WO2014044202A1 - Infrared information display control device and infrared information display control method - Google Patents

Abstract

An infrared information display control device, comprising a thermal image data acquisition portion, an image processing portion, and a display control portion; and an infrared information display control method, relating to a thermal imaging device (13), a thermal image processing device (100), and the application field of infrared thermal image detection; the device and method, based on the stored subject information, can simultaneously display an infrared thermal image and a specified amount of subject selection information acquired from the subject information, and can display in a distinguishing manner the subject selection information acquired from the subject information having specific information and the subject selection information acquired from the other subject information, or does not display either of the two, thus a user can distinguish the information of the subject needing to be photographed from the information of the subject not needing to be photographed, thus solving the problems of mistaken photographing and subject omission in the prior art due to the fact that a photographer selects a subject to be photographed based on subjective experience.

Description

 Description

 Infrared information display control device and infrared information display control method

Technical field

 The infrared information display control device and the infrared information display control method of the present invention relate to the fields of thermal imaging devices, thermal image processing devices, and infrared detection.

Background technique

 As a well-known technique, thermal imaging devices are widely used in industrial and construction fields. In the infrared detection, the number of subjects is large, the shape of the subject is similar, and the environment is complicated. The photographer selects the subject to be photographed according to subjective experience, and it is easy to mistakenly photograph and miss the subject, and the efficiency of infrared detection is low.

 At present, in the infrared detection, the user is required to record the subject information according to the on-site nameplate recognized by the subject, for example: manual paper recording thermal image file name and corresponding subject information; on the memory card A folder corresponding to the subject information is created, and the thermal image file is stored in the corresponding folder; a voice annotation of the object information of the scene is attached to the thermal image file. To know which subjects have been taken, or not yet taken, these methods have various inconveniences such as inconvenience in operation and error.

 Since the application of thermal image detection technology, there is no suitable means to quickly and easily know whether the subject is photographed. A person skilled in the art has been trying to solve this problem. Some methods that can be used for reference, for example, Patent Document Application No.: 200410001328, discloses a camera that can be used to notify the identification by receiving a wireless tag ID mounted on a subject. The information of the subject is easy to associate with the record. Obviously, depending on the subject information recorded during playback, it is possible to know whether or not the photograph is taken; however, the wireless tag is inconvenient to install, the cost is increased, and it is not applicable in some cases where electromagnetic interference is large; This method is also inconvenient.

 Therefore, it is understood that an infrared information display control device is required, and the user can easily understand the indication information of the subject to be photographed, thereby solving the existing problems.

 Summary of the invention

 The present invention provides an infrared information display control device and an infrared information display control method for displaying subject selection information obtained by displaying a predetermined number of subject information while displaying an infrared thermal image based on the stored subject information. The subject selection information obtained by the subject information having the specific information and the subject selection information obtained by the other subject information are displayed in a different manner, or one of them is not displayed. Thereby, the user can easily distinguish between the subject information that needs to be taken and the subject that does not need to be photographed. Solve the current problems.

 To this end, the present invention adopts the following technical solutions, and the infrared information display control device includes:

 An acquisition unit, configured to acquire thermal image data;

 An image processing unit, configured to perform pseudo color processing on the acquired thermal image data to obtain an infrared thermal image;

 a display control unit configured to cause the display unit to display the infrared thermal image, and to cause the display unit to simultaneously display a predetermined number of subject selection information based on the plurality of subject information stored in the storage medium;

 The display control unit includes an information detecting unit that detects specific information associated with the subject information, and the display control unit that selects object selection information obtained by the subject information associated with the specific information. The subject selection information obtained with other subject information is displayed in a different manner, or one of them is not displayed.

The method of the present invention includes the following steps: an obtaining step of acquiring thermal image data; an image processing step for performing pseudo color processing on the acquired thermal image data to obtain an infrared thermal image; and a display control step for causing the display portion to display The infrared thermal image, and based on the plurality of object information stored in the storage medium, causing the display unit to simultaneously display a predetermined number of subject selection information; wherein the display control step has an information detecting unit for detecting and being Specific information associated with the subject information; The description display control step displays the subject selection information obtained by the subject information associated with the specific information and the subject selection information obtained by the other subject information, and displays the two in a different manner, or not Show one of them.

 Furthermore, the present invention provides a computer program which is a program executed in an infrared information display control device, which causes the infrared information display control device to perform the above steps. Embodiments of the present invention also provide a readable storage medium storing a computer program, wherein the computer program causes the infrared information display control device to perform the above steps. Other aspects and advantages of the invention will be set forth in the description which follows.

BRIEF DESCRIPTION OF THE DRAWINGS:

 Fig. 1 is a block diagram showing the electrical configuration of a thermal imaging device of the first embodiment.

 Fig. 2 is an external view of the thermal image device of the first embodiment.

 Fig. 3 is a control flow chart showing an example of an information mode.

 4 is an example of a schematic list of object information stored in a storage medium.

 Fig. 5 is a schematic list example of subject information stored in a storage medium in which time information at the time of recording is associated with the subject information selected by the selection unit in the table.

 Fig. 6 is a schematic diagram showing a display interface of a predetermined number of subject selection information and an infrared thermal image. Wherein 601 is an interface in an unselected state; 602 is an interface in which subject selection information is selected; 603 is a subject selection corresponding to subject information having specific information after undergoing marking processing in the selected state. The interface of the information (double line).

 Fig. 7 is another schematic diagram of a display interface of a predetermined number of subject selection information and an infrared thermal image.

 Fig. 8 is a diagram showing the file structure of a thermal image file stored in association with the infrared data.

 Fig. 9 is a control flow chart of the determination processing of the subject information.

 Fig. 10 is a schematic diagram showing an example of a setting interface of filter conditions.

 Fig. 11 is a diagram showing an example of a schematic list of subject information filtered according to filter conditions.

 Fig. 12 is a view showing the display of the object selection information and the infrared thermal image obtained by the filtered subject information.

 Fig. 13 is a diagram showing an example of a schematic list of object information stored in the storage medium of the embodiment 2.

 Fig. 14 is a diagram showing an example of a schematic list of object information stored in the storage medium of the embodiment 2, wherein the underlined time information is time information of the mark processing, replacing the original time information.

 Figure 15 is a flow chart showing the control of the information mode of the second embodiment.

 16 is an example of a display interface showing a predetermined number of subject information and an infrared thermal image; wherein 1601 is an interface in an unselected state; 1602 is an interface in which subject selection information is selected; 1603 is associated with specific information. The interface of the subject selection information corresponding to the subject information.

 Fig. 17 is a view showing a display column of three display modes of subject information having specific information.

 Fig. 18 is a block diagram showing an electrical configuration of an embodiment of an infrared information display control system in which the thermal image processing apparatus 100 and the thermal image capturing apparatus 101 are connected.

