JP2019205947A - Ophthalmologic apparatus, portable information terminal apparatus and control method thereof, ophthalmic system, and program - Google Patents

Abstract

To perform an efficient optometry when an examiner performs an optometry of a patient by using an ophthalmologic apparatus while carrying a portable information terminal apparatus.SOLUTION: A portable information terminal apparatus 200 recognizes an ophthalmologic apparatus 100 among a plurality of ophthalmologic apparatuses, and receives a moving image signal showing a moving image of an eye to be inspected from the recognized ophthalmologic apparatus 100 before information of an eye to be inspected is acquired. In a state where a display screen displayed on a display unit 207 is switched to an operation screen for operating the recognized ophthalmologic apparatus 100, the portable information terminal apparatus displays the moving image of the eye to be inspected on the operation screen for operating the recognized ophthalmologic apparatus 100. When a moving image signal is transmitted from the recognized ophthalmologic apparatus 100, the portable information terminal apparatus transmits the control signal to the recognized ophthalmologic apparatus 100 by using information on an instruction from an examiner on the moving image displayed on the operation screen for operating the recognized ophthalmologic apparatus 100.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an ophthalmologic apparatus, a portable information terminal apparatus and a control method thereof, an ophthalmologic system, and a program.

  In ophthalmic practice, an examiner may perform an operation of examining a patient's eye using various ophthalmologic apparatuses. In this case, the portable information terminal device is convenient for viewing the patient information and the like while the examiner is going to and from the examination room or the waiting room. Here, Patent Document 1 discloses an ophthalmologic apparatus configured to be able to communicate with a portable information terminal device such as a personal computer. Specifically, in Patent Document 1, information communication is performed between a main body unit for acquiring information on an eye to be examined, a mounting unit on which a portable information terminal device having a communication function is mounted, and a portable information terminal device. An ophthalmologic apparatus is disclosed that includes a communication unit that performs and a main body control unit that controls the main body unit based on information input from a portable information terminal device via the communication unit.

JP, 2014-104130, A

  Here, in the conventional technology, information that can be browsed by the portable information terminal device is not optimized according to the usage state of the ophthalmologic device or the like. For example, the usage status of the ophthalmologic apparatus includes a scene where an optometry is performed using the ophthalmologic apparatus and a scene where the optometry is not performed without using the ophthalmologic apparatus. At this time, as the display contents of the portable information terminal device, a display screen related to the ophthalmologic apparatus and a display screen of a patient standby state (a screen for inputting patient information) can be considered. In such a case, the conventional technology does not appropriately change these screens according to the usage state of the ophthalmologic apparatus. That is, in the prior art, when the examiner carries out the optometry of the patient by the ophthalmologic apparatus while carrying the portable information terminal device, the optometry is not performed efficiently.

  The present invention has been made in view of such problems, and an object of the present invention is to perform efficient optometry when an examiner carries out optometry of a patient with an ophthalmologic apparatus while carrying a portable information terminal device. One.

One of the portable information terminal devices of the present invention is an ophthalmologic device having a main body for acquiring information on an eye to be examined, and is configured to be communicable with a plurality of ophthalmologic devices, and has a display means. A recognition means for recognizing an ophthalmologic apparatus that is a target of transmission of a control signal from the portable information terminal device, which is one of the plurality of ophthalmologic apparatuses, and information on the eye to be examined Receiving means for receiving, from the recognized ophthalmologic apparatus, a moving image signal indicating a moving image of the eye to be examined, acquired by the imaging means using return light from the illuminated eye to be examined, and the display A display for displaying the moving image on the operation screen for operating the recognized ophthalmic apparatus in a state where the display screen displayed on the means is switched to the operation screen for operating the recognized ophthalmic apparatus. Control hand And information related to instructions from the examiner on the moving image displayed on the operation screen for operating the recognized ophthalmic apparatus when the moving image signal is transmitted from the recognized ophthalmic apparatus. And transmitting means for transmitting a control signal to the recognized ophthalmic apparatus.
One of the other aspects of the portable information terminal device of the present invention is a portable information terminal device configured to be communicable with a plurality of ophthalmologic apparatuses for inspecting the eye to be examined, and having a display means. Any one of the ophthalmologic apparatuses, a recognizing unit for recognizing an ophthalmologic apparatus that is a transmission target of a control signal from the portable information terminal device, a state confirmation signal from the recognized ophthalmologic apparatus, and the examination Receiving means for receiving a moving image signal indicating the moving image of the eye to be examined obtained from the recognized ophthalmologic apparatus, and an operation for operating the recognized ophthalmologic apparatus with a display screen displayed on the display means Display control means for displaying the moving image on an operation screen for operating the recognized ophthalmologic apparatus in a state where the screen is switched, and the moving image signal is transmitted from the recognized ophthalmologic apparatus. A control signal is transmitted to the recognized ophthalmic apparatus using information relating to an instruction from the examiner on a moving image displayed on an operation screen for operating the recognized ophthalmic apparatus. Transmitting means.
Further, the present invention provides an ophthalmologic apparatus described above, an ophthalmologic system including the above-described ophthalmologic apparatus and the above-described portable information terminal apparatus, a control method for the above-described portable information terminal apparatus, and each means of the above-described portable information terminal apparatus. Includes programs to make the computer function.

  According to one aspect of the present invention, when an examiner carries out optometry of a patient with an ophthalmologic apparatus while carrying a portable information terminal device, it is possible to perform efficient optometry.

It is a figure which shows an example of the external appearance structure of the ophthalmologic apparatus which concerns on embodiment of this invention. It is a figure which shows an example of a function structure of the ophthalmic apparatus and portable information terminal device which comprise the ophthalmic system which concerns on embodiment of this invention. It is a figure which shows typically an example of the transmission signal transmitted to a portable information terminal device from the wireless transmission part shown in FIG. It is a figure which shows an example of the external appearance of the portable information terminal device which concerns on embodiment of this invention. It is a figure which shows an example of the external appearance of the portable information terminal device which concerns on embodiment of this invention. It is a figure which shows an example of the external appearance of the portable information terminal device which concerns on embodiment of this invention. It is a figure which shows an example of the external appearance of the portable information terminal device which concerns on embodiment of this invention. It is a flowchart which shows an example of the process sequence in the control method of the ophthalmic system which concerns on embodiment of this invention.

  Hereinafter, embodiments (embodiments) for carrying out the present invention will be described with reference to the drawings.

