JP2009288116A - Measuring device, measuring system, and display control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To display the whole screen of a measuring device simultaneously referred to on a display part of an external device. <P>SOLUTION: This device is equipped with a storage part for storing a display control program for allowing the external device to execute the first step (step 31) for acquiring both indicatable sizes in the longitudinal and lateral both directions on the display part of the external device; and the second step (step 33, 34) for displaying the measuring device screen in a specified display size not less than a reference display size when both indicatable sizes are not less than the reference display size of the measuring device screen, and displaying the measuring device screen in a display size reduced with a prescribed reduction ratio when some of both indicatable sizes is smaller than the reference display size. A control part transmits a display control program read out of the storage part together with display data to the external device through a communication part, and allows the external device to execute the display control program, and allows a display part to display the measuring device screen based on the display data. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a measurement device that displays a measurement device screen related to a measurement device on a display unit of the external device, a measurement system including the measurement device, and a display control program for displaying the measurement device screen on the display unit of the external device. Is.

For example, Japanese Patent Laid-Open No. 2002-214252 discloses a waveform measurement system (a digital oscilloscope or the like) and a client (personal computer or the like) combined with a client (a personal computer or the like) so that the measurement data of the waveform measurement device can be displayed on the client Hereinafter, it is also referred to as a “measurement system”. This measurement system is configured to execute transmission / reception of various data between the waveform measuring instrument and the client in a state where the waveform measuring instrument and the client are connected to each other via a communication line. As an example, when displaying the measurement result of the waveform measuring instrument on the display unit of the client, first, the waveform measuring instrument converts the measurement data into a prescribed format (in this example, XML format) and stores it in the storage means. Let Next, the client is operated to read the measurement data in the XML format from the storage unit of the waveform measuring instrument via the communication line, and the waveform (waveform display screen) based on the measurement data is read using the browser installed in the client. Display. Thereby, referring to the waveform display screen displayed on the display unit of the client, for example, it is possible to remotely operate a waveform measuring instrument installed at a location away from the client.
JP 2002-214252 A (page 3-4, Fig. 1-4)

  However, the conventional measurement system has the following problems. That is, the conventional measurement system employs a configuration in which the client reads the measurement data converted into the XML format from the waveform measuring instrument and displays a waveform display screen based on the read measurement data on the display unit. In this case, the communication terminals (such as personal computers) used as clients in this type of measurement system have different display capabilities of their display units. Specifically, the above-described communication terminal has a maximum displayable image (screen) size (hereinafter also referred to as “displayable size”) 640 in accordance with the difference in the configuration of the image processing circuit and the display. Dots × 480 dots (so-called “VGA display mode”), 800 dots × 600 dots (so-called “SVGA display mode”), 1024 dots × 768 dots (so-called “XGA display mode”), and 1280 dots × 1024 dots (so-called “ Any of various display units such as “SXGA display mode”) is mounted.

  Therefore, when the normal display size (number of pixels of the waveform display screen) of the waveform display screen displayed on the display unit of the client in the conventional measurement system is, for example, 800 dots × 720 dots, the display in the XGA display mode is performed. And a client (communication terminal) equipped with a display unit in the SXGA display mode, the entire waveform display screen can be displayed on the display unit. However, in a client (communication terminal) equipped with a display unit in VGA display mode and a display unit in SVGA display mode, the entire waveform display screen cannot be displayed on the display unit, and a part of the screen is not displayed. Display status. Accordingly, when a client equipped with a display unit in the VGA display mode or a display unit in the SVGA display mode is used in the conventional measurement system, the entire waveform display screen cannot be referred to at the same time. There arises a problem that it becomes difficult to understand the measurement result by the method. In addition, in order to refer to all the information displayed on the waveform display screen, it is necessary to scroll the screen, so that there is a problem that this operation is complicated.

  The present invention has been made in view of such a problem, and can be displayed on a display unit of an external apparatus (information processing apparatus) so that the entire measurement apparatus screen can be referred to at the same time without performing complicated operations. The main object is to provide a measurement system and a display control program.

  In order to achieve the above object, the apparatus according to claim 1 includes a measurement unit that performs measurement processing on an input signal, a communication unit for connecting to a communication network, and a display unit of an external device connected to the communication network. And a control unit that generates display data for displaying a measurement device screen related to the measurement device and outputs the display data to the external device via the communication unit, in the horizontal direction in the display unit A first step of acquiring a displayable size and a vertical displayable size, and when the displayable size is equal to or larger than a reference display size of the measuring apparatus screen, The measurement device screen is displayed on the display unit based on display data, and any of the displayable sizes is smaller than the reference display size. A storage unit for storing a display control program for causing the external device to execute a second step of displaying the measurement device screen on the display unit based on the display data with a display size reduced at a predetermined reduction rate And the control unit transmits the display control program read from the storage unit together with the display data to the external device via the communication unit, and causes the external device to execute the display control program. The measurement device screen based on the display data is displayed on the display unit.