 Fig. 19 is a view showing an implementation of an infrared information display control system in which the thermal image processing apparatus 100 and the thermal image capturing apparatus 101 are connected.

 detailed description

Embodiments of the present invention will be described with reference to the drawings. It is to be noted that the embodiments to be described below are intended to provide a better understanding of the invention, and are not intended to limit the scope of the invention, and may be varied in various forms within the scope of the invention. The so-called thermal image data may be thermal image AD value data (for example, data obtained by AD conversion of an infrared detector output signal), or image data of an infrared thermal image. Array data of specifications or temperature values, or other data generated based on thermal image AD value data, etc. Embodiment 1 The configuration of the thermal imaging device 13 of Embodiment 1 will be described with reference to Fig. 1 using the thermal imaging device 13 as an example of the infrared information display control device. Fig. 1 is a block diagram showing the electrical configuration of a thermal imaging device 13 of an embodiment.

 The thermal 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/F 5, a temporary storage unit 6, a memory card I/F 7, a memory card 8, a flash memory 9, and a control unit 10. In the operation unit 11, the control unit 10 is connected to the corresponding portion of the data bus 12 by the control, and is responsible for the overall control of the thermal image device 13.

 The imaging unit 1 is composed of an optical member (not shown), a lens driving member, an infrared detector, a signal preprocessing circuit, and the like. The optical component consists of an infrared optical lens for focusing the received infrared radiation onto the infrared detector. The lens driving section drives the lens in accordance with a control signal of the control section 10 to perform a focusing or zooming operation. In addition, it can also be a manually adjusted optical component. Infrared detectors, such as infrared or non-cooling type infrared focal plane detectors, convert infrared radiation through optical components into electrical signals. The signal pre-processing circuit comprises a sampling circuit, an AD conversion circuit, a timing trigger circuit, etc., and the signal output from the infrared detector is sampled and processed in a predetermined period, and converted into digital thermal image data by the AD conversion circuit. The thermal image data is, for example, 14-bit or 16-bit binary data (also referred to as an AD value).

 The image processing unit 2 performs predetermined processing on the thermal image data obtained by the imaging unit 1, and the processing of the image processing unit 2 is converted to be suitable for display, such as correction, interpolation, pseudo color, synthesis, compression, decompression, and the like. Record processing with equal data. The image processing unit 2 performs predetermined processing on the thermal image data obtained by the imaging unit 1 to obtain image data of the infrared thermal image. For example, the image processing unit 2 performs non-uniformity correction on the thermal image data obtained by the imaging unit 1 . Predetermined processing such as interpolation, performing pseudo color processing on the predetermined processed thermal image data to obtain image data of the infrared thermal image; and an embodiment of the pseudo color processing, for example, based on the range or AD value of the thermal image data (AD value) The setting range is to determine the corresponding pseudo color plate range, and the specific color value corresponding to the thermal image data in the pseudo color plate range is taken as the image data of the corresponding pixel position in the infrared thermal image, where the grayscale infrared image can be It is considered as a special case in the pseudo color image. Further, based on the recording instruction of the control unit 10, the image processing unit 2 obtains the compressed thermal image data in accordance with a predetermined compression process, and the thermal image data is recorded on a recording medium such as the memory card 8. The image processing unit 2 can be realized by a DSP or another microprocessor or a programmable FPGA or the like, or can be integrated with the control unit 10.

 The display control unit controls the display unit 4 to display a composite image. When the display interface is arranged to display other predetermined information in an area other than the composite image, the image processing unit 2 combines the obtained combined image with image data of other predetermined information. To obtain image data for display. For example, as shown in Fig. 6, the displayed image is composed of a composite image 602 and other images 601 of predetermined information.

 The display control unit 3 displays the image data for display stored in the temporary storage unit 6 on the display unit 4 under the control of the control unit 10. For example, in the shooting standby mode, the infrared thermal image generated by the thermal image data obtained by the shooting is continuously displayed; in the playback mode, the infrared thermal image read and expanded from the memory card 8 is displayed, and various setting information can be displayed. . Specifically, the display control unit 3 includes a VRAM, a VRAM control unit, a signal generation unit, and the like, and periodically reads out image data read from the temporary storage unit 6 and stored in the VRAM under the control of the control unit 10 from the VRAM, and generates The video signal output is displayed on the display unit 4. In the thermal imaging device 13, the display portion 4 serves as an example of a display portion. Without being limited thereto, the display unit may be another display device connected to the thermal imaging device 13, and the thermal image device 13 itself may have no display portion in the electrical configuration.

The communication I/F 5 is an interface that connects and exchanges data between the thermal imaging device 13 and an external device in accordance with a communication specification such as USB, 1394, or network. As an external device, for example, a personal computer, a server, or a PDA (personal digital assistant device) can be cited. ), other thermal imaging devices, visible light imaging devices, storage devices, and the like. The temporary storage unit 6 such as a volatile memory such as a RAM or a DRAM is used as a buffer memory for temporarily storing thermal image data output from the imaging unit 1 and functions as a work memory of the image processing unit 2 and the control unit 10, and temporarily The data processed by the image processing unit 2 and the control unit 10 is stored. The present invention is not limited thereto, and a memory, a register, and the like included in the processor such as the control unit 10 and the image processing unit 2 may be interpreted as a temporary storage medium.

 The memory card I/F 7 is an interface of the memory card 8, and a memory card 8 as a rewritable nonvolatile memory is connected to the memory card I/F 7, and is detachably attached to the main body of the thermal image device 13 In the card slot, data such as thermal image data is recorded in accordance with the control of the control unit 10.

 The flash memory 9 stores programs for control and various data used in the control of each part.

 Operation unit 11: The user performs various instruction operations or inputs various operations such as setting information, and the control unit 10 executes the corresponding program based on the operation signal of the operation unit 11. Referring to FIG. 2, the operation unit 11 is provided. The buttons for providing user operations include a record key 1, a mark key 2, a focus key 3, a menu key 4, a mode key 5, and the like; wherein, the record key 1 is used for performing a recording operation; The key 2 is used for the marking operation; the focusing key 3 is used for the focusing operation; the menu key 4 is used for the operation of entering or exiting the menu mode; and the mode button 5 is used for entering or exiting the information mode. Not limited to this, a touch screen 6 or a voice recognition component (not shown) or the like can be used to implement the related operation.

 The overall operation of the thermal imaging device 13 is controlled by the control unit 10, and the flash memory 9 stores programs for control and various data used for control of each part. The thermal imaging device 13 includes, in an overall function, an imaging unit for capturing thermal image data, an image processing unit for performing pseudo color processing on the captured thermal image data to obtain an infrared thermal image, and a display control unit for making The display unit displays the infrared thermal image, and causes the display unit to simultaneously display a predetermined number of subject selection information based on the plurality of subject information stored in the storage medium; wherein the display control unit has an information detecting unit for The specific information associated with the subject information is detected; the subject selection information obtained by the display control unit and the subject selection information obtained by the subject information having the specific information and the other subject information will be The two are displayed in a different way, or one of them is not displayed.