FIG. 1 is a diagram illustrating an example of an external configuration of an ophthalmologic apparatus 100 according to an embodiment of the present invention.
In the ophthalmologic apparatus 100 shown in FIG. 1, an optometry unit 101 is configured at the top. The optometry unit 101 is optometry means for examining the patient's (examinee) eye.

  Below the optometry unit 101, a vertical drive unit 102 and a left / right front / rear drive unit 103 movable in a horizontal plane are arranged. A base 105 with a built-in power supply unit 104 is disposed below the left / right front / rear drive unit 103, and a face receiving unit 106 for fixing the subject's face on the subject's side of the base 105. Is arranged. In addition, a rack 107 on which the portable information terminal device can be placed for performing an optometry operation by the examiner is provided on the opposite side (examiner side) of the base 105 to the subject side.

  The optometry unit 101 includes an observation optical system 108 and an imaging unit 109 that also serve as a detection unit for observing and aligning the eye to be examined, and examination of the eye to be examined (fundus photographing, refractive power measurement, intraocular pressure measurement, corneal endothelium photographing, corneal thickness) An optometry optical system 110 for performing measurement, axial length measurement, and the like is incorporated.

  FIG. 2 is a diagram illustrating an example of functional configurations of the ophthalmologic apparatus 100 and the portable information terminal device 200 that configure the ophthalmologic system 10 according to the embodiment of the present invention. As shown in FIG. 2, the ophthalmologic system 10 includes an ophthalmologic apparatus 100 and a portable information terminal device 200. In FIG. 2, the same components as those shown in FIG.

  The ophthalmologic apparatus 100 is an apparatus that inspects an eye to be examined, and is configured to be communicable (wireless communicable) with the portable information terminal device 200. The ophthalmic apparatus 100 according to the present embodiment includes, for example, a fundus camera, an SLO (Scanning Laser Ophthalmoscope), a measuring instrument for tonneau and ref, an OCT (Optical Coherence Tomography), an AO (Adaptive Optics) apparatus, and an SLO. Alternatively, an apparatus configured by integrating some of these optical systems can be applied. At this time, the examination of the eye to be examined by the ophthalmologic apparatus 100 includes “imaging” by a fundus camera or an OCT apparatus. As shown in FIG. 2, the ophthalmologic apparatus 100 includes an optometry unit 101, an optometry unit control unit 111, a radio control unit 112, a radio communication unit 115 including a radio reception unit 113 and a radio transmission unit 114, and a power supply unit 104. It is configured.

  As described above, the optometry unit 101 is optometry means for examining the patient's eye. Further, as described with reference to FIG. 1, the optometry unit 101 includes an observation optical system 108, an imaging unit 109, and an optometry optical system 110. For example, a light source and a detection element for optometry are provided. In addition, a CCD sensor, an actuator for optometry and the like are arranged. The optometry operation by the optometry unit 101 is controlled based on a control signal from the optometry unit control unit 111.

  The optometry unit control unit 111 controls the optometry operation by the optometry unit 101 in accordance with information from the optometry unit 101, information from the wireless communication unit 115, and the like. For example, the optometry unit control unit 111 performs control to drive the vertical drive unit 102 and the left / right front / rear drive unit 103 shown in FIG. 1 according to the alignment information of the observation optical system 108 inside the optometry unit 101, thereby Can be automatically aligned. The optometry unit control unit 111 is electrically connected to the wireless control unit 112, and acquires information from the portable information terminal device 200 received by the wireless reception unit 113 via the wireless control unit 112 or wirelessly. Information or the like is transmitted from the transmission unit 114 to the portable information terminal device 200.

  The wireless control unit 112 controls the reception operation by the wireless reception unit 113 and the transmission operation by the wireless transmission unit 114 that constitute the wireless communication unit 115.

  The wireless communication unit 115 performs wireless communication with the portable information terminal device 200 based on a control signal from the wireless control unit 112. As illustrated in FIG. 2, the wireless communication unit 115 includes a wireless reception unit 113 and a wireless transmission unit 114. It is composed.

  The wireless reception unit 113, for example, from the portable information terminal device 200, setting information related to examination (optometry) by the optometry unit 101, frequency information related to optometry, alignment operation information in the optometry unit 101, optometry start operation information related to optometry, etc. Receive. In the present invention, a mode in which the wireless reception unit 113 receives at least one of these pieces of information is also applicable.

  For example, the wireless transmission unit 114 transmits the moving image signal of the eye to be examined obtained by the optometry by the optometry unit 101 and the optometry control signal related to the optometry according to the positional relationship with the portable information terminal device 200. Send to. For example, when the ophthalmic apparatus 100 comes into contact with the portable information terminal apparatus 200 (for example, the optometry unit control section 111 is connected to the portable information terminal on the rack 107 of the ophthalmic apparatus 100 via a contact sensor (not shown)). Or when the ophthalmic apparatus 100 is in non-contact with the portable information terminal apparatus 200 and the distance from the portable information terminal apparatus 200 is less than a predetermined distance. (For example, when the wireless communication unit 115 performs short-range wireless communication with the portable information terminal device 200, the wireless control unit 112 can perform short-range wireless communication between the wireless communication unit 115 and the portable information terminal device 200. Or when the distance is less than a predetermined distance by a circuit for detecting the distance of the wireless receiving unit 203 (or the wireless receiving unit 113) described later). Transmitting a signal with eye control signal to the portable information terminal device 200. Further, the wireless transmission unit 114 transmits identification information for identifying the ophthalmic apparatus 100 to the portable information terminal apparatus 200.

  The optometry control signal transmitted from the wireless transmission unit 114 to the portable information terminal device 200 includes, for example, setting value information related to the examination (optometry) by the optometry unit 101, optometry mode state information related to the optometry, left and right eye information of the eye to be examined, Optometry error presence / absence information related to optometry, optometry result information related to optometry (including measurement values and captured still images), and the like are included. In the present invention, an optometry control signal including at least one of these pieces of information is also applicable.

  In addition, the wireless transmission unit 114 preferably transmits the above-described moving image signal to the portable information terminal device 200 using, for example, a Bluetooth or high-speed wireless LAN communication standard. For example, wireless communication of a moving image signal is a communication standard Bluetooth (IEEE 802.802.1) capable of high-speed communication with high image quality of 10 Mbps or more and capable of radio wave communication at a distance of several meters to several tens of meters. 15.1) and high-speed wireless LAN communication (IEEE802.11n or IEEE802.11ac) capable of radio communication over a wide area with super high image quality are desirable.