  Moreover, the measuring apparatus according to claim 2 is the measuring apparatus according to claim 1, wherein the display unit is configured such that any one of the displayable sizes is the reference display size as the display control program. When the ratio is lower than the above, the measurement apparatus screen is reduced by selecting the reduction ratio at which the entire measurement apparatus screen can be displayed with the largest display size from among the plurality of types of reduction ratios defined in advance. A program for causing the external device to execute processing is stored.

  A measurement system according to a third aspect includes the measurement apparatus according to the first or second aspect and an information processing apparatus as the external device.

  According to a fourth aspect of the present invention, there is provided a display control program based on display data transmitted from a measuring device to a measuring device screen related to the measuring device for an external device connected to the measuring device via a communication network. A display control program for displaying on the display unit of the external device, the first step of obtaining the displayable size in the horizontal direction and the displayable size in the vertical direction in the display unit; When the measurement device screen is larger than the reference display size of the measurement device screen, the measurement device screen is displayed on the display unit based on the display data with a specified display size that is greater than or equal to the reference display size, and any of the displayable sizes The measurement based on the display data at a display size reduced at a predetermined reduction rate when the value is smaller than the reference display size The 置画 surface to perform a second step of displaying on the display unit to the external device.

  Furthermore, the display control program according to claim 5 is defined in advance in the second step of the display control program according to claim 4 when any one of the displayable sizes is smaller than the reference display size. In addition, the external device is caused to perform a process of reducing the measurement device screen by selecting the reduction rate at which the entire measurement device screen can be displayed with the largest display size from among the plurality of types of reduction rates.

  In the measuring apparatus according to claim 1, the first step of obtaining the displayable size in the horizontal direction and the displayable size in the vertical direction on the display unit of the external device, and the displayable size of both are greater than or equal to the reference display size of the measurement apparatus screen Display the measurement device screen on the display unit with a specified display size that is equal to or larger than the reference display size, and when the displayable size is below the reference display size, the display size is reduced by a predetermined reduction ratio. A storage unit for storing a display control program for causing the external device to execute the second step of displaying the measurement device screen on the display unit; and the control unit externally displays the display control program together with display data via the communication unit. Transmitting to the apparatus and causing the external apparatus to execute the display control program to display the measuring apparatus screen based on the display data on the display unit. According to a third aspect of the present invention, there is provided a measurement system including the above-described measurement device and an information processing device as an external device. Furthermore, in the display control program according to claim 4, the horizontal displayable size and the vertical displayable size in the display unit of the external device are acquired for the external device connected to the measurement device via the communication network. And when the displayable size is greater than or equal to the reference display size of the measurement device screen, the measurement device screen is displayed on the display unit with a specified display size that is greater than or equal to the reference display size, and any one of the displayable sizes The second step of causing the display unit to display the measurement device screen with a display size reduced at a predetermined reduction rate when is smaller than the reference display size.

  Therefore, according to the measuring device according to claim 1, the measuring system according to claim 3, and the display control program according to claim 4, a measuring device screen (for example, a measuring device) on the display unit of the external device (information processing device) When the measurement result display screen for the measurement process is displayed, the entire measurement device screen can be displayed simultaneously on the display unit without performing a complicated operation for scrolling the measurement device screen. Therefore, according to the measurement device, the measurement system, and the display control program, even for an operator who is unfamiliar with the operation of the external device (information processing device), the measurement result of the measurement process by the measurement device can be reliably and easily recognized. Can be made.

  Further, in the measuring device according to claim 2, when the displayable size of any of the display units is smaller than the reference display size of the measuring device screen in the second step, a plurality of types of reduction ratios defined in advance are provided. The storage unit stores a program for causing the external device to execute a process of reducing the measurement device screen by selecting a reduction ratio that can display the entire measurement device screen with the largest display size. . Furthermore, in the display control program according to claim 5, when the displayable size of any of the display units is smaller than the reference display size on the lower surface of the measurement result display in the second step, From the reduction ratio, a reduction ratio capable of displaying the entire measurement apparatus screen with the largest display size is selected, and the external apparatus is caused to execute processing for reducing the measurement apparatus screen. Therefore, according to the measuring device according to claim 2 and the display control program according to claim 5, the measuring device screen is displayed in the largest size so that the measuring device screen related to the measuring device can be recognized more reliably and easily. it can.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, best modes of a measuring apparatus, a measuring system, and a display control program according to the present invention will be described with reference to the accompanying drawings.

  First, the configuration of the measurement system 1 will be described with reference to the drawings.

  A measurement system 1 shown in FIG. 1 is an example of a measurement system according to the present invention, and includes a measurement device 2 and a personal computer 3 configured to be connectable to a communication network 4. In this case, the communication network 4 is not particularly limited, but as an example, the communication network 4 is configured by a LAN (Local Area Network), a WAN (Wide Area Network), or a combination thereof.