 The storage medium in the embodiment may be a storage medium in the thermal imaging device 13, such as a flash memory 9, a nonvolatile storage medium such as a memory card 8, a volatile storage medium such as the temporary storage unit 6, or the like. Other storage media in which the device 13 is wired or wirelessly connected, such as a storage medium in a wired or wireless connection with the communication IZF 5, such as a storage medium in a storage device or a thermal imaging device, a computer, or the like, or a storage medium of a network destination. Preferably, data such as subject information related to the subject is stored in advance in the thermal image device 13 or in a nonvolatile storage medium connected thereto, and in the embodiment, the flash memory 9 is used as the storage object information. An instance of a storage medium.

 The subject information is information related to the subject, for example, information representing the location, type, number, and the like of the subject, and may also be exemplified by the belonging unit and the classification level (such as the voltage level, the important level) related to the subject. Etc., model, manufacturer, performance and characteristics, history of past shooting or overhaul, date of manufacture, age of use, etc.

 A preferred embodiment of the object information stored in the storage medium will be described with reference to the table shown in Fig. 4 (hereinafter referred to as Table 4). The subject information is composed of attribute information of a plurality of attributes, such as the subject information 400 in the table 4 "Substation 1 device area 1 device IA phase" having the attribute information "Substation 1" corresponding to the substation attribute 401, the device area attribute 402 The attribute information "device area 1" corresponding to the attribute information, the device information "device I" corresponding to the device type attribute 404, and the attribute information "phase A" corresponding to the matching attribute 404. However, it is not limited thereto, and the subject information may be stored in other forms such as a single attribute information.

The task package, which refers to a collection containing a plurality of object information; when the table shown in FIG. 4 contains a large amount of object information, in order to facilitate user selection and daily maintenance of data, etc., Part of the content shown in Figure 4, as specified The rules of the book are assigned to a number of task packages for the user to choose when shooting. In addition, the task package can also be as a data file containing the table shown in FIG. It is generally possible to assign subjects in different shooting destinations into a plurality of task packages, for example, according to substations, and pre-program the device names of each substation into a task data file (task package).

 The specific operation and control flow of Embodiment 1 will be described in detail below. Prior to the official shooting, a task data file (task package) including the subject information corresponding to the substation 1 as shown in Table 4 in FIG. 4 is stored in advance in the flash memory 9, and further includes the substation of the other substation. The task data file for the subject information. This application scenario captures, for example, a subject in a substation. The control unit 10 controls the overall operation of the thermal imaging device 13 and the control for executing a plurality of mode processes based on the control program stored in the flash memory 9 and various data used in each partial control, and the control unit is turned on after the power is turned on. (10) Initialization of the internal circuit is performed, and then the standby imaging mode is entered, that is, the imaging unit 1 captures and obtains thermal image data, and the image processing unit 2 performs predetermined processing on the thermal image data captured by the imaging unit 1 and stores it in the temporary storage unit 6. The control unit 10 performs control of the display unit 3 to continuously display the infrared thermal image in the form of a moving image on the display unit 4. In this state, the control unit 10 continuously monitors whether or not the processing has been switched to another mode in accordance with the predetermined operation. Shutdown operation, if any, enters the corresponding processing control.

 The control procedure of the information mode will be described with reference to FIG.

 In step A01, the control unit 10 performs its control to continuously monitor whether the user has selected the information mode through the operation unit 11, and when detecting that the user has pressed the mode button, proceeds to step A02.

 Step A02, the display control unit (control unit 10) performs determination processing of a predetermined number of subject information to be displayed. See flowcharts S101-S106 in detail.

 In step A03, the thermal image data obtained by the imaging unit 1 is transmitted to the temporary storage unit 6; the image processing unit 5 performs predetermined processing such as pseudo color processing on the thermal image data captured by the imaging unit 1 to obtain image data of the infrared thermal image, and It is stored in the temporary storage unit 6.

 Step A04, the display control unit (control unit 10) detects the transmitted subject information, and determines whether there is a specific mark; if yes, proceeds to step A05, if not, then proceeds to step A06;

 In step A05, the predetermined number of subject selection information and the infrared thermal image determined in step A02 are simultaneously displayed, and the marked subject information is displayed differently from the subject selection information obtained by the unmarked subject information.

 Step A06, the display control unit (control unit 10) controls the subject selection information obtained by displaying the predetermined number of subject information while controlling the display unit 4 to display the infrared thermal image generated by the thermal image data. At this time, the display portion displays as shown by 601 in Fig. 6, and all the subject information has no specific identification, and the representative needs to take a picture.

 In the steps A05 and A06, the subject selection information obtained based on the subject information may be obtained by all or part of the subject information, and the subject information may be specified in advance for obtaining The composition of the information of the subject selection information.

 Specifically, in one aspect of the display control implementation, the control image processing unit 2 generates image data of the subject selection information by using image data of the infrared thermal image generated by the captured thermal image data and a predetermined number of subject information. The synthesis is performed; the synthesized image data is stored in the temporary storage unit 6; and then the control display unit 3 displays the synthesized image data on the display unit 4.

Further, in a preferred embodiment, the display control unit has a tree structure allocation unit for allocating a hierarchy of the tree structure and attribute information corresponding to each layer; and displaying the attribute information based on the object information stored in the storage medium The control unit causes the display unit to display the infrared thermal image generated by the thermal image data, and presses the attribute information of the predetermined number of subject information Description The hierarchical structure of the tree structure assigned by the tree structure allocation unit and the attribute information corresponding to each level are displayed. In other words, the display control unit displays the predetermined information for generating the subject selection information in the subject information in a tree shape in accordance with the predetermined position. For example, as shown in FIG. 7 , the object selection information display window 701 in the interface displays the object information in three layers according to the attribute information representing the substation, the device area, the device type, and the specified attribute of the phase. The specified position display; compared with the subject selection information display window 601 in the display interface in Fig. 6, it is apparent that the font can be displayed large, the number of words in the same row is reduced, and the user can easily observe.

 In step A07, the control unit 10 determines whether the user performs an adjustment operation, for example, whether or not the scroll bar 600 shown in 601 of FIG. 6 has been dragged to perform display adjustment of the subject selection information, or the user presses When the direction key is moved, the page turning adjustment operation is performed. If yes, the process returns to step A02. At this time, for example, the adjusted predetermined number of objects are determined according to the adjustment amount of the scroll bar and the direction of the adjustment by the user. The information displays the specified number of subject selection information after scrolling in the adjusted direction, that is, in response to the adjustment operation, the corresponding subject selection information is displayed. If no, go to the next step.

 In step A08, it is determined whether the user has selected the subject selection information. If not, the flow returns to step A03 to reflect the continuous (composite) display of the infrared thermal image generated by the captured thermal image data and the subject selection information. When the user recognizes the subject "substation 1 equipment area 1 device IB phase" at the shooting scene, for example, checking the equipment indication plate at the scene, the operation portion 11 (such as a touch screen, or a direction key) is applied to the display portion 4 The displayed "Substation 1 Equipment Area 1 Equipment IB Phase" is selected, preferably with a touch screen for the user to select the subject selection information.

