JP2000517442A - System and method for automatic management of subject call, identification, self-test and / or self-teaching - Google Patents

Abstract

(57) Abstract: A system for automatically managing a call to a session including at least one self-test and self-teaching of at least one subject, comprising: a device for calling at least one subject to the session; And a controller that controls the call and the session. A system and method for automatic visual self-test. The system includes an optical test unit for testing a user's vision and a computer device connected to the optical test unit. The computer device controls an optical test unit, receives data from the optical test device, processes and stores test results. The system includes an input device for receiving user input and a device for providing automatic guidance and training to the user. The system can also include a device for identifying the user. The system can also include a device that provides a report of the test results and communicates the report to other local or remote computing devices. The method includes providing the user with self-teaching and self-training to perform self-testing and self-managing at least one visual test of the user and storing the test results in a database. The method can also include identifying a user and providing test results prior to testing. The optical test unit provides a visual test image containing at least one eye of the user with a single test pattern and a multi-select answer pattern, accepts the answer selected by the user, analyzes the answer, and tests the answer. Determine the result. The visual test video can be selected randomly or pseudo-randomly from a predetermined group of videos to prevent the user from expecting an answer.

Description

DETAILED DESCRIPTION OF THE INVENTION Calling the subject, identification, System for automatic management of self-tests and / or self-teaching Systems and methods Field of the invention   The present invention Calling the subject, identification, Training, A system for automatically managing examinations and instruction Regarding the stem, In particular, In a predefined environment, for example, of an entity in a company, call, identification, Self training, Self-examination and / or self-teaching, And analysis of the results System and method for dynamic management. Background of the Invention   In many organizations, Personnel are required to meet certain rules, such as hearing and visual inspection Need to be tested. Similarly, These staff members (For example, fire regulations ) Safety rules, Or Quality control rules imposed by quality control standards such as ISO standards Need to be educated.   Normal, These roles follow detailed rules, Call of staff, Inspection, education, Inspection results Analysis of and, Requires significant human resources to manage staff recalls.   One way to reduce the human resources needed for these roles is to: Take the inspection Introduce an inspection in which a person performs a self-inspection without additional staffing. This In the industry, Such self-test systems are known. However, Self-check Saving human resources is not enough.   For example, when performing a visual inspection, Inspection device for identifying the subject An inspection device operated by an operator to explain the use of the Used. This procedure is time consuming and requires skilled operators, Cost It hangs.   For example, U.S. Pat. 740, No. 072, For the subject A visual inspection device operated by an operator who imposes various visual function tests is disclosed. . The visual inspection device disclosed by Griffin et al Various buttons and buttons of the inspection device And manually operate the lever and Look at a series of test slides for the subject. I have to do it. Also, The operator asks various questions to the subject, Return Write your answers on appropriate paper, instead of, Connected to the visual inspection device The storage of the test results in the computer must be started. Therefore, Inspection results Even with computerized data storage, Skilled operators perform a significant amount of manual operation. Along with giving verbal instructions to the subject, It takes time and money And Summary of Invention   According to one perspective, The present invention relates to personnel in an organization, call, identification, Discipline Kneading, test, Providing an automated system for the management of assignment work and / or guidance You.   According to another aspect of the present invention, Training, test, And guidance is self-training, Self-test, And self-teaching.   According to another aspect of the present invention, The organization is the place of work, Subject is the employee of the company A worker, The employee must go through a regular qualification process. Place of work In the office, employees are Also tested for knowledge of safety regulations May be Standard qualifications, For example, make sure you know the ISO 9000 qualifications. Could be guided. But, The organization can be any suitable organization, such as a school, University, army Squad, It can be a police branch.   Therefore, in any such organization, The system of the present invention Form an organization The subject ’s health, safety, Qualification, And provide better management of education.   Throughout the description and claims of the present invention, the term: Exams or examinations The present invention Any tests that may be taken by an entity using the system of For example, medical tests, Qualification test, Or rules (eg safety rules, Standard) familiarity exam, Oh Pass.   Throughout the description and claims of the present invention, the term: The guidance is Subject is any kind Guidance, Teaching, And / or education sessions, such as teaching sessions And the subject is subject to rules such as safety rules, Get to know the standards What to do, To represent.   Throughout the description and claims of the present invention, the term: Training is Subject is arbitrary format Training to perform self-examination and self-assessment procedures, For example, visual acuity testing, Hearing Self exam, Or other training sessions to perform self-tests .   The system of the present invention Performing test functions, Performing teaching functions, Performing training functions, Ma Or any combination thereof.   Therefore, The invention has been described with reference to a preferred embodiment for performing the functions of the test. But It is equally applicable to the performance of training and teaching functions. Summary of Invention   According to one feature, The present invention relates to the calling of personnel in an organization, identification, Training, Trial Provide an automated system to manage testing and / or teaching duties.   According to a further feature of the invention, Training, Exams and guidance Self-teaching Kneading, Self-test and / or self-teaching.   According to yet another feature of the invention, The organizational environment is the workplace, The subject is Company employees who have to go through a regular certification process. At work Workers can be tested for visual acuity and familiarity with safety rules, IS You can be instructed to become familiar with standard certification such as O9000 certification. However, The organization school, Big Study, army, It can be any suitable organization, such as a police platoon.   Therefore, The system of the present invention may be used in any such organization, Subjects that make up the tissue Subject's health, Provide better control over safety certification and education.   test, test, Or the phrase examination, as used in this specification and the claims of the present invention. Through the range, A medical examination performed by a subject using the system of the present invention; Authentication tests, Or (for example, Safety rules, Familiarity testing for rules) Means any test.   Also, The word teaching or instruction is used in this specification and the claims of the present invention. Through the enclosure, Guidance sessions to familiarize subjects with rules such as safety rules or standards Such as Any kind of personal education, The subject receives instruction and / or education Session. Education session may or may not end with exam .   Throughout the specification and claims of the present invention, the term training Visual agility Training to perform a self-test or auditory self-test or any other self-test, etc. of, Subject is voluntary to perform any type of self-test or self-test procedure Means a type of training session.   The system of the present invention Test functionality, Guidance functionality and training functionality or Provide any combination of them.   Therefore, Although the present invention has been described in a preferred embodiment with respect to test functionality, Book The invention is equally applicable to training and teaching functionality.   According to one embodiment, The system that automatically calls the subject to the session Few At least one self-test and / or self-training / teaching device; In that session At least one calling device for calling at least one subject, That A device for executing a session; Call and self-examination and / or self- A control device for controlling the Contains.   The above system also Means to identify each subject prior to the session, and, Means for analyzing the results of the session may also be included.   In one embodiment, The control device is A processor, Connected to the processor A data storage unit for storing identification data of the subject. The above data is Also, May include the results of previous sessions, The above control device is A means for comparing the results of the session with the results of the current session may also be included.   In a preferred embodiment, The calling device and the control device are: Local area network Network or a wide area network. Therefore, The above call The device is An e-mail server that sends e-mail messages to call the subject Server A telephone that sends a telephone message summoning the subject, View at key points in the organization Recognizable email presentation board, Or A pager that calls the subject, May contain . Alternatively or additionally, Print a call message for distribution to the subject Printer, etc. A calling device that does not require a network may be used. Wa For an id area network, The Internet can also be used.   The identification means includes: Electromagnetic card reader, Voice recognition device, pattern A video camera that works in conjunction with recognition software, Fingerprint analyzer, Iris Analyzer, And a keypad for keying in passwords Can be any combination of . Preferably, the identification means operates throughout the session, Of the subject during the session Check the ID.   The device performing the session is preferably Subject interface, Not limited A typical example is a self-test that performs a medical examination. Self test and / or self finger Means for performing guidance; Implement tutoring to authenticate subjects in accordance with certification rules Means, including.   In another embodiment, the system comprises: Self-test and / or self-teaching results Also works for automatic analysis. In one embodiment, The means to analyze the results is session Remote from the equipment performing the installation. For example, The analysis means Experts receive the results Means to allow entry of data relating thereto.   In one embodiment, Is the device performing the session a caller and a controller? By being separated from The subject performs a session at a remote location. Good Suitably, The controller determines the time of the next session and sends it to the calling device. Acts to show.   In yet another embodiment, the system comprises: Administrator can change control device parameters. It may include a human administrator interface that allows changes to be made.   In yet another embodiment, Self training means Train the subject and run the test Includes means to cause   Another object of the invention is Automatic visual test so that subjects can perform visual self-test It is to provide. The features of the automatic vision test system of the present invention are as follows: Subject to test To provide a self-training session for self-test automatically.   Another feature of the automatic visual screening system of the present invention is that test This is the deployment of identification means for identifying the subject under test. Automatic vision screen of the present invention Further features of the leaning system are: Prevents test subjects from trying to distort test results Provide the subject with a random or pseudo-random visual test image to stop And Each of the visual test images Single test pattern and multiple choice answer putter And The test subject selects one answer from the multiple choice answer pattern You. Unlike prior art visual exams, Subject puts multiple test patterns in a single test video You will not be presented. Therefore, There is no possibility to memorize the test order in advance From Test results cannot be distorted by the subject.   Another feature of the automated visual screening system of the present invention is that Ready for self-test The same subject while the test is being performed and the presence of the subject Make sure that the subject is still present, The subject in place of the identified subject. Means for detecting attempts by persons other than the subject to take the test; Deployment.   Furthermore, Another feature of the automated visual screening system of the present invention is that Far vision conditions When switching from the lower test to the near-field test, Double focus, Multifocal or continuous Provision of means for changing gaze so that test subjects wearing confocal glasses can perform self-test It is.   Therefore, According to a preferred embodiment of the present invention, Automatic visual self-test system provided Is done. The system An eyesight test unit for inspecting the user's vision, The eyesight test The eyesight test unit is connected to the eyesight test unit to control the eyesight test unit. A computer that receives data from the host and processes the data; Contains. The Computer Means for receiving input from a user; Automatic guidance to the user Means for providing training and training; Contains.   Furthermore, According to another preferred embodiment of the present invention, The above system is a user Includes means for identifying The identification means comprises: Electromagnetic card reader, Voice recognition device Place Video camera, Fingerprint analyzer, Iris analyzer, Retinal pattern analyzer, Facial analyzer , and, Keypad for keying in passwords, Select an item from a list Pointing device, and, Select from the group consisting of any combination of them Can be done.   Furthermore, According to another preferred embodiment of the present invention, The means for receiving input from the user comprises: keyboard, pointing device, Touch-sensitive screen, Light pen, Sa Microphone connected to the round card, Or Any combination of them, Or Selected from the group consisting of and, In providing automatic guidance and training to the above users The notation means Visual display unit, Loudspeaker connected to the sound card, Ma Or It can be selected from the group consisting of any combination thereof.   