JP4677686B2 - Interface device and recording medium recording program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  By displaying an operation screen, the present inventionSuch as inspection equipmentBy displaying an operation screen and an interface device that realizes a user interface for electronic devicesSuch as inspection equipmentRecording medium recording a program for realizing a user interface for an electronic device on a computerAndRelated.
[0002]
[Prior art]
In recent years, a user interface for various electronic devices has been performed by visual expression, and a GUI (Graphical User Interface) has become indispensable in a system that realizes operations of electronic devices via a personal computer or the like.
[0003]
In such a system, it is necessary to construct a GUI according to the configuration of the electronic device to be operated, etc., and components constituting the electronic device are exchanged, new components are mounted on the electronic device, For example, when a part attached to the device is removed, the GUI must be reconstructed.
For example, in a microscope system that implements a GUI for a microscope apparatus via a personal computer or the like, an objective lens attached to an electric revolver may be replaced by a user. In such a case, it is necessary to change the operation screen for selecting the objective lens used when the sample is examined.
[0004]
In the microscope system, it is possible to capture an image of the sample with an electronic camera and display it on the display. However, when a zoom lens is newly attached to the electronic camera, an operation screen related to the operation of the zoom lens is displayed. Need to be newly provided.
Furthermore, in the microscope system, it is possible to switch the wavelength of the light applied to the sample according to the difference in the fluorescent dye that stained the sample, and display the sample image for each fluorescent dye. When the target specimen is a speculum, the user selects which fluorescent dye to display an image corresponding to. Therefore, when the sample to be examined is replaced with a sample stained with a different type of fluorescent dye, it is necessary to change the operation screen related to the selection of the fluorescent dye.
[0005]
That is, in the microscope system, when the configuration of the microscope apparatus (including the sample) or the electronic camera changes, the GUI must be reconstructed.
Conventionally, such GUI reconstruction has been performed based on user instructions.
[0006]
[Problems to be solved by the invention]
Therefore, a user who wants to use the system by changing the configuration of the electronic apparatus (in the microscope system, corresponding to a microscope apparatus or an electronic camera) has to know how to construct the GUI.
[0007]
  In addition, since it is necessary to reconstruct the GUI every time the configuration of the electronic device is changed, the user is forced to perform laborious work.
  Accordingly, claims 1 to9It is an object of the present invention to provide an interface device that can display an operation screen adapted to changes in the configuration of an electronic device such as an inspection device without bothering the user. Claims10 to 12It is an object of the present invention to provide a recording medium that records a program that can realize operation screen display adapted to changes in the configuration of an electronic device with a computer without bothering the user.The
[0008]
[Means for Solving the Problems]
  An interface apparatus according to the present invention is an interface apparatus that realizes a user interface to an inspection apparatus that performs an inspection of a subject by displaying an operation screen, and an identification that repeatedly acquires identification information for components mounted on the inspection apparatus Based on the information acquisition means and the identification information repeatedly acquired by the identification information acquisition means, it is determined whether or not the configuration of the inspection apparatus has changed, and when the configuration of the inspection apparatus has changed, the identification information acquisition means Operation screen display means for displaying an operation screen based on the operation screen information corresponding to the acquired identification information, and the operation screen display means simultaneously adds a plurality of the inspection devices when the inspection devices are added. Upon receiving an operation command for operation, an operation screen common to the plurality of inspection apparatuses is displayed at the same time. And displaying the inspection apparatus own operation screen for each of the test devices.
[0009]
  In addition, the interface device of the present invention repeatedly obtains identification information for a component mounted on the inspection device in an interface device that realizes a user interface to the inspection device that inspects a subject by displaying an operation screen. And determining whether the configuration of the inspection apparatus has changed based on the identification information acquired by the identification information acquisition means and the identification information repeatedly acquired by the identification information acquisition means, and acquiring the identification information when the configuration of the inspection apparatus has changed Operation screen display means for displaying an operation screen based on the operation screen information corresponding to the identification information acquired by the means, and the operation screen display means displays the inspection device when the inspection device is added. In response to an operation command for individual operation, an operation screen for each of the inspection devices is displayed. To.