  Moreover, it is preferable that the wireless transmission unit 114 transmits the above-described optometry control signal to the portable information terminal device 200 using, for example, a communication standard of 13.56 MHz near field communication. For example, the short distance wireless communication (ISO / IEC 18092) capable of communicating only about several meters to about 1 meter is desirable for the wireless communication of the optometry control signal including information with a small capacity.

  In the present embodiment, the wireless transmission unit 114 always transmits a moving image signal of the observation state of the eye to be examined from the ophthalmologic apparatus 100 to the portable information terminal device 200, and also transmits the above-described optometry control signal at the same time. In the present embodiment, the wireless reception unit 113 performs an examination (optometry) from the portable information terminal device 200 by the optometry unit 101 even in a state where the wireless transmission unit 114 transmits the moving image signal to the portable information terminal device 200. , Optometry mode state change information, operation information for the examiner to align the optometry unit 101 with the eye to be examined, emergency stop information, and the like.

  The power supply unit 104 supplies power to the optometry unit 101, the optometry unit control unit 111, the wireless control unit 112, the wireless reception unit 113, and the wireless transmission unit 114.

  FIG. 3 is a diagram schematically illustrating an example of a transmission signal transmitted from the wireless transmission unit 114 illustrated in FIG. 2 to the portable information terminal device 200.

  FIG. 3A shows an aspect of a transmission signal in which each information of the optometry control signal is inserted between moving image signals. In the example shown in FIG. 3A, as information of the optometry control signal, setting value information 20 related to the optometry, optometry mode state information 21 related to the optometry, left and right eye information 22 of the eye to be examined, optometry error presence information related to the optometry 23, there is optometry result information (including measured values, captured still images, etc.) 24 related to optometry. As described above, in the transmission signal shown in FIG. 3 (a), two types of signals of the moving image signal and the optometry control signal are obtained by intermingling each information 20 to 24 of the optometry control signal every predetermined time between the moving image signals. Can be sent. For example, two types of signals, that is, a moving image signal and an optometry control signal are input in communication standard Bluetooth (Bluetooth), or two types of signals, that is, a moving image signal and an optometry control signal are input in high-speed wireless LAN communication. It may be.

  FIG. 3B shows an aspect of a transmission signal on the assumption that the moving picture signal and each information of the optometry control signal are transmitted using two different communication standards. For example, wireless communication of a moving image signal is performed using a communication standard of high-speed communication (Bluetooth (registered trademark)) of 10 Mbps or more and a communication standard of high-speed wireless LAN communication. Further, for example, wireless communication of an optometry control signal including information with a small capacity is performed using a communication standard of short-range wireless communication (ISO / IEC 18092).

  In addition, as a reception signal received by the wireless reception unit 113, while the wireless transmission unit 114 is transmitting a transmission signal as shown in FIG. 3, setting information related to optometry, optometry mode state change information, and an optometry unit by an examiner 101 operation information, emergency stop information, and the like can be received.

Next, the portable information terminal device 200 will be described.
The portable information terminal device 200 is configured to be communicable (wireless communicable) with at least one ophthalmic device 100 that inspects an eye to be examined. That is, the portable information terminal device 200 according to the present embodiment is configured to be capable of wireless communication with a plurality of ophthalmic devices 100.

  As shown in FIG. 2, the portable information terminal device 200 includes an operation input unit 201, a processing / control unit 202, a wireless communication unit 205 including a wireless reception unit 203 and a wireless transmission unit 204, a power supply unit 206, and a display unit 207. And a contact sensor 208.

  The operation input unit 201 inputs operation input information based on the operation input to the processing / control unit 202, for example, when the examiner performs an operation input on the portable information terminal device 200.

  The processing / control unit 202 performs various operations in the portable information terminal device 200 based on the operation input information input from the operation input unit 201, the reception signal received by the wireless reception unit 203, and the detection signal from the contact sensor. Centralized control of the process and its operation.

  The wireless communication unit 205 performs wireless communication with the ophthalmologic apparatus 100 based on a control signal from the processing / control unit 202, and includes a wireless reception unit 203 and a wireless transmission unit 204 as shown in FIG. It is configured.

  For example, the wireless reception unit 203 receives the moving image signal and the optometry control signal described above from the ophthalmologic apparatus 100. Further, the wireless reception unit 203 receives, for example, identification information for identifying the ophthalmic apparatus 100 from the ophthalmic apparatus 100. Furthermore, the wireless receiving unit 203 can detect the distance between the portable information terminal device 200 and the ophthalmic device 100 by incorporating a circuit that detects wireless field strength and transmission / reception delay time. In the present embodiment, the wireless reception unit 203 of the portable information terminal device 200 incorporates a circuit that detects wireless electric field strength and transmission / reception delay time. For example, the wireless reception of the ophthalmologic apparatus 100 A mode in which the circuit is incorporated in the unit 113 is also applicable.

  The wireless transmission unit 204, for example, for the ophthalmologic apparatus 100, setting information relating to examination (optometry) by the optometry unit 101, frequency information relating to optometry, alignment operation information in the optometry unit 101, optometry start operation information relating to optometry, etc. Send. In the present invention, a mode in which the wireless transmission unit 204 transmits at least one of these pieces of information is also applicable.

  The power supply unit 206 supplies power to the processing / control unit 202, the wireless reception unit 203, the wireless transmission unit 204, the display unit 207, and the contact sensor 208.

  The display unit 207 displays a display screen including various images and various information based on a control signal from the processing / control unit 202. For example, the display unit 207 controls the optometry control information based on the moving image based on the moving image signal of the eye to be examined transmitted from the ophthalmic apparatus 100 and the optometry control signal transmitted from the ophthalmic apparatus 100 based on the control of the processing / control unit 202. A display screen including and is displayed.

  The contact sensor 208 is a detection unit that detects contact when the portable information terminal device 200 comes into contact with the ophthalmologic apparatus 100.

  Next, a control method by the processing / control unit 202 of the portable information terminal device 200 according to the present embodiment will be described below.

  The processing / control unit 202 performs display control for switching the display screen displayed on the display unit 207 according to the positional relationship with the ophthalmologic apparatus 100. The processing / control unit 202 that performs the display control constitutes a display control unit.

