![]() ![]() ![]() The plant electrical signal is the reaction of plant’s stimulation owing to various environmental conditions. In this paper, research is conducted on the plant named descoingsii x haworthioides (Pepe) obtaining the action potential signals and its responses to stimulations of different light modes. Any living cell continuously receives information from the environment. In the area of biorobotics, intense research work is being done based on plant intelligence. States and abnormal neuronal connections occur in the brain. Person is irregular and the magnetic situation on the right is regular, extraordinary Magnetic fluctuation in the universe, that is, if the magnetic situation on the left of a Must be evenly distributed in the human body. The human body can become conscious with higher consciousness. Because when the intense magnetic unit is accumulating and polarized, The human body shows strong or weak magnet ![]() In this direction, the magneticįield of people can also be measured. The fractals of thoughts increase or decrease at the same rate as the magnetism power.įor this reason, differences in consciousness between people are related to their In the waves created by the magnetic field formed in the spaces, There is a strong connection between the consciousness bond and the magnetismĬreated by the body. Magnetism formed in the body cavities, the stronger the consciousness bond. Waves created by the magnetic field interact with the human body. Higher consciousness in the human body is associated with the magnetic field. This article represents the revised and extended version of original paper and includes some descriptions and images from the FloraRobotica and BioHybrids projects. execute electrical or light stimulation of plants, control irrigation and lighting modes, conduct fully autonomous experiments with complex feedback-based and adaptive scenarios in robotic or biohybrid systems. In addition to phytosensing, the device can also perform phytoactuation, i.e. Soil moisture and temperature, air quality (CO2, NO2, O3 and other sensors on I2C bus), and general environmental parameters (light, temperature, humidity, air pressure, electromagnetic and magnetic fields) are also recorded in real time. The phytosentor measures main physiological parameters such as the leaf transpiration rate, sap flow, tissue conductivity and frequency response, biopotentials (action potentials and variation potentials), and can conduct electrochemical impedance spectroscopy with organic tissues. This system is developed as a bio-physiological sensor in precise agriculture, as a tool in plant research and environmental biology, and for plant enthusiasts in smart home or entertainment applications. This paper briefly describes the device - the phytosensor - for measuring physiological and electrophysiological parameters of plants. ![]()
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