[0010]
  In addition, the interface device of the present invention repeatedly obtains identification information for a component mounted on the inspection device in an interface device that realizes a user interface to the inspection device that inspects a subject by displaying an operation screen. And determining whether the configuration of the inspection apparatus has changed based on identification information repeatedly acquired by the identification information acquisition means, and acquiring the identification information when the configuration of the inspection apparatus has changed Operation screen display means for displaying an operation screen based on operation screen information corresponding to the identification information acquired by the means, wherein the operation screen display means is based on the identification information repeatedly acquired by the identification information acquisition means. Determining whether the subject has been replaced, determining that the subject has been replaced, and When been analyte consists of different kinds of fluorescent dyes in dyed sample, and changes the operation screen relating to selection of the fluorescent dye.
[0011]
  In the interface device described above, whether or not the configuration of the inspection device has changed can be determined by, for example, determining whether or not the identification information repeatedly acquired by the identification information acquisition unit has increased or decreased. Further, when a plurality of parts are mounted on the inspection apparatus, the operation screen display means may synthesize and display an operation screen corresponding to the identification information of each part.
[0012]
  The apparatus further includes operation screen recording means for recording operation screen information for a removable component constituting the inspection apparatus in association with identification information for identifying the component.It is preferable.
[0013]
The operation screen recording means records operation screen information for all detachable parts that can constitute the inspection apparatus in association with identification information for identifying the parts via a network. The operation screen information and the identification information may be acquired from the external device and recorded at a predetermined timing.
The operation screen recording means acquires the operation screen information and the identification information from the external device, for example, when the interface device is turned on, when the operation screen information in the external device is updated, For example, every period determined by the user (for example, every week).
[0014]
  Further, the operation screen display means provides a network to an external device that records operation screen information for all removable components that can constitute the inspection device in association with identification information for identifying the components. When the operation screen information corresponding to the identification information acquired by the identification information acquisition unit is not recorded in the operation screen recording unit, the operation screen information is preferably acquired from the external device.
In this case, the operation screen recording means may record the operation screen information acquired from the external device by the operation screen display means in association with identification information.
[0015]
  Further, the operation screen display means provides a network to an external device that records operation screen information for all removable components that can constitute the inspection device in association with identification information for identifying the components. It is preferable that the operation screen information corresponding to the identification information acquired by the identification information acquisition means when the configuration of the inspection apparatus is changed is read from the external device and the operation screen is displayed.
[0016]
  The identification information acquisition unit repeatedly acquires identification information for the subject, and the operation screen display unit determines whether the subject has been replaced based on the identification information repeatedly acquired by the identification information acquisition unit. And an operation screen corresponding to the identification information acquired by the identification information acquisition means when the subject is exchanged may be displayed.
[0017]
  The recording medium of the present invention is mounted on the inspection apparatus in a recording medium that records a program for realizing a user interface for an inspection apparatus for inspecting a subject by a computer by displaying an operation screen. Based on the identification information acquisition procedure for repeatedly acquiring identification information for a component and the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the configuration of the inspection device has changed, and the configuration of the inspection device has changed. A first operation screen display procedure for displaying an operation screen based on the operation screen information corresponding to the identification information acquired by the identification information acquisition procedure, and the inspection device when the inspection device is added At the same time displaying an operation screen common to a plurality of the inspection devices It is used for realizing the second operation screen display procedure for displaying its own operation screen device for each of the test apparatus by a computer.
The recording medium of the present invention is mounted on the inspection apparatus in a recording medium that records a program for realizing a user interface for an inspection apparatus for inspecting a subject by a computer by displaying an operation screen. Based on the identification information acquisition procedure for repeatedly acquiring identification information for a component and the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the configuration of the inspection device has changed, and the configuration of the inspection device has changed. A first operation screen display procedure for displaying an operation screen based on the operation screen information corresponding to the identification information acquired by the identification information acquisition procedure, and the inspection device when the inspection device is added 2nd operation screen table which receives the operation command for operating each individually, and displays the operation screen for every said inspection device, respectively It is used for realizing the steps at the computer.
