquire about the keyword which obtains the attribute information of the specified attribute in the information of the shot object, and confirm the keyword that inquires about obtains as the keyword related to rank;

in addition, keywords of attribute information of specified attributes in the subject information that meets the keyword query condition may be queried based on the subject information and the keyword query condition stored in the information storage unit, and the keywords obtained by the query may be determined as keywords related to ranking;

in addition, keywords which can be pre-stored can be selected by a user, and then the keywords selected by the user are determined as the keywords related to the sequencing;

in addition, the keywords which accord with the keyword attribute can be determined as the ordered keywords by determining the keyword attribute; for example, when time information is associated with the subject information (for example, a data file is a log file containing the subject information and time), a keyword attribute (for example, a time attribute) for selection is provided, and based on the keyword attribute (for example, the time attribute) selected by the user, a keyword (time) corresponding to the attribute is determined as a keyword having a rank;

in addition, default keywords may also be determined as keywords related to ranking;

in addition, keywords entered by the user may also be determined as keywords related to ranking.

A ranking factor determining unit for determining a ranking factor of the keyword; for example, one or more of the following embodiments may be implemented to determine the ranking factor; wherein, when having the first keyword and the auxiliary keyword, the same or different determination embodiments may be employed.

In one implementation mode, the sorting factors are pre-stored for a user to select, and the sorting factors selected by the user are determined as the sorting factors corresponding to the keywords; further, such as a default ranking factor; in addition, the ranking factor of the keyword is obtained based on the user's ranking operation (including the ranking factor entered by the user).

Specifically, in the present embodiment, a first keyword for obtaining attribute information of a prescribed attribute in subject information is searched for based on the subject information stored in the information storage unit, and a ranking factor of the first keyword is determined based on an operation by a user. The control section 10 causes the display section 4 to display a ranking setting interface 6000 as shown in fig. 6, in which the device region setting item 601, the device type setting item 602, and the facies level setting item 603 are menu items configured to represent keyword inquiry and ranking factor setting; as shown in the sorting setting interface 6001, when the device region setting item 601 (which may be a default) is selected, the control section 10 queries the keyword of the attribute information of the device region attribute of the subject information, and obtains a device region keyword (first keyword) list 605; then, based on the sorting order among the first keywords (the device area 1, the device area 2, and the device area 3) set by the user, the sorting factor of the first keywords is determined. The sorting order in the sorted list 604 may be an entered number, or a keyword in the device area keyword list 605 may be selected, and the sorting order is set by performing a drag operation through a cross key or a touch screen.

In this embodiment, a keyword of the attribute information of the device area is used as the first keyword, and a plurality of pieces of subject information having the same first keyword in the subject information participating in the sorting need to determine the sorting factor of the subject information by combining the first keyword sorting factor and the auxiliary keyword sorting factor.

A keyword specifying unit configured to search for an auxiliary keyword of attribute information having a predetermined attribute from the subject information that matches the keyword search condition, based on the subject information stored in the information storage unit and the specified keyword search condition; when the auxiliary keywords are more than the second keywords, the keyword query condition is one of the previously determined first keywords and one of the keywords at each level of the auxiliary keywords; but not limited to this, the keyword query condition may also be recorded.

Further, it is set that, when the user selects the device region 1, the control section 10 determines the device region 1 (one of the first keywords, the underlined keyword in the device region keyword list 605 in the sort setting interface 6002) as the keyword query condition; the control section 10 obtains an apparatus type attribute information keyword (second keyword) by inquiring the apparatus type attribute information of the subject information that meets the "apparatus zone 1" keyword inquiry condition, displays an apparatus type keyword list 607, and the user sets the order of the apparatus types therein to obtain the order in the order list 606; thereafter, the control unit 10 sets "device i" selected by the user as one of the keyword search conditions (the key indicated by an underline in the device type keyword list 607 in the ranking setting interface 6003), and the control unit 10 obtains the device category keyword list 609 by searching for device category attribute information of the subject information that meets the "device area 1" and "device i" keyword search conditions, sets the ranking of the categories therein, and obtains the ranking order in the ranking list 608. Then, the equipment types and the equipment categories in the equipment area 1, the equipment area 2 and the equipment area 3 are arranged in the similar mode; when finishing the setting of the sorting factor, pressing the determination key 4 of the operation part 11 to determine the sorting setting, returning to the setting interface shown in fig. 3, and then pressing the determination key 4 of the operation part 11 again to determine the determination item 300; the ranking factors corresponding to the subject information as shown in the schematic list of fig. 7 are obtained, and the set ranking factors of the subject information are recorded in the temporary storage section 6, or in the flash memory 9 or the like, for example, as a profile for subsequent use. Further, for example, a data file to which the subject information in the sort order is added may be generated and the process may proceed to step S103.

Note that, in the present embodiment, the sorted first keyword is queried based on the subject information stored by the information storage section; however, if a filter condition for determining subject information is set (or has a default) previously, it may be configured to be one of the keyword query conditions of the keywords (including the first keyword and the auxiliary keyword).

The method has the advantages that the inconvenience of adjusting the sequence caused by displaying a large amount of shot object information and the correspondingly arranged sequencing sequence on the display part is avoided, the sequencing keywords obtained by querying are further simplified through the keyword query condition, and the inconvenience of sequencing and setting caused by displaying redundant information is avoided.

In step S103, the order of sorting the object information is determined.

A sort determination unit for determining a sort order of the object information stored in the information storage unit. When the ranking factor is a ranking rule, the ranking determining section determines the ranking order of the subject information for the subject information stored by the information storage section, for example, by extracting a keyword and ranking the subject information according to the ranking rule of the keyword. When a plurality of keywords exist, the keywords are sorted according to the first keywords and rules, then the shot object information with the same first keywords is sorted according to the second keywords, and the like.

In this example, since the sorting factor set in step S102 is the sorting order of each attribute information based on the object information stored in the information storage section, sorting of the object information can be performed according to the sorting order of each attribute information, and the sorting order of each object information is determined; if the data file to which the subject information of the sort order is attached is directly generated in step S102, the subject information may not need to be sorted.

Further, the step of setting the sorting factor (S102) is not essential, and the sorting order may be determined according to a pre-stored sorting factor such as a default. Further, in one embodiment, the information storage section (such as the flash memory 9) stores in advance the subject information to which the sorting order information is added, and the sorting determination section determines the sorting order of the subject information to be followed at the time of subsequent switching, based on the sorting order information added to the subject information; the added sequencing sequence information is, for example, recognizable sequencing information, such as numbers, letters, codes and the like; may be added as attribute information of the object information; or may be added as index information corresponding to the object information; or storing the subject information at a predetermined address in the data file or in the storage medium, may be considered as a form to which the sort order information is added.

The order of sorting of the subject information may also be determined by sorting the subject information according to a default sorting rule, such as according to a temporal attribute of the subject information. Further, the order of sorting may be determined by displaying the object instruction information generated by a predetermined number of pieces of object information on the display unit and sorting the object instruction information by a cross key or a touch panel through a drag operation.

In step S104, object information as special object information is specified. An information specifying section (control section 10) for specifying, based on the subject information stored by the information storage section, subject information as special subject information for obtaining subject instruction information for special display; in a preferred embodiment, the first object information "substation 1 device area 1 device ic phase" in the ranking order is designated as the special object information based on the ranking order.