 Step A09, the selecting unit is configured to select the subject information; and in response to the user selecting the subject selection information, selecting the subject information corresponding to the subject selection information selected by the user; In the example, the selection unit (control unit 10) selects the subject information corresponding to the subject selection information in response to the user's selection operation; and then the display control unit (control unit 10) controls, specifically displays the Subject selection information obtained by the subject information. Here, the subject selection information and the infrared thermal image are displayed together in the display interface, and the subject selection information or the subject indication information obtained by the selected subject information may be further superimposed on the infrared thermal image. (not shown), the subject indication information referred to herein is obtained by information included or associated with the subject information, and the content thereof may be different from the subject selection information, and may include, for example, a manufacturer or the like. The information, but it can also be less than the subject selection information, for example, only contains "B phase".

 Here, the special display means that the selected subject selection information or the subject is displayed in such a manner that the user can recognize the selected subject selection information from a predetermined number of subject selection information. Instructions. For example, a difference in display position, color, background, size, font, character description, etc., which is easy for the user to recognize, is used as a special display mode that is different from other subject selection information. At this time, the display portion is displayed as shown by 602 in Fig. 6, and the subject information "Substation 1 device area 1 device IB phase" has a specific underline flag, indicating that the selection portion selects the state of the subject information, and the like. The subject information is distinguished.

 In step A10, the control unit 10 determines whether there is a recording operation. If not, the process jumps to step A13. When the user selects the information "substation 1 device area 1 device IB phase" according to the object in the display interface 602, the corresponding When the subject is photographed, when the recording key 2 of the operation unit 11 is pressed, the control unit 10 detects the signal of the recording operation, and proceeds to the next step.

 Step All, record processing.

The control unit 10 as the recording unit records predetermined infrared data in response to a recording instruction operation or in accordance with a predetermined recording condition. In a preferred manner, the information relating to the selected subject information is recorded in association with the specified infrared data. Then go to the next step. In the specification, the infrared data is data obtained by performing predetermined processing on thermal image data obtained by imaging by an imaging unit and/or thermal image data obtained by imaging by an imaging unit.

 The prescribed infrared data, for example, the thermal image data (frame) obtained by the infrared detector reading the signal at the time (or a predetermined time after the operation) or the determination of the predetermined recording condition in response to the recording indication; for example; response recording indication The predetermined thermal image data (frame) in the thermal image data of the plurality of frames temporarily stored in the temporary storage unit 6 when the operation or the determination of the predetermined recording condition is determined (or a predetermined time thereafter); for example, the thermal image data of the above case The data obtained after the predetermined processing (predetermined processing such as correction, interpolation, pseudo color, conversion to temperature value, pixel reduction, compression, etc., or a plurality of types); for example, recording a specified number of multi-frame thermal images For example, a predetermined number of multi-frame thermal image data is subjected to predetermined processing of thermal image data (frames), such as integrating the multi-frame thermal image data stored in the temporary storage unit 6 to obtain a processed one-frame thermal image. Data; for example, may be one or more of infrared data obtained in these cases, such as obtained by simultaneously recording thermal image data The image data and the temperature of the infrared thermal image pixels.

 Specifically, in one embodiment, in response to the recording instruction operation of the operation unit 11, the control unit 10 controls the signal read by the infrared detector to obtain thermal image data, and causes the image processing unit 2 to perform predetermined heat on the thermal image data. The data compression processing is performed, or the predetermined processing such as correction, interpolation, and the like is performed on the thermal image data, and compression processing is performed to obtain information on the selected subject information in the temporary storage unit 6 and the compressed thermal image data. Associated with the generation of the thermal image file to the memory card 8, the process ends. In addition, compression can be performed after the information is attached.

 The information related to the selected subject information, for example, may be all information of the subject information as the selected subject information, or part of the information, for example, "Substation 1 device area 1 device IB phase" may be recorded. However, it is also possible to record "device area 1 device IB phase", or other information that is not used to generate instruction information in the object information, for example, the object information also has information such as a number, a model number, etc., although not displayed. , but the number and model information can also be saved.

 An embodiment of the associated record, wherein the information related to the selected object information is added as information of the infrared data in a predetermined format, as shown in an implementation diagram of the thermal image file structure in FIG. 8; wherein, the infrared data 801 is The thermal image data obtained by reading the thermal image data obtained from the infrared detector at the time of the operation or the specified recording condition is subjected to the compressed thermal image data; the information 802 related to the selected object information is representative of the "substation 1" The device area 1 device IB phase "subject information"; other additional information 803 such as the time of shooting, and the like.

 In addition, the association record processing also means that information related to the selected subject information can be recorded in an information file or an index file associated with the thermal image file, and the control unit 10 can generate the information file or the index file; The thermal image file name may be generated based on the selected subject information. Preferably, the recording unit includes a file name generating unit, and the file name of the thermal image file generated includes the subject information selected by the selection unit. Relevant information. For example, the generated thermal image file name: Substation 1 device area 1 device IB phase. jpg ; Preferably, the file name containing the classification information is generated based on the classification information in the object information, for example, according to the specified attribute information: Substation 1-Device area 1 - Equipment I - B phase. jpg, Further, combined with the time information "20120222" to generate a file name, such as substation 1 - equipment area 1 - equipment I - B phase

-20120222. jpg; The essence of the association record is to record the information needed for subsequent batch analysis, and the file name contains the object information for the user to view, and generate according to the classification information in the object information. The identifiable file name containing the classification information makes subsequent batch analysis easy to read and identify the classification information in the file name.

In step A12, the subject information selected in step A09 is marked. Here, in a preferred manner, the date, time, and the like of the step A1 recording processing are associated with the subject information, and the preferred method is to record on the memory card. In Table 4 of 8, it is also possible to record in the temporary storage unit 6, as shown in Fig. 5, the subject information marked with time. In addition, not necessarily The manual must be time, or it can be a mark of other identification class, for example, the mark "1" is used as a specific mark; in addition, it is not limited to the mark when it is recorded, or it can be responded to when the user presses the mark key 2, The selected subject information is marked.

 Further, in another embodiment, the subject information that has undergone the recording process in the selected state is deleted. The subject information is not displayed.

 In step A13, the control unit 10 determines whether the information mode has been exited, and if there is an exit instruction operation, exits the information mode. If not, return to step A03, and, in step A04, according to the previous flag information (associated time information) of "substation 1 device area 1 device IB phase", proceed to step A05 to select the selected subject selection information. Displayed together with a dynamic infrared thermal image (continuous synthesis) in which subject selection information corresponding to "substation 1 device area 1 device IB phase" corresponding to subject information that has not undergone selection and recording processing is performed in a different manner display. As shown in 603 in Fig. 6. The double underline of "Substation 1 Equipment Zone 1 Equipment I B Phase" is different from other subject information. Thereby, the user knows that the subject information has been selected, and, in the selected state, has been recorded. It can reduce mis-selected operations and make the operation more clear.

 Further, in another preferred mode, the subject selection information obtained by the marked subject information is not displayed, or the marked subject information is not used to generate the subject selection information.