For example, when the processing / control unit 202 first detects that the contact sensor 208 is in contact with the ophthalmic apparatus 100, or the ophthalmic apparatus 100 is not in contact with the portable information terminal apparatus 200 and the portable information terminal apparatus 200 (For example, when the wireless communication unit 205 performs short-distance wireless communication with the ophthalmic apparatus 100, the processing / control unit 202 is connected between the wireless communication unit 205 and the ophthalmic apparatus 100. The ophthalmologic apparatus 100 is recognized when it is detected that short-range wireless communication has been performed or when the distance of the wireless reception unit 203 (or the wireless reception unit 113) is less than a predetermined distance). Perform recognition processing. The processing / control unit 202 that performs this recognition processing constitutes recognition means. Then, when the processing / control unit 202 recognizes the ophthalmic apparatus 100, the processing / control unit 202 performs display control to display the display screen related to the ophthalmic apparatus 100 on the display unit 207. At this time, the processing / control unit 202 causes the display unit 207 to display a display screen including the moving image based on the moving image signal obtained by the recognized ophthalmologic apparatus 100 and the optometry control information based on the optometry control signal. .
According to this configuration, when the ophthalmologic apparatus 100 is not recognized (for example, when optometry is not performed by the ophthalmologic apparatus 100), information on waiting for examination of the patient, patient information of the patient to be examined next, and the like of the portable information terminal device 200 are displayed. It can be displayed on the display unit 207, and when the examiner recognizes the ophthalmologic apparatus 100 by bringing the portable information terminal device 200 close to the ophthalmologic apparatus 100 (for example, when the ophthalmologic apparatus 100 performs optometry), the display is performed. Since the display screen displayed on the unit 207 can be switched to the display screen according to the ophthalmologic apparatus 100, efficient optometry can be performed.

For example, when the ophthalmic system 10 includes a plurality of ophthalmologic apparatuses 100 that can communicate (wirelessly communicate) with the portable information terminal device 200, the processing / control unit 202 can perform the following processing. Is possible.
For example, the processing / control unit 202 first performs a recognition process of recognizing an ophthalmologic apparatus located in the vicinity of the portable information terminal device 200 among the plurality of ophthalmologic apparatuses 100 as compared to other ophthalmologic apparatuses. As an example of this, the processing / control unit 202 performs a recognition process of recognizing the ophthalmologic apparatus 100 located closest to the portable information terminal device 200 among the plurality of ophthalmologic apparatuses 100. In this case, the processing / control unit 202 selects the ophthalmic apparatus 100 in contact with the portable information terminal apparatus 200 or the ophthalmic apparatus 100 that is not in contact with the portable information terminal apparatus 200 and has the shortest distance from the portable information terminal apparatus 200. Recognition processing is performed. The processing / control unit 202 that performs this recognition processing constitutes recognition means. Subsequently, the processing / control unit 202 performs display control for causing the display unit 207 to display a display screen related to the recognized ophthalmologic apparatus 100. Specifically, the processing / control unit 202 displays on the display unit 207 a display screen including a moving image based on the moving image signal obtained by the recognized ophthalmologic apparatus 100 and optometry control information based on the optometry control signal. Display.
According to such a configuration, it is possible to display information on an ophthalmologic apparatus that actually performs optometry among a plurality of ophthalmologic apparatuses on the display unit 207 of the portable information terminal device 200, so that efficient optometry can be performed.

  Next, a display screen displayed on the display unit 207 of the portable information terminal device 200 will be described.

  4-7 is a figure which shows an example of the external appearance of the portable information terminal device 200 which concerns on embodiment of this invention. 4-7, the same code | symbol is attached | subjected about the same structure. For example, a device called a tablet PC, a smartphone, or a notebook PC can be applied to the portable information terminal device 200 according to the present embodiment. In this case, the portable information terminal device 200 can perform a touch panel operation on a relatively large display screen, and can display a plurality of windows. At this time, the touch panel constitutes the operation input unit 201 of FIG.

  As shown in FIG. 4, the portable information terminal device 200 has a built-in wireless LAN communication device 30 capable of wireless communication. As shown in FIG. 4, the portable information terminal device 200 includes an external Bluetooth (registered trademark) compatible communication device 31 connected to the USB connector and an external short-range wireless connection connected to the USB connector. A communication device 32 is provided. Here, in the example shown in FIG. 4, the communication device 31 is an external Bluetooth (registered trademark) compatible communication device connected to the USB connector. Applicable. Further, the wireless LAN communication device 30, the communication device 31 compatible with Bluetooth (registered trademark), and the short-range wireless communication device 32 constitute the wireless communication unit 205 in FIG.

  When the examiner has the portable information terminal device 200 and is away from the ophthalmologic apparatus 100, the display section 207 illustrated in FIG. 100 observation state windows 34 are displayed. The patient whose eye is being examined in the window 33 is displayed in the highlight display 35, and the patient information is displayed in the comment field 36. This patient standby state display screen is an embodiment in which a hospital network or an ophthalmic diagnostic system application is part of an application.

  When the examiner touches the window 34 shown in FIG. 4, the window 34 displaying the observation state from the imaging unit 109 of the ophthalmologic apparatus 100 comes to the front as shown in FIG. 5. Here, it is assumed that high-speed wireless communication is performed so that the state of the eye to be examined can be observed in this manner even at a position away from the ophthalmologic apparatus 100. Subsequently, it is assumed that the examiner holds the portable information terminal device 200 and approaches the vicinity of the ophthalmic device 100 or places the portable information terminal device 200 on the rack 107 of the ophthalmic device 100. In this case, the wireless reception unit 203 of the portable information terminal device 200 receives an approach control signal from the wireless transmission unit 114 of the ophthalmic device 100 and returns a response to the wireless reception unit 113, as shown in FIG. The display switches to the optometry preparation status display screen.

  In FIG. 6, displays 40 -R and 40 -L are displays indicating which of the left and right eyes is to be inspected. It shows what it is. In the example shown in FIG. 6, the right eye (display 40-R) is in a state where it can be inspected.

  In FIG. 6, a display 41 is a status display. When the optometry is ready, “Optimization preparation state” is displayed, and when the optometry is being performed, “In optometry” or “During measurement” is displayed. When the process is normally completed, “normal optometry completion” or the like is displayed. When an error occurs, an error message can be highlighted. Further, by touching this display in the “optimization preparation state”, a control signal for starting the operation is transmitted to the ophthalmologic apparatus 100, which is a trigger for enabling the alignment operation and the optometry setting described later.

  In FIG. 6, the display 42 shows the measurement result immediately after the optometry. The state shown in FIG. 6 is blank because it is before the optometry. If the measurement is possible, the measurement result is displayed. If the measurement is an error, an error is displayed. To do. In this display 42, “SPH” indicates the spherical power of the eye to be examined, “CYL” indicates the astigmatism power of the eye to be examined, and “AX” indicates the axial angle of the eye to be examined.