The recording medium of the present invention is mounted on the inspection apparatus in a recording medium that records a program for realizing a user interface for an inspection apparatus for inspecting a subject by a computer by displaying an operation screen. Based on the identification information acquisition procedure for repeatedly acquiring identification information for a component and the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the configuration of the inspection device has changed, and the configuration of the inspection device has changed. The first operation screen display procedure for displaying the operation screen based on the operation screen information corresponding to the identification information acquired by the identification information acquisition procedure, and the identification information repeatedly acquired by the identification information acquisition procedure. On the basis of whether or not the subject has been replaced, it is determined that the subject has been replaced, and And when the analyte consists of different kinds of fluorescent dyes in dyed sample, it is intended to execute a second operation screen display procedure for changing an operation screen relating to selection of the fluorescent dye by a computer.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following, a microscope system including a personal computer will be described as an example of an interface apparatus of the present invention. However, in each of the following embodiments, it is assumed that the program recorded on the recording medium of the present invention or the program of the present invention is preinstalled in the personal computer.
[0019]
FIG. 1 is a configuration diagram of a microscope system.
In FIG. 1, a microscope system 10 includes a microscope apparatus 100 and a personal computer 200, and an electronic camera 300 is provided as necessary.
The microscope apparatus 100 includes a microscope main body 101. The microscope main body 101 is equipped with a plurality of objective lenses 102 via an electric revolver (not shown) and various accessories 103 (for example, an illumination system, a relay, etc.). Lens, manipulator, etc.) are also attached. In addition, a preparation 104 on which a sample to be examined is placed is set on an electric stage (not shown) in the microscope body 101.
[0020]
In FIG. 1, only the objective lens 102 and the accessory 103 are described as the parts to be attached to the microscope body 101, but various other removable parts are attached to the microscope body 101. It shall be.
In the microscope apparatus 100 having such a configuration, the objective lens 102 and the accessory 103 incorporate an IC chip in which an ID (product number, manufacturing date, serial number, etc.) that can be identified for each individual is recorded, and the preparation 104 Are provided with an IC chip, a barcode or the like on which an ID capable of identifying the type of fluorescent dye used for staining the sample is recorded. The microscope main body 101 has a function of reading the ID recorded on such an IC chip and supplying it to the personal computer 200. The microscope main body 101 also records an ID that can be identified for each individual in an internal memory (not shown), and also has a function of supplying such an ID to the personal computer 200.
[0021]
The personal computer 200 includes a CPU 201, an external interface unit 203, a hard disk 204, an input device interface unit 205, a display control unit 206, and a communication control unit 207 connected to the CPU 201 via the bus 202. The external interface unit 203 is connected to the microscope main body 101 in the microscope apparatus 100 and is also connected to the electronic camera 300 in some cases. The input device interface unit 205 is connected to the mouse 208 and the keyboard 209, the display control unit 206 is connected to the display 210, and the communication control unit 207 is connected to the external server device 400 (for example, via the network). Server device owned by the manufacturer).
[0022]
The electronic camera 300 records an ID that can be distinguished from other electronic cameras in an internal memory (not shown), and can identify the ID and various accessories (including a zoom lens) for each individual. It has a function of supplying the ID to the personal computer 200.
In the microscope system 10 configured as described above, a GUI for the microscope apparatus 100 and the electronic camera 300 is realized by the personal computer 200, and the display control unit 206 synthesizes a plurality of GUI resources acquired by the CPU 201 as will be described later. Thus, it has a function of displaying an operation screen on the display 210.
[0023]
Further, it is assumed that GUI resources necessary for displaying the operation screen are recorded in advance in the server apparatus 400 in association with all IDs that can be supplied from the microscope main body 101 or the electronic camera 300 to the personal computer 200.
<< Description of First Embodiment >>
FIG. 2 is an operation flowchart of the microscope system 10 in the first embodiment, and shows processing related to display of an operation screen performed by the CPU 201 and the like.
[0024]
Hereinafter, the operation of the microscope system 10 according to the first embodiment will be described. In the following, among the operations of the microscope system 10, the operation related to the display of the operation screen will be described with reference to FIG. Description of the operation of is omitted.
When the power of the personal computer 200 is turned on, the CPU 201 acquires all IDs that can be supplied from the microscope main body 101 and the electronic camera 300 and GUI resources corresponding to the IDs from the server apparatus 400 via the network. (FIG. 2 S1).
[0025]
Here, all IDs that can be supplied from the microscope main body 101 and the electronic camera 300 are components that can be attached to the microscope main body 101, electronic cameras that can be attached to the microscope apparatus 100, accessories that can be attached to the electronic camera 300, and the like. ID for. 2S1 corresponds to, for example, accessing the homepage of a microscope maker or an electronic camera maker via the Internet, and downloading ID and GUI resources from the homepage.