 The process of determining the subject information by the display control unit will be described with reference to Fig. 9 .

 Step S101, the file name of the task data file in the memory card 8 is displayed, and then proceeds to step S102. It is usually possible to assign subjects in different shooting destinations to a plurality of task data files (task packages), for example, according to the substation, the device name of each substation is pre-programmed into a task data file.

 Step S102, determining whether the user selects one of them, if one or more of the selected ones are selected, the process proceeds to step S103; if not, the process returns to step S101.

 Step S103, next, the task data file related to the shooting is determined according to the user's selection.

 In step S104, the display control unit (control unit 10) determines whether or not there is a predetermined filter condition. If yes, proceed to step S105. If not, proceed to step S106, and transfer the subject information in the selected task data file or the partial information specified in the subject information, for example, information related to the subject selection information to the temporary storage unit 6; From the predetermined rule (such as a sorting rule), a predetermined number of subject information is determined as the subject selection information for obtaining the display.

 Step S105, if there is a filter condition, extract the subject information that matches the filter condition in the task data file, or the part of the information specified in the subject information that meets the filter condition, for example, and the subject selection according to the specified filter condition. Information related information is transmitted to the temporary storage unit 6. And in step S106, a predetermined number of subject information is determined from the predetermined rule (e.g., sorting rule) as the subject selection information for obtaining the display.

 In the above embodiment, the subject information is allocated as a plurality of task packages. The task package display control unit is configured to display the selection information of the task package based on the task package including the plurality of object information stored in the storage medium, and the task package selection unit is configured to select the task package by the corresponding user selection operation; Then, the display control unit is configured to cause the display unit to display the infrared thermal image, and to cause the display unit to simultaneously display a predetermined number of subject selection information based on the task package selected by the user. If the object information is stored in the form of a database, or a task package, steps S101-S103 may be omitted. Further, when the user performs the operation on the scroll bar, the predetermined amount of subject information is newly determined based on the adjustment amount and the scroll direction.

The setting operation of the filtering conditions, the illustration of the object information obtained by filtering according to the filtering conditions, and the display of the display screen according to the filtering conditions will be described with reference to FIGS. 10 to 12. When the user enters the menu mode and selects "filter setting" therein, the display unit 4 displays a filter condition setting column interface as shown in FIG. The thermal imaging device 13 includes a filter condition setting unit (for example, the control unit 10, the operation unit 11, and the display unit 4) for setting a filter condition for the user, and a filter condition setting unit for the user to set the filter condition; a determination unit configured to determine object information that meets the filter condition based on the filter condition, and a display control unit that is configured to use the object information determined by the task determination unit, The display unit displays a predetermined number of subject information while displaying the infrared thermal image generated by the thermal image data.

 Filters consist of keywords and filter logic relationships related to filter criteria. The filter condition setting unit has a keyword determining unit, a logic determining unit, and a filter condition generating unit, wherein the keyword determining unit is configured to determine a keyword related to the filter condition; and the logic determining unit is configured to determine the filter condition a filter logic relationship of the keyword; a filter condition generating unit, configured to generate a filter condition according to the keyword related to the filter condition and the specified filter logic relationship.

 A keyword related to a filter condition, which can be a keyword or multiple keywords; wherein, a plurality of keywords include a case representing a range of keywords, such as a range of numbers, a range of letters, a time range, and the like. In addition, when the subject information has a belonging unit related to the subject, a classification level (such as a voltage level, an important level, etc.), a model, a manufacturer, a performance and characteristics, a history of past shooting or overhaul, a date of manufacture, When various information such as the expiration date is used, the filter condition can be set by determining the keyword therefrom, but the information is not necessarily used to generate the subject selection information or the subject indication information that is specifically displayed.

 A keyword determining unit is configured to determine a keyword related to the filtering condition; for example, one or more of the following embodiments may be combined to determine a keyword related to the filtering condition. An embodiment, such as a pre-stored keyword, determines a keyword related to the filter condition based on the user's selection. An embodiment, for example, one or all of the keywords associated with the filter condition by default. In one embodiment, for example, a keyword is entered by a user, and a keyword entered by the user is determined as a keyword related to the filter condition. An embodiment, for example, provides a selection of a keyword attribute for selection, and based on the keyword attribute selected by the user, determines a keyword that matches the keyword attribute as a keyword related to the filter condition. According to a preferred embodiment, based on the subject information stored in the memory card 8, a keyword for obtaining attribute information of a specified attribute in the subject information is queried, and a keyword related to the filter condition is determined based on the user's selection. .

 The specific setting operation of the filter condition is explained by taking the subject of the "device I" type as an example. Specifically, the display section 4 displays a filter condition setting interface as illustrated in Fig. 10, a sub-station 1003, a device area 1004, a device type 1005, and the like, and a keyword menu item of a keyword query configured to represent attribute information of a prescribed attribute. When the subject information as shown in FIG. 4 is stored, the control unit 10 inquires the subject information stored in the memory card 8 based on the device type 1005 selected by the user based on the current "device I", and obtains the specification. The keyword "Device I, Device II, ..." of the attribute information of the attribute (device type) causes the display list 1006, from which the user selects "Device I", the keyword determination unit, determines "Device I" as and filters Conditions related keywords. Here, the display unit 4, the operation unit 11, and the control unit 10 constitute an example of a filter condition setting unit.

a logic determining unit, configured to determine a filtering logical relationship of a keyword related to the filtering condition; the filtering logical relationship refers to a filtering condition of the keyword when the keyword related to the filtering condition is a keyword; When multiple keywords are used, the combination of multiple, or non-logical relationships and filtering non-relationships between multiple keywords; filtering between non-relational and logical relationships between keywords can be default or used Set to determine. In the description of Fig. 10, the "Yes" 1001 and "Non" 1002 options of the shooting conditions are used to set the filter right and wrong relationship; when "Yes" is selected, the filter condition generated by the keyword "Device I" is used for subsequent search and The subject information conforming to "device I" is determined as a photographing task; when "NO" is selected, the filter condition generated in conjunction with the keyword "device I" is used for subsequent search to determine the subject information that conforms to the non-"device I". In this example, the logic determination unit determines the filter right and wrong relationship as "yes" according to the default filter yes or no relationship. Then, when the user makes a determination by the operation unit 11, the filter condition generation unit (control unit 10) generates a filter condition in conjunction with the keyword "device I" selected by the user in association with the default filter. When the task is determined, the subject information matching the keyword "device I" is found as the determined subject information. In addition, multiple keywords can also be selected as filters.

 But not limited to this, the logical relationship between filtering non-relationships and multiple keywords can also be determined according to user settings.

(not shown). The generated filter condition is recorded in the temporary storage unit 6, or recorded in the flash memory 10 or the like as a subsequent use.

 Table 11 shown in Fig. 11 represents a task determination section (control section 10) for selecting a subject information (Table 4) stored in a storage medium according to a filter condition "device I" set in advance by a user, according to The filter condition is used to determine the subject information obtained by meeting the subject information of the filter condition.