  In FIG. 6, a display 43 is a display / button for switching the optometry mode. When touched, the display 43 switches from a mode for performing kerato measurement and reflex measurement, to a mode for performing only kerato measurement, a mode for performing only reflex measurement, and the like. You can change to mode.

  In FIG. 6, the display 44 also serves as a button for changing the setting of the ophthalmic apparatus 100, and by pressing the button, a lower hierarchy is entered, and various settings of the ophthalmic apparatus 100 can be performed.

  In FIG. 6, the display 45 also serves as a button that can shift to a display screen for confirming the details of the measurement result.

  In FIG. 6, the display 46 displays the name of the ophthalmologic apparatus 100 based on the identification information transmitted from the ophthalmologic apparatus 100. The display 46 can be changed to a name that the examiner likes on the setting screen, and can be identified when operating a plurality of ophthalmologic apparatuses described later.

  By changing the optometry unit 101 according to the optometry mode by controlling the optometry unit 111 with the electrical signal from the radio control unit 112 via the radio reception unit 113 of the ophthalmic apparatus 100 by the button operation as described above. Various settings of the ophthalmic apparatus 100 can be switched.

  FIG. 7A shows a display screen in a state where the alignment of the eye to be examined is shifted to the lower left and the front and rear positions are also shifted. When the examiner moves the point P in FIG. 7A in the direction of the point O while touching the point P, a control signal for the alignment instruction is transmitted from the portable information terminal device 200 to the ophthalmologic apparatus 100 by wireless communication. In the ophthalmologic apparatus 100, based on the control signal, the optometry unit control unit 111 drives the vertical drive unit 102 and the left / right front / rear drive unit 103 to move the optometry unit 101 according to the operation of the examiner.

  Further, the front-rear position of the ophthalmic apparatus 100 with respect to the eye to be examined can be moved backward when an operation such as pinching two places on the screen is performed, and forward when an operation such as opening two places on the screen is performed. Can be moved. Furthermore, if there is an auto-alignment function by projecting alignment index light onto the eye to be examined and detecting the position of the reflected light with a position sensor (not shown), the alignment is automatically performed by entering a predetermined area. The moving image signal may be transmitted to the portable information terminal device 200 via the wireless transmission unit 114.

  FIG. 7B shows a still image display screen in the case of a measurement error. By pointing the portable information terminal device 200 to the patient and showing this display screen, it is possible to tell why the measurement error has occurred. FIG. 7B shows that the eye open state is not good, and can instruct the patient to open the eye slightly more.

Next, a processing procedure in the control method of the ophthalmic system 10 according to the embodiment of the present invention will be described.
FIG. 8 is a flowchart showing an example of a processing procedure in the control method of the ophthalmic system 10 according to the embodiment of the present invention. In the description of FIG. 8, the description will be given using the configuration of each device shown in FIG.

  In FIG. 8, the portable information terminal device 200, the ophthalmologic apparatus A (100-A) to be recognized, the moving image signal 51 transmitted and received between the portable information terminal device 200 and the ophthalmic apparatus A (100-A), and An optometry control signal 52 is shown.

  When the power supply unit 104 of the ophthalmic apparatus A (100-A) is turned on while the portable information terminal device 200 is activated, in step ST101, for example, the wireless control unit 112 of the ophthalmic apparatus A (100-A) is turned on. Detects this. Then, the wireless control unit 112 of the ophthalmologic apparatus A (100-A) transmits a state confirmation signal S1-1 indicating that optometry is ready to the portable information terminal device 200 via the wireless transmission unit 114.

  When the portable information terminal device 200 receives the state confirmation signal S1-1, subsequently, in step ST102, the processing / control unit 202 recognizes the ophthalmic device A (100-A). Then, the processing / control unit 202 displays the window 34 shown in FIG. 4 on the display unit 207. When the ophthalmologic apparatus A (100-A) is recognized, the portable information terminal device 200 sends a status confirmation signal S1-2 indicating that the window 34 is opened and ready for operation via the wireless transmission unit 204. To the ophthalmologic apparatus A (100-A).

  When the ophthalmologic apparatus A (100-A) receives the state confirmation signal S1-2, subsequently, in step ST103, the optometry unit control unit 111 starts observation of the eye to be examined by the optometry unit 101. Specifically, in the present embodiment, the wireless reception unit 113 is configured so that the ophthalmic apparatus A (100-A) comes into contact with the portable information terminal apparatus 200 or the ophthalmic apparatus A (100-A) is in the portable information terminal apparatus 200. When the distance from the portable information terminal device 200 is less than a predetermined distance, the state confirmation signal S1-2 is received from the portable information terminal device 200. The observation image captured by the optometry unit 101 is transmitted to the portable information terminal device 200 as the observation moving image signal S2 in the high-speed wireless moving image signal 51 described above.

  As shown in FIG. 5, a moving image based on the observation moving image signal S2 is seen in the portable information terminal device 200, but the status is in a standby state. Then, when the examiner brings the portable information terminal device 200 close to or installs the ophthalmologic apparatus A (100-A), the processing / control unit 202 displays the optometry preparation state as shown in FIG. Performs display control to switch to the display screen.

  When the examiner performs optometry setting while touching the display screen displayed on the display unit 207, the processing / control unit 202 detects this in step ST104. Then, the processing / control unit 202 transmits a setting signal S3 based on the optometry setting to the ophthalmologic apparatus A (100-A) via the wireless transmission unit 204.

  When the ophthalmologic apparatus A (100-A) receives the setting signal S3, subsequently, in step ST105, the optometry unit control unit 111 performs optometry setting on the optometry unit 101 based on the setting signal S3. That is, the optometry setting of the optometry unit 101 changes to a state that matches the optometry setting based on the setting signal S3.

  In step ST106, the processing / control unit 202 performs control for displaying a display screen of the optometry preparation state as shown in FIG. 7A on the display unit 207, for example. Then, when the examiner performs an alignment operation as shown in FIG. 7A, subsequently, in step ST107, the processing / control unit 202 detects this. Then, the processing / control unit 202 transmits an operation signal S4 based on the alignment operation to the ophthalmologic apparatus A (100-A) via the wireless transmission unit 204.

  When the ophthalmologic apparatus A (100-A) receives the operation signal S4, subsequently, in step ST108, the optometry unit control unit 111 drives the vertical drive unit 102 and the left / right front / rear drive unit 103 so that the optometry unit 101 is moved. Align to the optometry. The moving image signal at this time is transmitted to the portable information terminal device 200 as an observation moving image signal S5.

