Penderia Cahaya Bio (Bio-Light Sensor) daripada tumbuhan Mimosa Pudica
Mimosa pudica (M. pudica), a wild tropical plant was investigated their unique bio-sensor phenomena for bio-switching behavior of seismonastic and bio-photosensor of photonastic. Bioswitching behavior was observed for possible movement of their branch (petiole) to raise (ON) and drop (OFF) follow...
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Main Authors: | , |
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Format: | Research Report |
Language: | English English |
Published: |
Universiti Malaysia Sabah
2000
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Subjects: | |
Online Access: | https://eprints.ums.edu.my/id/eprint/23050/1/Penderia%20Cahaya%20Bio%20%28Bio-Light%20Sensor%29%20daripada%20tumbuhan%20Mimosa%20Pudica.pdf https://eprints.ums.edu.my/id/eprint/23050/6/Penderia%20Cahaya%20Bio%20%28Bio-Light%20Sensor%29%20daripada%20tumbuhan%20Mimosa%20Pudica.pdf https://eprints.ums.edu.my/id/eprint/23050/ |
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Institution: | Universiti Malaysia Sabah |
Language: | English English |
Summary: | Mimosa pudica (M. pudica), a wild tropical plant was investigated their unique bio-sensor
phenomena for bio-switching behavior of seismonastic and bio-photosensor of photonastic. Bioswitching
behavior was observed for possible movement of their branch (petiole) to raise (ON)
and drop (OFF) followed by leaves' movement to close (OFF) and open (ON) when external
stimulation (such as touching, heat) triggered to the plant. Bio-photosensor was observed for
possible movement of their leaves to open and close due to light intensity changes meanwhile
the petiole is in raise position. From the observation carried out to the bio-switching behavior,
logical states could be expressed that seems similarly to an electronic switching behavior (ON
and OFF). The branch will immediately drop (OFF state) for less than 1 minute after external
stimulation triggerred to the plant. Recovery time from drop to raise position was observed from
20 to 30 minutes. For a bio-photosensor detection, by using the ultrasound transceiver
(transmitter and receiver), leaves' movement (close and open) as a function of light intensities
change was observed. This was carried out by measured ultrasound wave changes (increasing or
decreasing) after crossed the leaves as detected by the receiver. The ultrasound flux changes was
converted into the electrical current by the receiver. Therefore, leaves' movement will affect to
flux changes as can be detected by current changes. This current change is proportional to
ultrasound flux changes. An intense bulb lamp (polychromatic) with the adjustable intensity was
used as a light source to mimic natural intensity radiation source from the sun. Beside that, for
leaves' movement there is a region oflight intensity that able to trigger leaves to start open (from
closed) until they open completely, and inversely from open to close completely called as
Window of Sensitivity (WoS) that was found to be about 40 to 230 lux. |
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