Furthermore, According to yet another preferred embodiment of the present invention, The eyesight test unit is Shading how Zing and Attached to the housing and tested by at least one eye of the user A test image projection unit for projecting a test image, Attached to the above housing And Provide a viewing station from which the user can then view the inspection image An optical assembly to provide; The test image projection unit, The visual recognition means and Connected to the above computer, The test image projection unit and the optical A control unit that controls the operation of the assembly and bidirectionally communicates with the computer. And Contains. The test image projection unit, Single inspection pattern up A test pattern projection unit for projecting to the user; At least one of the above users An answer pattern projection unit that projects a multiple-choice answer pattern to the eyes of the subject; To Contains.   Furthermore, According to another preferred embodiment of the present invention, The test pattern projection unit, With an opening inside, Above the viewing axis of the user Can move along a direction perpendicular to it, and, Includes multiple slide assemblies A projector housing, Located within the slide rotation assembly, Open above Selected from the plurality of slide assemblies positioned in front of the mouth A slide irradiation unit for irradiating Contains. Of the above slide assembly Each comprising at least two pairs of test slides, and, The inspection slide Each of the pairs of projectors positions the projector housing of the inspection pattern projection unit in a predetermined position. Can be visually recognized by the user.   Furthermore, According to another preferred embodiment of the present invention, The answer pattern projection unit, A slide holder for holding the answer pattern slide, Answer pattern slide above An irradiation unit for irradiating The image of the answer pattern slide is displayed by the user A reflector for projecting at least one eye of Contains.   Furthermore, According to another preferred embodiment of the present invention, The optical assembly includes: Far vision Sense A method for adjusting the inspection image for examining near vision and intermediate vision Steps and Double focus, For use by users wearing multifocal or continuous focus glasses For Gaze deflection means for adapting the optical device, Contains.   Furthermore, According to yet another preferred embodiment of the present invention, The eyesight test unit further comprises: Multiple light sources placed horizontally to test the user's horizontal field of view (FOV) Eye covering. The eye covering, The head of the user in the eye covering May be included.   Furthermore, According to yet another preferred embodiment of the present invention, The above sensor is Of the above eye cover An illuminator mounted on the first side for emitting a radiation beam; On the second side of the eye covering A detector mounted to detect the radiation beam; Contains. Above radiation bee Is Visible light beam, Red It may be selected from the group consisting of an external beam and a sound radiation beam.   Furthermore, According to another preferred embodiment of the present invention, The eyesight test unit further comprises: Glare Includes at least one glare illumination unit providing illumination for visual testing under conditions In. The glare irradiation unit, Minimize the reflection of stray light in the above vision test unit Can be rotated to form   Furthermore, According to another preferred embodiment of the present invention, The line-of-sight deflection means, Deviate the line of sight Facing movable prism, Insert the prism into the optical axis of the optical assembly A motor for moving the prism away from the optical axis of the optical assembly, Contains.   Furthermore, According to another preferred embodiment of the present invention, The line-of-sight deflection means, Deviate the line of sight A pair of non-parallel mirrors facing each other; The pair of non-parallel mirrors is Inserting the pair of non-parallel mirrors into the optical axis and A motor that separates from the shaft, Contains.   Furthermore, According to another preferred embodiment of the present invention, The line-of-sight deflection means, Double focus, Many Allows users wearing focused or confocal glasses to change their line of sight To A movable headrest pivotally attached to the housing is included.   Furthermore, According to another preferred embodiment of the present invention, The above system records test result data. Includes storage means to remember.   Furthermore, According to yet another preferred embodiment of the present invention, The eyesight test unit, Shading A housing, Means for projecting a test image to at least one of the user's eyes; , Providing a viewing station from which the user then views the video of the test Means, Contains.   Furthermore, According to another preferred embodiment of the present invention, The above single test image is a single test Includes turn and answer patterns.   Furthermore, According to yet another preferred embodiment of the present invention, The above answer pattern Is a multiple choice answer pattern.   Furthermore, According to another preferred embodiment of the present invention, The image projection means for the above test is a display Ray unit.   Furthermore, According to another preferred embodiment of the present invention, The display unit is cathode Tube (CRT) display, Electroluminescent display, Plasma display, And And Selected from the group consisting of liquid crystal display (LCD) devices coupled to the light source Can be   According to another preferred embodiment of the present invention, For automatic visual self-test by user A system is provided. The system When performing the self-check, the user Means for providing automatic guidance and training for At least for the above users Means for automatically imposing a kind of visual test and storing the results of the above visual test When, Contains. The above system Means for identifying the user may also be included.   Also, According to another preferred embodiment of the present invention, An eyesight test unit, The eye test Connected to the knit to control the vision test unit, The eyesight test unit Visual computer comprising a computer for receiving data from and processing the data Dynamic self-test system, Also provides a method of performing a visual self-test. The computer is Means for receiving input from a user; Automatically finger the above user Means to train and guide, And a computer including The method comprises: Above self test Providing the user with self-teaching and self-training to perform Above Automatically charging at least one visual test to the user; Contains You.   The method further comprises: Storing the results of the visual test in a database. May be included. The above method also Perform the above provision stage and automatic charge stage. before, The method may further include identifying the user. The above method Visual test above Report containing the results of the experiment The method may further include the step of providing. The above report, Hard copy report, De Reports displayed on the display, From the above computer via a communication link Reports communicated to another local or remote computer, Proper remover Reports stored on mobile storage media, and, Group consisting of any combination of them Can be selected from   Furthermore, According to another preferred embodiment of the present invention, The visual test above Visual acuity testing, Horizontal and vertical oblique test, 3D depth recognition test, Visual fusion test, Horizontal field of view (FOV) testing, color And a visual acuity test under glare conditions. Above vision The sharpness test and the visual sharpness test under the above glare conditions are as follows: right eye, Left eye or both eyes And can be charged selectably.   Furthermore, According to another preferred embodiment of the present invention, The automatic charging stage is Of the above user For at least one eye, Each with a single test pattern and a multiple choice answer pattern Presenting a visual test image comprising: During the above visual test, The above user Receiving the answer selected by the above through the input receiving means, The above answer Analyzing to determine a test result of the visual test; Contains.   Furthermore, According to another preferred embodiment of the present invention, The visual image above To the above user In order to prevent the visual image from being predicted by Or pseudo-randomly.   Furthermore, The number and type of the test image presented to the user are test Is determined based on the user's test history in order to reduce the duration of the test.   According to another preferred embodiment of the present invention, An automatic visual self-test system is also provided You. The system While testing the user's vision, Test pattern and multiple selection Multiple exams each containing alternative answer patterns One test image selected from the image An eyesight test unit that can project onto Connected to the vision test unit, The eyesight test Control the testing unit, The data from the vision test unit and the user A computer that receives the input of the user and processes and stores the data and the input; , Contains. The computer is Means for receiving the input from the user; Means for automatically teaching and training the user; Contains. Video of the above test Can be randomized or pseudo-randomized by the above system. The above cis The system is The method may further include means for identifying the user. BRIEF DESCRIPTION OF THE FIGURES   The present invention The following detailed description, with reference to the accompanying drawings, is more fully understood and appreciated. Let's be aware.   FIG. Constructed and operative in accordance with a preferred embodiment of the present invention; Health examination test equipment And schematic diagram of a self-test and / or instruction system including a safety rule test function is there.   FIG. FIG. 2 is a schematic block diagram illustrating a preferred method of operating the system of FIG. 1.   FIG. Constructed and operative in accordance with a preferred embodiment of the present invention; Medical examinations, Discipline Self-tests, including multiple test units to perform training and / or instruction; Self training And / or a schematic diagram of a self-education system.   FIG. 4A shows According to a preferred embodiment of the present invention, Shows an automated visual self-test system It is a schematic block diagram.   FIG. 4B According to another preferred embodiment of the present invention, Central computer or host computer Automated visual self-test system connected to a computer FIG. 3 is a schematic block diagram showing a system.   FIG. According to a further preferred embodiment of the present invention, Local area network (L 1 is a schematic block diagram showing an automatic visual self-test system connected to AN).   FIG. 4D According to a further preferred embodiment of the present invention, Via the public switched telephone network (PSTN) Connected to a wide area network (WAN) and a telecommunications medical center 1 is a schematic block diagram showing a dynamic visual self-test system.   FIG. FIG. 2 is a schematic perspective view showing the automatic visual self-test system of FIG. 1.   FIG. 5 is a schematic oblique view detailing the eye covering of the automated visual self-test system of FIG. FIG.   FIG. FIG. 7 is a schematic sectional view of the eye covering 28 taken along the line VII-VII in FIG. 5.   FIG. FIG. 6 is a schematic perspective view showing the eyesight test unit of FIG. 5 in detail.   FIG. FIG. 6 is a schematic plan view showing the eyesight test unit of FIG. 5 in detail.   FIG. FIG. 9 is a schematic side sectional view of the eyesight test unit in FIG. 8.   FIG. FIG. 8 is a schematic exploded perspective view showing in detail some of the components of the vision test unit of FIG. FIG.   FIG. FIG. 11 is a schematic exploded perspective view of the answer display unit of FIG.   FIG. FIG. 14 and FIG. Distant vision, Line of sight for intermediate and near vision Indicates, FIG. 9 is a schematic side view of the near / intermediate vision assembly and gaze deflection unit of FIG. 9. It is.   FIG. FIG. 10 is a schematic plan view of one of the slide assemblies of FIG. 9.   FIG. FIG. 10 is an exploded perspective view of one of the slide assemblies of FIG. 9.   FIG. 18 and FIG. The test pattern projection unit and the And shows the typical position of the left and right glare units, FIG. 9 is a schematic plan view of the eyesight test unit. FIG.   FIG. FIG. 10 is a schematic functional block diagram illustrating the control unit of FIG. 9.   FIG. 21A and FIG. The vertical oblique test (ver the subject's right and left eyes simultaneously FIG. 3 is a schematic diagram showing images of two representative tests.   FIG. 21A and 21B from the subject undergoing the vertical oblique test. It is the schematic which shows the image of a typical combination test.   FIG. Subject undergoing a visual acuity test using the visual acuity test unit of FIG. FIG. 3 is a schematic diagram showing a representative test image as seen from one of both eyes of the body.   FIG. 23A and FIG. An automatic visual self-test system according to a preferred embodiment of the present invention. FIG. 4 is a schematic flowchart showing a control flow of a visual test performed by the system.   24 to 29, According to a preferred embodiment of the present invention, Automatic visual self-test system Visual acuity test, performed by Horizontal and vertical oblique test, Fusion test, FOV test and It is a schematic flowchart which shows each control flow of a color vision test.   FIG. According to another embodiment of the present invention, Double focus, Wear multi-focus or continuous focus glasses Visual acuity with an adjustable headrest that allows the subject to change gaze while wearing It is a schematic diagram of a test unit.   FIG. According to yet another embodiment of the present invention, Display unit FIG. 3 is a schematic plan view of a visual acuity test unit having the following. Detailed Description of the Preferred Embodiment   First, A call (summon) constructed and operative in accordance with an embodiment of the present invention; Self training , A system that automatically performs self-examination (self-examination) and / or self-guiding (self-education) Please refer to the schematic diagram of the stem. FIG. Especially suitable for workplace, Local area 1 shows a system based on a network (LAN). The system of FIG. school, Police Conjecture, Also suitable for other environments such as military platoons.   