  When the portable information terminal device 200 receives the observation moving image signal S5, the processing / control unit 202 performs control to display a moving image based on the observation moving image signal S5 on the display unit 207. Thereafter, when the examiner touches the display screen of the display unit 207 to perform an optometry start operation, in step ST109, the processing / control unit 202 detects this. Then, the processing / control unit 202 transmits an operation signal S6 based on the optometry start operation to the ophthalmologic apparatus A (100-A) via the wireless transmission unit 204.

  When the ophthalmologic apparatus A (100-A) receives the operation signal S6, subsequently, in step ST110, the optometry unit control unit 111 causes the optometry unit 101 to inspect the eye to be examined. Thereafter, the optometry unit control unit 111 transmits the optometry result signal S7 related to the examination result of the eye to be examined by the optometry unit 101 to the portable information terminal device 200 via the radio control unit 112 and the radio transmission unit 114. That is, in the ophthalmologic apparatus A (100-A), the wireless reception unit 113 transmits the operation signal S6 (or operation signal S4) from the portable information terminal device 200 after the observation moving image signal is transmitted to the portable information terminal device 200. Based on the operation signal received by the wireless reception unit 113, the wireless transmission unit 114 transmits an optometry result signal S7, which is a result of examining the eye to be examined, to the portable information terminal device 200. Here, for example, if the ophthalmologic apparatus A (100-A) is a tonometer, the optometry result signal S7 includes an intraocular pressure value, a corneal thickness value, and the like as the examination result of the eye to be examined, and the ophthalmologic apparatus A (100-A). ) Is an auto reflex keratometer, the refraction value, astigmatism, axial angle, corneal curvature radius, etc. are included as examination results of the eye to be examined. The optometry result signal S7 includes, for example, a fundus still image or the like as an examination result of the eye to be examined if the ophthalmologic apparatus A (100-A) is a fundus camera. In the present embodiment, the optometry result signal S7 includes not only the examination result of the eye to be examined but also the corneal thickness image used for measurement, the ring image of the refraction value, the error image at the time of error, and the like.

  When the portable information terminal device 200 receives the optometry result signal S7, in step ST111 and step ST112, the processing / control unit 202 displays on the display unit 207 an optometry result display (ST111) or an optometry error display (ST111) based on the optometry result signal S7. ST112) is performed.

  Thereafter, in step ST113, the processing / control unit 202 places the portable information terminal device 200 in a standby state. This standby state is a state where the examination of the eye to be examined is completed, and the display unit 207 of the portable information terminal device 200 returns to the display state of the window 34 shown in FIG. Thereafter, the processing / control unit 202 transmits a state confirmation signal S8 based on the standby state to the ophthalmologic apparatus A (100-A) via the wireless transmission unit 204.

  When the ophthalmologic apparatus A (100-A) receives the state confirmation signal S8, subsequently, in step ST114, the optometry unit control unit 111 turns off or dims the light source in the optometry unit 101 in the measurement preparation state. The apparatus A (100-A) is set in a standby state. Then, the optometry unit control unit 111 wirelessly transmits an observation moving image signal S9 based on the observation moving image obtained by the imaging unit 109 via the observation optical system 108 in the optometry unit 101 in the standby state. It is always transmitted to the portable information terminal device 200 via the unit 114. Thus, in the standby state, the mobile information terminal device 200 can always display the observation moving image based on the observation moving image signal S9 on the display unit 207.

  According to the processing of FIG. 8, the wireless communication of the moving image signal 51 and the optometry control signal 52 between the portable information terminal device 200 and the ophthalmologic apparatus A (100-A) allows the examiner to Information can be confirmed, optometry can be performed efficiently, and an error display screen can be shown to the patient. Thereby, efficient optometry can be performed.

  In general portable information terminal devices, multiple window screens can be displayed and information other than optometry is displayed. Therefore, the examiner searches for and displays window screens for optometry when performing optometry. It is necessary to perform an operation to make it difficult. In this regard, in the portable information terminal device 200 according to the present embodiment, the display screen to be displayed on the display unit 207 is switched according to the positional relationship with the ophthalmologic apparatus 100, so that a window screen for optometry can be found and displayed. There is no need to perform cumbersome operations.

  In the example shown in FIG. 8, the ophthalmologic apparatus that performs wireless communication with the portable information terminal device 200 is only the ophthalmologic apparatus A (100-A). However, the present embodiment is not limited to this aspect. Absent. For example, in a hospital having a plurality of kitchens with reflex keratometers that are ophthalmologic apparatuses, it is possible to operate a plurality of reflex keratometers with one portable information terminal device 200. For example, if there are three reflex keratometers, the identification information IDa, IDb, IDc is attached so that identification is possible. Then, for example, when the power source of the reflexometer A (100-A) is turned on, the identification information IDa is included in the state confirmation signal S1-1 shown in FIG. A window will open. Similarly, the reflex keratometer B (100-B) and the reflex keratometer C (100-C) each have a plurality of windows in one portable information terminal device 200 by starting up a corresponding window when the power is turned on. The ophthalmologic apparatus 100 can be operated. It is also possible to add an ophthalmologic apparatus to be operated by starting up the power sources of different types of ophthalmologic apparatuses such as a tonometer and a fundus camera instead of the same type of ophthalmologic apparatus.

Moreover, the following aspects can also be applied to the ophthalmic system 10 according to the present embodiment.
Ophthalmic apparatus A recognized as the portable information terminal apparatus 200 when the examiner moves while holding the portable information terminal apparatus 200 when the portable information terminal apparatus 200 recognizes the ophthalmic apparatus A (100-A). When the distance to (100-A) is equal to or greater than the predetermined distance and a predetermined time has elapsed, the portable information terminal device 200 and the ophthalmic apparatus A (100-A) perform the following processing.
In this case, in the portable information terminal device 200, the processing / control unit 202 displays an icon on the display unit 207 for selecting whether to cancel communication with the recognized ophthalmic apparatus A (100-A). Display control is performed. In the portable information terminal device 200, when the examiner selects to cancel the communication with the ophthalmologic apparatus A (100-A), the wireless transmission unit 204 is based on the control of the processing / control unit 202. The communication release signal is transmitted to the ophthalmologic apparatus A (100-A).
In this case, in the ophthalmologic apparatus A (100-A), the wireless reception unit 113 receives a communication cancellation signal from the portable information terminal device 200. In the ophthalmologic apparatus A (100-A), the wireless control unit 112 performs communication cancellation processing for canceling communication with the portable information terminal device 200 based on the communication cancellation signal received by the wireless reception unit 113. The wireless control unit 112 that performs the communication cancellation process constitutes a communication cancellation unit.