In another embodiment, the control unit 10 monitors whether or not there is an operation instruction to select the special object information; here, in a case where the operation instruction is confirmed, the subject information corresponding to the selected subject instruction information is designated as special subject information; a display control unit for controlling the display unit to display 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 unit specifies subject information as special subject information based on a user's selection. For example, in the object instruction information shown in the information display field of the display interface 801 in fig. 8, the user can select one of the object instruction information through the operation section 11, and the control section 10 designates the object information corresponding to the object instruction information as the special object information. The user may enter a display interface of new subject instruction information to select as subject instruction information by turning a page or moving a scroll bar.

Step S105 of transferring the image data obtained by the imaging unit 1 to the temporary storage unit 6; the image processing unit 5 performs predetermined processing such as predetermined processing on the image data captured by the imaging unit 1 to obtain image data of a video, and stores the image data in the temporary storage unit 6.

In step S106, the control unit 10 controls the display unit 4 to display the video generated from the video data and also controls the display unit to display the subject instruction information obtained by specifying the specific subject information specified by the information specifying unit.

Here, the common display of the subject instruction information and the video on the display interface may be superimposed on the video and/or may not be superimposed on the video. The subject indication information obtained as if only the specified special subject information is displayed as shown by 901 in fig. 9. The special display is, as when the subject instruction information obtained by the prescribed number of subject information not limited to the special subject information is displayed, wherein the subject instruction information obtained from the specified special subject information is specially displayed in a display manner distinguished from other subject instruction information. In a preferred embodiment, the display control unit controls the display unit to display the video generated by the video data and to display the subject instruction information obtained by displaying a predetermined number of pieces of the subject information in a sorted order based on the subject information (specified when there is a task) stored in the information storage unit and the subject information sorted order specified by the sort specifying unit, wherein the subject instruction information obtained from the specified special subject information is displayed in a display manner distinguished from other subject instruction information.

As shown in a display interface 801 in fig. 8, the control unit 10 controls to display object designation information obtained by designating a predetermined number of object information in order, and the underlined character of "substation 1 equipment area 1 device ic phase" may be distinguished from other object designation information, or a display position, color, background, size, font, character description, or the like which is easily recognized by a user may be used as a special display mode distinguished from other object designation information.

In a preferred embodiment, the display control unit displays predetermined information for generating the subject instruction information among the subject information in a hierarchical manner, that is, in a predetermined hierarchy and attribute information corresponding to each hierarchy. The hierarchical display is, for example, a tree display, and the control unit 10 displays the object indication information in predetermined three layers and in predetermined positions according to the attribute information of the transformer substation, the equipment area, the equipment type, and the predetermined attribute of each other, as in the information display field 902 shown in fig. 9; the specially displayed object indication information is also superposed in the image, so that the user can conveniently observe the information.

Specifically, in one embodiment of the display control, the image processing unit 2 is controlled to combine image data of a video created by capturing obtained video data with image data of subject instruction information obtained by specifying particular subject information; storing the synthesized image data in a temporary storage unit 6; then, the display control unit 3 is controlled to display the synthesized image data on the display unit 4. As shown by 901 in fig. 9, the composition is such that the subject instruction information is superimposed on the video. In addition, when there are other predetermined instruction information, the control image processing section 2 synthesizes image data of a video created by capturing the obtained video data, image data of specially displayed object instruction information obtained by specifying the specially displayed object information (when there is a specially displayed mark, image data including the mark, such as underlining of the object instruction information in fig. 8), and image data of other predetermined instruction information; the display control unit 3 is controlled to display the synthesized image data, which is a combination of the information display field including the subject instruction information and other instruction information with the video, on the display unit 4, as shown in fig. 8. Other instruction information includes a predetermined number of pieces of subject information, progress information, and sort order, and instruction information such as the date and time and the battery capacity that the display unit 4 needs to display.

The object instruction information obtained from the object information may be obtained as all or a predetermined part of the object information, and the configuration of the information for obtaining the object instruction information in the object information may be predetermined. The sort order number corresponding to the subject information may be displayed or may not be displayed.

Wherein the control section 10 functions as a progress counting section for counting shooting progress information based on the number of pieces of subject information (determined subject information when there is a task determination, or the number of numbers according to a sort sequence, etc.) stored in the information storage section and the currently specified special subject information; progress information 803 as displayed in display interface 801 and progress information 804 as displayed in display interface 802 in fig. 8; note that, in fig. 8, in the case where the sorting order number of the specifically designated subject information has already been displayed, the sorting order number may also constitute progress information with the total number of only the displayed subject information "15".

Step S107, the control section 10 determines whether or not there is a recording instruction operation, and if not, proceeds to step S109; when the user photographs the corresponding subject based on the subject instruction information "substation 1 equipment area 1 device ic phase" in the display interface 601, and presses the record key 2 of the operation unit 11 or the like representing the record, a record instruction operation is issued, and the control unit 10 detects the record instruction operation, the process proceeds to step S108. In addition, the control unit 10 may be configured to perform the recording operation based on other predetermined recording conditions; for example, when it is determined that the predetermined time interval is satisfied, for example, when the analysis value of the video exceeds a predetermined threshold (for example, the temperature in the thermal video exceeds a predetermined threshold), or when a predetermined recording condition such as a trigger signal of another sensor device connected to the video apparatus 13 is detected, the process automatically proceeds to step S108 even if there is no recording instruction operation from the operation unit 11. The predetermined recording condition includes that even if the recording instruction operation of the operation unit 11 is performed, the recording process is performed when other predetermined conditions are simultaneously satisfied, for example, a predetermined time interval is satisfied or a trigger signal is detected. Obviously, the prescribed recording condition may be various conditions configured in advance.

Step S108, recording processing.

The control unit 10 as a recording unit associates and records predetermined video data with information on the designated specific object information in response to a recording instruction operation or in accordance with predetermined recording conditions. And then proceeds to step S109.

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.

Predetermined image data, for example, image data (frame) obtained by reading a signal by an image sensor in response to a time (or a predetermined time thereafter) at which a recording instruction operation or judgment is made to meet a predetermined recording condition; for example; a time (or a predetermined time thereafter) at which a recording instruction operation is responded or a determination is made that a predetermined recording condition is satisfied is determined, and a predetermined video data (frame) is selected from among the video data of a plurality of frames temporarily stored in the temporary storage unit 6; for example, the video data in the above case is data obtained by performing predetermined processing (one or more of predetermined processing such as correction, interpolation, pseudo color, pixel reduction, compression, and the like); for example, a prescribed number of multi-frame video data are recorded; for example, the image data (frame) obtained by subjecting a predetermined number of multi-frame image data to a predetermined process, such as integrating the multi-frame image data stored in the temporary storage unit 6, is one frame of image data after the process; for example, one or more of the image data obtained from these conditions may be used.

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 specified specific object information in the temporary storage unit 6 with the compressed image data to generate an image file, and records the image file in the memory card 8, and then ends the process. Further, the compression may be performed after the information is added.

The information related to the specified special subject information may be, for example, all the information of the subject information as the special subject information, or part of the information defined therein, for example, "substation 1 equipment area 1 device ic phase" may be recorded, but "equipment area 1 device ic phase" may also be recorded, for example, the sorting order information added to the subject information may also be recorded; for example, other information not used for generating the subject instruction information may be recorded in the subject information, and for example, the subject information may further include information such as a specific number and a model number, and the information of the specific number and the model number may be stored, although not shown.