System 250 Examination (inspection), Training sessions and / or instruction (education) A main device 251 for running sessions and controlling them; Administrator control interface Ace 252, A plurality of test subject calling devices 253; With remote expert device 254 You. The main equipment 251 is Control device 256, Multiple testing / training and / or teaching devices , And It comprises an exam / training and / or teaching function 258.   In the operation detailed below with reference to FIG. Controller 256 has specific testing / training Once the administrator 252 has set up to control the training and / or instruction session, Control equipment 256 Using any testing / training / educational equipment or function 258, Subject Subject 255 Calling for an exam / training and / or teaching session; next, Control device Within 256 itself or with the help of a remote expert 254, Exam / teaching session results analyse.   still, The function 258 above As detailed below, Software in system 250 Any exam or teaching or training session that is included as an application It will be understood that it points.   The control device 256 Main processor 260, Display 262, Touch screen Formed on display 262 as keys or keys Human interface that can be a stand-alone device such as a board or mouse 264, A data storage device 266; And a printer 268.   In a non-limiting illustrated embodiment, Human interface 264 Day Spray and Keyboard and Audio consisting of speakers and microphone 270 E interface, Electromagnetic card reader, Voice recognition device, and, Fingerprint Analyzer, Including any combination of body recognition devices such as an iris analyzer or a facial analyzer A personal identification device 272 to obtain; In a non-limiting illustrated embodiment, four buttons 274, 27 Five, An interface which is a keypad with 276 and 277, Contains . These devices are Any suitable recognition method, such as pattern recognition, may be employed. This With these buttons, the subject Screen options provided by controller 256 While using keys 274 and 275 to move, Various options are available using button 276. And select and, The desired selection can be entered using key 277.   In this non-limiting example, The physical examination device 278 is a hearing test device, Physical examination The inspection device 280 is a visual inspection device, The physical examination device 282 is a heart test device, body The test device 284 is a spirometer, and, Block 286 is In data storage 266 A stored logic inspection device, In the above non-limiting example, the safety rule test / Educational function.   Each of the devices and logic described above is merely exemplary, Many other devices It will be appreciated that and logic may be used. For example, Alertness ), and, Drugs that lower it, Drugs, alcohol, Reagents such as poisons Check for lack of sleep, Subject stability while standing on the examination table To measure the gender and / or rate of response of the subject to light and acoustic stimuli. It is a device used.   Physical examination device 278, 280, 282 and 284, Human interface 264, Display 262, Data storage device 266 and printer 268 are all Control of the present invention It is connected to a processor 260 that serves to execute the application.   In the illustrated embodiment, The main device 251 is connected to the administrator 252 or 252 via any appropriate LAN. And connected to the subject summoning device 255, Directly (for example, Modem) Is a wide area network (for example, Any telecommunications such as the Internet) Connected to the remote expert 254 by means.   In operation in the workplace environment described with respect to FIG. Step The administrator, as shown by step 290, Should be done by all or some of the employees Define a testing session or educational session. Administrator 252 owns Using a computer or controller 256 Inspection / training / education sessions, necessary If so, a subject in a predetermined group is defined.   Data storage device 266 is typically Each having a record containing relevant personal data, Place Contains information about a fixed staffing group. However, If this data is If it cannot be placed in the It can be communicated or keyed in good. In the illustrated non-limiting example, the data storage device 266 comprises: Information about each employee, That is, Age situation, Medical situation, Information including qualification status Contains. Data storage device 266 also Previous testing / education if available Also includes the results of the session.   After the administrator has defined the inspection / education session, the controller 256 Step 292 As shown, Automatically summons the subject and provides an examination / education session for the subject. Act to schedule sessions . Summons may follow any suitable criteria, that is, Employee alphabetical order, As a result of previous examination, Departments of the organization, Absence of previous examination. Control device 256 is also All employees undergo certain inspection and / or education sessions The power date may also be defined. Similarly, The subject will tell the system Independent inspection schedule May be requested.   Each employee is summoned as determined by the controller 256. In the illustrated embodiment Each subject has its own subject summoning device 255 connected to the main device via LAN. From that Summons are the form of email messages that appear on employee screens And can be electronic. However, Computers are not available to employees In the workplace, Alternative summons may be used. For example, By printer 268 Automatically prints a subpoena, May be arranged.   Other electronic summoning methods include: Key points in the workplace (for example, Canteen entrance, etc. ), An electronic bulletin board via a pager located at Or System 25 via telephone The use of automatic audio messages sent from 6.   At each employment site, the summons mechanism Notifications and methods commonly used in the workplace It is preferably formed according to the procedures and procedures.   Although not required, The control unit 256 is a normal method for a specific job site, That is, In-house electronics Email, It is preferable to summon an employee by a mail distribution box or the like.   When the subject is scheduled for the examination / education session indicated by step 294, When I appear, Device 256 initiates the identification procedure indicated by step 296. However However, If the subject does not appear for his or her testing / education session, the above the system, Reschedule the subject's testing / education session immediately, Also Is Several times You may notify the administrator after the absence or declare the inspection failed, The latter is Administrator Loss of the determined authentication can result.   As indicated by step 296, On a given inspection date, To be inspected When the examiner appears, Processor 260 provides the subject with Using the personal identification device 272 Indicates that identification procedures are to be performed.   The above system According to the prescribed instructions of the administrator, Tolerate unscheduled subjects Will be understood.   Also, Use any suitable identification device alone or in combination; Identify subject As well as confirming that the subject personally participates in testing / education sessions It will also be understood. this is, voice recognition, Magnetic card identification, Individual by employee number Input of person password, Such as image identification using a video camera, And / or other Can be performed alone or in combination.   In one embodiment, the system comprises: The person being tested is a summoned subject Is checked periodically, Prevent fraud. These matches are Inspection equipment for the subject Continuous contact, Any suitable means, such as regular acquisition of the subject's image, You And / or It can be performed by any other acceptable method.   If the subject is not identified, as indicated by step 298, The above system Is A person who does not necessarily need to be the administrator 252 but can permit identification of the subject This may be shown, Or Resummon as described above, Any such as loss of certification You can declare a test failure that results in   In one embodiment, The system includes primary and secondary identification tests. For example, voice recognition, The subject's video image and the subject's image in the database And comparison with it, fingerprint, Iris identification and facial recognition are defined as primary tests. While gaining ID CARD, Individual Passwords or other personal details are defined as supplementary checks.   In one embodiment, The main inspection is exchangeable, That is, Perform subject collation A single test is sufficient. The auxiliary collation is One of three methods, Or , Intervention by a human administrator is required to start the test.   According to the first mode of operation, When the subject completes the identification procedure and the ID is After the match or when the match is made (step 299), Processor 260 goes to step 30 Familiarity questions about the system or testing / education session as indicated by 1 Start, Ensure that the subject can perform the test. This question is Inspection Ensure that you are familiar with audit / education session procedures and equipment / functions 258 May include a pre-examination survey.   If the subject is not familiar with the test, Ripe as shown by step 302 An intellectual education session was held, Next, a familiarity survey is performed. if, Before this inspection If you pass the inspection, The process continues the inspection at step 303.   If the subject does not understand the test, Easier, Bigger, Or Change Detailed familiarization education is provided.   In one embodiment, The result of the familiarity survey performed in step 303 is Be done Define the level of primary testing or educational sessions.   If it doesn't pass, The process is notified to the administrator in step 304 or Inform the inspection failure, Re-summon as described above, It results in authentication loss.   next, An examination / education session may be performed as indicated by step 303. In the non-limiting examples described below, The above inspection Worker eyesight, Hearing, heart This is an annual medical examination to check functions.   The control device 256 A first visual test and a second auditory test may be initiated. Above equipment After the device has completed the hearing test, the processor Finger how to perform the third inspection Show. In this embodiment, The third self-examination procedure involves a heart exam similar to the ECG exam. Is a check. Processor 260 provides the subject with Finger on how to use physical examination device 282 Give the indication, Perform fully automatic heart monitoring and examination procedures.   For each test, Inspection results obtained by controller 256 as shown in step 305 And the processor 260 Analyze the test results from the three tests, Employee Determine your health. The analysis is Receives and analyzes the inspection result and sends it to controller 256 It is also possible to do it in another place by the expert use device 254 which gives the final answer . Like telecommunications medical systems, The specialist equipment 254 is Receiving the result and giving feedback to the controller 256, So that we can modify the inspection Is also good.   As shown in step 306, If the inspection / education session is successful, The processor interprets this analysis as shown in step 307 by the employee in data storage 266. To the member record. The processor is The results of the health status of the employee Compared with the historical data on the inspection of Determine whether the subject's health has improved or deteriorated Can be determined. Depending on the subject's updated record, The processor performs further analysis and Biological recommendations can be determined, The instructions may be provided by any suitable method described above. Subject, Professional use equipment 254, The subject's doctor, Or Staff manager or manager Can be provided for   Alternatively or additionally, Results or final recommendations, Or both to admin Can be sent (step 308), Or, Give inspection certificate You can do it (step 309).   In one embodiment, the expert provides all test result information, including personal secrets. Receive information, The administrator receives only the final result of the test.   If the subject fails or does not complete the test, Step 310 Inspection failure indication is provided to the administrator as shown in And / or Discussed above The authentication of the subject is not given as such. if, The system has detected a deliberate failure if, Similar measures are taken.   A deliberate failure is Any discrepancies in the results obtained in similar tests It can be detected by an appropriate method. In one embodiment, Controller 256 has many similarities Generate a level check, Each subject presented with two separate tests at the same level Comparison between a subject and a single subject.   In any situation, Inspection passed or failed, Replanning and resummoning operations Started, The process can be repeated, this is, Inspection failure or within specified time, Or Select subjects for an improved testing or education session after passing the test. This is the case when the player is selectively summoned.   According to the second mode of operation, The device performs multiple physical examinations on the subject. Instructs what to do sometimes. According to this embodiment, The processor 260 is Physical examination device 280, Instruct that 282 and 284 be used. next, Step The Rosesa 260 Heart condition test using a heart test device 282, Use spirometer 284 Respiratory tests, and, Visual inspection using the device 280 is performed simultaneously. Therefore, Up The system saves time and An overall observation of some relevant body tissues U.   According to the third mode of operation, The device performs an examination of a plurality of subjects, Unlimited An example is a medical examination. The first subject uses the physical examination device 278, No. The second subject uses the physical examination device 280 , A third subject uses the physical examination device 282, and, The fourth subject is a physical examination equipment Use the device 284. According to this mode, The above equipment fully utilizes all of its resources. To use.   In an alternative embodiment, The above system includes multiple identical inspection devices, Multiple The test can be performed simultaneously on the subjects.   next, Constructed and operative in accordance with a further preferred embodiment of the present invention; Health checkup Inspection, Including a plurality of inspection units performing training and / or education; Self-inspection, Please refer to FIG. 3, which is a schematic diagram of a self-training and / or self-education system. FIG. The system 300 An association with multiple factories that are geographically separated from each other and from the head office Company Particularly suitable for working environments with geographically separated work sites . However, System 300 Government agency, army, For other types of environments, such as insurance companies May also be appropriate.   