Adaptive temperature compensation in circadian oscillations.
A temperature independent period and temperature entrainment are two defining features of circadian oscillators. A default model of distributed temperature compensation satisfies these basic facts yet is not easily reconciled with other properties of ...
Paul François +2 more
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Handling Ambient Temperature Changes in Correlative Thermal Error Compensation
Thermal errors are one of the lead causes for positioning inaccuracies in modern machine tools. These errors are caused by various internal and external heat sources and sinks which shape the machine tool’s temperature field and thus its deformation ...
Christian Naumann +2 more
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Temperature compensation and temperature sensation in the circadian clock [PDF]
Significance Circadian clocks in animals, plants, and fungi possess the remarkable property of temperature compensation: the clock has a temperature-insensitive period, while retaining the ability to synchronize to temperature cycles. The conservation of temperature compensation across clades means it is likely critical to the function of ...
Michael W Young +2 more
exaly +3 more sources
Temperature compensation through systems biology [PDF]
Temperature has a strong influence on most individual biochemical reactions. Despite this, many organisms have the remarkable ability to keep certain physiological fluxes approximately constant over an extended temperature range. In this study, we show how temperature compensation can be considered as a pathway phenomenon rather than the result of a ...
Ruoff, P. +2 more
openaire +4 more sources
Temperature compensation of the Arabidopsis circadian clock [PDF]
The circadian clock is an endogenous, self-sustaining oscillator with a period of approximately 24 h. This timekeeping system helps organisms align their physiologies and behaviors with the day-night cycle.
Akari E. Maeda, Norihito Nakamichi
doaj +2 more sources
This paper presents modification of Radial Basis Function Artificial Neural Network (RBF ANN)-based temperature compensation models for Interferometric Fiber Optical Gyroscopes (IFOGs).
Jianhua Cheng +3 more
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Research on Temperature Compensation Method in Crankshaft Online Measurement System
The crankshaft online measurement system has realized the full inspection function with fast beats, at the same time it requires for high-precision measurement.
Tingting Gu, Xiaoming Qian, Peihuang Lou
doaj +2 more sources
Combined Temperature Compensation Method for Closed-Loop Microelectromechanical System Capacitive Accelerometer [PDF]
This article describes a closed-loop detection MEMS accelerometer for acceleration measurement. This paper analyzes the working principle of MEMS accelerometers in detail and explains the relationship between the accelerometer zero bias, scale factor and
Guowen Liu +7 more
doaj +2 more sources
Resonance-State Temperature Compensation Method for Ultrasonic Resonance Wind Speed and Direction Sensors [PDF]
To achieve high-precision wind speed and direction measurements in complex environments, a resonance-state temperature compensation method is proposed based on an ultrasonic resonance principle.
Xiangbao Zeng +5 more
doaj +2 more sources
A High-Precision Temperature Compensation Method for TMR Weak Current Sensors Based on FPGA [PDF]
Tunnel magnetoresistance (TMR) sensors, known for their high sensitivity, efficiency, and compact size, are ideal for detecting weak currents, particularly leakage currents in smart grids.
Jie Wu +5 more
doaj +2 more sources