In an embodiment of the related record, information related to the specified special object information is added as information of video data in a predetermined format, see an implementation diagram of a video file structure in fig. 10; the image data 1001 is compressed image data obtained by compressing image data read from an image detector in response to a recording instruction operation or at a time according to a predetermined recording condition; information 1002 related to the special subject information is subject information representing "substation 1 equipment area 1 equipment ic phase"; other additional information 1003 such as time of shooting, parameters related to shooting such as ring temperature, distance, and the like.

In the related recording process, information related to the specific subject information may be recorded in an information file or an index file related to a video file, and the control unit 10 may generate the information file or the index file; further, the recording unit may have a file name generating unit for generating a file name of the video file, the file name including at least information related to the specific subject information; for example, the generated video file name: the equipment zone 1 of the transformer substation 1 is provided with equipment I C phase and jpg phase; preferably, the file name including the predetermined classification information is generated from the classification information in the object information, and for example, the file name including the predetermined classification information is generated from the predetermined attribute information: the method comprises the following steps that 1, I-C phase and jpg phase of a transformer substation are obtained, wherein attribute information can be distinguished in a form of a "-" separator and the like; further, a file name is generated by combining the time information '20120223', such as 1 part of the transformer substation, 1 part of the equipment area, I-C phase of the equipment, 20120223. jpg; the essence of the association record is to record information necessary for facilitating subsequent batch analysis, and the file name includes subject information for facilitating the user to view, and a file name including predetermined classification information is generated so as to be recognizable from the classification information in the subject information, so that the subsequent batch analysis facilitates reading and recognizing the classification information in the file name.

In step S109, the control unit determines whether or not a switching instruction operation is performed, and if not, the control unit returns to step S105 to display the object instruction information together with the moving image (continuous composition), and if a switching instruction operation is performed, the control unit proceeds to step S110.

The user takes the specially displayed object prompt information 'substation 1 equipment area 1 equipment ic phase' as the prompt information for shooting the current object to check and shoot the corresponding object.

When the user finishes shooting the corresponding object according to the object indication information "equipment zone 1 in substation 1 i C phase" in the display interface 801 in fig. 8, and then presses the switching key 2 of the operation part 11 or other keys representing switching, the switching indication operation can be finished by one-key operation, and here, the user does not need to look at the object information shown in the display interface 801 to select or search, and the operation is simple.

Further, the control unit 10 may be configured to perform the switching operation based on a predetermined switching condition; for example, when it is determined that a predetermined time interval is satisfied, for example, when an analysis value of an image exceeds a predetermined threshold (for example, a temperature in a thermal image exceeds a predetermined threshold), or when a predetermined switching condition such as a trigger signal of a device connected to the imaging device 13, for example, another sensor device is received, the process automatically proceeds to step S110 even if the switching instruction operation of the operation unit 11 is not performed; the predetermined switching condition includes a process of performing a switching designation when other predetermined conditions, for example, a predetermined time interval is satisfied or a trigger signal is detected, are satisfied simultaneously even if a switching instruction operation of the operation unit 11 is performed. Obviously, the prescribed switching condition may be various conditions configured in advance.

In step S110, the control unit 10 determines whether or not the task is completed.

The control section 10 determines whether or not the designation of the last subject information in the sorting order sequence is completed; if not, the process returns to step S104, and the specified special subject information is switched in the order of sorting. If the operation is finished, the current information mode is finished, characters such as 'task completion' and the like can be displayed on the screen, and then the image device returns to the standby state and waits for the user to enter the operation of other modes. Alternatively, the imaging may be performed by switching to a predetermined starting point of the sort order, for example, the starting point of the sort order.

Specifically, in one embodiment, the information designating unit (control unit 10) adds 1 to the sequence number of the sorting order corresponding to the special subject information designated before the switching, and then determines whether the last one in the sorting order sequence is completed, and if the last one in the sorting order sequence is not completed, searches for and designates the subject information corresponding to the sequence number of the sorting order obtained by adding 1 to the sequence number of the sorting order as the special subject information; and if the operation is finished, exiting. Further, it is not necessary to judge whether or not the designation of the last object information in the sorting order sequence is completed, and it may not be judged that the information mode is ended until a prescribed timing is exceeded or until the control section 10 receives an exit instruction, every time the switching instruction operation is received, that is, the object information corresponding to the sorting order number obtained by adding 1 to the sorting order number is designated as the special object information, and when the special object information is not found, the 1 is continuously added for the search until the prescribed timing is exceeded.

In this example, returning to step S104, the information specifying unit switches the specified special object information, that is, the specified object information, based on the order of the object information determined by the order determining unit in response to the switching instruction operation or in accordance with a predetermined switching condition.

Wherein the specified special subject information is switched; in a preferred embodiment, the information specifying unit switches the single object information specified as the special object information from the single object information specified as the special object information before switching to the next object information in the sorting order sequence (the sorting order sequence of the object information determined for the task determining unit when there is the task determining step). For example, in this example, the single object information designated as the special object information is switched from the single object information "substation 1 equipment area 1 device ic phase" designated as the special object information before switching to the next object information "substation 1 equipment area 1 device ib phase" in the sorted order sequence.

The display control unit controls the display unit to display the video generated by the video data, and displays the subject instruction information obtained by switching the designated special subject information by the information designating unit in a special display mode. Switching to specially displaying the shot object indication information of 'equipment I B phase of 1 equipment zone 1 of the transformer substation 1' as shown in a display interface 802; the progress information 803 displayed in the display interface 801 is changed to the progress information 804 displayed in the display interface 802. Then, the user can shoot the corresponding shot object according to the specially displayed shot object indication information of the equipment I B phase of the equipment area 1 of the transformer substation 1. Obviously, when the recording instruction operation is performed again, the specified special subject information is switched by the information specifying unit, and the recording unit is configured to perform the associated recording of the predetermined video data and the information "substation 1 equipment area 1 equipment ib phase" related to the switched specified special subject information in response to the recording instruction. This allows the user to easily perform imaging through the imaging path L11 shown in fig. 11, and thus the user is less likely to miss an object.

The information specifying unit switches the single object information specified as the special object information from the object information specified before switching as the special object information to the object information specified before switching as the last object information in the sorting order. The switching is performed based on the sort order, which may be the order of the sort order sequence or the reverse order, and it may be specified whether the switching is performed in the order of the sort order or the reverse order.

Further, when the information specifying section specifies the subject information as the special subject information as two or more pieces of subject information adjacent in order; the information designating unit sorts the specified specific number of pieces of adjacent subject information as the special subject information into the specific number of pieces of adjacent subject information starting from the specific number of pieces of adjacent subject information designated before switching.

For example, when "equipment zone 1 of substation 1, equipment zone 1, equipment ib of substation 1, and" equipment zone 1, equipment ia phase of substation 1 "are designated at the same time, in response to the switching instruction operation, the switching designation" equipment zone 1 of substation 1, equipment ia, equipment zone 1 of substation 1, equipment iib of substation 1, and equipment zone 1, equipment iic phase of substation 1 "are used as the special subject information.

In addition, when the information specifying unit specifies the subject information as the special subject information and two or more pieces of adjacent subject information are sorted, the information may be switched in the reverse order.

It should be noted that in this embodiment, the example is described with a small number of pieces of subject information, and in the actual image detection operation, the number of subjects is large, and the effect of the embodiment of the present invention is significant.