System 300 Including a plurality of inspection units 352 labeled 352A-352N It is. Each of the inspection units 352 Control unit 36 via network 376 Connected to 5. Network 376 LAN, WAN, Satellite communication network, Nothing It may be a line communication network or any combination thereof. Network 376 Also It may include any other type of public or private communication network. control Unit 365 is Automatic summoning unit 351 and automatic announcement / data storage / report / It includes a re-examination scheduling unit 366. The control unit 365 also Including 374 administrators obtain.   System 300 A plurality of subjects 355 labeled A to N are included. Suffered The examiner 355, Divided into subject subgroups (not shown) Each subject subgroup It may be located near at least one inspection unit 352. System 300 Also, Communicate with control unit 365 and inspection unit 352 via network 376 Distant With a specialist 372, An administrator 374 linked to the network 376 may also be included.   The inspection unit 352A is An automatic identification unit 354 for identifying the subject, Automatic education and And / or training units 356 and 358, Automatic inspection equipment 360 and 362, And Self A dynamic diagnosis analysis unit 364 is included. The inspection unit 352A has two automatic training and And / or training unit and two automatic inspection devices, Other inspection The knit may be equipped with any number of educational and / or training units and automatic inspection equipment (not (Shown).   Each of the inspection units 352 As discussed above for system 250, More than one It should be noted that the above subjects can be operated to test or educate or train. You. Therefore, Inspection unit 352 1 described above and shown in FIG. It can function similarly to the device 251. Therefore, The automatic summoning unit 351 Control device 25 of FIG. As disclosed above for 6, Separate subject guru to be tested or educated Can be summoned in a separate inspection unit.   Each automatic diagnostic analysis unit 364 of the test unit 352 includes: Control the results of diagnostic analysis Communicate directly to unit 365, Or alternatively, Against remote expert 372 Note that unprocessed test results can be communicated for diagnostic analysis. Expert372 Next, the analysis and diagnosis of Communicated from the remote expert 372 to the control unit 365, Memory, report , Announcement, And conduct a re-examination plan.   The control unit 365, A single computer (not shown) connected to network 376 Can be implemented as software running on a computer, Multiple distributed ( Implemented as a separate software module running on a computer (not shown) Remember that you can do it. Similarly, Administrator 374 Linked to network 376 Any Computer, Operations can be performed from a terminal or waxing.   Furthermore, The automatic notification unit 366 Network printer or dedicated printer Or be able to generate reports using any output device, such as any suitable output device Please also remember. Also, The report is One or more inspection units 352 physically mounted At any point of the placed place, Local by hardcopy or electronic report It can be emailed or communicated to be output.   1 and 3 are: Groups according to specific requirements and uses such as: Multiple additional tests can be performed:   Heart and blood pressure in a noisy environment;   ・ For professional drivers, Visual acuity vision and response while;   Eg glucose for high risk groups, Blood formation such as cholesterol Academic component;   Blood pressure and ECG for heart disease patients;   Visual memory for the pilot, Depth recognition and response time;   ·Awakening, Stability and balance test.   According to a further embodiment of the present invention, Education includes:   a. Education of new roles that employees need to perform during work;   b. Education of new software introduced into the company;   c. Education of company rules (eg safety rules);   d. Business scope (for example, Introduction of marketing to R & D engineers) Education.   Furthermore, Inspection planning, Identification of the subject, Instructions, Training, Inspection, and, Inspection results Analysis and classification of All personal and strategic report creation functions are system Automatically provided by systems 250 and 300 It is important to show that All of these features Administrator 252 or 3 It is performed according to predetermined criteria provided respectively by 74.   still, Although systems 250 and 300 are intended for fully automatic operation, System tube It should be understood that a specialized operator, such as a supervisor, can be adapted to be able to perform priority control. U.   next, FIG. 1 is a schematic block diagram illustrating an automatic visual inspection system according to a preferred embodiment of the present invention. Please refer to FIG. 4A which is a lock diagram. System 1 is Perform a vision test An optical testing unit 2 is included. System 1 Was Appropriately connected to the vision test unit 2 to control the operation of the vision test unit 2 Also includes a computer 4 for performing the operations. Computer 4 also The test results of the subject Process and store. Computer 4 is a personal computer or any other Any type of suitable computer can be used. Computer 4 also Different users (Not shown). The storage device is Hard disk H Magneto-optical storage, Magnetic storage devices such as optical storage devices, Or Fixed or detached Any other suitable storage device having a possible storage medium can be used. Therefore, Con Pewter 4 Various possible identification data and test result data, Suffered Create and maintain a database containing information about the examiner. Computer 4 Was Used for audio / visual interaction with the user of system 1 (not shown) Also includes display and sound card. Therefore, System 1 is self Instructions may be given to a user undergoing education or self-examination. display Also Used to present a certain test pattern. For example, Inspection for color vision The inspection pattern in the inspection Present to the subject on the computer display Can be done. System 1 further comprises Self-inspection A user interface properly connected to the computer to receive user input during Face 8 is included. This user interface allows the user to: Eye test Selects the answer to the test pattern presented to both eyes by the inspection unit It is possible to do.   System 1 also Automatic self-education and / or self-assessment It also includes an identification unit 6 for identifying the user before imposing an action. Identification unit Unit 6 is It includes at least one device for providing user identification. For example , The identification unit 6 Keyboard or keypad to key in password May be included. Therefore, The user Password or code number that identifies itself Or one can identify himself by simply keying in any suitable key combination. Identification Knit 6, An item such as a line of text or an icon on the computer display Pointing device such as mouse to select items from item group May be included. Also, The identification unit 6 Read magnetic card with user ID May include an electromagnetic card reader. The identification unit 6 also User's voice signature A speech recognition device for identification may also be included. The identification unit 6 also Along with test results A user that can be stored or printed on a test report that recognizes the identity of the tested user. A video camera for capturing a video image of the user's face may also be included. Identification unit 6 is also A facial analyzer using pattern recognition technology may also be included. Identification unit 6 Also An iris analyzer that identifies a unique pattern of the user's iris may also be included. Identification Knit 6 is also Identify users based on individual characteristics of the user's retinal pattern A retinal pattern analyzer.   According to a preferred embodiment of the invention, the identification unit 6 comprises: A device for performing the identification disclosed above. It is noted that any one of the devices or any combination of these devices may be included. No. Therefore, System 1 is Identification unit Depending on the characteristics of the device or device combination included in Reliable user identification Can be arranged to provide different degrees of For example, Relatively low for identification If you only need high reliability, Knowledge that includes only keyboard and chord keystrokes Another unit 6 can be arranged. In contrast, High degree of user identification reliability If needed, Voice recognition device, Retinal pattern analyzer, and, User co An identification unit 6 including a keyboard combination for key input of a key is arranged and configured. Can be   The computer 4 in FIG. Create a test report or hardcopy It is also connected to an output device 3, such as a printer or any other suitable output device.   still, As shown in each figure, For better understanding, similar components are denoted by similar reference numerals. Please note that it is.   next, According to another preferred embodiment of the present invention, For vision connected to a second computer Please refer to FIG. 2, which is a schematic block diagram showing an automatic self-test system. Fig. 2 Stem 1 It is connected to a second computer 12 by a suitable communication line 10. The system 1 of FIG. Dedicated communication line, LAN, WAN or any other suitable wired also Alternatively, it can communicate with the second computer 12 via a wireless communication method. Therefore, Compilation Computer 4 Communicates the result of the test imposed on the user and stores it in the second computer 12 Updated database. Computer 4 also Second computer 12 Access the database stored in User identified by the identification unit (User inspection history data) such as the results of previous inspections performed by And And Retinal pattern, Voice signature, User specific codes and other appropriate user identification data Various identification data such as data can be obtained.   The second computer 12 Microcomputer, Main frame Computer, Or any suitable type such as any other suitable computer Computer.   next, According to another preferred embodiment of the present invention, Connected to a local area network Referring to FIG. 3, which is a schematic block diagram showing an automated visual self-test system. . The system 1 of FIG. Logecal area network via appropriate communication line 10 (LAN) 14. Therefore, System 1 is Local to print inspection results Or LAN 14 resources (not shown) such as remote printers, User database Storage resources for accessing and updating resources and, Centralized calculation such as retinal pattern analysis Computational resources for tasks can be used.   next, According to yet another preferred embodiment of the present invention, Via the public switched telephone network (PSTN) 16 Connected to a wide area network (WAN) 18 and a telecommunications medical center 20 Please refer to FIG. 4, which is a schematic block diagram showing an automatic visual inspection system. System 1 is A suitable communication link 22 connects to the PSTN 16. Communication link 22 Is Properly connected to computer 4 and a telephone line or any other suitable It can be a modem (not shown) connected to the PSTN 16 by an appropriate communication line. Cis Tem 1 also It is also connected to the telecommunications medical center 20 via the PSTN 16.   still, FIG. A single visual camera connected to WAN and telecommunications medical centers Although only the dynamic self-test system is disclosed, More on central equipment (not shown) It should be noted that the visual automatic self-test system can be connected as well. Sun In one non-limiting example, Placed in multiple geographically separated work sites Multiple automated visual self-test systems The central database of the company is located It can communicate with the telecommunications medical center located at the head office.   Also, The user interface 8 of the system 1 of FIGS. Although shown as being connected to computer 4, It is an eye test unit Can also be properly connected.   next, FIG. 4A is a schematic perspective view illustrating the system of FIGS. 4A-4D according to a preferred embodiment of the present invention. Please refer to FIG. The computer 4 has a display 5 and a keyboard 7 Contains. The keyboard 7 together with the computer 4 The above disclosed FIG. It functions as the identification unit 6. The vision test unit 2 Attached to the swing base 26 The light shielding housing 24 is included. The housing 24 Comfortable head for user 22 To adjust the position to store it, It is rotated horizontally and tilted with respect to the swing base 26. Can be The vision test unit 2 further comprises Headrest mounted on housing 24 25 and And an eye cover assembly 28 attached to the headrest 25. This eyelid assembly, Includes two eyepieces 36. User in system 1 The interface 8 Three buttons 30, Includes 32 and 34. Opened in detail below As shown, Buttons 30 and 32 are used to select the answer to the test image And and, Button 34 is used to enter a choice answer. Button 30, 32 and 34 is color coded, Help colorblind users distinguish them It can also have unique shapes and text. Button 30, 32 and 34 also Unique distinction Is arranged on the user interface in the geometric arrangement of. In a non-limiting example, Button 30 is green and rectangular, Button 32 is red and triangular, and, button 34 can be yellow and circular. User interface so that button 34 faces user 22 When source 8 is held, Button 32 is on the right side of user interface 8 and One button 34 is on the left side of the user interface 8.   Button 30, 32 and 34 are Other suitable colors, Can have text and shape To Different formats on the user interface 8 May be arranged.   User 22 first A user identification code is keyed on the keyboard 7. Compilation After computer 4 identifies the user, The computer is User interface 8 Text and visual theories that dictate the use of the app and how to take a self-test session By displaying light and sound (voice) instructions to the user 22, For user 22 Provide audio / visual self-training / education sessions. This instruction (Not shown) Provide acoustic instructions and instructions using a sound card and appropriate speakers This is shown on the display 5. After the self-education session ends, The computer presents a visual inspection. User 22 By eye test assembly 2 Position both eyes appropriately with respect to the eyepiece 36 to view the presented inspection image As if Tilt your forehead over the headrest 25. The user has to pay his forehead While contacting the drest 25, Button 30 on the user interface 8, 32 and 34 To select an answer and communicate the selected answer to the computer 4.   