[0026]
Next, the CPU 201 creates a GUI correspondence table composed of the ID acquired from the server apparatus 400 and the GUI resource, and stores it in the hard disk 204 (S2 in FIG. 2).
Next, the CPU 201 acquires an ID from the microscope main body 101 and the electronic camera 300 via the external interface unit 203 (S3 in FIG. 2). That is, the CPU 201 acquires IDs for the microscope main body 101, the objective lens 102, the accessory 103, the preparation 104, the electronic camera 300, and IDs for accessories attached to the electronic camera 300.
[0027]
Next, the CPU 201 reads the GUI resource corresponding to the ID acquired in this way from the GUI correspondence table in the hard disk 204 (S4 in FIG. 2).
Then, the CPU 201 synthesizes the GUI resource read in this way via the display control unit 206 and displays the operation screen on the display 210 (S5 in FIG. 2).
[0028]
By the way, in the operation with respect to the microscope apparatus 100, common operations can be performed on a plurality of components mounted on the microscope main body 101. For this reason, it is desirable that GUI resources that realize common operations with the same overlapping operations are integrated into one, rather than an operation screen in which GUI resources corresponding to the respective components are simply combined.
Therefore, in the first embodiment and each embodiment described later, the GUI resource is provided not only for each ID but also for a combination of a plurality of IDs.
[0029]
In a state where the operation screen is displayed on the display 210 by the processing of FIGS. 2S1 to 2S5, the CPU 201 acquires the ID from the microscope main body 101 and the electronic camera 300 via the external interface unit 203 as in the processing of FIG. 2S3. (S6 in FIG. 2).
Then, the CPU 201 compares the ID acquired in this way with the ID acquired last time, and determines whether the ID has increased or decreased (S7 in FIG. 2).
[0030]
When the CPU 201 recognizes that an increase / decrease or a change has occurred in the ID by such determination, the CPU 201 reads the GUI resource corresponding to the newly acquired ID from the GUI correspondence table in the hard disk 204 (S8 in FIG. 2). Then, the CPU 201 synthesizes the read GUI resource via the display control unit 206, displays the operation screen on the display 210 (FIG. 2 S9), and repeats the processing from FIG.
[0031]
On the other hand, when the CPU 201 recognizes that there is no increase / decrease or change in the ID by the determination in FIG. 2S7, the CPU 201 repeats the processes in FIG.
Therefore, the operation screen displayed on the display 210 is changed every time an increase or decrease or change in ID occurs.
Such increase / decrease or change of the ID occurs when the configuration of the microscope apparatus 100 or the electronic camera 300 is changed. For example, the following states can be considered as changes in the configuration of the microscope apparatus 100 and the electronic camera 300.
[0032]
1: A state in which a part or all of the objective lens 102 is removed from the electric revolver.
2: A state in which a part or all of the objective lens 102 is replaced from the electric revolver.
3: A state in which a part or all of the accessory 103 is removed.
4: Accessory 103 is added or replaced.
5: A state in which the electronic camera 300 is attached or removed.
[0033]
6: A state in which the accessory of the electronic camera 300 has been replaced.
7: The accessory of the electronic camera 300 is added or replaced.
8: The state where the microscope apparatus is added.
9: A state in which the slide 104 is exchanged.
That is, in the first embodiment, when the configuration of the microscope apparatus 100 or the electronic camera 300 changes, the operation screen can be changed following the change in the configuration.
[0034]
FIG. 3 to FIG. 5 are diagrams showing examples of changes in the operation screen that accompany changes in the configuration of the microscope apparatus 100 and the electronic camera 300.
FIG. 3 (1) shows an example of changing the operation screen when the 10 × objective lens is removed, but “× 10” on the operation screen before the change is not selected on the operation screen after the change. Rather than being changed to a possible state, it is newly created.
[0035]
3 (2) shows an example of changing the operation screen when the zoom lens is attached to the electronic camera 300, and FIG. 3 (3) is an example of changing the operation screen when the manipulator is attached to the microscope body 101. FIG. Is shown.
FIG. 4 shows an example of changing the operation screen when a microscope apparatus is added. However, in the state where the microscope apparatus is added and the microscope can be examined by the plurality of microscope apparatuses, the plurality of microscope apparatuses may be operated at the same time or individually according to the user's request. . 4 (1) shows an example of changing the operation screen when a user requests to operate a plurality of microscope devices when the number of microscope devices is increased, and FIG. 4 (2) shows a microscope device. Is an example of changing the operation screen when the user requests to operate a plurality of microscope apparatuses individually.
