Imscope
Image processing instrument for the evaluation of vegetal health indicators.
Walter J · com.idoneos.imscope
UpdatedAug 23, 2025
PublishedJul 25, 2025
Packagecom.idoneos.imscope
MD5faa82f2ee3215c19b3db997be55db172
SHA1 (signer)21:67:74:18:5B:DE:0A:94:FD:81:88:2B:66:D9:14:F5:6B:0E:6D:FC
Signed byCN=Walter Jerusalinsky, O=Idoneos, L=Buenos Aires, ST=CABA, C=AR
Malware scanTRUSTED
Contact[email protected]
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What's new
Android 6 compatibility fixes
Firebase Support
Firebase Support
Description
ImScope is an
EXPERIMENTAL
false color, image processing instrument for the evaluation of plant health indicators trying a variety of commonly used filters and indexes.
NIR
Monochrome representation proportional to the near infrared reflected . Since normal camera phones and tablets have a filter that blocks infrared light, NIR value is not really acquired but estimated by calculation from the visible colors, color saturation, etc. This rough estimate is used in all indexes and is only useful for the leaves and conditions of direct sunlight.
NRG
Transposed colors mode in which the intensity of the red corresponds to the estimated near infrared , green correspond to acquiered red and blue to acquired green.
NRG > RGB
NGB
Transposed colors mode in which the intensity of the red corresponds to the estimated near infrared while green and blue are preserved unchanged.
NGB > RGB
ABS
In this mode red aims to be proportional to the red light
absorbed
by the object, and blue aims to be proportional to the absorbed blue light. The displacement bar allows you to mix some gray to the context. This mode can be useful since the fact that the two types of chlorophyll (chlorophyll A and chlorophyll A) absorb red light and blue in different proportions.
Indexed modes:
For all following modes the slider control allows you to select a coeficient that goes from 0 to 1 such that:
RED color corresponds to points that have an index value very close to the selected index value,
GREEN color corresponds to points that have an index value close to the selected index value decreased by
-0.2 .
BLUE color corresponds to points that have a value close to the selected index value decreased by
-0.3
All other points are presented in grayscale.
That means for example if a NDVI index of 0.7 is selected, RED correspond to points close to that value index, GREEN to points with NDVI index near 0.5, and BLUE to points with value near 0.4. In this way, by adjusting the slider control, you can capture subtle differences between areas of the image.
Indexes calculations:
NDVI
(NIR-RED) / (NIR + RED) (please remember: NIR is only an derived estimation on normal phones and tablets with IR blocking filters
VIGreen
(GREEN-RED) / (GREEN + RED)
VARI
(GREEN-RED) / (GREEN + RED-BLUE)
GRI
GREEN % - RED % = relative difference between green and red
GBI
GREEN % - BLUE % = relative difference between green and blue
GI
GRI + GBI = sum of above relative differences
more on ImScope: http://www.idoneos.com/procesamiento_de_imagenes/imscope/imscope_(english).html
EXPERIMENTAL
false color, image processing instrument for the evaluation of plant health indicators trying a variety of commonly used filters and indexes.
NIR
Monochrome representation proportional to the near infrared reflected . Since normal camera phones and tablets have a filter that blocks infrared light, NIR value is not really acquired but estimated by calculation from the visible colors, color saturation, etc. This rough estimate is used in all indexes and is only useful for the leaves and conditions of direct sunlight.
NRG
Transposed colors mode in which the intensity of the red corresponds to the estimated near infrared , green correspond to acquiered red and blue to acquired green.
NRG > RGB
NGB
Transposed colors mode in which the intensity of the red corresponds to the estimated near infrared while green and blue are preserved unchanged.
NGB > RGB
ABS
In this mode red aims to be proportional to the red light
absorbed
by the object, and blue aims to be proportional to the absorbed blue light. The displacement bar allows you to mix some gray to the context. This mode can be useful since the fact that the two types of chlorophyll (chlorophyll A and chlorophyll A) absorb red light and blue in different proportions.
Indexed modes:
For all following modes the slider control allows you to select a coeficient that goes from 0 to 1 such that:
RED color corresponds to points that have an index value very close to the selected index value,
GREEN color corresponds to points that have an index value close to the selected index value decreased by
-0.2 .
BLUE color corresponds to points that have a value close to the selected index value decreased by
-0.3
All other points are presented in grayscale.
That means for example if a NDVI index of 0.7 is selected, RED correspond to points close to that value index, GREEN to points with NDVI index near 0.5, and BLUE to points with value near 0.4. In this way, by adjusting the slider control, you can capture subtle differences between areas of the image.
Indexes calculations:
NDVI
(NIR-RED) / (NIR + RED) (please remember: NIR is only an derived estimation on normal phones and tablets with IR blocking filters
VIGreen
(GREEN-RED) / (GREEN + RED)
VARI
(GREEN-RED) / (GREEN + RED-BLUE)
GRI
GREEN % - RED % = relative difference between green and red
GBI
GREEN % - BLUE % = relative difference between green and blue
GI
GRI + GBI = sum of above relative differences
more on ImScope: http://www.idoneos.com/procesamiento_de_imagenes/imscope/imscope_(english).html
Required features
- Camera android.hardware.camera
- Faketouch android.hardware.faketouch
- Screen Landscape android.hardware.screen.landscape
- Screen Portrait android.hardware.screen.portrait
- Wifi android.hardware.wifi
Permissions (7)
Imscope requests the following Android permissions:
- Access Network State android.permission.ACCESS_NETWORK_STATE
- Access Wifi State android.permission.ACCESS_WIFI_STATE
- Camera android.permission.CAMERA
- Change Network State android.permission.CHANGE_NETWORK_STATE
- Change Wifi State android.permission.CHANGE_WIFI_STATE
- Internet android.permission.INTERNET
- Com Idoneos Imscope Dynamic Receiver Not Exported Permission com.idoneos.imscope.DYNAMIC_RECEIVER_NOT_EXPORTED_PERMISSION