next, Please refer to FIG. 6 which is a schematic perspective view showing the eye covering member 28 of FIG. 5 in detail. Blind eye The member 28 is It includes two eyepieces 36 for viewing the inspection image. Eyepiece 36 Each include a single optical assembly 37. The eye covering member 28, Nose of user 22 Has a recess 55 positioned between the two eyepieces 36 to accommodate the eyepiece. Eye cover Material 28 is also Head presence illuminator 38 to detect the presence or absence of the user's head in the eye covering member And a head presence sensor including a head presence detector 40. In a non-limiting example hand, The head presence irradiator 38 is an infrared irradiation diode and the head presence detector 40 is It is an infrared sensitive detector. When the user's head is located in the eye covering member, Head Block the path of the infrared beam emitted by the head presence irradiator 38, It is the head Part presence detector Prevent reaching 40. The signal from the head presence detector 40 is passed to the computer 4. As well as Used to determine if the test can be started. Head The signal from the presence detector 40 is also used to detect fraudulent attempts by the user, Say Seafood Attempts to remove the head from the eye cover during the examination are detected and recorded. Because it is   The head presence irradiator 38 and the head presence detector 40 are: Ultrasonic transmitter and directional supersonic Wave microphone, Or Of the user's head without disturbing the visual function of the user 22 It can be any other type of detector and illuminator that detects the presence or absence. Additionally, The head presence sensor Attach to eye cover 28 or headrest 25 at appropriate position With any other suitable type of sensor, such as Can be done.   The eye covering member 28 further includes Eight light sources L0, L1, L2 L3 L4 L5 L6 And L7. As disclosed in detail below, Light source L0, L1, L2 Groups L3 and L3 are used to examine the horizontal field of view (FOV) of user 22's right eye. To Light source L4 L5 The groups L6 and L7 correspond to the horizontal field of view (F Used for OV) inspection. According to one preferred embodiment of the invention, Light source L0, L1, L 2, L3 L4 L5 L6 and L7 are It is an LED that emits visible light. light Source L0, L1, L2 L3 L4 L5 L6 and L7 may be any other suitable Note that it can be a visual light source.   next, Please refer to FIG. 7, which is a schematic sectional view of the eye covering member 28 of FIG. 5 taken along the line VII-VII. You. The eye covering member 28, Two optical elements 37 properly mounted in two eyepieces 36 Contains. Light source L0, L1, L2 L3 L4 L5 L6 and L7 are schematic , The user 22 is pointed at the approximate position of both eyes 39. For clarity of illustration, Light source L0 , L1, L2 L3 L4 L5 Wires connected to supply power to L6 and L7 Is not shown. In a non-limiting example of the invention, The optical element 37 is a lens, , Note that other suitable optical elements can be used.   next, FIG. 8 is a schematic perspective view showing the eyesight inspection unit 2 of FIG. 5 in detail. You. The eyesight inspection unit 2 is connected to the power supply unit 23. Preferred for the present invention According to the example, Power supply to minimize the space inside housing 24 Although the supply unit 23 is external, In another embodiment, the power supply unit is housed. Note that it can be mounted within the ring 24.   next, FIG. 9 is a schematic plan view showing the eyesight inspection unit 2 of FIG. 5 in detail. You. The vision test unit 2 Housing 24, Inspection pattern for both eyes of user 22 Inspection pattern projection unit 150 attached to housing 24 to project Contains. The vision test unit 2 further comprises Put the answer image in both eyes of user 22 Includes answer display unit 140 mounted on housing 24 for shadowing You. The test pattern and answer pattern cooperate to form the test pattern disclosed in detail below. Form the image. The vision test unit 2 further comprises Haji to give sunlight-like lighting Right lighting unit 100 and left sun lighting unit Includes 120 The vision test unit 2 further comprises Double focus, Multifocal and continuous The gaze of the user wearing the focusing glasses sees the test pattern and the answer pattern. It includes a line-of-sight deflection unit 80 mounted on the housing 24 for deflection. Eyesight The inspection unit 2 further comprises Adapts the inspection to near-field and intermediate-field viewing conditions Near / intermediate field optical assembly 60. The vision test unit 2 also A detachable filter disposed between the near / intermediate field optical assembly 60 and the eye cover member 28. Including Ruta 59 In. The filter 59 is Coloring filter, Density filter, Or Any other suitable It can be a smart type of filter. Filter 59 is Insert to perform the prescribed visual inspection Can be entered or removed. Color fill to generate inspection images with constant color Data can be inserted, This is for example Simulates vision in a photographic darkroom A colored filter that produces a red inspection image that can be used for inspection. Also , To control the contrast, A density filter may be used. Eye test unit 2 is also Control unit for controlling the operation of the components of the visual acuity test unit 2 Contains 35.   Referring now to FIGS. 10 and 11, FIG. 10 is a schematic side view of the eyesight inspection unit 2 of FIG. It is sectional drawing. FIG. Some components of the visual acuity test unit 2 of FIG. 8 are described in detail. It is the schematic exploded perspective view shown. For clarity of illustration, Some of the eye test unit 2 Note that components are not shown or partially shown in FIG. The inspection pattern projection unit 150 Includes projector housing 151. Inspection pattern Projection unit 150 also Two slides mounted on projector housing 151 Da 152 is also included. These sliders 152 Two mounted on housing 24 On the rail 153. Therefore, Inspection pattern projection unit 150 is double-headed arrow 15 9 may slide on rail 153 in the direction indicated by. Inspection pattern projection unit To 150, A spur tooth rack 157 mounted on the projector housing 151; Move left and right Motor 155. The motor 155 for left and right movement is mounted on the housing 24. ing. The left / right moving motor 155 is attached to the spur gear 159. Spur gear 159 Are engaged with the spur tooth rack 157. Left and right (as viewed from the general direction of the eye cover member 28) When the movement motor 155 is rotated clockwise or counterclockwise, It is an inspection Turn the turn projection unit 150 on the right side Moves to the left.   The inspection pattern projection unit 150 further includes Includes slide rotation assembly 154 You. The slide rotation assembly 154 Rotating member 160, Ring-shaped member 156 and multiple The slide assembly 161 of FIG. Each slide assembly 161 Screw 162 , And is attached to the rotating member 160 and the ring-shaped member 156. Slide asen Each of yellowtail 161 The four inspection patterns 181, disclosed in detail below, 182, 183 And 184. still, The four inspection patterns of each slide assembly 161 are other Although it may be different from all the inspection patterns of the slide assembly 161 of For clarity , The inspection pattern of each of the different slide assemblies 161 is Inspection pattern 181, only to indicate the relative position on 182, Named 183 and 184 Is Therefore, Two different slide assemblies on two different slide assemblies 161 Inspection patterns are both When viewed from the general direction of the eyepiece 36, the Only to indicate that it is a right inspection pattern, Can be referred to as test pattern 181 Remember that.   The slide rotation assembly 154 A first pulley 158 attached to the rotating member 160, A slide rotating member 163 attached to the second pulley 164, and, First pulley 158 A transmission belt 165 is rotatably connected to the second pulley 164. Inspection pattern The projection unit 150 also Determine the position of the ring-shaped member 156, Thus projector housing Determine the ID of the slide positioned in front of the opening 160 in the ring 151, Reset And a pair of position sensors 199.   Each of the slide assemblies 161 A slide that rotates the slide rotation assembly 154 By properly starting the id rotation motor 163, Opening in projector housing 151 Can be moved to a position in front of 166 . When the selected slide assembly 161 is positioned in front of the opening 166, The left / right movement motor 155 is activated, The inspection pattern of the selected pair is Until they align with Inspection pattern along the direction indicated by double-headed arrow 159 The projection unit 150 is moved.   The inspection pattern projection unit 150 further includes Illuminate the slide assembly 161 Includes a slide irradiation unit 167 that projects an inspection pattern on both eyes of the 22 . The slide irradiation unit 167 Ring-shaped part attached to the housing 24 A support member 168 projecting into the slide rotation assembly 154 through an opening in the material 156 is provided. Contains. The slide irradiation unit 167 also How attached to support member 168 Zing 169, Two light sources 170 and 171 suitably mounted in the housing 169 Also included. Light sources 170 and 171 are properly connected to a power source (not shown) and , Can be turned on / off separately. Light sources 170 and 171 Incandescent light bulb or any other Suitable light source.   next, FIG. 12 is a schematic exploded perspective view of the answer display unit 140 of FIG. Illuminate. Answer display unit 140 Irradiation unit 141, The irradiation unit A coupling mirror 142 inclined at about 45 ° to the plane of 141, Take the irradiation unit 141 And a slide holder 143 attached thereto.   The slide holder 143 A diffuser 144 for diffusing the light of the irradiation unit 141, Transparent Bar plate 146, Disposed between the diffuser 144 and the transparent cover plate 146 Answer slide 145. The diffuser 144 Frosted glass or any other Made of a suitable diffusion material. The transparent cover plate 146 Glass or transparent glass It can be made of any suitable transparent material, such as a plastic. Answer slide 1 45 is 16 answer images arranged as 2 groups of 8 answer images It has a die 147. Each group of 8 answer images, 4 answer images each Page with two interleaved rows. Each group of 8 answer images Each of the The answer image can be projected to one of both eyes of the user 22. . Answer slide 145 has a dark background. Answer slide 145 Answer image Can be made from a baked photographic film sheet. Answer slide 145 Was Transparent plastic or glass with properly printed answer images It can be made from a sheet of material.   The irradiation unit 141 plastic, Made of metal or any other suitable material And It is a block having 16 holes 148. The irradiation unit 141 further includes In the hole 148 Includes 16 light sources 149 mounted. Light source 149 LED or incandescent bulb, etc. May be any suitable light source. still, For clarity of illustration, Control unit for light source 149 The wires connecting to the light source 35 are shown for only one of the light sources 149. Sly When the holder 143 is attached to the irradiation unit 141, the answer pattern 147 Because they overlap When one of the light sources 149 is turned on, The light from the light source 149 is It While passing the answer image that overlaps with Eyepiece 36 with coupling mirror 142 Towards one of the The light is reflected along the optical axis corresponding to the eyepiece.   Remember that the two groups of eight answer images consist of consistent answer images. I want to be. However, Only one subgroup of four answer images Projected to one eye at a time. The answer image of the two groups is different Yes, and, Each will work to work with different types of tests as described in detail below. Have been adapted.   Returning to FIGS. 10 and 11, The near / middle field optical assembly 60 A U-shaped bracket 61 mounted on the housing 24, Can be rotated on the bracket 61 A proximity optical adapter 68 attached to the Attached to the proximity optical adapter 68 A proximity motor 65 that rotates the proximity optical adapter 68; Contains. For neighborhood Optical adapter 68 Rotatable wing plate 62, The two optical assemblies mounted on the wing plate 62 Assembly 66. The optical assembly 66 Supports desired image distance Do Generate an apparent convergence of both optical axes. Optical Ase Assembly 66 also Generate the required magnification corresponding to the predetermined apparent image distance. According to one preferred embodiment of the invention, A lens 66A that contributes to the required optical magnification, the light By deflecting, Generates apparent convergence appropriate for the required near-field inspection conditions And a prism 66B.   The proximity motor 65 is For each eyepiece 36 to simulate near vision conditions So that each optical assembly 66 is properly aligned, Rotate the proximity optical adapter 68 What you get. Also, The proximity optical adapter 68 is Out of alignment with eyepiece 36 It can be rotated to the position indicated by the dashed line 73. Near / Midfield Optical Assembly 60 Is also Member 71, Detects the position of member 71 to detect the position of proximity optical adapter 68 Two position sensors 69 and 70 Contains.   The near / middle field optical assembly 60 further includes Rotatably mounted on bracket 61 Intermediate optical adapter 69, The intermediate optical adapter 69 is attached to the intermediate optical adapter 69. And an intermediate motor 64 for rotating the adapter 69. The intermediate optical adapter 69 Times Movable wing plate 63, And two optical assemblies 74 mounted on the wing plate 63. You. The optical assembly 74 To the desired predetermined "intermediate" image distance Generates the apparent convergence of the corresponding two optical axes. Optical assembly 74 also includes Predetermined Generates the required magnification corresponding to the apparent intermediate image distance I do. According to one preferred embodiment of the invention, Each of the optical assemblies 74 Necessary optics A lens 74A that contributes to the magnification, Deflect the light, Suitable for the required intermediate field inspection conditions A prism 74B that produces sharp apparent convergence; Contains.   The intermediate motor 64 is For the eyepiece 36 to simulate intermediate vision conditions So that the optics assembly 74 is properly aligned, The intermediate optical adapter 69 can be rotated. The intermediate optical adapter 69 is out of alignment with the eyepiece 36 and the near optical adapter 68 Also got out of alignment with the eyepiece 36, When rotated to the position indicated by the broken line 73 , The viewing state simulates far-field viewing conditions. Near / Midfield Optical Ascene Yellowtail 60 Member 76, Intermediate optics by detecting the position of the member 76 together with the position sensor 70 A position sensor 75 for detecting the position of the adapter 69, Contains.   Therefore, By starting the motors 64 and 65 properly, Eyesight inspection unit 2 The visual condition of Distant vision, Can be adjusted for near vision and mid vision visual inspection You.   Although optical assemblies 66 and 74 are shown as a lens and prism combination, , Note that other optical arrangements may be used. For example, Optical asene Yellowtail 66 and 74 It can also be a decentered optical element that combines magnification and deflection.   