Similarly, for complex equipment or the condition that multi-angle shooting is needed, related shot object information can be prestored for shot objects (such as parts, angles and the like) which need to be shot independently and then sequenced, and omission of shot parts can be avoided.

It should be noted that, although in the present embodiment, the information mode includes the ranking factor setting step (step S102); but not limited to this, step S102 is not essential, and the object information sorting order may be determined based on a default sorting factor.

As described above, the user recognizes the subject or views the device identification plate by specifying the special subject information and displaying the image and the special displayed subject indication information on the display unit at the same time based on the pre-stored subject information and determining the sorting order of the subject information based on the sorting factor, and then reducing the situation of false shooting by using the special displayed subject indication information as the indication information of the currently shot subject; then, the information of the specified special shot objects is switched according to the determined sorting sequence, so that the indication information of the shot objects is particularly displayed according to the sorting sequence, the condition of wrong paths or disorder is greatly reduced, and omission is avoided; thereby improving the shooting efficiency and reducing the working strength. Wherein, through the display of the statistical shooting progress information, the user can reasonably arrange the shooting progress. In summary, 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.

Example 2

In the present embodiment, in the video apparatus 13 having the same configuration as that shown in fig. 1, a control program for setting a filter condition and a control program for specifying subject information based on the filter condition, and a control program for continuously performing recording and switching of specific subject information in response to a prescribed instruction operation or in accordance with a prescribed condition are stored in the flash memory 9. Taking a scene in which a user performs image detection on power equipment in the equipment area 1(1101), the equipment area 2(1102), and the equipment area 3(1103) in the substation 1 shown in fig. 11 as an example, unlike embodiment 1, the user decomposes the shooting task into a plurality of subtasks through a filtering condition, then sorts object information in the subtasks, and performs shooting. The present embodiment will be described with reference to fig. 12 to 17 assuming that the user first performs shooting of an object in the device area 1.

In step S201, the control unit 10 continuously monitors whether or not the user selects the information mode via the operation unit 11, and if so, the process proceeds to step S202.

Step S202, setting filtering conditions;

the control unit 10 controls the display unit to display the setting interface shown in fig. 3; when the user selects the filter condition setting item 303, and then the display section 4 displays the filter condition setting interface as exemplified in fig. 13, the user performs setting and determination of the filter condition; then, when the determination of the determination item 300 is detected, the flow proceeds to step S203.

A task setting section for a user to set a filtering condition (of object information included in the shooting task) composed of a keyword and a filtering logical relationship related to the filtering condition.

The task setting part is provided with a keyword determining unit, a logic determining unit and a filtering condition generating unit, wherein the keyword determining unit is used for determining keywords related to filtering conditions; a logic determination unit for determining a filtering logic relationship of the keywords related to the filtering condition; the filtering logical relationship can be a filtering non-relationship of a single keyword, or an and of a plurality of keywords, or a combination of the non-logical relationship and the filtering non-relationship; and a filtering condition generating unit for generating a filtering condition according to the keywords related to the filtering condition and the specified filtering logic relation.

The keyword related to the filtering condition may be a keyword; there may also be multiple keywords, where multiple keywords include situations representing a range of keywords, such as a range of numbers, a range of letters, a range of sort orders, a range of times, and so forth. In addition, when the subject information includes various information such as the attribution unit, classification level (for example, voltage level, importance level, etc.), model, manufacturer, performance, and characteristics, history of past shooting or inspection, date of manufacture, and lifetime, which are related to the subject, the keyword may be determined from the information to set the filtering condition.

A keyword determination unit for determining a keyword related to the filtering condition; for example, one or more of the following embodiments may be used to determine keywords associated with filtering criteria.

For example, keywords for selection are prestored, and keywords related to the filtering condition are determined based on the selection of the user.

For example, one or all of the keywords associated with the filter criteria by default.

For example, a keyword is entered by the user, and the keyword entered by the user is determined as a keyword related to the filter condition.

For example, a selection item of the keyword attribute for selection is provided, and based on the keyword attribute selected by the user, the keyword which meets the keyword attribute is determined as the keyword related to the filtering condition; this is the case when some of the subject information has attribute information of a specific attribute, and other portions of the subject information do not have attribute information of the specific attribute, it is possible to easily filter the subject information.

In a preferred embodiment, a keyword for obtaining attribute information of a predetermined attribute in the subject information is searched based on the subject information stored in the information storage unit, and the keyword related to the filter condition is specified based on a selection of a user.

Specifically, the control unit 10 controls the display unit 4 to display a filter condition setting interface as illustrated in fig. 13, and keyword menu items of keyword queries configured to represent attribute information of prescribed attributes, such as the substation 1303, the device area 1304, and the device type 1305 are displayed. When the subject information shown in fig. 15 is stored in the information storage unit, the control unit 10 searches the subject information stored in the information storage unit based on the device area 1304 selected by the user in accordance with the "device area 1" in the current image, obtains the keywords "device area 1, device area 2, device area 3, …" of the attribute information of the predetermined attribute (device area), causes the display list 1306 to display the keyword specifying means that specifies "device area 1" as the keyword related to the filtering condition from which the user selects "device area 1". Here, the display section 4, the operation section 11, and the control section 10 constitute an example of a task setting section; however, in this embodiment, when the types of keywords of the attribute information of the subject information are large, the operation becomes complicated.

In still another preferred embodiment, the keyword determination unit determines a keyword search condition, searches for a keyword that obtains attribute information of a predetermined attribute from the subject information that matches the keyword search condition based on the subject information stored in the information storage unit, and determines a keyword related to the filter condition based on a user's selection; wherein the keyword query condition is one or more of the keywords related to the filtering condition determined before.

When the object information as shown in fig. 15 is stored in the information storage portion, object information of some other substations is included. The control unit 10 causes the display unit 4 to display a filter condition setting interface in the setting operation, as shown in fig. 14, and when the user selects the substation 1403 via the operation unit 11, the control unit 10 inquires about keywords of attribute information of the attribute of the substation based on the subject information stored in the information storage unit and causes the list 1406 to be displayed; the user selects "substation 1" from among them, and the control unit 10 determines "substation 1" as a keyword related to the filter condition; then, when the device area 1404 is selected, the control section 10 determines "substation 1" selected by the user as a keyword query condition, and queries keywords of attribute information of the device area attribute that matches the subject information of "substation 1", so that the display list 1407 "device area 1, device area 2, and device area 3" is displayed, and the user selects the device type "device area 1" from among them; the control unit 10 determines "substation 1" and "equipment area 1" as keywords related to the filtering condition. Obviously, this way, the number of keywords to be selected will be simplified.

A logic determination unit for determining a filtering logic relationship of the keywords related to the filtering condition; the filtering logical relationship may be a filtering non-relationship when the keyword related to the filtering condition is a single keyword, or may be a combination of an and or a non-logical relationship between a plurality of keywords and a filtering non-relationship when the keyword related to the filtering condition is a plurality of keywords; either by default or as determined by user settings.

An example of a single keyword, such as the keyword related to the filtering condition being the single keyword "device area 1", see fig. 13, the "yes" 1301 and "no" 1302 options of the shooting condition for setting the filtering non-relation; when yes is selected, the filtering condition generated by combining the keyword 'equipment area 1' is used for subsequent searching and determining the shot object information conforming to the 'equipment area 1' as a shooting task; when the 'not' is selected, the filtering condition generated by combining the keyword 'equipment area 1' is used for subsequent searching and determining the shot object information conforming to the 'equipment area 1'. In this example, the logic determination unit

The filter is determined to be "yes" from the default filter is yes. Then, when the user specifies the filtering condition through the operation unit 11, the filtering condition generating means (control unit 10) generates the filtering condition by combining the default filtering non-relationship "yes" with the keyword "device area 1" selected by the user. When the task is determined, the subject information conforming to the keyword "device area 1" is searched as the determined subject information.

Examples of the plurality of keywords, such as the keywords related to the filtering condition are "substation 1" and "equipment area 1", see fig. 14, the logic determination unit determines the filtering non-relationship as "yes" according to the default filtering non-relationship, and determines the logical relationship of the keywords "substation 1" and "equipment area 1" as "and" according to the default logical relationship (the keywords with different attributes are "and" relationship "); when the user specifies the filtering condition through the operation unit 11, the filtering condition generating means (control unit 10) combines the keywords "substation 1" and "equipment area 1" related to the filtering condition with the default logical relationship "and" with the default filtering non-relationship "yes" to generate the filtering condition. When the task is determined, the subject information conforming to the keyword "substation 1" and conforming to "equipment area 1" is searched as the determined subject information. However, the logic determination unit may be configured to set a logical relationship between keywords by a user (not shown).

When the setting of the filter conditions is completed and the user specifies it by the specifying key in the operation section, the generated filter conditions are recorded in the temporary storage section 6 or in the flash memory 9 or the like (for example, a profile is generated) for later use. The process advances to step S203.

In step S203, the task specifying unit specifies the object information from the object information stored in the information storage unit. The plurality of determined object information are used to specify the special object information therefrom, which can be understood as object information included in the shooting task. When the information storage section stores the subject information shown in fig. 15 as the filter conditions such as "substation 1" and "equipment area 1", the subject information conforming to the keyword "substation 1" and conforming to "equipment area 1" is searched as the determined subject information (the subject information shown in fig. 16).

In step S204, the order of sorting the object information is determined.

In the present embodiment, the control section 10 controls to display the subject instruction information obtained by the predetermined number of subject information in accordance with a default ranking factor at a predetermined position on the display section 4, as shown at 1701 in fig. 17; then, the user carries out sequencing adjustment on the displayed shot object indication information, and the order is arranged by carrying out dragging operation through a cross key or a touch screen; in addition, information representing the sort order such as a number may also be entered; the object indication information and the sorting order as indicated by 1702 shown in fig. 17 are obtained. Here, the order determination unit determines the order of the object information corresponding to the object instruction information in response to a predetermined operation for adjusting the order of the object instruction information displayed on the display unit.

Step S205, specifying special subject information;

when the sorting adjustment is completed, the user selects the object instruction information "substation 1 equipment area 1 equipment ic phase" indicated by 1702 in fig. 17, and the control unit 10 designates the object information corresponding to the object instruction information as the special object information, and proceeds to step S206.

Step S206, transferring the image data obtained by the imaging unit 1 to the temporary storage unit 6; the image processing unit 2 performs a predetermined process on the image data captured by the imaging unit 1 to obtain image data of a video, and stores the image data in the temporary storage unit 6.

In step S207, the subject instruction information obtained from the special subject information is displayed on the display unit 4 together with the video.

In step S208, the control unit determines whether or not a predetermined instruction operation is performed, and if not, the steps S206 to S208 are repeated, and if the predetermined instruction operation is performed, the process proceeds to step S209.

When the user finishes shooting the corresponding object according to the object indication information "device ic phase in equipment zone 1 of substation 1", in the display interface 1702, and then presses the switching key 2 (in this example, configured as a key representing recording and switching operations) of the operation part 11, the operation of completing recording and switching by one-key operation is realized, and here, the user does not need to look at the object indication information shown in the display interface for selection or search, and the operation is simple.

Further, the control unit 10 may be configured to perform the control based on a predetermined condition; for example, when it is determined that a predetermined time interval is met, for example, when an analysis value of an image exceeds a predetermined threshold (for example, a temperature in a thermal image exceeds a predetermined threshold), or when a predetermined condition such as a trigger signal of another sensor device connected to the imaging device 13 is detected, the process automatically proceeds to the following step even if there is no predetermined instruction from the operation unit 11. The predetermined condition includes that, even if an operation of the operation unit 11, for example, a recording instruction operation, is performed, the following procedure is performed when other predetermined conditions are simultaneously satisfied, for example, a predetermined time interval is met or a trigger signal is detected. Obviously, the prescribed condition may be various conditions configured in advance.

Step S209, recording processing.

In response to the predetermined instruction of the operation, the control unit 10 associates and records predetermined video data with information on the designated object information "substation 1 equipment area 1 equipment ic phase"; the recording process is similar to that described in example 1 and will not be repeated. And then proceeds to step S210.

In step S210, the control unit 10 determines whether or not the task is completed.

If the shooting mode is finished, the information indicates that the shooting mode is finished, the imaging device returns to the standby state, and the user waits for the task setting of the equipment area 2 and the equipment area 3 to be carried out again and shooting is carried out. If not, the process returns to step S205, and the switching is performed in the order of sorting, and the object information "equipment zone 1 equipment ic phase in substation 1" specified before the switching as the special object information is switched to "equipment zone 1 equipment ib phase in substation 1".

In the embodiment, after entering the information mode, task setting is performed; but not limited to this, the task setting may also be performed first, for example, a new data file is generated; then entering an information mode; moreover, the task setting may be performed a plurality of times, and different combinations may be performed to obtain more embodiments.

Further, in the present embodiment, there is a single key (e.g., a switching key) configured to perform a recording instruction operation and a switching instruction operation, and a corresponding control program, and in response to a prescribed instruction operation (e.g., the same operation) or a prescribed condition of the key, the control section 10 continuously performs control of the recording process of step S209 and the switching process of step S210; the operation is simpler. In this embodiment, recording processing is performed first, and then switching processing is performed, for example, "i C phase of equipment in equipment area 1 of substation 1" is recorded first, and then "i B phase of equipment in equipment area 1 of substation 1" is switched; however, the switching process may be performed first, that is, the switching is performed to "substation 1 equipment area 1 device ib phase", and then the specified special object information "substation 1 equipment area 1 device ic phase" before the switching is recorded in association with the predetermined image data; the recording unit may be configured to record predetermined infrared data in association with information on the specified special subject information in response to a recording instruction operation or according to predetermined recording conditions.

In order to correctly describe the internal working principle and steps, a step-by-step description mode is adopted in the embodiment, but in the actual implementation process, different implementation modes can be adopted for facilitating the operation of a user, for example, the operation can be optimized from the aspect of operation based on the same (secondary) operation and/or the action of continuously recording and switching according to the specified conditions, so that the operation is more convenient, the same operation is the same operation action for the same key, and the same operation action can complete a plurality of steps (such as completing the recording indication operation and switching indication operation) described above; for example, different operation actions (such as half-pressing and full-pressing) in the same operation on the same key, where the different operation actions in the same operation implement one or more steps described above respectively (such as completing the recording indication operation and the switching indication operation respectively, or completing the recording indication operation and the switching indication operation simultaneously); for example, the operation actions of different keys within a specified time (e.g., the recording instruction operation and the switching instruction operation can be completed separately, or the recording instruction operation and the switching instruction operation can be completed simultaneously). Further embodiments can be obtained by performing different combinations of configurations such as a switching instruction operation and a recording instruction operation (for example, a combination of functions such as a key function and an operation). The operation is not limited to the key, and may be performed by other operation means such as a touch panel.

Preferably, the image processing apparatus further includes a freeze control unit which performs freeze display of the image in response to a freeze instruction operation or according to a predetermined freeze condition. For example, when a freeze key (configured to execute a freeze instruction operation) is pressed, a freeze display of the image is performed, and the user can confirm that the image is recorded. Alternatively, the switch key 2 may be provided with an operation function for freeze/confirmation (for example, a step of freeze display and confirmation is provided before the recording step), or the control unit 10 may be configured to perform the freeze/confirmation operation based on other predetermined freeze conditions; for example, when it is determined that a predetermined time interval is met, for example, when an analysis value of a video exceeds a predetermined threshold (for example, a temperature in a thermal video exceeds a predetermined threshold), or when a predetermined freeze condition such as a trigger signal of another sensor device connected to the video apparatus 13 is detected, the freeze processing is automatically executed even if the freeze operation of the operation unit 11 is not performed. The predetermined freezing condition includes that the freezing process is performed when other predetermined conditions, such as a predetermined time interval is satisfied or a trigger signal is detected, are satisfied even if the freezing operation of the operation unit 11 is performed. Obviously, the freeze instruction operation can be combined with the configurations such as the switch instruction operation and the record instruction operation to obtain more embodiments.

As described above, by setting the filtering condition of the subject information in the shooting task, the display of redundant information can be reduced, the number of the subject indication information is reduced, and the displayed subject indication information is easy to adjust the sorting order; moreover, the shooting path is defined in advance, and the purposes of reducing the strength, improving the efficiency and avoiding missing the shot objects are achieved in the subsequent shooting.

Example 3

In the present embodiment, in the imaging device 13 having the same structure as that shown in fig. 1, a control program for setting group sorting and filtering conditions and a control program for determining object information according to the filtering conditions are stored in the flash memory 9, and taking a scene in which a user performs image detection on an electric power device of the type "device i" in the device area 1, the device area 2, and the device area 3 in the substation 1 shown in fig. 11 as an example, conventionally, due to different purposes of detection, there are detection of all objects in the whole substation and detection of objects of specific types, which are distributed in different device areas and need to be searched by the user, which is very inconvenient. Obviously, if the object information is used as the filtering condition, the user can conveniently shoot.

Unlike embodiment 1, three data files are stored in the memory card, and as shown in fig. 21, data file 1 (list 2101) includes subject information in which a sort order is assigned to the device area 1, data file 2 (list 2102) includes subject information in which a sort order is assigned to the device area 2, and data file 3 (list 2103) includes subject information in which a sort order is assigned to the device area 3; in order to plan the optimal shooting efficiency route, a user sets a sequencing sequence among data files according to a layout diagram of a transformer substation, then sets the equipment I as a filtering condition, and then shoots. The present embodiment is explained with reference to fig. 18 to 22.

In step S301, the control unit 10 continuously monitors whether or not the user selects the information mode via the operation unit 11, and if so, the process proceeds to step S302.

Step S302, setting a sorting factor among the data files;

the control section 10 controls to cause the display section to display the setting menu shown in fig. 3, when the user selects the group setting item 301 shown in fig. 3 therefrom, causes the data file list 1802 shown in fig. 18 to be displayed based on the data file (group) stored in the information storage section, the user sets the sort factor (sorted list 1801) for the data files in the list, when the setting is completed, returns to the setting menu shown in fig. 3, and when the user selects the filter condition setting item 303 therefrom again, proceeds to step S303.

The information storage section is used for storing a plurality of sets of subject information in advance, and the setting section for setting the sorting factor between the sets. The group referred to here may be a set containing a plurality of subject information with a common group identification, such as a data file, a folder, or the like; further, after the group sorting is completed, the setting or viewing of the sorting factor can be performed again for the same group of subject information.

Step S303, setting filtering conditions;

and a task setting section for the user to set a filtering condition (of object information included in the shooting task).

The control unit 10 displays a filter condition setting interface shown in fig. 20, and in one embodiment, the control unit 10 searches the subject information in the data files 1, 2, and 3 specified in step S302 based on the device type 2001 selected by the user based on the current image of "device i", obtains keywords "device i, device ii, and device iii" of attribute information of predetermined attributes (device type), displays the list 2002, and the user selects "device i" from the keywords, and generates a filter condition based on a default filter non-relationship "yes" and "join keyword" device i ". When the user completes the setting and determines the determination item 300 shown in fig. 3, go to step S304; further, other determination methods as set forth in step S202 in embodiment 2 may also be employed to determine the filter condition.

Step S304, determining the shot object information and the sequencing order thereof;

based on the filter condition determined in step S303, the subject information conforming to the keyword "device i" is searched for in the data files 1, 2, and 3 as the determined subject information, and the determined subject information and the sorting order thereof are shown as a schematic list 2104 in fig. 21 in combination with the group sorting factor set in step S302 and the sorting factor of each group of subject information, where "device area 2" and "device ii", "device iii" are reduced compared to the data files 1, 2, and 3 before task determination, and the number of shooting tasks of the devices is reduced to "6". Obviously, the shooting path in the specific shooting task is simplified, the searching work of the equipment I in the equipment area 2 is avoided, and the working strength is reduced.

Step S305, specifying special subject information;

the control unit 10 controls to designate the first object information "substation 1 equipment area 1 device ic phase" in the sorting order added to the specified object information as the special object information.

Step S306 of transferring the image data obtained by the imaging unit 1 to the temporary storage unit 6; the image processing unit 2 performs a predetermined process on the image data captured by the imaging unit 1 to obtain image data of a video, and stores the image data in the temporary storage unit 6.

In step S307, the subject instruction information obtained by the special subject information is displayed on the display unit 4 together with the video.

In step S308, the control unit determines whether or not a predetermined instruction operation is performed, and if not, the steps S306 to S308 are repeated, and if so, the process proceeds to step S309.

When the user finishes shooting the corresponding object and then presses the switching key 2 of the operation section 11 (in this example, a key configured to represent recording and switching instruction operations), an operation of finishing recording and switching by one-key operation is realized, and the operation is simple.

In step S309, recording processing is performed.

In response to the predetermined instruction of the operation, the control unit 10 records predetermined video data in association with information on the designated subject information; the recording process is similar to that described in example 1 and will not be repeated. And then proceeds to step S310.

In step S310, the control unit 10 determines whether or not the task is completed.

If the shooting mode is finished, the current information indicates that the shooting mode is finished, the image device returns to the standby state, and the user waits for entering the operation of other modes. If not, the process returns to step S305, and the subject information in the determined sort order is subjected to sort order switching designation.

In this embodiment, when the user finishes shooting the device i in the device area 1, the user will go to the device i in the shooting device area 3, and avoid searching for the device i in the device area 2, as shown in fig. 22, the shooting paths of the device areas 1(2201), 2(2202), 3(2203) change from L11 in fig. 11 to L22 in fig. 22.

As described above, by setting the sorting factor between groups, a quick operation of sorting groups is provided; by setting the filtering condition, the display of redundant information can be reduced, the displayed shot object indication information is more instructive, the shooting path is simplified, and the aims of reducing the strength, improving the efficiency and avoiding omission are fulfilled. Obviously, when various filtering conditions are set, great convenience is brought to shooting of a user. If the object information has the attribute information of the history (such as the past defect situation), the user can quickly find the related information of the defect object by inquiring the defect situation, thereby being convenient for the retest.

Example 4

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 image processing device or the like that receives and processes image data from the outside. The present embodiment takes the image processing apparatus 100 as an example of an image recording apparatus.

In the embodiment, as shown in fig. 24, the image capturing device 101 is mounted on the inspection vehicle by a cradle head or the like, and is connected to the image processing device 100 via a communication line such as a dedicated cable or a wired or wireless lan. The user views the subject image through the image processing apparatus 100. The image capturing device 101 is connected to the image processing device 100 to constitute an image capturing system in the embodiment.

Fig. 23 is a block diagram showing an electrical configuration of an embodiment of an image capturing system in which the image processing apparatus 100 and the image pickup apparatus 101 are connected.

The video processing apparatus 100 includes a communication interface 1, an auxiliary storage unit 2, a display control unit 3, a display unit 4, a hard disk 5, a temporary storage unit 6, an operation unit 7, and a CPU8 connected to the above components via a bus to perform overall control. The image processing apparatus 100 may be a computer or a dedicated processing apparatus. The image processing apparatus 100 receives image data output from the image capturing apparatus 101 connected to the image processing apparatus 100 via the communication interface 1 under the control of the CPU 8. The communication interface 1 is used for continuously receiving image data output by the image acquisition device 101; the method comprises the steps of receiving image data (transmitted by the relay device through the image data output by the image acquisition device 101) transmitted by the relay device; meanwhile, the device can also be used as a communication interface for controlling the image acquisition device 101. Here, the communication interface 1 may be various wired or wireless communication interfaces on the image processing apparatus 100, such as a network interface, a USB interface, a 1394 interface, a video interface, and the like. The auxiliary storage unit 2 is a storage medium such as a CD-ROM or a memory card, and a related interface. The display control unit 3 displays a display image on the display unit 4 under the control of the CPU 8. The display unit 4 may be a liquid crystal display, or the image processing apparatus 100 itself may have no display in its electrical configuration. The hard disk 5 stores therein a program for control and various data used in the control. 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 video data received by the communication interface 1 and as a work memory of the CPU 8. The operation unit 7: for the user to operate. The CPU8 controls the overall operation of the image processing apparatus 100 and executes various related processes. For example, the received video data is subjected to predetermined processing such as correction, interpolation, pseudo-color, synthesis, compression, decompression, and the like, and converted into data suitable for display, recording, and the like. For example, when the received video data is compressed video AD data, predetermined processing such as the CPU7 decompresses the video data received by the acquisition unit and performs corresponding predetermined processing; for example, when the received video data itself is the image data of a compressed video, the image data of the video is decompressed to be obtained. For example, when the communication interface 1 receives an analog video, it AD-converts the received analog video to digital video image data by the AD conversion circuit.

The image capturing device 101 includes a communication interface 10, an imaging unit 20, a flash memory 30, a temporary storage unit 50, an image processing unit 40, a CPU60, and the like. The CPU60 controls the overall operation of the image capturing device 101, and the flash memory 30 stores a control program and various data used for controlling each part. The image capturing unit 20 captures image data, the temporary storage unit 50 temporarily stores processed data, the image processing unit 40 compresses the captured image data, and the CPU60 controls the output of the processed image data via the communication interface 10.

The configuration of the imaging device 13 except for the imaging unit 1 is substantially the same as that of the image processing device 100, and it is obvious that the present embodiment is applied similarly by acquiring image data from an external source. Therefore, the description of the embodiments is omitted. Obviously, the image processing apparatus 100 can be used with various image capturing devices having image capturing functions, such as various handheld image devices.

Other embodiments

It should be noted that, although in the above embodiments, the information mode includes the filtering condition and the sorting factor setting; but not limited to this, the filter condition and the sorting factor setting are not essential, and the subject information and the sorting order may be determined based on a default filter condition or a default sorting factor.

In addition, the setting of the filtering condition or the sorting factor can be separately carried out for subsequent use. For example, the filtering conditions and sorting factors may be set first and saved as default values or configuration files for subsequent use; the information of the object to which the sorting order is added can be obtained according to the filtering condition and the sorting factor, for example, a new data file is generated, and then the information mode is entered.

In addition, the preferable mode is that the filtering condition is set firstly, and then the sequencing factor is set; but not limited to, the filtering condition setting step and the sequencing setting step can be set simultaneously without sequencing or in the same operation interface; in addition, repeated settings of filtering conditions or ranking factors may also be made.

Further, in the above-described embodiment, the filtering condition setting step, the sorting order setting step, the task determination step, and the sorting determination step are set forth in sub-steps, but may be configured as an immediate progressive process in which when the filtering condition is set, the task determination section performs determination of the subject information in accordance with the filtering condition; when the sort factor of the keyword is set, the sort determination section performs determination of the sort order of the object information determined by the task determination section; when the setting is totally determined, as is determined for the determination item 300 in fig. 3, the processing of the specifying step of the special subject information is entered.

Further, the display unit of the display unit 4 may be configured to have more than one display, and there may be a display for displaying an image and a display for displaying the subject information exclusively, and the display control of the simultaneous display by the display control unit may be the simultaneous display on the same display or on different displays.

Preferably, the subject instruction information is displayed simultaneously with the continuous video; not limited to this, for example, a moving image may be displayed on the display unit 4, and when a display instruction of predetermined object instruction information to be displayed in particular is received, the object instruction information and the frozen image may be displayed simultaneously; in addition, the switching display of the shot object information and the image can be realized; a display control section for displaying the subject instruction information obtained based on the special subject information specified by the information specifying section in a special display mode in response to the display instruction of the subject information; then, the switching operation can be performed, and the switched object indication information can be displayed, or the display of the image can be switched back, or the recording process can be performed. After the special display, the display may be blanked after a predetermined time or based on a user operation to avoid occupation of the display screen. In the above-described embodiment, the user may select a plurality of pieces of subject information displayed in the sorted order without performing the switching operation, and the information specifying unit may specify the piece of subject information as the special subject information based on the selection by the user and record the piece of subject information.

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.

It is obvious that, when the image recording apparatus of the present invention is used as a component of an image apparatus having a display control unit, the display control unit can be omitted, and the present invention is also configured.

In the example of the embodiment, the example is described with the object information having a small number, and in the actual image detection operation, the number of objects is large, and the effect of the embodiment of the present invention is remarkable. Here, when the object has a requirement for multi-angle shooting, the object information having shooting angle information is also stored in advance, and then a sorting factor of the shooting angles is set in sorting.

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 the embodiment, the subject application in the power industry is exemplified as 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 (21)

1. An image recording apparatus, comprising:

an acquisition unit configured to acquire image data;

an information specifying unit configured to specify subject information as special subject information based on the plurality of subject information stored in the information storage unit; the shot object information is information representing the identity of a shot object;

the shot object information is information representing the identity of a shot object and comprises one or a combination of a shot object location, a type and a number; all attribute information or partial attribute information of the object information is specified by an information specifying unit;

a recording unit configured to record, in response to a recording instruction operation or in accordance with a predetermined recording condition, predetermined video data in association with information on the specified special subject information, the predetermined video data being obtained by performing predetermined processing on the video data acquired by the acquisition unit and/or the video data acquired by the acquisition unit;

the recording part is provided with a file name generating unit for generating a file name of video data which can be used for batch processing and contains specified video data, wherein the file name at least contains attribute information of specified special shot object information;

an information specifying unit that switches the specified special subject information in the order of the subject information based on the subject information stored in the information storage unit in response to a switching instruction operation or in accordance with a predetermined switching condition;

an information specifying unit that specifies the subject information as the special subject information as two or more pieces of subject information adjacent to each other in order; the information designating unit sorts the specified specific number of pieces of the adjacent object information by the specific number of pieces of the adjacent object information designated before switching to the specific number of pieces of the adjacent object information starting from the next object information in the sorted order series of the specified object information designated before switching.

2. The image recording apparatus according to claim 1, wherein the recording unit is configured to record predetermined image data in association with information relating to the specified special subject information, based on the same operation and/or in accordance with predetermined conditions; the information specifying unit switches the specified special subject information based on the sorting order.

3. The video recording apparatus according to claim 1, wherein the task specifying unit specifies the subject information from the subject information stored in the information storage unit; an information specifying unit configured to specify subject information as special subject information from the subject information specified by the task specifying unit; the information specifying unit switches the specified special subject information in accordance with the order of sorting the subject information based on the subject information specified by the task specifying unit in response to a switching instruction operation or in accordance with a predetermined switching condition.

4. The video recording apparatus according to claim 3, wherein the task specifying unit specifies the subject information that meets the filter condition based on the subject information stored in the information storage unit and on a predetermined filter condition.

5. The image recording device according to claim 4, having a task setting section for setting a filtering condition of the subject information; the task setting part comprises a keyword determining unit, a logic determining unit and a filtering condition generating unit; wherein, the keyword determining unit is used for determining keywords related to the filtering condition; a logic determination unit for determining a filtering logic relationship of the keywords related to the filtering condition; and the filtering condition generating unit is used for generating the filtering condition according to the keywords related to the filtering condition and the filtering logic relation.

6. The image recording device according to claim 3, characterized in that, it has

A sort determination section for determining a sort order of the object information determined by the task determination section; the information specifying unit switches the specified special object information based on the order of the object information determined by the order determining unit in response to a switching instruction operation or in accordance with a predetermined switching condition.

7. The image recording device according to claim 6, wherein the ranking determining unit determines the ranking order by ranking the subject information determined by the task determining unit based on a predetermined ranking factor.

8. The image recording apparatus according to claim 6, wherein the information storage section is for storing a plurality of sets of subject information in advance, and has a set ranking factor setting section for setting a ranking factor for the sets; the ranking determining section determines a ranking order for the plurality of groups of the object information determined by the task determining section, based on the group ranking factor in combination with the ranking factors of the object information in each group.

9. The video recording apparatus according to claim 6, further comprising a display control section for controlling the display section to display the video generated from the video data and displaying the subject instruction information obtained based on the special subject information specified by the information specifying section in a special display mode.

10. The image recording device according to claim 1, wherein the acquiring section is configured to acquire image data continuously; and a display control unit for controlling the display unit to display a moving image generated from the continuously acquired image data, and displaying the subject instruction information obtained based on the special subject information specified by the information specifying unit in a special display mode.

11. The image recording apparatus according to claim 1 or 2, wherein the display control section controls the display section to display the number of images based on the subject information stored in the information storage section

And displaying the object indication information obtained by the specified number of object information according to the sequence order of the object information at the same time of the generated video, wherein the object indication information obtained by the special object information is specially displayed in a display mode different from other object indication information.

12. The image recording device according to claim 1 or 2, wherein the image recording device is an image capturing device with a capturing function, which is one or more of a visible light capturing device, a thermal imaging device, an ultraviolet capturing device, and a laser imaging device, and the acquiring unit is configured to capture and acquire image data and has at least one image sensor.

13. The image recording device according to claim 1, wherein an information storage unit is provided for storing a plurality of pieces of subject information in advance.

14. The image recording apparatus according to claim 1 or 2, wherein the freeze control unit performs freeze display of the image in response to a freeze instruction operation or in accordance with a predetermined freeze condition.

15. The image recording device according to claim 2, wherein the image recording device comprises a task specifying unit for specifying the subject information from the subject information stored in the information storage unit; and a display control unit for controlling the display unit to display the video generated from the video data and displaying a predetermined number of pieces of subject instruction information in the order of the subject information based on the subject information determined by the task determination unit.

16. The image recording method comprises the following steps:

an acquisition step for acquiring image data;

an information specifying step of specifying object information as special object information based on the plurality of object information stored in the information storage unit; the shot object information is information representing the identity of a shot object; the shot object information is information representing the identity of a shot object and comprises one or a combination of a shot object location, a type and a number; all attribute information or partial attribute information of the object information is specified by an information specifying unit;

a recording step of recording, in response to a recording instruction operation or in accordance with a predetermined recording condition, predetermined video data in association with information relating to the specified particular subject information, the predetermined video data being obtained by performing predetermined processing on the video data acquired by the acquiring step and/or the video data acquired by the acquiring step;

the recording step comprises a file name generating step of generating a file name of the video data including the specified video data, the file name including at least attribute information of the specified special shot object information, wherein a separation mark for batch identification is provided between at least one pair of attribute information among the attribute information of the specified special shot object information in the file name;

an information specifying step of switching the specified special subject information in the order of the subject information based on the subject information stored in the information storage unit in response to a switching instruction operation or in accordance with a predetermined switching condition;

when the information appoints the step, appoint as the information of the particular object of shooting the object information, for two or more adjacent object information of ordering; the information designating unit sorts the specified specific number of pieces of the adjacent object information by the specific number of pieces of the adjacent object information designated before switching to the specific number of pieces of the adjacent object information starting from the next object information in the sorted order series of the specified object information designated before switching.

17. The image recording method according to claim 16, wherein the recording step is for associating and recording predetermined image data with information relating to the specific subject information designated before the switching, based on the same operation and/or in accordance with a predetermined condition; the information specifying step switches the special subject information specified before switching, based on the sort order.

18. The image recording method as claimed in claim 17, characterized by comprising a task determining step of determining the subject information from the subject information stored in the information storage section; an information specifying step of specifying object information as special object information from the object information determined by the task determining step; the information specifying step switches the specified special subject information in accordance with the order of sorting the subject information based on the subject information specified in the task specifying step in response to a switching instruction operation or in accordance with a predetermined switching condition.

19. The image recording method according to claim 17, wherein the ranking determining step determines the ranking order by ranking the subject information determined by the task determining step based on a prescribed ranking factor.

20. The image recording method according to claim 16, comprising a task determining step of determining the subject information from the subject information stored in the information storage unit; and a display control step of controlling, based on the subject information determined in the task determination step, to cause the display unit to display the video generated by the video data, and to display subject instruction information obtained by a predetermined number of pieces of subject information in the order of the pieces of subject information, wherein the subject instruction information obtained by the special subject information is displayed in a manner of being distinguished from the other pieces of subject instruction information.

21. The image recording method according to any one of claims 16 to 20, wherein there is a freeze control step of freeze-displaying the image in response to a freeze instruction operation or in accordance with a prescribed freeze condition.

Images