  The measurement device 2 is an example of a measurement device according to the present invention, and includes a measurement unit 11, a communication unit 12, an operation unit 13, a display unit 14, a control unit 15, and a storage unit 16. The measurement unit 11 includes an A / D conversion unit and an amplifier circuit (not shown), and performs A / D conversion processing (sampling at a predetermined cycle) on the input signal Si under the control of the control unit 15 to measure the measurement data Ds. The measurement process to generate is executed. The communication part 12 is comprised by the network adapter as an example, and is comprised so that the measurement apparatus 2 can be connected to the communication network 4. FIG. In this case, either or both of a wired connection type network adapter and a wireless connection type network adapter can be employed as the communication unit 12 according to the usage environment of the measuring device 2. For example, when a public line network (analog telephone line network) is used as the communication network 4, a communication modem can be employed as the communication unit 12. The operation unit 13 includes various operation switches for setting operating conditions of the measuring device 2. The display unit 14 displays a measurement result display screen (not shown) for displaying the measurement result of the measurement process performed by the measurement unit 11, an operation condition setting screen (not shown) for setting the operation condition of the measurement device 2, and the like. indicate.

  The control unit 15 comprehensively controls the measuring device 2. Specifically, the control unit 15 controls the measurement unit 11 to execute measurement processing for the input signal Si, and executes processing to store the measurement data Ds output from the measurement unit 11 in the storage unit 16. . Further, as will be described later, the control unit 15 displays screen data Dg (display data in the present invention) for displaying the measurement result display screen on the personal computer 3 based on the measurement data Ds stored in the storage unit 16. And the screen data Dg together with the program data Dp is transmitted to the personal computer 3 via the communication unit 12 in response to a request from the personal computer 3. The storage unit 16 is a program data Dp (display control program data in the present invention) for displaying on the personal computer 3 a remote operation screen 40 (see FIGS. 3 to 7) based on the screen data Dg as described later. And an operation program of the control unit 15 are stored. The measuring device 2 can be used separately from the measuring system 1. Specifically, the operation condition (measurement processing condition) is set by operating each operation switch of the operation unit 13, and a measurement result display screen (not shown) based on the measurement data Ds output from the measurement unit 11 is displayed. It can be displayed on the unit 14.

  The personal computer 3 is an example of an information processing apparatus as an external device in the present invention, and includes a communication unit 21, an operation unit 22, a display unit 23, a control unit 24, and a storage unit 25. The communication unit 21 is configured with a network adapter and can be connected to the communication network 4 in the same manner as the communication unit 12 in the measurement apparatus 2 described above. In this case, as the communication unit 21, either or both of a wired connection type network adapter and a wireless connection type network adapter can be employed according to the use environment of the personal computer 3. For example, when a public line network (analog telephone line network) is used as the communication network 4, a communication modem can be employed as the communication unit 21. The operation unit 22 includes, for example, a pointing device such as a mouse and a keyboard, and outputs an operation signal S1 corresponding to these operations to the control unit 24. The display unit 23 corresponds to the “display unit of the external device” and the “display unit of the information processing device” in the present invention, and includes a liquid crystal panel as a display as an example.

  In this case, as described above, the display unit 23 of the personal computer 3 includes various display units (displays) having different displayable sizes. Specifically, as in the display units 23a to 23d illustrated in FIGS. 4 to 7, the horizontal display size (the number of displayable pixels in the horizontal direction) includes various display sizes of the sizes LXa to LXd, and the vertical direction. There are various display sizes of LYa to LYd as the display size (number of displayable pixels in the vertical direction). In addition, in each said figure, in order to make an understanding about this invention easy, according to the magnitude | size of the displayable size of display part 23a-23d, the magnitude | size (width) of display part 23a-23d on drawing is shown. ). However, in actuality, due to the difference in the resolution (number of displayable pixels per unit area: that is, the area required to display one pixel) of each display unit 23a to 23d, each display unit 23a to 23d. The actual size (area) does not change in proportion to the displayable size.

  The control unit 24 controls the personal computer 3 as a whole. Specifically, the control unit 24 controls the communication unit 21 according to the operation signal S1 from the operation unit 22 to connect the personal computer 3 to the communication network 4 (the measuring device 2 connected to the communication network 4). Further, the control unit 24 executes the remote operation processing 30 shown in FIG. 2 according to the program data Dp transmitted from the personal computer 3 together with the screen data Dg, generates an image signal S2 based on the screen data Dg, and displays the display unit. 23, the remote operation screen 40 (see FIGS. 3 to 7) is displayed. Further, when the remote operation unit 42 (see FIGS. 3 to 7) in the remote operation screen 40 is operated in a state where the remote operation screen 40 is displayed, the control unit 24 controls the control signal according to the operation content. S <b> 3 is generated and the communication network 4 (the measuring device 2 connected to the communication network 4) is transmitted via the communication unit 21. The storage unit 25 temporarily stores the screen data Dg and program data Dp transmitted from the measuring device 2.