The line-of-sight deflection unit 80 A bracket 81 mounted on the housing 24, The bra A line-of-sight adapter 82 rotatably mounted on the bracket 81, Rotate the line-of-sight adapter 82 And a line-of-sight deflection motor 85. The line-of-sight adapter 82 Wing plate 82, Inspection Pris attached to the wing plate 83 to deflect the line of sight of the turn and answer pattern Two deflecting elements 86, such as a system or any other suitable deflecting element; Contains. The wing plate 82 is attached to the line-of-sight deflection motor 85, Deflection element 86 with eyepiece 36 To allow it to be rotated into and out of alignment. This configuration Allows users to Double focus, Multifocal, Or wear continuous focus glasses, Near vision Your head angle during the switch from the test to the far-field or intermediate-field visual conditions Inspection can be performed without re-adjusting the degree and position.   next, Distant vision, Detailed line of sight for mid-field and near-field tests , FIG. 5 is a schematic side view of the near / middle field optical assembly 60 and the line-of-sight deflection unit 80. Figure 13, Please refer to FIG. 14 and FIG. FIG. Positioned off optical axis 75 Illustrated optical assemblies 66 and 74 and deflection element 86 are shown. In this arrangement And The test simulates far-field vision conditions, Optical axis 75 is user Line of sight. FIG. Deflection element positioned off optical axis 75 86 and optical assembly 66, Intermediate optical adapter positioned within optical axis 75 69 optical assemblies 74, Is shown. In this arrangement, Inspection is intermediate vision Simulate wild vision conditions, Optical axis 75 coincides with the user's line of sight . FIG. An optical assembly 74 positioned off the optical axis 75; Optical axis 75 An optical assembly 66 and a deflection element 86 located within; Is shown. This In the configuration of the inspection, Double focus, Wear multifocal or continuous focus glasses Simulates near-field visual conditions appropriate for a subject. In this condition Since the line of sight 77 is deflected with respect to the optical axis 75, Double focus, Multifocal or Users wearing continuous focus glasses, Own head from the position at the time of far vision inspection The inspection can be performed without substantially moving the unit.   if, The deflection element 86 of FIG. 15 has been rotated out of alignment with the optical axis 75 (not shown). Shown), The resulting configuration is To examine subjects without glasses Simulate suitable near-field visual inspection conditions Please note that Furthermore, Figure 13, for clarity of illustration FIG. 14 and FIG. Only the optical components necessary to show the various configurations along the optical axis 75 are shown Please note that there is.   Returning to FIGS. 10 and 11, The right side unit for sunlight illumination 100 is attached to the motor 103 Includes a rotatable platform 102. The right side unit 100 for sunlight lighting Furthermore, A light source 105, Reflects light from light source 105, similar to A reflector 101 for generating a set condition; Contains. Right-hand unit 100 Was To block some light from the light source 105 from reaching the eyepiece 36 directly Baffle 104. When the light source 105 is turned on, Light is reflected from reflector 101 Fired, Generates a sunlight condition. The left side unit 120 for sunlight illumination is the right side for sunlight illumination The configuration and operation are similar to the unit 100, It is the right unit for sunlight The difference is that it is configured as a mirror image with the image 100.   still, The units 100 and 120 for sunlight illumination are arranged as shown in FIGS. 10 and 11. Has been established, Note that other arrangements are possible. For example, single Only one solar irradiation unit may be used, this is, Place the unit on the eyepiece 36 (Not shown), In order to provide sunlight conditions, Rotate the light unit down, and, During inspections that do not require sunlight, stray light This is done by pivoting upwards to minimize firing.   Referring now to FIGS. 16 and 17, FIG. 16 shows the slide assembly of FIGS. 161 is a schematic plan view of one of FIG. FIG. 9 to 11 slide assembly 1 FIG. 61 is an exploded perspective view of 61. According to a preferred embodiment of the present invention, Slide assembly 161 Is Frosted glass, Such as light diffusing plastic or any other suitable light diffusing material Made from light diffusing materials. The slide assembly 161 further includes Glass, plus Transparent cover plate 192 made from ticks or any other suitable transparent material Contains. The slide assembly 161 also Diffusion plate 190 and cover play And an inspection pattern sheet 191 disposed between the inspection pattern sheet 191 and the inspection pattern sheet 191. Inspection pattern Port 191 is Four inspection patterns 181, 182, Photo with 183 and 184 burned Film. The inspection pattern sheet 191 also Inspection pattern 181, 182, 183 And 184 printed, Clear material such as plastic or any other suitable material It can also be a sheet-like material. According to another preferred embodiment of the present invention, Inspection pattern Printing or printing directly on the bar plate 192, Inspection pattern sheet 191 The need can be avoided.   The slide assembly 161 With the screw 162 passing through the hole 193, Rotating member 1 in FIG. 60 and the ring-like member 156.   next, Inspection pattern projection unit 150 and left and right mirrors during various inspection stages Shows the typical position of the units 100 and 120 for light illumination, Outline of eyesight inspection unit 2 18 and 19 which are plan views.   FIG. Inspection patterns 182 and 184 The optical axes 226 and 226 of each of the left and right eyepieces 36 And the inspection pattern projection unit 150 at the position to be placed at 225. This position In user 22, View images projected from inspection patterns 182 and 184 I can do it.   The solar lighting units 100 and 120 Minimize the reflection of stray light into the eyepiece 36 Direction in which platforms 102 and 122 are spaced apart from optical axes 226 and 225, respectively Rotated to It is shown in the first position. In the first position, Light sources 105 and 1 25 is powered off.   FIG. The inspection patterns 181 and 183 are respectively FIG. 6 shows the inspection pattern projection unit 150 in a position to be placed in the axes 226 and 225. ing. In this position, the user 22 Projected from inspection patterns 181 and 183 You can see the image. Changing the position of the inspection pattern projection unit 150 That each slide assembly 161 is used to project two pairs of inspection patterns. The configuration of the container Prior art visual inspection device disclosed by Griffin et al Compared to the number of test patterns that can be presented more, Inspection patterns that can be presented to the user 22 This is to double the number of turns. This is useful, Because, Of the present invention The vision test unit 2 Possible fraud by storing the order of prior art test patterns In order to minimize the nature A single random choice of available test patterns This is because only the inspection pattern is presented to the user 22.   still, The slide assembly 161 of FIGS. 16 and 17 has four test patterns Is shown as In another embodiment of the present invention, the slide assembly , Align slide projection assembly 150 with eyepiece 36 by properly positioning It should be noted that many more test patterns can be included that are configured as matched pairs. I want to. For example, The slide assembly is Six inspection patterns arranged in three pairs May be included. Such an embodiment is Update the number of inspection patterns to be used in the inspection Can get more.   The units 100 and 120 for sunlight illumination in FIG. Reflects light from light sources 105 and 125 Platforms 102 and 122 respectively illuminate to simulate sunlight conditions It is shown in a second position rotated in a direction towards the axes 226 and 225. 2nd position At Light sources 105 and 125 are turned on.   next, FIG. 20 is a schematic functional block diagram showing the control unit 35 of FIG. 9 in detail. refer. The control unit 35 includes a processor 220, , The processor 220 includes: Left and right movement motor 155, Slide rotation motor 163, Gaze bias Motor 85, Near vision motor 65, Intermediate vision motor 64, Right sunshine unit Data 103 is controlled. Processor 220 also Reset sensor 197, Two positions Sensors 199A and 199B, and, Receive data on various motor positions Sensor 202, 204, 206, It is also connected to 208 and 210. Processor 220 also , Light source 105, 170, A current sensor 214 for detecting a current flowing through each of 171 and 125, Two Also connected to 16 and 224, Determine the integrity of these light sources and slide The light intensity of the light sources 170 and 171 of the irradiation unit 167 is adjusted. Processor 220 also , The light source L0 of the eye covering member 28, L1, L2 L3 L4 L5 L6 and L7 included FOV inspection unit 218 Controls on / off of each light source during FOV inspection I do. Processor 220 also During the examination session, the user 22 In order to detect the presence of the head, Suitable for head presence detector 40 and head presence illuminator 38 Connected. Processor 220 also To perform two-way communication with the computer 4, It is also properly connected to the two-way communication interface. Two-way communication interface Interface may be an RS-232 interface or any suitable type of communication interface. Ace. Processor 220 also To control the light source 149, Answer display It is also properly connected to the ray unit 140.   Next, FIG. 21A, FIG. 21B, Referring to FIG. 21C and FIG. 22, FIG. 21A and FIG. 21B , Left and right of the subject undergoing the vertical oblique examination using the visual acuity examination unit of FIG. Two different representative test images 230A simultaneously presented to the eye 230B FIG. Inspection image 230A, Each of the 230B The inspection pattern projection shown in FIG. A single inspection pattern projected by the shadow unit 150, Answer display in Figure 9 The answer pattern projected by the ray unit 140, Contains. Inspection image The dice 230A includes a test pattern 232A and an answer image 234A, and, Inspection image Page 230B An inspection pattern 232B and an answer image 234B are included. answer Pattern 234A has four patterns 235A, 236A, 237A and 238A, answer The pattern 234B has four patterns 235B, 236B, Contains 237B and 238B .   still, During the visual inspection, Note that the answer pattern is only projected to one eye I want to. When only one eye is examined, The answer pattern is in the eyes of the person being inspected Projected.   Of the four projected patterns, Projection in inspection is emphasized . This emphasis is The appropriate light source 149 below the appropriate answer pattern 147 is intermittently turned on / It is performed by blinking when disconnected. However, Emphasis is on the appropriate light source 149 Selectively increase light intensity, Or May be performed by any other suitable enhancement method. You. FIG. Subject undergoing the vertical oblique examination shown in FIGS. 21A and 21B It is the schematic which shows the fusion inspection image seen from. Present to the left eye of user 22 21A includes the image of horizontal arrow 232C, and, The example test pattern 232B of FIG. 21B presented to the right eye of the user 22 Is Image of four ladder patterns 232D, Four label numbers connected to a ladder pattern No. image 1, 2, 3 and 4. Arrow 232C seen from user 22 21C includes a fusion test pattern 232, Arrow 232C is seen pointing to one of the ladder patterns 232D in the particular example of FIG. 21C. e, The arrow 232C points to the ladder pattern associated with label number 3. Have been. However, Different with different degrees of vertical phoria Covered The examiner Look as arrow 232C points to a separate ladder pattern of the four ladder patterns 232D. I can.   The subject 22 uses the user interface 8, Appropriate answer disclosed above Can be selected. Solution to be selected in the representative inspection image of FIG. The answer is The arrow 232C corresponds to the numeral 2 indicating a ladder pattern indicating the inspection pattern 232. This is the corresponding pattern 236.   FIG. In a visual accuracy test using the visual acuity test unit of FIG. FIG. 4 is a schematic diagram showing a representative inspection image 240 seen from one eye. Inspection image 240 Is The single inspection pattern 242 projected by the inspection pattern projection unit 150 of FIG. When, The answer pattern 244 projected by the answer display unit 140 of FIG. Contains. The representative test pattern 242 in FIG. The open side is the right side of the user 22 A letter C oriented to face is shown. The answer pattern 244 is four patterns 245 , 246, Includes 247 and 248. Four patterns 245, 246, 247 and 248 Each is Arrowheads pointing in different directions are shown. During the inspection Four patterns 245, Two 46, Only one of 247 and 248 is highlighted and the subject Using the face 8 to select the appropriate answer as disclosed above You. The correct answer in the representative test image of FIG. Arrowhead pointing right of user FIG.   Visual inspection   According to a preferred embodiment of the present invention, The above system 1 is for self-check by the user 22. Can impose seven different visual tests: Visual acuity test, 3D depth recognition Inspection, Horizontal and vertical oblique inspection, Fusion inspection, Lateral field of view (FOV) inspection, Visual inspection under sunlight conditions, and, It is a color vision test.   Visual acuity testing Can be performed separately for both eyes and one eye You. Visual acuity testing Far away, For near and intermediate viewing distances, and, Various controls It can be performed under trust level and illumination color.   According to a preferred embodiment of the present invention, The automatic visual self-inspection system Eye test By properly mounting another type of slide in knit 2, Or Con By displaying another inspection image on the display 5 of the computer 4, other Note that it can be adapted to perform a type of inspection.   next, According to a preferred embodiment of the present invention, During automatic self-test for vision by user 22 FIG. 2 is a schematic flow chart showing a control flow of a visual inspection performed by the system in FIG. Please refer to FIG. 23A and FIG. 23B. System starts by presenting an input screen But The input screen is for the user 22 self-identification as disclosed above (not shown). Instructions). The input screen performs a self-education session for the user 22 Give a selection (step 400). If user 22 answers positively, the system Present a series of educational screens (step 404), next, Present a series of training screens ( Step 406). If user 22 answers negatively, The system directly steps Pass through to step 406.   