2.39 / December 25, 2018
(4.7/5) (31)
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Description

** User's Guide http://coskx.webcrow.jp/mrr/CPGuide/guide.html **Overview + The app is a planetarium application.You use the app byholding the device up over your head. + The constellations,planets, the moon, and the sun seen from the ground is displayed as3D models. + You can board on a horizontally launched spacecraft,move out of the earth while watching the moon, and look over theearth, the moon, the sun, and the planets.You can check therelationship between the phases of the moon and the positions ofthe sun, the earth, and the moon. + You can also check theappearance of the inner/outer planet and its position on orbit. +It is a educational astronomical application that lets students andteachers and families enjoy together. ** Main Operation + You canchange the viewing direction by holding the tablet over the sky. +You can depart to the outer space with the rocket button at theright of the screen and return to the earth. + When the viewpointis in outer space, you can move the viewpoint with two-fingerswipe.When the viewpoint is in outer space, you can move theviewpoint with two-finger swipe. + The viewing angle(telephoto/wide angle) can be changed by the + - button or thescaling operation of two-finger. + Even devices not compatible withattitude sensors can be operated in manual mode. (In that case, useone-finger or two-finger operation.) ** Functions for Studying +When you select the moon-phase observation buttons, the suitabledate and time will be obtained for observation. After checking theshape of the moon, and the direction from the viewpoint on theearth, moving to the outer space and you can check the positionalrelationship of the earth, the moon, and the sun. + When you selectthe solar eclipse button, the date and time (Tokyo) suitable forthe observation is set. You can check the missing sun. Moving tothe outer space, you can observe the shadow of the moon aroundJapan. Then a little further away, you can confirm the positionalrelationship of the earth, the moon, and the sun. + When you selectthe lunar eclipse button, the date and time suitable forobservation is set. You can find the moon turning red. Moving tothe outer space, you can confirm the positional relationship of theearth, the moon, and the sun. + You can observe the phase and theapparent size of Venus. And you can also observe the positionalrelationship of Venus, the earth, and the sun. ** Support forAndroid Device + In the setting of the observation location, youcan enter the latitude and longitude by a number. You can also usethe current location information held by the device, but in thatcase please allow the usage authority and set the current locationavailable. + For devices with gyroscope, it is easy to get thedevice posture, so you can see the starry sky with the desireddirection. Even for devices without gyroscope, posture will beacquired from acceleration sensor etc, but tracking speed/stabilitywill be low. ** Motivation for Development There are manyastronomical apps. It is divided into two types. One is aplanetarium of the geocentric-theory-type which guides theconstellation, the planet etc from the ground. The other is thespace-tour-type astronomical guide. When learning the moon phaseand the orbital position of the moon, it is convenient if we canmove from the ground where we see the moon to the outer space wherewe see the earth, the sun and the moon by the sightseeingspaceship. It is necessary to be able to move viewpointcontinuously. The viewpoint switching is not suitable. My idea is aplanetarium that unified the viewpoint looking up from the earthand the viewpoint overlooking the planets of the solar systemincluding the moon and the earth. In addition to looking up at thestarry sky, the app moves the viewpoint to outer space continuouslyand reproduce the starry sky including the earth. So I named it"Copernican Planetarium" (the heliocentric theory).

App Information 'Sola' Copernican Planetarium

  • App Name
    'Sola' Copernican Planetarium
  • Package Name
    jp.gr.java_conf.coskx.copernicanskyviewer
  • Updated
    December 25, 2018
  • File Size
    7.0M
  • Requires Android
    Android 4.0.3 and up
  • Version
    2.39
  • Developer
    Coskx Lab
  • Installs
    5,000+
  • Price
    Free
  • Category
    Education
  • Developer
    1675-11 Yamatamachi Hachioji Tokyo 193-0933 Japan
  • Google Play Link

Coskx Lab Show More...