  In this case, the remote operation screen 40 is an example of the measurement apparatus screen according to the present invention. As shown in FIG. 3, each display of the measurement result display unit 41, the remote operation unit 42, and the magnification display unit 43 is displayed. Part (display area). Note that the reference display size of the remote operation screen 40 (display size when displaying at the same magnification without being enlarged or reduced based on the program data Dp) is the size LX1 in the horizontal direction and the size LY1 in the vertical direction. This will be described below. The measurement result display unit 41 is a display area for displaying the measurement result of the measurement process performed by the measurement apparatus 2, and as an example, a signal waveform as shown in FIG. Is displayed. Note that the measurement result displayed on the measurement result display unit 41 is not limited to the above signal waveform, and includes a numerical value representing the measurement value itself and various graphs representing the measurement value. In addition, the display unit (display area) displayed on the measurement apparatus screen in the present invention is not limited to the measurement result display unit 41, the remote control operation unit 42, the magnification display unit 43, and the like, and as an example, a measurement data list display unit In addition, various display units such as an operation condition setting display unit can be displayed.

  The remote control operation unit 42 is a virtual operation switch (in the form of “STATUS” and “CHAN” shown in the figure, such as “STATUS” and “CHAN”) in which each operation switch of the operation unit 13 in the measurement apparatus 2 is displayed in a pseudo manner. , “STOP” and “START” operation switch symbols). Further, in the program data Dp for displaying the remote operation screen 40, the virtual operation switch in the remote operation unit 42 is operated by a pointing device (for example, a mouse) of the operation unit 22, thereby controlling the program data Dp. It is described that the control signal S3 corresponding to the operation content is generated by the unit 24 and transmitted to the measuring device 2. The magnification display unit 43 displays the display magnification with respect to the reference display size of the remote operation screen 40 as described later. In this case, in the program data Dp (display control program), not only the remote operation screen 40 is displayed at the reference display size (100% display magnification) but also 5% according to the displayable size of the display unit 23. It is described that the remote operation screen 40 is automatically reduced in increments and a process for displaying the whole on the display unit 23 is executable.

  Next, the operation (usage method) of the measurement system 1 will be described with reference to the accompanying drawings.

  First, the measuring device 2 and the personal computer 3 are connected to the communication network 4 respectively. Note that “connection” at this point does not mean a state in which the link between the measuring apparatus 2 and the personal computer 3 is established, but when the communication units 12 and 21 are wired connection type network adapters. Means a state in which the communication units 12 and 21 are connected to a router or a switching hub via a communication cable, and when the communication units 12 and 21 are network adapters of a wireless connection type, the communication units 12 and 21 And a state where a connection between the wireless access point and the wireless access point is established. Next, the measurement device 2 is connected to the measurement object, and the power switch of the operation unit 13 is operated. At this time, the measurement unit 11 performs measurement processing on the input signal Si from the measurement object under the control of the control unit 15 and outputs measurement data Ds. Further, the control unit 15 sequentially stores the output measurement data Ds in the storage unit 16. Further, the control unit 15 is based on the measurement data Ds stored in the storage unit 16 and displays a measurement result display screen (for example, a measurement result on the remote operation screen 40 shown in FIG. A signal waveform display screen similar to that of the display unit 41 is displayed on the display unit 14.

  In this state, the personal computer 3 is specified via the communication network 4 by operating the operation unit 22 of the personal computer 3 and designating an address (global IP address or local IP address) on the communication network 4 of the measuring device 2. To the measuring device 2 (establishing a link between the measuring device 2 and the personal computer 3). It is assumed that the operator of the personal computer 3 knows the address of the measuring device 2 in advance. Next, by operating the operation unit 22 and transmitting a predetermined command (control signal S3) to the measuring device 2, the transmission of screen data Dg for displaying the remote operation screen 40 on the display unit 23 is requested. In response to this, the control unit 15 of the measurement apparatus 2 generates screen data Dg for displaying the remote operation screen 40 based on the measurement data Ds stored in the storage unit 16, and generates the generated screen data Dg. The program data Dp is transmitted to the personal computer 3 via the communication network 4.

  On the other hand, in the personal computer 3 that has received the screen data Dg and the program data Dp, the control unit 24 stores the received screen data Dg and program data Dp in the storage unit 25, and in accordance with the program data Dp, the remote shown in FIG. The operation process 30 is started. In this remote operation processing 30, the control unit 24 first acquires the displayable size of the display unit 23 (first step in the present invention: step 31). Specifically, the control unit 24 stores operating condition information (information about the operating state of the image processing circuit for displaying various images on the display unit 23) recorded in a hard disk drive (not shown) or the like. By referencing, the displayable size (the displayable size in the horizontal direction and the displayable size in the vertical direction) at the start time of the remote operation processing 30 is acquired. At this time, when the personal computer 3 includes the display unit 23a shown in FIG. 4 as the display unit 23, the sizes LXa and LYa are acquired as displayable sizes. When the personal computer 3 includes the display unit 23b shown in FIG. 5 as the display unit 23, the sizes LXb and LYb are acquired as displayable sizes. Furthermore, when the personal computer 3 includes the display unit 23c shown in FIG. 6 as the display unit 23, the sizes LXc and LYc are acquired as displayable sizes. When the personal computer 3 includes the display unit 23d shown in FIG. 7 as the display unit 23, the sizes LXd and LYd are acquired as displayable sizes.