Moreover, the following aspects can also be applied to the ophthalmic system 10 according to the present embodiment.
As described above, when a plurality of ophthalmic apparatuses 100 are configured to be communicable with the portable information terminal apparatus 200, the portable information terminal apparatus 200 performs the following processing.
In this case, in the portable information terminal device 200, when the processing / control unit 202 recognizes the plurality of ophthalmologic apparatuses 100, the display unit displays a selection screen for selecting any one of the plurality of ophthalmologic apparatuses. Display control to be displayed on 207 is performed. Thereafter, in the portable information terminal device 200, when one of the ophthalmic devices is selected by the examiner, the processing / control unit 202 causes the display unit 207 to display a display screen related to the selected ophthalmic device 100. I do.

Moreover, the following aspects can also be applied to the ophthalmic system 10 according to the present embodiment.
Specifically, in the ophthalmologic apparatus A (100-A) recognized by the portable information terminal device 200, when already in use, the wireless transmission unit 114 indicates that the ophthalmologic apparatus is already in use. Information is transmitted to the portable information terminal device 200.
In this case, in the portable information terminal device 200, the wireless reception unit 203 receives information indicating that the ophthalmologic apparatus is already in use from the recognized ophthalmologic apparatus A (100-A). In the portable information terminal device 200, the processing / control unit 202 displays a message indicating that the recognized ophthalmologic apparatus A (100-A) is already in use based on the information received by the wireless reception unit 203. Display control to be displayed on 207 is performed.

Moreover, the following aspects can also be applied to the ophthalmic system 10 according to the present embodiment.
Before the ophthalmologic apparatus A (100-A) is recognized by the portable information terminal device 200, in the portable information terminal device 200, the processing / control unit 202 causes the display unit 207 to display a display screen in a patient standby state. Shall. Thereafter, in the portable information terminal device 200, when the processing / control unit 202 recognizes the ophthalmic apparatus A (100-A), the display screen displayed on the display unit 207 is changed from the display screen in the patient standby state to the ophthalmic apparatus A (100). -Perform display control to switch to the display screen according to (A).

  According to the ophthalmologic system 10 according to the present embodiment, even when the portable information terminal device 200 is configured to be able to communicate with a plurality of ophthalmologic apparatuses 100, the display screen can be switched to a display screen suitable for each ophthalmologic apparatus. And efficient optometry can be performed. In addition, since the examiner becomes an operation screen of an ophthalmologic apparatus that wants to automatically examine an eye without searching for the operation screen, the operation efficiency of the examiner can be improved.

(Other embodiments)
The present invention supplies a program that realizes one or more functions of the above-described embodiments to a system or apparatus via a network or a storage medium, and one or more processors in a computer of the system or apparatus read and execute the program This process can be realized. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.
This program and a computer-readable storage medium storing the program are included in the present invention.

  Note that the above-described embodiments of the present invention are merely examples of implementation in practicing the present invention, and the technical scope of the present invention should not be construed as being limited thereto. It is. That is, the present invention can be implemented in various forms without departing from the technical idea or the main features thereof.

  The present invention is preferably used for ophthalmic medical care and spectacle prescription.

DESCRIPTION OF SYMBOLS 10 Ophthalmology system, 100 Ophthalmology apparatus, 101 Optometry unit, 104 Power supply unit, 111 Optometry unit control part, 112 Wireless control part, 113 Wireless reception part, 114 Wireless transmission part, 115 Wireless communication part, 200 Portable information terminal device, 201 Operation Input unit, 202 processing / control unit, 203 wireless reception unit, 204 wireless transmission unit, 205 wireless communication unit, 206 power supply unit, 207 display unit, 208 contact sensor

Claims (18)