[0036]
FIG. 5 is a diagram illustrating an example of a change in the operation screen accompanying a change in ID with respect to the preparation 104. Such a change in ID occurs when a sample to be examined is replaced with a sample stained with a different type of fluorescent dye. Therefore, when the ID for the preparation 104 changes, the function related to the image display of the sample is changed in the microscope apparatus 100, and in the personal computer 200, the operation screen related to the selection of the fluorescent dye is as shown in FIG. Be changed.
[0037]
That is, in the first embodiment, when the function related to the image display of the sample changes, the operation screen can be changed following the change in the function.
In the first embodiment, every time the personal computer 200 is powered on, the GUI resource is acquired from the server apparatus 400, so that an operation screen including the latest GUI resource can be displayed. That is, according to the first embodiment, even when a newly released accessory or the like is attached to the microscope main body 101, or when a newly released electronic camera is attached to the microscope apparatus 100, or the like. It is possible to display an operation screen adapted to the accessory or electronic camera.
[0038]
In the first embodiment, every time the personal computer 200 is turned on, the ID and GUI resources are acquired via the network. The acquisition of such IDs and GUI resources is determined by the user. It may be performed periodically for each period (for example, every week) or only when the GUI resource recorded in the server apparatus 400 is updated.
[0039]
For example, whether or not the GUI resource recorded in the server device 400 has been updated is determined by acquiring the creation date of the GUI resource together with the creation date and the server when acquiring the ID and GUI resource from the server device 400. The determination can be made by comparing the creation date of the GUI resource recorded in the device 400.
[0040]
<< Description of Second Embodiment >>
FIG. 6 is an operation flowchart of the microscope system 10 in the second embodiment, and shows processing related to the change of the operation screen performed by the CPU 201 or the like.
[0041]
Here, in order to simplify the description of the operation of the microscope system 10 in the second embodiment, first, the GUI correspondence table in the hard disk 204 will be described.
In the first embodiment described above, ID and GUI resources are acquired via a network, but the ID and GUI resources can be recorded on a recording medium such as a CD-ROM or a floppy disk. It is possible to read. Such a recording medium can be provided to the user together with the microscope main body 101, the parts attached to the microscope main body 101, the electronic camera 300, the accessories attached to the electronic camera 300, and the like. In addition, the GUI correspondence table can be used as long as it includes IDs and GUI resources for objective lenses and accessories owned by the user.
[0042]
Therefore, in the second embodiment, it is assumed that the ID and GUI resources are read out from the recording medium attached to the objective lens and accessories owned by the user, and the GUI correspondence table is generated in advance.
Hereinafter, the operation of the microscope system 10 according to the second embodiment will be described. In the following, the operation of the processing related to the change of the operation screen among the operations of the microscope system 10 will be described with reference to FIG. Description of the operation of is omitted.
[0043]
The CPU 201 repeatedly acquires IDs from the microscope main body 101 and the electronic camera 300 via the external interface unit 203 while the operation screen is displayed on the display 210 (S1 in FIG. 6).
The CPU 201 compares the newly acquired ID with the previously acquired ID, and determines whether or not the ID has increased or decreased (S2 in FIG. 6).
[0044]
If the CPU 201 recognizes that an increase / decrease or a change has occurred in the ID by such determination, the CPU 201 reads the GUI resource corresponding to the newly acquired ID from the GUI correspondence table in the hard disk 204 (S3 in FIG. 6), and the GUI. It is determined whether there is a GUI resource that cannot be read from the correspondence table (S4 in FIG. 6).
[0045]
Here, a state in which there is a GUI resource that cannot be read from the GUI correspondence table is an ID that does not exist in the GUI correspondence table, such as when an objective lens or accessory newly purchased by the user is attached to the microscope body 101. Means the state acquired.
When the CPU 201 recognizes that there is a GUI resource that could not be read from the GUI correspondence table based on the determination in FIG. 6S4, the CPU 201 acquires the GUI resource from the server device 400 via the network (S5 in FIG. 6). Then, the CPU 201 adds the GUI resource acquired from the server device to the GUI correspondence table in association with the ID (S6 in FIG. 6).