  Next, the control unit 24 compares the acquired displayable size with the reference display size of the remote operation screen 40 based on the program data Dp transmitted from the measuring device 2, so that the displayable size of the display unit 23 is remote. It is determined whether or not it is equal to or larger than the reference display size of the operation screen 40 (step 32). Specifically, when the personal computer 3 includes the display unit 23 a shown in FIG. 4 as the display unit 23, the control unit 24 determines that the acquired displayable size (size LXa, LYa) is the reference of the remote operation screen 40. It is determined that the size is larger than the display size (size LX1, LY1). At this time, based on the screen data Dg stored in the storage unit 25, the remote operation screen 40 is displayed with a reference display size (sizes LX1, LY1: an example of “a specified display size larger than the quasi-display size” in the present invention). The remote control screen 40 is displayed by generating the image signal S2 to be displayed and outputting it to the display unit 23a (an example of the second step in the present invention: step 33). As a result, as shown in the figure, the entire remote operation screen 40 based on the screen data Dg transmitted from the measuring device 2 is displayed on the display unit 23a at a display magnification of 100%. At this time, the control unit 24 displays a magnification indicating the display magnification relative to the reference display size of the displayed remote operation screen 40 on the magnification display unit 43 on the remote operation screen 40 (in this example, a display of “100%”). ) Is displayed. Thereby, it is possible to intuitively recognize that the remote operation screen 40 is displayed in the reference display size on the display unit 23a.

  Further, when the personal computer 3 includes the display unit 23b shown in FIG. 5 as the display unit 23, the control unit 24 determines that the horizontal displayable size (size LXb) of the acquired displayable sizes is a remote operation. Although the horizontal display size LX1 in the reference display size of the screen 40 is equal to or larger than the vertical display size (size LYb) of the displayable sizes, the vertical size LY1 in the reference display size of the remote operation screen 40 is the same. Judge that it is below. At this time, based on the screen data Dg stored in the storage unit 25, the entire remote operation screen 40 can be displayed on the display unit 23 b, and the remote operation screen 40 according to the vertical displayable size (size LYb). The remote operation screen 40 is displayed by generating an image signal S2 to be displayed with a reduced display size (size LX2, LY2) and outputting it to the display unit 23b (another example of the second step in the present invention: Step 34). In this case, in the program data Dp, as described above, it is described that the entire remote operation screen 40 is automatically reduced at an arbitrary reduction rate of 5% so that it can be displayed.

  Specifically, in this program data Dp, the entire remote operation screen 40 is selected from a plurality of types of reduction rates prescribed in advance (in this example, reduction rates in increments of 5% of 95%, 90%,...). Is selected to execute a process of reducing the remote operation screen 40 by selecting a reduction ratio (for example, a reduction ratio of 75% in the above example) that can be displayed with the largest display size. Therefore, as shown in the figure, the entire remote operation screen 40 based on the screen data Dg transmitted from the measuring device 2 is displayed on the display unit 23b at a display magnification of 75%, and is displayed on the magnification display unit 43. Further, a magnification display (display of “75%” in this example) indicating the display magnification with respect to the reference display size of the remote operation screen 40 is displayed. As a result, the entire remote operation screen 40 can be referred to at the same time without executing a screen scroll operation or the like, and it is intuitive that the remote operation screen 40 is displayed with a reduction ratio of 75%. Recognition.

  Furthermore, when the personal computer 3 includes the display unit 23c shown in FIG. 6 as the display unit 23, the control unit 24 determines that the vertical displayable size (size LYc) of the acquired displayable sizes is remote control. It is determined that the horizontal displayable size (size LXc) is smaller than the horizontal size LX1 in the reference display size of the remote operation screen 40, although it is equal to or larger than the vertical size LY1 in the reference display size of the screen 40. . At this time, based on the screen data Dg stored in the storage unit 25, the entire remote operation screen 40 can be displayed on the display unit 23c, and the remote operation screen 40 is displayed in accordance with the displayable size (size LXc) in the horizontal direction. The remote operation screen 40 is displayed by generating an image signal S2 to be displayed with a reduced display size (size LX2, LY2) and outputting it to the display unit 23c (another example of the second step in the present invention) : Step 34). As a result, as shown in the figure, the entire remote operation screen 40 based on the screen data Dg transmitted from the measuring apparatus 2 is displayed on the display unit 23c with a display magnification of 75%, and the display on the magnification display unit 43 is displayed. A magnification display (in this example, a display of “75%”) indicating the display magnification with respect to the reference display size of the remote operation screen 40 is displayed. Thus, in this example as well, the entire remote operation screen 40 can be referred to at the same time without executing a screen scrolling operation, and the remote operation screen 40 is reduced and displayed at a reduction rate of 75%. Can be recognized intuitively.