An ophthalmologic apparatus having a main body for acquiring information about an eye to be examined, which is configured to be communicable with a plurality of ophthalmologic apparatuses and has a display means,
Recognizing means for recognizing an ophthalmologic apparatus that is a target of transmission of a control signal from the portable information terminal device, which is one of the plurality of ophthalmologic apparatuses;
Before the information about the eye to be examined is acquired, a moving image signal indicating the moving image of the eye to be examined acquired by the imaging means using the return light from the illuminated eye to be examined is received from the recognized ophthalmologic apparatus. Receiving means;
The moving image is displayed on the operation screen for operating the recognized ophthalmologic apparatus in a state where the display screen displayed on the display means is switched to the operation screen for operating the recognized ophthalmologic apparatus. Display control means,
When information about an instruction from an examiner on a moving image displayed on an operation screen for operating the recognized ophthalmic apparatus when the moving image signal is transmitted from the recognized ophthalmic apparatus is used. Transmitting means for transmitting a control signal to the recognized ophthalmic device;
A portable information terminal device comprising:   The transmission means is configured to move the main body in a direction away from the eye to be examined according to an examiner's operation such as pinching two places on an operation screen for operating the recognized ophthalmologic apparatus. A control signal is transmitted to the ophthalmologic apparatus, and the main body is moved in a direction closer to the eye to be examined in accordance with an examiner's operation that opens two places on the operation screen for the recognized ophthalmologic apparatus. The portable information terminal device according to claim 1, wherein the control signal is transmitted to the ophthalmic device.   The recognizing unit recognizes an ophthalmologic apparatus that is in contact with the portable information terminal device, or an ophthalmologic apparatus that is not in contact with the portable information terminal device and has a distance less than a predetermined distance from the portable information terminal device. 3. The portable information terminal device according to claim 1, wherein among the plurality of ophthalmologic devices, an ophthalmologic device closer to the portable information terminal device than other ophthalmologic devices is recognized. . A portable information terminal device configured to be communicable with a plurality of ophthalmologic apparatuses for inspecting an eye to be examined and having a display means,
Recognizing means for recognizing an ophthalmologic apparatus that is a target of transmission of a control signal from the portable information terminal device, which is one of the plurality of ophthalmologic apparatuses;
Receiving means for receiving a state confirmation signal from the recognized ophthalmic device and receiving a moving image signal indicating a moving image of the eye to be examined obtained by the examination from the recognized ophthalmic device;
The moving image is displayed on the operation screen for operating the recognized ophthalmologic apparatus in a state where the display screen displayed on the display means is switched to the operation screen for operating the recognized ophthalmologic apparatus. Display control means,
When information about an instruction from an examiner on a moving image displayed on an operation screen for operating the recognized ophthalmic apparatus when the moving image signal is transmitted from the recognized ophthalmic apparatus is used. Transmitting means for transmitting a control signal to the recognized ophthalmic device;
A portable information terminal device comprising: When the ophthalmic apparatus is recognized by the recognizing means, the display control means switches a display screen displayed on the display means from a display screen in a patient standby state to an operation screen for operating the ophthalmic apparatus, and the recognition The operation screen including a moving image based on the moving image signal of the eye to be examined obtained by the ophthalmologic apparatus recognized by the means and optometry control information based on the optometry control signal obtained by the ophthalmologic apparatus recognized by the recognition means. Display on the display means;
The optometry control signal includes setting value information relating to the examination of the eye to be examined, optometry mode state information relating to the examination, left and right eye information relating to the eye to be examined, optometry error presence information relating to the examination, and a result of the examination. 5. The portable information terminal device according to claim 1, comprising at least one piece of optometry result information based on a certain optometry result signal. 6. When the examiner moves while holding the portable information terminal device while the portable information terminal device recognizes the ophthalmologic device, the distance from the ophthalmic device recognized by the recognition means is When the predetermined distance is exceeded and a predetermined time has elapsed, the display control means further displays an icon for selecting whether or not to cancel communication with the ophthalmologic apparatus recognized by the recognition means. Display on the means,
When information indicating that the ophthalmologic apparatus is already in use is received from the ophthalmologic apparatus recognized by the recognizing means, the display control means determines whether the ophthalmologic apparatus is based on the received information. The portable information terminal device according to claim 1, wherein the display means displays that it is in use. The transmission means transmits an operation signal by the portable information terminal device to the recognized ophthalmic device after the moving image signal is received,
The portable information terminal device according to claim 1, wherein the receiving unit receives an optometry result signal that is a result of the recognized ophthalmologic apparatus examining the eye to be examined.   8. The mobile phone according to claim 1, wherein the receiving unit receives the moving image signal from the recognized ophthalmologic apparatus using a communication standard of Bluetooth or a high-speed wireless LAN. Information terminal device. The receiving means is an optometry control signal from the recognized ophthalmologic apparatus, and includes setting value information relating to the examination of the eye to be examined, optometry mode state information relating to the examination, left and right eye information of the eye to be examined, and the examination The optometry control signal including at least one information of the optometry error presence information and the optometry result information based on the optometry result signal that is the result of the examination is used as a communication standard of 13.56 MHz near field communication. Receive
The transmission means includes at least one of setting information related to the examination, frequency information related to the examination, alignment operation information in the optometry means performing the examination, and optometry start operation information related to the examination, The portable information terminal device according to any one of claims 1 to 8, wherein the portable information terminal device transmits the information to a recognized ophthalmologic device. The transmission means transmits a communication release signal to the recognized ophthalmic device when a distance from the portable information terminal device is a predetermined distance or more and a predetermined time has elapsed,
10. The portable information terminal according to claim 1, further comprising: a communication canceling unit that cancels communication with the recognized ophthalmologic apparatus based on the transmitted communication canceling signal. 11. apparatus.   The receiving means receives identification information for identifying an ophthalmic apparatus having a close distance from the ophthalmic apparatus having a close distance, and indicates that the ophthalmic apparatus is in use when the ophthalmic apparatus is already in use. The mobile information terminal device according to claim 1, wherein the mobile information terminal device is received from an ophthalmologic device having a short distance.   The transmission means outputs a signal instructed by an examiner on the moving image displayed on the operation screen for operating the recognized ophthalmologic apparatus based on the moving image signal received by the portable information terminal device. The portable information terminal device according to claim 1, wherein the portable information terminal device is transmitted to the recognized ophthalmologic device as the control signal.   The display control unit is configured to switch a display screen displayed on the display unit to an operation screen for operating the recognized ophthalmologic apparatus when a window corresponding to the recognized ophthalmologic apparatus is started up. The portable information terminal device according to any one of claims 1 to 12. An ophthalmologic apparatus having a main body for acquiring information on an eye to be examined, which is configured to be communicable with a plurality of ophthalmologic apparatuses and has a display means, and a control method for a portable information terminal device,
A recognition step for recognizing an ophthalmologic apparatus of any one of the plurality of ophthalmologic apparatuses, which is a transmission target of a control signal from the portable information terminal device;
Before the information about the eye to be examined is acquired, a moving image signal indicating the moving image of the eye to be examined acquired by the imaging means using the return light from the illuminated eye to be examined is received from the recognized ophthalmologic apparatus. Receiving step;
The moving image is displayed on the operation screen for operating the recognized ophthalmologic apparatus in a state where the display screen displayed on the display means is switched to the operation screen for operating the recognized ophthalmologic apparatus. Display control step
When information about an instruction from an examiner on a moving image displayed on an operation screen for operating the recognized ophthalmic apparatus when the moving image signal is transmitted from the recognized ophthalmic apparatus is used. Transmitting a control signal to the recognized ophthalmic device;
A method for controlling a portable information terminal device, comprising: A method for controlling a portable information terminal device configured to be communicable with a plurality of ophthalmologic apparatuses for inspecting an eye to be examined and having a display means
A recognition step for recognizing an ophthalmologic apparatus of any one of the plurality of ophthalmologic apparatuses, which is a transmission target of a control signal from the portable information terminal device;
Receiving a state confirmation signal from the recognized ophthalmic device, and receiving a moving image signal indicating a moving image of the eye to be examined obtained by the examination from the recognized ophthalmic device;
The moving image is displayed on the operation screen for operating the recognized ophthalmologic apparatus in a state where the display screen displayed on the display means is switched to the operation screen for operating the recognized ophthalmologic apparatus. Display control step
When information about an instruction from an examiner on a moving image displayed on an operation screen for operating the recognized ophthalmic apparatus when the moving image signal is transmitted from the recognized ophthalmic apparatus is used. Transmitting a control signal to the recognized ophthalmic device;
A method for controlling a portable information terminal device, comprising:   The program for functioning a computer as each means of the portable information terminal device of any one of Claims 1 thru | or 13.   An ophthalmologic apparatus configured to receive the control signal from the portable information terminal device according to any one of claims 1 to 13. A portable information terminal device according to any one of claims 1 to 13,
The plurality of ophthalmic devices;
An ophthalmic system characterized by comprising: