Plant illumination data conversion method

Abstract

The invention relates to a plant illumination data detection method, which is characterized in that a spectroscopic data document library is established and is cooperated with a user to import a spectroscopic data document. Meanwhile, the user finishes data conversion after selecting a data operation. Finally, a result is displayed, and data is stored and output. Therefore, the original data information of the user is managed through the spectroscopic data document library, and a database is effectively expanded. Spectroscopic measurement results are mutually converted among different data forms, and manual complex calculation is omitted. The spectroscopic measurement results can be displayed on a user display screen in different forms, and the display, which is relative to the chart and the numerical value of wavelength, of various types of photon number data can be met. A processing result can be stored and sent through various forms and formats. The plant illumination data conversion method can be cooperated with common portable equipment to participate in data storage and summarization, and is convenient in use.

Description

technical field [0001] The invention relates to a detection method, in particular to a plant illumination data conversion method. Background technique [0002] At present, most of the data collected in general spectral measurement experiments are the wavelength (unit: nm) and the corresponding optical power per unit wavelength (unit: W / nm or mW / nm), which is what people are most concerned about in general scientific experiments. physical quantity. [0003] But in the field of plant lighting, the optical power of a beam of light does not directly reflect its effect on plant photosynthesis. This is because the photosynthesis of plants is a quantum process, that is, as long as a photon has a wavelength between about 400-700nm, it may be absorbed by plants and perform photosynthesis. The strength of photosynthesis depends on the number of photons. For example, there are two beams of light with the same power, namely blue light and red light. The photon energy of blue light is...

AI Technical Summary

Problems solved by technology

It can be seen that the lumen value in the field of plant lighting cannot truly reflect the effect of different spectrum light on plant photosynthesis

[0005] Although people have recognized the importance of measuring the number of photons in the field of plant lighting, most of the measurement software on the market can only display light power and lumen value, which cannot meet the needs of the plant lighting market

[0006] Of course, there are also some scientific researchers who convert general optical power or lumen measurement values ​​into photon numbers through complex calculations based on their own knowledge, but this skill is only mastered by a few people after all.

This kind of calculation is not only inefficient, but also difficult to be mastered by ordinary users.

Many workers in the field of plant lighting have accumulated a large amount of spectral experimental data through long-term experimental work. It is not only time-consuming and labor-intensive to convert these optical power or lumen data into photon number measurement results, but also due to the limitations of personnel professional knowledge. often difficult to achieve

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