  When the personal computer 3 includes the display unit 23d shown in FIG. 7 as the display unit 23, the control unit 24 selects the horizontal displayable size (size LXd) and the vertical display size among the acquired displayable sizes. It is determined that both the displayable sizes (size LYd) are smaller than the reference display sizes (sizes LX1, LY1) of the remote operation screen 40. At this time, one of the two displayable sizes (sizes LXd, LYd) with respect to the reference display size (sizes LX1, LY1) is larger (smaller one. In this example, the vertical size LYd). Accordingly, based on the screen data Dg stored in the storage unit 25, an image to be displayed with a reduced display size (size LX3, LY3) so that the entire remote operation screen 40 can be displayed on the display unit 23c. The remote operation screen 40 is displayed by generating the signal S2 and outputting it to the display unit 23d (a further example of the second step in the present invention: step 34). As a result, as shown in the figure, the entire remote operation screen 40 based on the screen data Dg transmitted from the measuring device 2 is displayed on the display unit 23d at a display magnification of 70%, and the magnification display unit 43 displays the display. A magnification display (in this example, “70%” display) indicating the display magnification with respect to the reference display size of the remote operation screen 40 is displayed. As a result, in this example as well, the entire remote operation screen 40 can be referred to at the same time without executing a screen scroll operation or the like, and the remote operation screen 40 is reduced and displayed at a reduction rate of 70%. Can be recognized intuitively.

  In this case, in each of the above examples in which the remote operation screen 40 is displayed on the display units 23b to 23d, the control unit 24 automatically reduces the remote operation screen 40 to a predetermined display magnification according to the displayable size of the display unit 23. However, in the measurement system 1 and the display control program (program data Dp), the magnification display unit 43 displays the remote operation screen 40 automatically reduced as described above by the control unit 23. Input an arbitrary display magnification, or operate the list button of the magnification display section 43 (the button of the inverted triangle mark displayed on the right of the portion where the magnification is displayed) to select a display magnification candidate. By displaying and selecting an arbitrary display magnification, the remote operation screen 40 is displayed at an arbitrary display magnification other than the display magnification automatically reduced by the control unit 23. Theft has become possible. When the designated display magnification (display size) exceeds the displayable size of the display unit 23, a scroll button is displayed on the display unit 23, and the scroll button is operated to protrude from the display area. The area can be displayed on the display unit 23 (not shown).

  In the above example, when the remote operation screen 40 is reduced and displayed, all of the display units (display areas) of the measurement result display unit 41, the remote operation unit 42, and the magnification display unit 43 (remote operation) are displayed. The entire area of the screen 40 is reduced, but when the remote operation screen 40 is reduced to a very small display magnification, the magnification display portion 43 is displayed in a small size, so that the magnification display is performed as described above. There is a possibility that an operation of designating an arbitrary display magnification on the unit 43 may be difficult. Therefore, as in the case of the remote operation screen 40 shown in FIG. 8, the magnification display unit 43 is displayed regardless of the display magnification (in this example, the display magnification of “50%”). Each display unit (display area) excluding the magnification display unit 43 is displayed with a reference display size, and is reduced and displayed with a display magnification automatically defined by the control unit 23 or a display magnification arbitrarily specified. A configuration (method) can also be adopted. As an example, when the remote operation screen 40 is displayed with a display size that is greater than or equal to a predetermined display magnification (for example, 60%), all display units (display areas) including the magnification display unit 43 are displayed at a predetermined display magnification. Similarly, when the display is reduced and the remote operation screen 40 is displayed with a display size lower than the display magnification (60%), only the magnification display portion 43 is displayed at the display magnification of “60%” and the magnification display portion. It is also possible to employ a configuration (method) in which a display unit (display area) other than 43 is reduced and displayed at a predetermined display magnification.

  On the other hand, after completing the display of the remote operation screen 40 (output of the image signal S2) on the display unit 23 (display units 23a to 23d), the control unit 24 has performed an operation to end the display of the remote operation screen 40. (Step 35) is monitored (whether the operation signal S1 for instructing the end of the display is output). At this time, when the operation signal S 1 corresponding to the display end operation is output from the operation unit 22, the control unit 24 deletes the remote operation screen 40 displayed on the display unit 23 and performs this remote operation processing 30. Exit. Further, in parallel with the monitoring of the presence / absence of the display end operation, the control unit 24 determines whether or not the operation switch of the remote operation unit 42 on the remote operation screen 40 has been operated (operation of the remote operation unit 42). Is monitored) (step 36).

  At this time, the operator of the personal computer 3 operates a pointing device (in this example, a mouse) of the operation unit 22 and, for example, operates the operation switch “START” of the remote operation unit 42 on the remote operation screen 40. When operated (clicked), the control unit 24 generates a control signal S3 corresponding to the operation of the operation switch “START” based on the operation signal S1 from the operation unit 22, and is connected to the communication network 4. It transmits to the measuring apparatus 2 via the communication part 21 (step 37). In response to this, in the measurement apparatus 2, the control unit 15 controls the measurement unit 11 according to the control signal S3 transmitted from the personal computer 3 to start the measurement process for the input signal Si. In addition, the control unit 15 of the measurement device 2 generates new screen data Dg based on the measurement data Ds output from the measurement unit 11, and communicates with the personal computer 3 connected to the communication network 4 via the communication unit 12. Send. In response to this, in the personal computer 3, the control unit 24 generates a new image signal S <b> 2 for displaying the remote operation screen 40 based on the program data Dp transmitted from the measuring device 2, and displays it on the display unit 23. Output sequentially. Thereby, the signal waveform in the measurement result display unit 41 on the remote operation screen 40 displayed on the display unit 23 is sequentially updated according to the new screen data Dg transmitted from the measurement device 2.