After training step 406 is completed, Computer screen explaining visual acuity test Is presented (step 408). The system is a visual acuity unit for visual acuity testing. Prepare User 22 performs a visual acuity test (step 410).   After the visual acuity test is completed, The system presents a screen explaining the stereoscopic depth recognition test (Step 412). the system, Visual acuity testing unit for depth recognition testing Prepare The user 22 performs a depth recognition test (step 414).   After the 3D depth recognition test is completed, Computer Explains Horizontal Vertical Oblique Test A screen is presented (step 416). The system is horizontal Prepare a visual acuity test unit for the right angle test, User 22 performs horizontal and vertical oblique inspection Execute (step 418).   After the horizontal and vertical oblique inspection is completed, Computer presents screen explaining fusion inspection (Step 420). System prepares visual acuity inspection unit for fusion inspection And The user 22 performs the fusion inspection (Step 422).   After the fusion inspection is completed, The computer presents a screen explaining the FOV (step 424). The system prepares an eye test unit for the FOV test, You The user 22 performs the FOV inspection (step 426).   After the FOV inspection is completed, Computer presents screen explaining visual inspection under sunlight (Step 428). The system has an eye test unit for visual inspection under sunlight Prepare and User 22 performs a visual inspection under sunlight (step 430).   After the visual inspection under the sun is completed, Computer presents screen explaining color vision test Step 432). The system prepares an eye test unit for color vision testing, User 22 performs a color vision test (step 434).   After the color vision test is completed, The computer determines whether the printing system has been disabled Is checked (step 436). If the printing system is disabled, Compilation The computer goes to step 403. If printing has not been disabled, the system , It is checked whether automatic printing is enabled (step 438). If automatic printing Is enabled, The system automatically prints the inspection report on printer 3 (Step 442) Go to Step 403. If automatic printing is not enabled, The system reads “Report printing? "A question screen is presented (step 440). If you If the 22 answers negatively to the question , Control is transferred to step 403. If user 22 answers the question positively If Control is transferred to step 442 where the report is printed. next, Control the start screen The process proceeds to the presenting step 403.   After any visual inspection, The user may initiate exit from the examination procedure. Withdraw user Upon request The system presents an exit question screen (step 401). User 22 Can respond negatively to this question, In that case the control is Retreat Return to the same point as the test that was issued. If the user confirms the exit request, System The program presents a start screen (step 403).   If you are skilled in the art, 23A and 23B show the control flow of the main program of the visual inspection. Understand that there are many possible ways to achieve They are It is the spirit and scope of Ming. For example, Non-limiting in FIGS. 23A and 23B Order of visual inspections in typical major programs shown as fixed Has been Step 404 and grouped step 405 in FIG. 23A Program arranged to impose any combination of tests or training or education included As can be done, Many variants of the program are possible. The program also Examination A specific number of tests that should be imposed on the It may also be possible for the system operator to make a selection. Additionally, the main program is Cis Based on the past inspection history of a particular subject stored in the system. Inspection, Number of training and education presentations, Type and order automatically and Dynami In order to change to Or Make these changes available to the administrator or one or more remote To execute based on the instructions of the gatekeeper, Can be configured.   Visual sensitivity test   next, According to a preferred embodiment of the present invention, Automatic visual self-test system FIG. 24 is a schematic flowchart showing a control flow of a visual acuity test performed by the system. Referring to FIG. the system, A single test pattern for user 22 and A visual sensitivity test is performed by presenting an answer pattern. Available test putters Are divided into six sub-test groups. Each of the sub-test groups has a different It has a turn size. Table 1 below shows Under different with corresponding visual acuity value It shows the position inspection number.   The parameters of the visual acuity test are:   i is This is the lower inspection number currently used.   Tc is This is the maximum allowable response time for the displayed inspection pattern.   To This is the maximum answer change allowable time for the displayed test pattern.   En This is the maximum number of answers that can be changed for the displayed test pattern.   St This is the lower test group number selected to start the visual sensitivity test.   Ed Lower inspection group number of minimum size inspection pattern in visual acuity inspection It is.   C (i) is This is the number of inspection patterns that can be used in the lower inspection i.   N (i) is This is the number of inspection patterns to be presented for the lower inspection i.   E (i) is This is the number of erroneous answers that constitute a rejection for the subtest i.   n is This is the current number of inspection patterns displayed in the current lower inspection.   x is The current cumulative number of failures in the current subtest.   s is The current number of answer changes in the current subtest.   Table 1     Lower inspection number (i) Corresponding Snellen ratio                 16/30                 26/24                 36/18                 4 6/12                 5 6/9                 6 6/6   Non-limiting parameter values used in the preferred embodiment of the visual acuity test of the present invention. A typical example is as follows:   Tc = 20 seconds; To = 1 second; En = 1; St = 3; Ed = 6; C (i) = N (i) = 4 (i = 2 3, 4, 5, 6); E (i) = 1 (i = 1, 2, 3, 4, 5 , 6).   Returning to FIG. The system looks at this by setting St as the value of parameter i. A sensitivity test is started (step 450). The system then performs subtest i (Step 452). The system checks whether the result of the subtest i is unsuccessful (step 454). If the result of subtest i fails, The system reduces i by one (Step 456), It is checked whether i is zero (step 460). If it is zero If The system records the result of the visual acuity test as a total failure. (Step 468) Control is transferred to a three-dimensional depth recognition test (step 476). Also And if i is not equal to zero, The system performs subtest i (step 462). ). the system, It is checked whether the result of the lower order inspection i is unacceptable (step 464). If the result of subtest i fails, System shifts control to step 456 Move. If the result of subtest i is not failed, The system tests the value of i And control is transferred to step 476.   If the result of subtest i in step 454 is not failed, the system The value of i is incremented by 1 (step 458). The system is i greater than Ed It is checked whether or not it works (step 470). If i is not greater than Ed System The system moves control to step 452. If i is greater than Ed, The system sets i to 1 Only decrement (step 472) Record the value of i as the inspection result (step 474), and, Control is transferred to the main program (step 476).   Returning to FIG. 25, When the system starts subtest i, System is parameter s, set the values of x and n to zero (step 478); Set n = n + l1 (S Step 480), and, Inspection pattern of lower group i not yet displayed Is displayed (step 482). this is, Still displayed in the current subtest i From the group consisting of all the inspection patterns of the lower group i This is done by selecting an inspection pattern for the system.   the system, Time interval Tc to start timing from the presentation time of the selected test pattern It is checked whether an answer has been received within seconds (step 484). If answer within Tc seconds If not, The system sets x = x + 1 (step 494), It is checked whether x = E (i) (step 496). If x = E (i), Shi The stem records a subtest failure (step 498), Return control to main program (Step 504). If x is not equal to E (i), The system controls Transfer to Tep 480.   if, Within the time interval Tc seconds to start timing from the presentation time of the selected test pattern If you receive the answer to The system checks whether s = En (step 486).   If s = En the system, Check whether the answer received is correct ( Step 492). If the answer received is incorrect, The system is in control Transfer to top 494. If the answer received is correct, The system is n = N (i) It is checked whether or not there is (step 500). If n = N (i), the system Along with recording the lower inspection pass (step 502), Return control to main program (Step 504). If n is not equal to N (i), The system is in control Return to Step 480.   Return to step 486, If s is not equal to En, the system, Inspection image Check if the answer has been changed within the time interval To that starts at the time of the start (Step 488). If the answer change is received within To seconds, The system is the value of s Is incremented by 1 (step 490), Transfer control to step 484 . If the answer change has not been received within To seconds, System steps control 492 Transfer to   still, In the embodiment of the visual acuity test shown in FIGS. 24 and 25, the system is fixed. Starting from subtest 1, i = St, Book where the system identifies the user According to another preferred embodiment of the invention, The system is the user stored in the database By examining the past test results of Appropriate subtest number to start the test Remember to decide. For example, If the identified user is the lower examination number 2 ( The system found in the database that it had previously failed in Table 1). If so, The system starts the test with subtest number 1 (Table 1). This And Decrease the number of test images presented to reduce test duration I can do it. Therefore, The system determines the number and type of the inspection image, Inspection of user Can be adapted to history.   still, The method of adapting the test procedure to the user's test history is limited to visual acuity tests. Not something the system, Visual acuity test under sunlight or such method used Configuration to use it in other tests, such as any other visual tests that can be performed Remember that it can be done.   Stereoscopic depth recognition inspection   The flow control diagram of the stereoscopic depth recognition test is the flow control diagram of the visual sensitivity test (Fig. 24 and It is similar to Fig. 25). The inspection pattern used in the stereoscopic depth recognition inspection is visually sensitive It is different from the inspection.   The values of the parameters used in the preferred embodiment of the stereoscopic depth perception test of the present invention Non-limiting examples are as follows:   Tc = 20 seconds; To = 1 second; En = 3; St = 3; Ed = 5; C (i) = N (i) = 4 (i = 2 3, 4, 5); E (i) = 3 (i = 1, 2, 3, 4, 5, 6 For)   Horizontal and vertical oblique inspection   next, According to a preferred embodiment of the present invention, Performed by automatic visual self-test system FIG. 26A is a schematic flow chart showing a control flow of the horizontal / vertical oblique inspection performed. Referring to FIG. 26B.   the system, The process starts by displaying a vertical inspection pattern (step 510). The system sets i = 0 (step 512). The system responds within TA seconds It is checked whether or not it has been received (step 514). If the answer is received within TA seconds If not, The system records "No Answer" (step 516), Control step 5 Move to 28. If you receive your answer within TA seconds, The system accepts the answer (Step 518). The system then: It is checked whether i = 3 (step 520). ). If i is equal to 3, The system transfers control to step 526. If i If not equal to 3, the system, It is checked whether the answer has been changed within TB seconds (step 522). If answer change T If received within B seconds, The system sets i = i + 1 (step 524), , Control is transferred to step 514. If the answer change has not been received within TB seconds, Shi The stem records the answer (step 526), Display the horizontal inspection pattern (Step 5 28), and, i = 0 is set (step 530).   the system, It is checked whether an answer has been received within the TA interval (step 532). If no answer is received within TA seconds, The system records "No answer" (Step 534) Control is transferred to the description of the fusion inspection (step 546). If If the answer is received within TA seconds, The system accepts the answer (step 536) . The system then: It is checked whether i = 3 (step 538). If i equals 3 if, The system records the answer (step 544), Control the step 546 Transfer to If i is not equal to 3, then the system, Answer change within TB seconds It is checked whether or not it is (step 540). If the answer change is received within TB seconds, The system sets i = i + 1 (step 542) and Control goes to step 532 Move. If the answer change has not been received within TB seconds, The system records the answer (Step 544) Control is transferred to the main program (step 546).   The values of the parameters used in the preferred embodiment of the horizontal and vertical oblique inspection of the present invention Non-limiting examples are as follows:   TA = 20 seconds; TB = 1 second.   Fusion inspection   next, According to a preferred embodiment of the present invention, Performed by automatic visual self-test system Reference is made to FIG. 27 which is a schematic flowchart showing the control flow of the fusion inspection performed.   the system, The process starts with the display of the fusion inspection pattern (step 550). System The system sets i = 0 (step 552). The system receives an answer within TR seconds It is checked whether or not it is (step 554). If you have not received an answer within TA seconds If The system records "No Answer" (step 554), Step control Transfer to step 568. If the answer is received within the interval TR seconds, System accepts answer (Step 558). Next, the system checks whether i = 3 (step 5). 60). If i is equal to 3, The system transfers control to step 566. If i Is not equal to 3, the system, Check if the answer has been changed within TD seconds (Step 562). If the answer change is received within TD seconds, The system is i = Along with setting i + 1 (step 564), Control is transferred to step 554. If TD seconds If the answer has not been changed within The system records the answer (step 566). ) Control is transferred to the main program (step 568).   Non-limiting parameter values used in the preferred embodiment of the fusion inspection of the present invention An example is as follows:   TR = 20 seconds; TD = 1 second.   