'Sola' Copernican Planetarium 2.39 APK
Coskx Lab
** User's Guide http://coskx.webcrow.jp/mrr/CPGuide/guide.html **Overview + The app is a planetarium application.You use the app byholding the device up over your head. + The constellations,planets, the moon, and the sun seen from the ground is displayed as3D models. + You can board on a horizontally launched spacecraft,move out of the earth while watching the moon, and look over theearth, the moon, the sun, and the planets.You can check therelationship between the phases of the moon and the positions ofthe sun, the earth, and the moon. + You can also check theappearance of the inner/outer planet and its position on orbit. +It is a educational astronomical application that lets students andteachers and families enjoy together. ** Main Operation + You canchange the viewing direction by holding the tablet over the sky. +You can depart to the outer space with the rocket button at theright of the screen and return to the earth. + When the viewpointis in outer space, you can move the viewpoint with two-fingerswipe.When the viewpoint is in outer space, you can move theviewpoint with two-finger swipe. + The viewing angle(telephoto/wide angle) can be changed by the + - button or thescaling operation of two-finger. + Even devices not compatible withattitude sensors can be operated in manual mode. (In that case, useone-finger or two-finger operation.) ** Functions for Studying +When you select the moon-phase observation buttons, the suitabledate and time will be obtained for observation. After checking theshape of the moon, and the direction from the viewpoint on theearth, moving to the outer space and you can check the positionalrelationship of the earth, the moon, and the sun. + When you selectthe solar eclipse button, the date and time (Tokyo) suitable forthe observation is set. You can check the missing sun. Moving tothe outer space, you can observe the shadow of the moon aroundJapan. Then a little further away, you can confirm the positionalrelationship of the earth, the moon, and the sun. + When you selectthe lunar eclipse button, the date and time suitable forobservation is set. You can find the moon turning red. Moving tothe outer space, you can confirm the positional relationship of theearth, the moon, and the sun. + You can observe the phase and theapparent size of Venus. And you can also observe the positionalrelationship of Venus, the earth, and the sun. ** Support forAndroid Device + In the setting of the observation location, youcan enter the latitude and longitude by a number. You can also usethe current location information held by the device, but in thatcase please allow the usage authority and set the current locationavailable. + For devices with gyroscope, it is easy to get thedevice posture, so you can see the starry sky with the desireddirection. Even for devices without gyroscope, posture will beacquired from acceleration sensor etc, but tracking speed/stabilitywill be low. ** Motivation for Development There are manyastronomical apps. It is divided into two types. One is aplanetarium of the geocentric-theory-type which guides theconstellation, the planet etc from the ground. The other is thespace-tour-type astronomical guide. When learning the moon phaseand the orbital position of the moon, it is convenient if we canmove from the ground where we see the moon to the outer space wherewe see the earth, the sun and the moon by the sightseeingspaceship. It is necessary to be able to move viewpointcontinuously. The viewpoint switching is not suitable. My idea is aplanetarium that unified the viewpoint looking up from the earthand the viewpoint overlooking the planets of the solar systemincluding the moon and the earth. In addition to looking up at thestarry sky, the app moves the viewpoint to outer space continuouslyand reproduce the starry sky including the earth. So I named it"Copernican Planetarium" (the heliocentric theory).
"Yomzo" numeral OCR for 7-Segment Display Trial 2.11-trial APK
Coskx Lab
USER'S GUIDEhttp://coskx.webcrow.jp/mrr/yomzoGuide/guide.htmlVIDEOS Thesevideos show how Yomuzo works for various numeraldisplay.https://youtu.be/KY_s_AXGdGMhttps://youtu.be/bcqCRj71eR4https://youtu.be/5XfDUPbdN4Ihttps://youtu.be/5OWTFlsvfyQhttps://youtu.be/d1CufY3FxPU Practicalversionhttps://play.google.com/store/apps/details?id=jp.gr.java_conf.coskx.ddreader2OVERVIEW"Yomzo" continuously recognizes values from the display ofthemeasuring equipment, reads out the values by voice, and savesthemto a file at a constant interval. The speech function issupposed tobe used by those who have a hearing impairment whenlearning. Thedevice's camera, storage and OCR (Optical Characterrecognition)feature are used. CAUTION Depending on the device, thebattery maybecome hot and may forcibly terminate the app. USAGEOVERVIEW Inorder to read values consecutively, both the valuedisplay of themeasuring equipment and the camera of the deviceshould be fixedwith holding tools when using them. The numeraltype (normal numeralcharacter or 7-segment character) employed tothe display unit ofthe equipment should be set to "Yomzo" by theuser. When therecognition frame is displayed on the device screen,the user isasked to adjust "Yomzo" so that only the numericdisplay part of themeasuring equipment falls within the frame. Thespeech reading ofthe recognized values and file saving at aconstant interval areperformed according to the user'sinstruction. HOW TO USE Afterstartup, select the numeral type(normal numeral character or7-segment character) to be read. Menu-> "Recognition Mode" ->"Normal Font Auto" or "7Segment FontAuto" Fix the value displaypart of the measuring equipment and thedevice, and match thenumeric character string you want to readwith the recognition frameof the device screen. It would be betterto do the following tomatch. 1)Adjust the height of the numericcharacter string with thezoom buttons on the screen. 2)Adjust thewidth of recognition frameusing the width adjustment buttons onthe screen. 3)Use the up /down / left / right buttons to adjustthe position of therecognition frame. 4)Make sure there is no gapinside therecognition frame. Prevent lighting or external light toappear inthe display unit of the equipment. The recognition resultand theconfidence are displayed at the bottom of the screen.When"ReadAloud" button is pressed, speech reading of therecognizedvalue is started. After setting the recording intervaland therecording duration in the menu and pressing the "Record"button,the recognized result is saved to the file in CSV format.The Savesettings are limited in the trial version app. The storagelocationis the folder "DDReaderWork" of storage (even if it isemulated).DEVELOPMENT CONCEPT It is difficult for the device toautomaticallydetermine the measurement value display part of theequipment. Thereason is that the number of displayed characters issmall, and theborder between the frame and the number becomesambiguous due tothe shadow. Since the device is fixed, the user canmake sure thatthe numerical display part is inside the framecorrectly.Therefore, it is not necessary to automatically judge thedisplayframe, and high speed and high accuracy recognition can bedone. Inaddition, since the user gives "Yomzo" the numbertype,misrecognition is reduced.
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