  As described above, in the measurement apparatus 2, the displayable size in the horizontal direction (sizes LXa to LXd in FIGS. 4 to 7) and the displayable size in the vertical direction (sizes LXa to FIGS. 4 to 7 in FIG. 4 to 7). LXd) (first step in the present invention: step 31 in the remote operation process 30), and the displayable size is equal to or larger than the reference display size (sizes LX1, LY1 in FIGS. 3 to 7) of the remote operation screen 40 (For example, in the state shown in FIG. 4), the remote operation screen 40 is displayed on the display unit 23 with a specified display size that is equal to or larger than the reference display size (in this example, the sizes LX1 and LY1 that are the same size as the reference display size). When one of the displayable sizes is smaller than the reference display size (for example, in the state shown in FIGS. ) At a display size reduced at a predetermined reduction rate (in this example, the size LX2, LY2 with a reduction rate of 75% with respect to the reference display size, or the size LX3, LY3 with a reduction rate of 70% with respect to the reference display size). Memory for storing program data Dp (display control program) for causing the personal computer 3 to execute the step of displaying the operation screen 40 on the display unit 23 (second step in the present invention: steps 33 and 34 in the remote operation processing 30). And the control unit 15 transmits the program data Dp together with the screen data Dg (display data) to the personal computer 3 via the communication unit 12 to cause the personal computer 3 to execute the program data Dp and display the screen data. A remote operation screen 40 based on Dg is displayed on the display unit 23. .

  In addition, the measurement system 1 includes the measurement apparatus 2 described above and a personal computer 3 corresponding to an information processing apparatus as an external apparatus in the present invention. Further, this display control program (program data Dp) can be displayed in the horizontal direction on the display unit 23 of the personal computer 3 with respect to the personal computer 3 (external device) connected to the measuring device 2 via the communication network 4. The step of obtaining the size and the displayable size in the vertical direction (first step in the present invention: step 31 in the remote operation processing 30) and the reference display when both displayable sizes are equal to or larger than the reference display size of the remote operation screen 40 The remote operation screen 40 is displayed on the display unit 23 with a specified display size equal to or larger than the size, and the remote operation screen is displayed with a display size reduced by a predetermined reduction ratio when any displayable size is smaller than the reference display size. 40 on the display unit 23 (second step in the present invention: remote To execute the steps 33, 34) and in the work process 30.

  Therefore, according to the measurement device 2, the measurement system 1, and the display control program (program data Dp), the measurement result (remote operation screen 40) of the measurement process by the measurement device 2 is displayed on the display unit 23 of the personal computer 3. In this case, the entire remote operation screen 40 can be simultaneously displayed on the display unit 23 without executing a complicated operation for scrolling the remote operation screen 40. For this reason, according to the measurement apparatus 2, the measurement system 1, and the display control program (program data Dp), the measurement result of the measurement process by the measurement apparatus 2 can be reliably ensured even for an operator who is unfamiliar with the operation of the personal computer 3. And it can be easily recognized.

  Moreover, in this measuring apparatus 2, when the displayable size of any of the display units 23 is smaller than the reference display size of the remote operation screen 40 in the second step of the present invention, a plurality of types defined in advance are provided. A process of reducing the remote operation screen 40 by selecting a reduction ratio capable of displaying the entire remote operation screen 40 in the largest display size from the reduction ratios (step 34 in the remote operation process 30) is executed on the personal computer 3. The storage unit 16 stores program data Dp to be executed. Further, in this display control program (program data Dp), when the displayable size of any one of the display units 23 is smaller than the reference display size of the remote operation screen 40 in the second step of the present invention, it is specified in advance. The personal computer 3 is caused to execute a process of reducing the remote operation screen 40 by selecting a reduction rate at which the entire remote operation screen 40 can be displayed with the largest display size from among the plurality of types of reduction rates. Therefore, according to the measurement device 2 and the display control program (program data Dp), the remote operation screen 40 is displayed in the largest size, so that the measurement result of the measurement process by the measurement device 2 can be recognized more reliably and easily. be able to.