[0046]
Next, the CPU 201 synthesizes GUI resources via the display control unit 206 and displays an operation screen on the display 210 (S7 in FIG. 6), and repeats the processing from FIG.
On the other hand, when the CPU 201 recognizes that there is no increase / decrease or change in the ID by the determination in FIG. 6S2, the CPU 201 repeats the processes in FIG.
[0047]
Therefore, the operation screen displayed on the display 210 is changed every time an increase or decrease or change in ID occurs.
Therefore, in the second embodiment, as in the first embodiment, the operation screen is changed while following the change in the configuration of the microscope apparatus 100 and the electronic camera 300 and the change in the functions related to the image display of the sample. be able to.
[0048]
In the second embodiment, when an ID that does not exist in the GUI correspondence table is acquired, the GUI resource corresponding to the ID is acquired from the server device and the GUI correspondence table is updated. It can be reflected when the subsequent operation screen is displayed.
In the second embodiment, the GUI resource that could not be read from the GUI correspondence table is acquired from the server device 400 via the network. At this time, the GUI resource corresponding to the ID in the GUI correspondence table is also acquired. Then, the GUI resource in the GUI correspondence table may be updated to the latest one.
[0049]
<< Description of Third Embodiment >>
FIG. 7 is an operation flowchart of the microscope system 10 according to the third embodiment, and shows processing related to display of an operation screen performed by the CPU 201 and the like.
Hereinafter, the operation of the microscope system 10 according to the third embodiment will be described. Hereinafter, among the operations of the microscope system 10, the operation related to the display of the operation screen will be described with reference to FIG. Description of the operation of is omitted.
[0050]
When the power of the personal computer 200 is turned on, the CPU 201 acquires an ID from the microscope main body 101 or the electronic camera 300 via the external interface unit 203 (S1 in FIG. 7).
The CPU 201 acquires the GUI resource corresponding to the acquired ID from the server device 400 via the network (S2 in FIG. 7), synthesizes the GUI resource via the display control unit 206, and displays the operation screen on the display 210. This is displayed (S3 in FIG. 7). That is, in the third embodiment, unlike the first embodiment and the second embodiment described above, the GUI correspondence table is not generated and the GUI resource acquired from the server device 400 via the network is displayed on the operation screen. Used directly when displaying.
[0051]
In a state where the operation screen is displayed on the display 210 in this way, the CPU 201 acquires an ID from the microscope main body 101 and the electronic camera 300 via the external interface unit 203 (S4 in FIG. 7).
Then, the CPU 201 compares the ID acquired in this way with the ID acquired last time, and determines whether the ID has increased or decreased (S5 in FIG. 7).
[0052]
If the CPU 201 recognizes that an increase / decrease or a change has occurred in the ID by such determination, the CPU 201 acquires a GUI resource corresponding to the newly acquired ID from the server device 400 via the network (S6 in FIG. 7).
Then, the CPU 201 synthesizes the GUI resources acquired in this way via the display control unit 206, displays an operation screen on the display 210 (FIG. 7S7), and repeats the processing from FIG.
[0053]
On the other hand, when the CPU 201 recognizes that there is no increase / decrease or change in the ID by the determination in FIG. 7S5, the CPU 201 repeats the processing in FIG.
Therefore, the operation screen displayed on the display 210 is changed every time an increase or decrease or change in ID occurs.
Therefore, in the third embodiment, as in the first embodiment, the operation screen is changed while following the change in the configuration of the microscope apparatus 100 and the electronic camera 300 and the change in the functions relating to the image display of the sample. be able to.
[0054]
In each of the above-described embodiments, the ID is read from the IC chip attached to the objective lens 102, the accessory 103, and the slide. However, reading of the ID is not limited to such a method, and any method can be used. It may be a method.
For example, when the microscope apparatus 100 is provided with a barcode reader, the ID can be read by attaching a barcode indicating an ID to the objective lens 102, the accessory 103, and the slide instead of the IC chip. However, in such a case, the user needs to operate the bar code reader when exchanging the objective lens 102, the accessory 103, and the preparation 104.