FOV inspection   next, According to a preferred embodiment of the present invention, Performed by automatic visual self-test system FIG. 28 which is a schematic flowchart showing a control flow of the FOV inspection to be performed.   the system, The light source L0, L1, L2 L3 L4 L5 L6 and L Eight numbers 0 representing 7, 1, 2, 3, 4, 5, Group S including 6 and 7 The process is started by setting (step 570). The system starts with number i from group S And randomly select From group S such that S = S {i} Selection number i Remove (step 572). the system, Over time interval TK seconds (represented by number i) Is started) (step 574). the system, Answer within TH seconds Investigate whether or not it has hit. If you have not received an answer within TH seconds, System controls To step 580. If you get an answer within TH seconds, The system gives the answer Record (step 578) Check if S is an empty set containing no elements Check (Step 580). If S is not an empty set and still contains elements , The system transfers control to step 572. When all light sources Li have already been turned on As it happens If S is the empty set and contains no elements, the system, All of It is checked whether or not the light source Li has been visually recognized by the user (step 582). If the light source Li If all of are seen by the user, The system will pass the test result as "Pass" Record (step 584) Control is transferred to step 592. If all light sources Li Is not visible to the user, the system, Light source L3 or L4 It is checked whether has not been visually recognized by the user (step 586). If light source L3 Or, if L4 was not visually recognized by the user, The system reports the test results Record as "Fail" (step 588) Control is transferred to step 592. If the light source L3 or L4 is viewed by the user, The system is the test result Is recorded as “unreliable” (step 590), Control the main program (Step 592).   Non-limiting values of the parameters used in the preferred embodiment of the FOV test of the present invention An example is as follows:   TK = 1. 75 seconds; TH = 4 seconds.   Visual inspection under sunlight   The visual inspection under sunlight is performed in the same manner as the visual acuity test in FIGS. 24 and 25. Lighting units 100 and 120 are activated and Except for providing sunlight conditions. All parameter values for the test are listed above. And the same parameters disclosed for the visual acuity test of FIGS. 24 and 25 .   Color vision test   Next, an automatic visual inspection system according to a preferred embodiment of the present invention is used. Reference is made to FIG. 29, which is a schematic flow chart showing the control flow of the color vision inspection performed.   The system starts by setting i = 1 and j = 0 (step 55). 0) where i is a group of six different color inspection image numbers S = {1,2,3 , 4, 5, 6}. the system The color inspection image i is displayed on the display 5 of the computer 4 (step 602). The system checks whether an answer has been received within TE seconds (step 604). . If no answer is received within TE seconds, the system will record "No Answer" At the same time as (Step 616), the control is moved to Step 618. If you get an answer within TE seconds If so, the system accepts the answer (step 606) and determines whether j is equal to 3. Find out what. If j is equal to 3, the system transfers control to step 604. If j is not equal to 3, the system determines whether the answer has changed within TF seconds. Find out. If the answer change is received within TF seconds, the system returns the value of parameter j Is incremented by 1 (step 612), and control returns to step 604. . If no answer change is received within TF seconds, the system records the answer (step At the same time, it is checked whether i is equal to 6 (step 618). If i is 6 If not equal, the system increments the value of parameter i by 1 In both cases, the value of j is set to zero (step 620), and control is transferred to step 604. If i is equal to 6, the system returns to FIG. The control is transferred to the start screen of step 403 of A.   Non-limiting values of the parameters used in the preferred embodiment of the color vision test of the present invention Examples are as follows:   TE = 20 seconds; TF = 1 second.   Next, an automatic self-inspection system for vision according to another preferred embodiment of the present invention is described. Users who are bi-focal, multi-focus or continuous-focus glasses FIG. 3 is a schematic diagram of a visual acuity inspection unit having a movable headrest for adjusting the line of sight of the eye. Referring to FIG.   The eyesight inspection unit 650 is rotatably mounted on the housing 651. Includes attached movable headrest 652. Bifocal, multifocal or continuous focus User 654 wearing eyeglasses 653 brings his / her head into contact with headrest 652 By pivoting the headrest 652 in the direction indicated by the dashed arrow 655. Thus, the line of sight can be adjusted during a change in the visibility of the examination. Eye test unit Please note that the other parts of G 650 may be the same as those of the eye test unit 2. .   In addition, non-limiting examples of the above-mentioned visual acuity test units 2 and 650 are appropriate slide assemblies An inspection image is projected using a device that irradiates Other ways of constructing the module are possible and are within the scope and spirit of the invention.   Next, according to yet another embodiment of the present invention, useful in the system 1 of FIG. FIG. 31 is a schematic plan view of an eyesight test unit having a display unit I do. The eye test unit 670 is a display unit mounted on the housing 676. 675. The display unit 675 displays the inspection image of the user 22 The image is projected to the left eye or the right eye, or both eyes of the user 22. Projected to both eyes of user 22 Each of the inspected images obtained is a visual acuity test unit as described above. 2 has an answer pattern and an inspection pattern described in detail with respect to FIG. Therefore, The display unit 675 includes the inspection pattern projection unit 150 and the answer display shown in FIG. This avoids the need for a spray unit 140. The vision test unit 670 is further Eye member 28, filter 59, near / middle field optical assembly 60, gaze deflection unit 80 , And two solar lighting units 100 and 120, It is configured in the same manner as described in detail with respect to the vision test unit 2 in the description. Operate. The visual acuity test unit 670 also includes a display unit 675 and a visual acuity test unit. It includes a control unit 677 that controls operation of the knit 670 with other members. This The play unit is any active or passive display capable of displaying the inspection image. Can be For example, as a display unit, a passive liquid crystal display (L CD) unit and appropriate light source, electroluminescent display, plasma display , CRT display, or any other suitable type of display It is.   The advantage of the above visual acuity test unit is that it converts image data from computer 4 A remote computer that downloads or communicates with the eye test unit 670 Image directly from any other data source or via computer 4 The ability to download data. Therefore, the vision test unit 670 The number of inspection images that can be displayed is practically unlimited.   While the invention has been described with respect to a limited number of embodiments, the invention has been described in detail. Many alterations, modifications and other applications are possible.   One skilled in the art will recognize that the present invention is limited to what has been particularly shown and described herein. Understand what is not done. Rather, the scope of the present invention is defined by the appended claims. Only defined.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, KE, LS, MW, S D, SZ, UG, ZW), EA (AM, AZ, BY, KG) , KZ, MD, RU, TJ, TM), AL, AM, AT , AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, ES, F I, GB, GE, HU, IL, IS, JP, KE, KG , KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, MD, MG, MK, MN, MW, MX, N O, NZ, PL, PT, RO, RU, SD, SE, SG , SI, SK, TJ, TM, TR, TT, UA, UG, US, UZ, VN [Continuation of summary] Providing. The method should also be used before testing. Includes identifying users and providing test results It is possible. Optical test unit has at least one user A single test pattern and multiple choice answer Supply visual test video including turn, select by user Received answers, analyze the answers and determine test results. Visual test footage prevents users from expecting answers From a predetermined group of images at random Can be chosen pseudo-randomly.

Claims (1)

[Claims]   1. At least one subject, at least one self-training, self-test and self A system for automatic management of calls to sessions including mentoring,   A calling device for calling at least one principal to the session;   A device for executing the session, and   A control device for controlling the call and the session;   A system for automatic management of calls to sessions comprising:   2. At least prior to the session, knowledge identifying each of the at least one subject. The system of claim 1, further comprising another means.   3. The control device includes a processor and data storage connected to the processor. A device for storing the identification data of the at least one subject, The system according to claim 1.   4. The data also includes the results of the previous session, and the controller Further comprising means for comparing the results of the session with the results of the current session The system of claim 3.   5. The calling device, the session execution device, and the control device are local Connected within the rear network or through a wide area network The system according to claim 1, wherein   6. The paging device sends an e-mail paging message to the at least one subject. 6. The system according to claim 5, comprising a server for issuing an e-mail.   7. The calling device sends a telephone call message to the at least one subject. 6. The system according to claim 5, comprising a telephone.   8. The paging device may include a paging message to the at least one subject. 6. The system according to claim 5, further comprising a printing device for printing a page.   9. 6. The wide area network is the Internet. System.   Ten. The identification means includes an electromagnetic card reader, a voice recognition device, a video camera, Fingerprint analyzer, iris analyzer, face analyzer, and keypad for password key operation 3. The system of claim 2, comprising any combination of the following.   11． At least one of the identification means is an identity of the subject during the session. 11. The system of claim 10, which operates during the session to establish Tem.   12． The device that performs the session includes a subject interface and the self- 2. The method according to claim 1, comprising means for performing training, self-testing, and self-teaching. system.   13. Claim 12 wherein said self-testing means comprises means for performing a medical test. The described system.   14. The self-guidance means implements a guidance course for qualifying the subject in accordance with qualification rules. 13. The system of claim 12, comprising means for performing.   15． Claims operable to automatically analyze the results of the self-test The system of claim 1.   16． The system may provide the connection at a location remote from the device performing the session. 16. The system according to claim 15, further comprising means for analyzing the result.   17． The analysis means allows an expert to accept the results and enter data relating thereto. 17. The system of claim 16, including a human interface that enables .   18． The device that performs the session is remote from the calling device and the controller. At a location, whereby the subject is at a remote location The system according to claim 9, wherein the session is performed.   19. Allows the supervisor to change parameters in the controller. Claim 1 which also includes a human supervisor interface On-board system.   20. The controller determines the next session and causes it to be displayed on the calling device. 18. The system of claim 17, operable to:   twenty one. The self-training means trains the at least one subject to perform a test 13. The system of claim 12, comprising means.   twenty two. An optical test unit for testing a user's vision, and the optical test unit; Connected to the optical test unit to control the optical test unit and to receive data from the optical test unit. A computer device for receiving data from the user and processing the data. Means for providing automatic guidance and training to the user, A system for automatic visual self-test, comprising:   twenty three. 23. The system of claim 22, further comprising means for identifying said user. .   twenty four. The means for identification includes an electromagnetic card reader, a voice recognition device, and a video camera. LA, fingerprint analyzer, iris analyzer, retinal pattern analyzer, facial analyzer, password From a keyboard or keypad for key input, or from a pointing device that selects items from a table Claim 23, which is selected from the group consisting of: and any combination thereof. On-board system.   twenty five. Means for receiving input from the user include a keyboard, a pointing device, and a touch sensing device. A group consisting of a microphone connected to a clean, light pen, sound card or it Automatic selection and training for the user. Means for providing a visual display unit, from an audio device connected to the sound card. Group or 23. The system of claim 22, wherein the system is selected from any combination thereof. .   26. The optical test unit includes a light blocking housing, A test image projection unit for projecting the test image to at least one eye of the user. A single test pattern selected from multiple available test patterns A test pattern projection unit for projecting at least one eye of said user and a multi-selection unit Answer pattern projection for projecting an alternative answer pattern to the at least one eye of the user The unit containing the unit, attached to the housing and the test image is provided to the user. Optical assembly providing a more observable viewing station, and the test Video image projection unit connected to the observation means and the computer device, Control the operation of the projection unit and the optical assembly and interact with the computer device 23. The system of claim 22, comprising a control unit in communication.   27. The test pattern projection unit has an opening and passes through the optical assembly. A projection device housing movable along a direction orthogonal to the user's observation axis; Includes a plurality of slide assemblies rotatably mounted within the launcher housing Slide rotation assembly and positioning within the slide rotation assembly A selected one of the plurality of slide assemblies located in front of the opening. 27. The system according to claim 26, comprising a slide lighting unit for illuminating.