 The subject selection information obtained based on the filtered subject information displayed in the display interface shown in FIG. Obviously, the subject selection information that the user needs to select is limited to "Device I", which makes the operation simple and error-free.

 It is to be noted that, in the present embodiment, an example is described with a small amount of subject information. In the actual infrared detecting operation, the number of subjects is large, and the effect by the embodiment of the present invention is remarkable. In addition, the display unit of the display unit 4 may be configured to have more than one display, and a display for displaying an infrared thermal image or a display for displaying the subject information, and a display control for displaying the simultaneous display indicated by the display control unit may be Display simultaneously on the same display or on different displays.

 As described above, the specific information associated with the subject information is detected based on the subject information stored in advance; the subject control information obtained by the display control unit with the subject information having the specific information, and the other The subject selection information obtained by the subject information is displayed in a different manner, which avoids unnecessary repeated shooting, and is easy for the user to select; thereby improving the efficiency of shooting and reducing the work intensity. Through the setting of the filter condition, the user can perform pre-filtering on the subject, so that the selected subject selection information is reduced, and the operation is simple. The display is made more intuitive by displaying the subject selection information in a tree. a labeling unit that performs labeling processing on the subject information that is selected by the selection unit and subjected to the recording processing of the recording unit, and then the display control unit performs the object information obtained by marking the labeling unit The subject selection information obtained by the subject selection information and the unmarked subject information is displayed in a different manner or not. It can avoid unnecessary repetitive shooting, and the user can easily make selections, thereby improving the efficiency of shooting and reducing the work intensity. In summary, Embodiment 1 is a preferred embodiment. Of course, any of the products implementing the embodiments of the present invention does not necessarily need to achieve all of the advantages described above at the same time.

 Example 2

 In the present embodiment, in the thermal imaging device 13 having the same configuration as that shown in Fig. 1, in the flash memory 9, the subject information for performing the recording is stored in a manner different from the other subject information. The control program shown. And a detection information setting unit for setting information to be detected; the information detecting unit detecting the specific information associated with the object information based on the information to be detected set by the detection setting unit; Fig. 16 illustrates this embodiment.

The subject information stored in the storage medium will be described with reference to a table shown in FIG. 13 (hereinafter referred to as Table 13). Unlike Table 4, each subject information in Table 13 is associated with time information marked at the time of shooting. The current time is February 22曰 Description

At 20:32, the user had taken some of the subjects before the day, and also photographed some of the subjects on February 8th. In order to avoid repeated shooting of the subjects that have been taken on the day, use By setting the information to be detected in the menu; February 22, that is, the predetermined section of the time information associated with the subject information, it is desirable to display the subject selection information obtained by the determined predetermined number of subject information, but the day The captured subject information is displayed in a different manner from other subject information.

 The control procedure of this information mode will be described with reference to FIG.

 In step B01, the control unit 10 performs its control to continuously monitor whether the user has selected the information mode through the operation unit 11, and when detecting that the user has pressed the mode button, proceeds to step B02.

 Step B02, the display control unit (control unit 10) performs a process of determining a predetermined number of subject information. See Figure S101-S106 for details.

 Step B03, the thermal image data obtained by the imaging unit 1 is transmitted to the temporary storage unit 6; the image processing unit 5 performs predetermined processing such as pseudo color processing on the thermal image data captured by the imaging unit 1 to obtain image data of the infrared thermal image, and It is stored in the temporary storage unit 6.

 Step B04, the display control unit (control unit 10) detects the determined subject information, and determines whether or not there is specific information, that is, subject information having a time stamp of the current day; if yes, proceeds to step B05, if not, Then proceeds to step B06;

 In step B05, a predetermined number of subject selection information and an infrared thermal image are simultaneously displayed, and the subject information having the current time stamp is displayed differently from the subject selection information obtained by the other (non-marked) subject information. . At this time, the display portion is displayed as shown by 1601 in Fig. 16, and part of the subject information has a current time stamp indicating that the subject has been photographed on the day. Further, in another preferred embodiment, the subject selection information obtained by not displaying the subject information of the current time stamp is controlled; or the subject information having the current time stamp is not used to generate the subject selection information.

 In step B06, the display control unit (control unit 10) controls and controls the display unit 4 to display the infrared thermal image generated by the thermal image data, and displays the predetermined number of subject information in the same manner. Camera selection information.

 In step B07, the control unit 10 determines whether the adjustment operation is performed by the user, for example, whether or not the scroll bar 1600 shown in FIG. 16 is dragged to perform display adjustment of the subject selection information, or the user presses The direction key is used to adjust the page turning operation. If yes, the process returns to step B02. At this time, for example, the adjusted predetermined number of subject information is determined based on the adjustment amount and the adjustment direction of the scroll bar by the user. If no, go to step B08.

 In step B08, it is determined whether the user has selected the subject selection information. If not, the process returns to step B03 to reflect the continuous (composite) display of the infrared thermal image generated by the captured thermal image data and the subject selection information. When the user recognizes the subject "substation 1 equipment area 1 device IB phase" at the shooting scene, for example, checking the equipment indication plate at the scene, the operation portion 11 (such as a touch screen, or a direction key) is applied to the display portion 4 The displayed "Substation 1 Equipment Area 1 Equipment IB Phase" is selected. Then proceed to step B09.

 Further, a preferred mode has a prohibition selection control unit (control unit 10) for prohibiting selection of subject selection information corresponding to subject information associated with specific information.

In step B09, the selection means (control unit 10) selects the subject information corresponding to the subject selection information in response to the user's selection operation; and then the display control unit (control unit 10) controls to specifically display the subject. Subject selection information obtained by the subject information. At this time, the display unit displays the object information "Substation 1 equipment area" as shown by 1602 in FIG. Description

1 Device I B phase "has a specific underline mark, which indicates that the selection unit selects the state of the subject information and distinguishes it from other subject information.

 In step B10, the control unit 10 determines whether there is a recording operation, and if not, proceeds to step B13; when the user selects the information "substation 1 device area 1 device IB phase" according to the subject in the display interface 1602, the corresponding shot is taken. When the recording of the body is performed, when the recording key 2 of the operation unit 11 is pressed and the control unit 10 detects the signal of the recording operation, the process proceeds to step B11.

 Step B11, record processing. Same as the All class, and the description is omitted.

 Step B12, marking the subject information selected in step B09. Here, in a preferred manner, the date, time, and the like of the recording are marked with the subject information, and then the marker information is associated with the subject information. Preferably, it is recorded in the table 4 of the memory card 8, and may also be recorded in the temporary storage unit 6. As shown in Table 14 of Figure 14, the preferred way is to record "Substation 1 Equipment Zone 1 Equipment IB Phase" with the recorded time "February 22 20: 32" and the previously marked time "February 8" Day 18: 32" replacement. In addition, instead of replacing, a plurality of time stamps may be reserved; the recorded time stamp may not be the time of recording, for example, other predetermined time stamp information such as the time when the thermal image device 13 is turned on, and is not limited to the month. The date, time, and time, for example, may be years, and may be time stamp information of a prescribed composition.