[0055]
In each embodiment described above, an operation screen is generated based on an ID supplied from the microscope main body 101 or the electronic camera 300, but an accessory not associated with an ID is attached to the microscope main body 101 or the electronic camera 300. When an electronic camera not associated with an ID is attached to the microscope apparatus 100, the operation screen displayed on the display 210 is corrected by the user as in the conventional microscope system. The contents of such correction may be reflected when the operation screen is displayed thereafter.
[0056]
Further, in each embodiment described above, an ID for identifying the type of fluorescent dye used for staining the sample is associated with the preparation 104. Therefore, the operation screen related to the selection of the fluorescent dye is changed due to such a change in the ID. In each of the above-described embodiments, an ID for identifying a function that needs to be changed depending on a difference in the sample. By associating with the preparation 102, the operation screen for realizing the function can be changed.
[0057]
Further, in each of the above-described embodiments, the example in which the interface device of the present invention is applied to the microscope system 100 has been described. However, the interface device of the present invention is not limited to the microscope system, and is an electronic apparatus including detachable components. The system can be applied to any system as long as the user interface can be realized by a personal computer or the like and has a function of acquiring identification information for identifying the removable parts constituting the electronic device.
[0058]
【The invention's effect】
  As described above, claims 1 to12According to the invention described inSuch as inspection equipmentAn operation screen adapted to changes in the configuration of the electronic device can be displayed without bothering the user. In particular, the claims5Or claims8In the invention described in (1), even when a new part is mounted on an electronic device, an operation screen for the part can be displayed. Claims9In the invention described in (1), even when the function of the inspection apparatus changes depending on the subject, the operation screen adapted to the change can be displayed without bothering the user.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a microscope system.
FIG. 2 is an operation flowchart of the microscope system according to the first embodiment.
FIG. 3 is a diagram illustrating a change example of an operation screen according to a change in the configuration of a microscope apparatus or an electronic camera.
FIG. 4 is a diagram illustrating a change example of an operation screen according to a change in the configuration of a microscope apparatus or an electronic camera.
FIG. 5 is a diagram illustrating a change example of an operation screen according to a change in the configuration of a microscope apparatus or an electronic camera.
FIG. 6 is an operation flowchart of the microscope system according to the second embodiment.
FIG. 7 is an operation flowchart of the microscope system according to the third embodiment.
[Explanation of symbols]
10 Microscope system
100 Microscope device
101 Microscope body
102 Objective lens
103 Accessories
104 Preparation
200 Personal computer
201 CPU
202 Bus
203 External interface
204 hard disk
205 Interface unit for input devices
206 Display control unit
207 Communication control unit
208 mice
209 keyboard
210 display
300 electronic camera
400 server device

Claims (12)

In an interface apparatus that realizes a user interface for an inspection apparatus that performs an inspection of a subject by displaying an operation screen,
Identification information acquisition means for repeatedly acquiring identification information for components mounted on the inspection device ;
Based on said identification information is repeatedly acquired by the identification information acquiring means determines whether configuration of the test apparatus is changed, the identification information acquired by the identification information obtaining means when the configuration change of the test device and an operation screen display means for displaying an operation screen based on the operation screen information corresponding to,
The operation screen display means receives an operation command for simultaneously operating a plurality of the inspection devices when the inspection devices are added, and simultaneously displays an operation screen common to the plurality of inspection devices. Display the device-specific operation screen for each inspection device
An interface device characterized by that. In an interface apparatus that realizes a user interface for an inspection apparatus that performs an inspection of a subject by displaying an operation screen,
  Identification information acquisition means for repeatedly acquiring identification information for components mounted on the inspection device;
  Based on the identification information repeatedly acquired by the identification information acquisition means, it is determined whether or not the configuration of the inspection apparatus has changed, and the identification information acquired by the identification information acquisition means when the configuration of the inspection apparatus has changed Operation screen display means for displaying an operation screen based on operation screen information corresponding to
  With
  The operation screen display means receives an operation command for individually operating the inspection device when the inspection device is added, and displays an operation screen for each inspection device.
  An interface device characterized by that. In an interface apparatus that realizes a user interface for an inspection apparatus that performs an inspection of a subject by displaying an operation screen,
  Identification information acquisition means for repeatedly acquiring identification information for components mounted on the inspection device;
  Based on the identification information repeatedly acquired by the identification information acquisition means, it is determined whether or not the configuration of the inspection apparatus has changed, and the identification information acquired by the identification information acquisition means when the configuration of the inspection apparatus has changed Operation screen display means for displaying an operation screen based on operation screen information corresponding to
  With
  The operation screen display means determines whether or not the subject has been replaced based on the identification information repeatedly acquired by the identification information acquisition means, determines that the subject has been replaced, and the replaced subject. When the specimen consists of samples stained with different types of fluorescent dyes, the operation screen for selecting the fluorescent dye is changed.