  In addition, this invention is not limited to said structure. For example, the example in which the measurement system 1 is configured with the personal computer 3 as an example of the information processing apparatus as an external apparatus in the present invention has been described. However, the external apparatus (information processing apparatus) in the present invention is limited to a personal computer. Instead, the measurement system can be configured by adopting a management server dedicated to the measurement system and various portable information terminals as external devices (information processing devices) in the present invention. Further, although an example in which the remote operation screen 40 is reduced and displayed according to the displayable size of the display unit 23 has been described, the “displayable size of the display unit” in the present invention is not limited to this. Specifically, when an operating system of a multi-window environment is installed in a personal computer or the like as an external device (information processing device) and the remote operation screen 40 is displayed on one window, the window Corresponds to the “display unit” in the present invention, and the window size (the number of pixels in the information display area in the window) corresponds to the “displayable size”. Therefore, in this example, the entire remote operation screen 40 is reduced and displayed so that it can be displayed according to the window size of the window on which the remote operation screen 40 is displayed.

  Furthermore, the example in which the remote operation screen 40 is displayed at the reference display size (100% display magnification) when the displayable size of the display unit 23 is equal to or larger than the reference display size of the remote operation screen 40 has been described. It is not limited to this. Specifically, a configuration in which the entire remote operation screen 40 is enlarged and displayed so as to be displayable in accordance with the displayable size relative to the reference display size (“specified display size greater than the reference display size” in the present invention). Can be adopted as an arbitrary display size of 100% or more. In such a configuration, since the display unit of the external device (information processing device) in the present invention has a sufficiently large displayable size, the remote operation screen 40 can be displayed even larger. The measurement result of the measurement process by the measurement device 2 can be recognized more reliably and easily. In addition, the display control program according to the present invention is stored in the measurement device as in the above example, and when the display data is transmitted to the external device (information processing device), the display control program is displayed. It is not limited to what is transmitted from the measuring device to the external device (information processing device) and executed, for example, installed in advance in the external device (information processing device), and display data is transmitted from the measuring device. Sometimes this includes performing a series of steps to display a measuring device screen.

1 is a block diagram showing a configuration of a measurement system 1. FIG. 3 is a flowchart of a remote operation process 30. 4 is a display screen diagram of a remote operation screen 40. FIG. It is a display screen figure of the remote operation screen 40 displayed on the display part 23a. It is a display screen figure of the remote operation screen 40 displayed on the display part 23b. It is a display screen figure of the remote operation screen 40 displayed on the display part 23c. It is a display screen figure of the remote operation screen 40 displayed on the display part 23d. It is a display screen figure of the remote operation screen 40 which concerns on other embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Measuring system 2 Measuring apparatus 3 Personal computer 4 Communication network 11 Measuring part 12,21 Communication part 13,22 Operation part 14,23 (23a-23d) Display part 15,24 Control part 16,25 Storage part 30 Remote operation process 40 Remote operation screen 41 Measurement result display section Dg Screen data Dp Program data LX1 to LX3, LXa to LXd, LY1 to LY3, LYa to LYd Size S1 Operation signal S2 Image signal Si Input signal

Claims (5)

A measurement unit that performs measurement processing on an input signal, a communication unit for connecting to a communication network, and a display for displaying a measurement device screen related to the measurement device on a display unit of an external device connected to the communication network A measurement device including a control unit that generates data for output to the external device via the communication unit,
A first step of obtaining a displayable size in the horizontal direction and a displayable size in the vertical direction in the display unit; and when the displayable size is equal to or greater than a reference display size of the measuring apparatus screen, The measurement device screen is displayed on the display unit based on the display data with a specified display size, and when the displayable size is smaller than the reference display size, the measurement device screen is reduced at a predetermined reduction rate. A storage unit for storing a display control program for causing the external device to execute a second step of causing the display unit to display the measurement device screen based on the display data at a display size;
The control unit transmits the display control program read from the storage unit together with the display data to the external device via the communication unit, causes the external device to execute the display control program, and displays the display data. The measuring device which displays the measuring device screen based on the above-mentioned display part.   The storage unit, as the display control program, in the second step, when any one of the displayable sizes is smaller than the reference display size, from among a plurality of types of the reduction ratios defined in advance. The measuring apparatus according to claim 1, further comprising: a program for causing the external apparatus to execute a process of reducing the measuring apparatus screen by selecting the reduction ratio at which the entire measuring apparatus screen can be displayed with the largest display size.   A measurement system comprising the measurement device according to claim 1 and an information processing device as the external device. Display for displaying an external device connected to the measurement device via the communication network on the display unit of the external device based on the display data transmitted from the measurement device. A control program,
A first step of obtaining a displayable size in the horizontal direction and a displayable size in the vertical direction in the display unit; and when the displayable size is equal to or greater than a reference display size of the measuring apparatus screen, The measurement device screen is displayed on the display unit based on the display data with a specified display size, and when the displayable size is smaller than the reference display size, the measurement device screen is reduced at a predetermined reduction rate. A display control program that causes the external device to execute a second step of displaying the measurement device screen on the display unit based on the display data in a display size.   In the second step, when any one of the displayable sizes is smaller than the reference display size, the whole of the measuring device screen is displayed in the largest size from among a plurality of types of reduction ratios defined in advance. The display control program according to claim 4, wherein the external device executes a process of selecting the reduction ratio that can be displayed in size and reducing the measurement device screen.

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