 In step B13, the control unit 10 determines whether the information mode has been exited, and if there is an exit instruction operation, exits the information mode. If not, return to step B03, and in step B04, according to the previous marking information of "substation 1 equipment area 1 device IB phase", proceed to step B05 to select the selected object selection information and the dynamic infrared thermal image. (Continuous composition) In common display, the subject selection information corresponding to the "Substation 1 device area 1 device IB phase" and the object information without the current time stamp is displayed in a different manner. As shown in 1603 in Figure 16. The double underline of "Substation 1 equipment area 1 equipment I B phase" is different from other object information without the time stamp of the current day. Thereby, the user knows that the subject information has been recorded, and the overheated image file is recorded. It can reduce the mis-selection operation and make the operation more clear. It should be noted that the display control unit may also convert the previously marked subject selection information "device IB phase" from "single line" to "double" when the user selects other subject selection information. Cross-line".

 Further, the detection of the plurality of types of specific information is not limited to the selection of the specific information of the object information selected by the control unit 10 by the selection of the mark key 2 or the record key 1, and may be the subject information. The information specified in other related information is used as specific information to be detected.

 Further, for convenience of explanation, in the first embodiment and the second embodiment, the processing of the additional mark is performed after the recording process; however, it is not limited thereto, for example, the mark key 2 is pressed to realize the specificity of associating the selected object information. Tag processing of information.

 Obviously, more embodiments can be obtained by different combinations of the above working steps. In the example of the embodiment, an example is described with a small amount of subject information. In the actual infrared detecting operation, the number of subjects is large, and the effect by the embodiment of the present invention is remarkable. Since the subject information that has been selected and subjected to the recording processing in the selected state is displayed in a special manner (including not displayed) to distinguish from the subject information that has not undergone recording in the selected state, Thereby, the operation of erroneous selection can be reduced, and the operation can be more clearly seen.

Further, as shown in FIG. 17, the display processing of the subject information having the specific mark, in which the object information of the specific mark and the other subject information, the obtained subject selection information are in a different manner are illustrated. Display. In 1702, the subject information of the specific mark and the other subject information are displayed in different manners, and are collectively classified and displayed on the upper part of the information bar. Concentrated on various implementations such as the specified location Explain the book method. In 1703, the subject selection information obtained by the subject information of the specific marker is not displayed (or the marked subject information is not used to generate the subject selection information).

 In the first embodiment and the second embodiment, a specific information associated with the object information is taken as an example. Further, the information detecting unit may detect a plurality of pieces of specific information associated with the subject information; The marker unit may perform marking of a plurality of types of specific information (associating the specific information with the subject information selected by the selection unit); the display control unit acquires subject selection information obtained by the subject information having the specific information, The subject selection information obtained with the other subject information is displayed in a different manner; wherein the subject selection information obtained by the subject information associated with the different specific information may be in the same or different manner Display. The practical application value is, for example, that when the subject photographed by the user is defective, repetitive photographing is required; for example, the user presses the mark key 2 to perform a mark processing associated with the specific information, and when the record key is pressed At the time, the recording process and another tag-related processing of tag-related information are performed; when the user detects the two kinds of specific information by the detection information setting section or the thermal image device 13 default, the display is as shown in FIG. As shown, the "device IB phase" has a mark with two kinds of specific information, and its virtual frame will remind the user that the subject needs to be repeatedly photographed.

 Example 3

 Although the present invention is applied to the thermal imaging device 13 having a photographing function in Embodiment 1, the function of photographing the obtained thermal image data is not indispensable for the present invention, and the present invention is also applicable to receiving and processing heat from the outside. A thermal image processing device such as data (thermal image transmission data). The thermal image transmission data may be, for example, thermal image AD value data, and may be an infrared thermal image generated by thermal image data, may be compressed thermal image data, or may be compressed infrared thermal image data. Embodiment 3 uses the thermal image processing apparatus 100 as an example of an infrared information display control apparatus.

 Referring to Fig. 18, a block diagram showing an electrical configuration of an embodiment of a thermal image processing system in which the thermal image processing apparatus 100 and the thermal image pickup apparatus 101 are connected.

 The thermal image processing apparatus 100 includes a communication interface 1, an auxiliary storage unit 2, a display unit 3, a RAM 4, a hard disk 5, and an operation unit 6 which is connected to the above-described components via a bus and is integrally controlled by the CPU 7. As the thermal image processing apparatus 100, a personal computer, a personal digital assistant, a display device used in conjunction with a thermal imaging device, and the like can be exemplified. The thermal image processing apparatus 100 receives the thermal image transmission data output from the thermal image capturing apparatus 101 connected to the thermal image processing apparatus 100 via the communication interface 1 based on the control of the CPU 7.

 The communication interface 1 is configured to continuously receive the thermal image transmission data output by the thermal image capturing device 101; wherein, the receiving is performed by the relay device (the thermal image transmission data output by the thermal image capturing device 101 is transmitted through the relay device) The thermal image transmits data; at the same time, it can also serve as a communication interface for controlling the thermal imaging device 101. Here, the communication interface 1 includes various wired or wireless communication interfaces on the thermal 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 an associated interface. The display unit 3 may be a liquid crystal display, and the display unit 3 may be another display connected to the thermal image processing apparatus 100, and the thermal image processing apparatus 100 itself may have no display in its electrical configuration. The RAM 4 functions as a buffer memory for temporarily storing the thermal image transmission data received by the communication interface 1, and functions as a work memory of the CPU 7, and temporarily stores data processed by the CPU 7. The hard disk 5 stores programs for control and various data used in the control.

The configuration other than the imaging unit 1 from the thermal imaging device 13 is substantially the same as that of the thermal image processing device 100, and it is obvious that the above embodiment is also applied by acquiring the thermal image transmission data. Therefore, the description of the embodiment is omitted. In the specification, the CPU 7 also performs a function of an image processing unit for performing predetermined processing on the received thermal image transmission data to obtain image data of the infrared thermal image, and the predetermined processing such as correction, interpolation, pseudo color, synthesis, compression, Decompression, etc., is converted into processing suitable for data for display, recording, and the like. The CPU 7 transmits different types of data according to the thermal image. For example, when the received thermal image transmission data is compressed thermal image data, the specified processing, such as the CPU 7 decompresses the thermal image transmission data received by the acquisition unit. Performing corresponding prescribed processing; an embodiment, which obtains image data of the infrared thermal image by decompressing the compressed thermal image data (thermal image transmission data) and corresponding processing such as pseudo color processing, and further, the prescribed processing is as follows. The decompressed thermal image transmission data is subjected to various predetermined processes such as correction and interpolation. Another embodiment, for example, when the received thermal image transmission data itself is image data of a compressed infrared thermal image, is decompressed to obtain image data of the infrared thermal image. In still another embodiment, for example, when the communication interface 1 receives the analog infrared thermal image, the image data of the infrared thermal image obtained by the conversion by the associated AD conversion circuit AD is controlled and transmitted to the temporary storage unit 6.