  An interface device characterized by that. The interface device according to any one of claims 1 to 3 ,
An interface device further comprising operation screen recording means for recording operation screen information for a detachable component constituting the inspection device in association with identification information for identifying the component. The interface device according to claim 4, wherein
  The operation screen recording means is connected via a network to an external device that records operation screen information for all removable components that can constitute the inspection device in association with identification information for identifying the components. The operation screen information and the identification information are acquired from the external device and recorded at a predetermined timing.
  An interface device characterized by that. The interface device according to claim 4, wherein
  The operation screen display means records operation screen information for all detachable parts that can constitute the inspection apparatus in association with identification information for identifying the parts via a network. When the operation screen information corresponding to the identification information acquired by the identification information acquisition unit is not recorded in the operation screen recording unit, the operation screen information is acquired from the external device.
  An interface device characterized by that. The interface device according to claim 6, wherein
  The operation screen recording means records the operation screen information acquired from the external device by the operation screen display means in association with identification information.
  An interface device characterized by that. The interface device according to any one of claims 1 to 3,
The operation screen display means records operation screen information for all detachable parts that can constitute the inspection apparatus in association with identification information for identifying the parts via a network. Operation screen information corresponding to the identification information acquired by the identification information acquisition means when connected and the configuration of the inspection device is changed is read from the external device and the operation screen is displayed.
  An interface device characterized by that.   The interface device according to any one of claims 1 to 8,
  The identification information acquisition means repeatedly acquires identification information for the subject,
  The operation screen display means determines whether or not the subject has been exchanged based on the identification information repeatedly obtained by the identification information obtaining means, and is obtained by the identification information obtaining means when the subject has been exchanged. The operation screen corresponding to the identified information
  An interface device characterized by that. In a recording medium on which a program for realizing a user interface for an inspection apparatus for inspecting a subject by a computer is displayed by displaying an operation screen,
  An identification information acquisition procedure for repeatedly acquiring identification information for components mounted on the inspection device;
  Based on the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the configuration of the inspection apparatus has changed, and the identification information acquired by the identification information acquisition procedure when the configuration of the inspection apparatus has changed A first operation screen display procedure for displaying an operation screen based on the operation screen information corresponding to
  When the inspection apparatus is added, an operation command for simultaneously operating a plurality of the inspection apparatuses is received, and an operation screen common to the plurality of inspection apparatuses is displayed. A second operation screen display procedure for displaying the screen;
  A recording medium on which a program is recorded that is realized by a computer. In a recording medium on which a program for realizing a user interface for an inspection apparatus for inspecting a subject by a computer is displayed by displaying an operation screen,
  An identification information acquisition procedure for repeatedly acquiring identification information for components mounted on the inspection device;
  Based on the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the configuration of the inspection apparatus has changed, and the identification information acquired by the identification information acquisition procedure when the configuration of the inspection apparatus has changed A first operation screen display procedure for displaying an operation screen based on the operation screen information corresponding to
  A second operation screen display procedure for displaying an operation screen for each inspection device in response to an operation command for individually operating the inspection device when the inspection device is added;
  A recording medium on which a program is recorded that is realized by a computer. In a recording medium on which a program for realizing a user interface for an inspection apparatus for inspecting a subject by a computer is displayed by displaying an operation screen,
  An identification information acquisition procedure for repeatedly acquiring identification information for components mounted on the inspection device;
  Based on the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the configuration of the inspection apparatus has changed, and the identification information acquired by the identification information acquisition procedure when the configuration of the inspection apparatus has changed A first operation screen display procedure for displaying an operation screen based on the operation screen information corresponding to
  Based on the identification information repeatedly acquired by the identification information acquisition procedure, it is determined whether or not the subject has been replaced, and it is determined that the subject has been replaced, and the replaced subject has a different type of fluorescent dye A second operation screen display procedure for changing the operation screen related to the selection of the fluorescent dye when the sample is stained with
  A recording medium on which is recorded a program that is executed by a computer.

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