Accurately programming complex light regimes with multichannel LEDs.

IF 2.5

Quantitative plant biology Pub Date : 2026-03-05 eCollection Date: 2026-01-01 DOI:10.1017/qpb.2026.10041

Gina Y W Vong, Paul Scott, Will Claydon, Jason Daff, Katherine Denby, Daphne Ezer

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引用次数: 0

Abstract

Advances in LED lighting technologies enable increasingly complex light regimes, providing greater insight into plants' responses to dynamic light - such as seasonality and fluctuating conditions - rather than the traditional discrete (i.e., on/off) lighting. However, current methods of programming such regimes are time-consuming and/or limited to 1-2 wavebands. Robust methods are therefore needed to accurately programme multichannel/waveband LED lighting systems. We present a multistep, multidimensional algorithm to accurately programme multi-waveband LED lights. This algorithm accounts for non-linearity between intensity settings and measured light quantity output, as well as optical crosstalk between channels of different wavebands. It outperforms methods that treat waveband channels as independent variables, allowing users to more accurately programme multichannel light regimes. This will allow the community to probe plant responses to dynamically changing light spectra. We have made this algorithm available as an R package, LightFitR (installable from CRAN with 'install.packages("LightFitR")'.

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精确编程复杂的光体制与多通道led。

LED照明技术的进步使越来越复杂的光线制度，提供更深入了解植物对动态光的反应-如季节性和波动条件-而不是传统的离散（即开/关）照明。然而，目前的方法编程这样的制度是耗时和/或仅限于1-2个波段。因此，需要可靠的方法来精确编程多通道/波段LED照明系统。我们提出了一种多步、多维度的算法来精确编程多波段LED灯。该算法考虑了强度设置与测量光量输出之间的非线性，以及不同波段通道之间的光串扰。它优于将波段通道视为独立变量的方法，允许用户更准确地编程多通道光状态。这将使研究人员能够探测植物对动态变化的光谱的反应。我们已经将这个算法作为一个R包LightFitR（可以通过“install.packages（“LightFitR”）”从CRAN安装）提供。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Quantitative plant biology

CiteScore

2.50

自引率

0.00%

发文量