 The thermal image capturing device 101 may be various types of thermal image capturing devices for photographing an object and outputting thermal image transmission data. Referring to Fig. 15, an electrical block diagram of the thermal imaging device 101 is composed of a communication interface 10, an imaging unit 20, a flash memory 30, an image processing unit 40, a RAM 50, a CPU 60, and the like. Among them, the CPU 60 controls the overall operation of the thermal image capturing apparatus 101, and the flash memory 30 stores control programs and various data used in the control of each part. The imaging unit 20 includes an optical member, a driving member, a thermal image sensor, and a signal preprocessing circuit (not shown) for capturing thermal image data. The thermal image data is temporarily stored in the RAM 50, and then subjected to predetermined processing (e.g., compression processing, etc.) by the image processing unit 40 (e.g., DSP) to obtain thermal image transmission data, which is output via the communication interface 10. Depending on the design and the purpose of use, for example, the thermal image data output by the thermal imaging device 101 may be thermal image data after the predetermined processing, or may be image data of the thermal image (image data of the thermal image generated by the thermal image data). One or more of the image data of the thermal image data or the thermal image is compressed by a predetermined format, and is collectively referred to as a thermal image transmission data. Here, the thermal image capturing device 101 is used to capture and output thermal image transmission data, which functions similarly to the imaging unit 1 in the thermal imaging device 13.

 FIG. 19 is a schematic diagram showing an implementation of a thermal image processing system in which the thermal image processing apparatus 100 and the thermal image capturing apparatus 101 are connected, wherein the orientation detecting section 102 (such as a GPS or the like, a position detecting device) and a thermal image processing apparatus 100 connections.

 The thermal image capturing apparatus 101 is connected to the thermal image processing apparatus 100 by means of a pan-tilt or the like that is mounted on the detection vehicle, via a communication line such as a dedicated cable, or a wired or wireless LAN. The user views and monitors the subject thermal image through the thermal image processing apparatus 100. The thermal image capturing device 101 is connected to the thermal image processing device 100 to constitute an information recording system in the embodiment for capturing a subject to obtain thermal image data, and outputting thermal image transmission data.

 Moreover, the processing and control functions of some or all of the components of the embodiments of the present invention may also be implemented by a dedicated circuit or a general purpose processor or a programmable FPGA. In addition, in the embodiment, the application of the object in the power industry is exemplified as a scene, and it is also widely used in various industries of infrared detection.

 The above description is only the specific embodiment of the invention, and the various embodiments are not intended to limit the scope of the invention. Other modifications and changes can be made to the specific embodiments without departing from the scope of the invention. The essence and scope of the invention.

Claims

Claim

1. Infrared information display control device, including:

 An acquisition unit, configured to acquire thermal image data;

 An image processing unit, configured to perform pseudo color processing on the acquired thermal image data to obtain an infrared thermal image;

 a display control unit configured to cause the display unit to display the infrared thermal image, and to cause the display unit to simultaneously display a predetermined number of subject selection information based on the plurality of subject information stored in the storage medium;

 The display control unit includes an information detecting unit that detects specific information associated with the subject information, and the display control unit that selects object selection information obtained by the subject information associated with the specific information. The subject selection information obtained with other subject information is displayed in a different manner, or one of them is not displayed.

 2. The infrared information display control device according to claim 1, wherein

 The information detecting unit is configured to detect a plurality of pieces of specific information associated with the subject information; the display control unit compares the subject selection information obtained by the subject information having the specific information with other subjects The subject selection information obtained by the information is displayed in a different manner, and the subject selection information obtained by the subject information associated with the different specific information can be displayed in the same or different manner.

 3. The infrared information display control device according to claim 1, wherein:

 a selection unit for selecting object information;

 The display control unit causes the display unit to display the subject selection information and/or the subject instruction information obtained by selecting the subject information selected by the selection unit in a special display manner.

 The infrared information display control device according to claim 1, wherein the information detecting unit is configured to detect specific time information associated with the object information, wherein the specific time information is a time zone located within a predetermined time interval. The time information associated with the subject information; the display control unit executes the subject selection information obtained by acquiring the subject information of the time information in the predetermined time interval, and the subject obtained by the other subject information Select the information, display the two in a different way, or not display one of them.

 The infrared information display control device according to claim 1, further comprising: a marking unit configured to perform labeling processing of the associated specific information with respect to the subject information selected by the selection unit in response to a predetermined operation of the user; The display control unit executes the subject selection information obtained by combining the subject information associated with the specific information and the subject information to which the specific information is not associated, or displays the related information in a different manner or does not display the associated specific information. Subject selection information obtained by the subject information.

 The infrared information display control device according to claim 1, wherein the recording unit acquires the subject information selected by the selection unit and the thermal image data acquired by the acquisition unit and/or acquires the information by the acquisition unit in response to the recording operation of the user. The thermal image data is subjected to a data correlation record obtained by the predetermined processing; the marking unit is configured to perform tag processing of the associated specific information with respect to the object information selected by the selection unit at the time of the response recording operation; and the display control unit performs the association The subject selection information obtained by the subject information of the specific information and the subject selection information obtained by the subject information not associated with the specific information are displayed in a different manner or not.

The infrared information display control device according to claim 5, wherein the marking unit is configured to perform labeling processing of the associated time information on the subject information selected by the selection unit in response to the recording operation operation; The display control unit displays the subject information in the predetermined section and the subject information that is not in the predetermined section in a predetermined section in accordance with the predetermined section of the time information, or does not display it. Claim

The infrared information display control device according to claim 1, wherein the acquisition unit is configured to continuously acquire thermal image data, and the image processing unit is configured to perform pseudo color on the continuously acquired thermal image data. Processing to obtain a dynamic infrared thermal image; the display control unit configured to cause the display unit to display the dynamic infrared thermal image, and to cause the display unit to simultaneously display a predetermined number of images based on the plurality of object information stored in the storage medium Camera selection information.

 The infrared information display control device according to any one of claims 1 to 8, wherein the infrared information display control device is a portable thermal imager, and the acquisition unit is an imaging unit.

 10. Infrared information display control method, including:

 An obtaining step, configured to obtain thermal image data;

 An image processing step, configured to perform pseudo color processing on the acquired thermal image data to obtain an infrared thermal image;

 a display control step for causing the display unit to display the infrared thermal image, and causing the display unit to simultaneously display a predetermined number of subject selection information based on the plurality of subject information stored in the storage medium;

 Wherein the display control step has an information detecting step for detecting specific information associated with the subject information; and the display control step is to select subject selection information obtained by the subject information associated with the specific information, The subject selection information obtained with other subject information is displayed in a different manner, or one of them is not displayed.

 The infrared information display control method according to claim 10, further comprising: a marking step of performing labeling processing of the associated specific information on the subject information selected in the selecting step in response to a predetermined operation of the user; The display control step is performed to display the subject selection information obtained by associating the subject information associated with the specific information with the subject information not associated with the specific information, or displaying the associated information in a different manner. Subject selection information obtained by the subject information.