Pneumatic proportional control servo regulator is the core component of a pneumatic-loading experimental system,which is very important in solving the overcharging problem.However,previous research on control of pneum...Pneumatic proportional control servo regulator is the core component of a pneumatic-loading experimental system,which is very important in solving the overcharging problem.However,previous research on control of pneumatic proportional regulator in a pneumatic-loading experimental system led to failure in analysis of the influence of opening error of the switch regulator because it did not analyze the regulator basic working principle and process.The traditional control method cannot fully solve the overcharging problem nor ensure adequate control performance of the regulator.After seriously studying the working principle and key mechanical parameters of the valve,a fuzzy parameter-adaptive controller is designed by introducing a linear mixture of the pressure and opening errors of the switch regulator to reduce pressure overshoot and optimize its control performance.According to the fuzzy-control strategy based on the working characteristics and mechanical parameters of the valve,the overshoot phenomenon of the pneumatic-loading system is solved,and the pressure overshoot is eliminated.The error of the output air pressure of the regulator is 1.24%,which is small.The adjustable pressure range of the regulator is 0.2–0.6 MPa.The maximum deviation is 0.012 MPa.The linearity of the case is 1.34%F.S.展开更多
Sugar and protein are the major macronutrients' sources, and their balanced intake is important for animal's health. It has been observed that animals are able to change food preference in an imbalanced nutritional ...Sugar and protein are the major macronutrients' sources, and their balanced intake is important for animal's health. It has been observed that animals are able to change food preference in an imbalanced nutritional condition to selectively consume nutrients that are deficient in the body (Dethier, 1976). Early studies in both Drosophila and mouse have demonstrated that animals exhibit food rejection to imbalanced diets lacking essential amino acids (Hao et al., 2005; Bjordal et al., 2014). Furthermore, the food preference change upon protein depri- vation has been characterized using a two choice assay in Drosophila (Ribeiro and Dickson, 2010; Vargas et al., 2010). Different from protein food, sugar is the main energy source, and sugar deficiency severely affects animal survival (Lee et al., 2008). However, whether animals adopt a strategy of fast food preference switch upon sugar deprivation had not been investigated, and the neural mechanisms underlying this behavior regulation remain poorly understood.展开更多
LepA, the highly conserved translational GTPase (trGTPase), triggers one-codon back-movement of the elongating ribosome. Here we identify a new enzymatic activity
Subject Code:A02With funding support from the National Natural Science Foundation of China,the research group led by Prof.Yuan Junhua(袁军华)and Zhang Rongjing(张榕京)from the University of Science and Technology of C...Subject Code:A02With funding support from the National Natural Science Foundation of China,the research group led by Prof.Yuan Junhua(袁军华)and Zhang Rongjing(张榕京)from the University of Science and Technology of China(USTC)has discovered non-equilibrium effect in the regulation of the bacterial flagellar switch,展开更多
基金supported by the China Postdoctoral Science Foundation(Grant No. 2019M660392)the Open Research Project of the State Key Laboratory of Media Convergence and Communication, Communication University of China (Grant No. SKLMCC2020KF002)the National Key Research and Development Project (Grant Nos. 2019YFC0121700,2021YFC0122502)
文摘Pneumatic proportional control servo regulator is the core component of a pneumatic-loading experimental system,which is very important in solving the overcharging problem.However,previous research on control of pneumatic proportional regulator in a pneumatic-loading experimental system led to failure in analysis of the influence of opening error of the switch regulator because it did not analyze the regulator basic working principle and process.The traditional control method cannot fully solve the overcharging problem nor ensure adequate control performance of the regulator.After seriously studying the working principle and key mechanical parameters of the valve,a fuzzy parameter-adaptive controller is designed by introducing a linear mixture of the pressure and opening errors of the switch regulator to reduce pressure overshoot and optimize its control performance.According to the fuzzy-control strategy based on the working characteristics and mechanical parameters of the valve,the overshoot phenomenon of the pneumatic-loading system is solved,and the pressure overshoot is eliminated.The error of the output air pressure of the regulator is 1.24%,which is small.The adjustable pressure range of the regulator is 0.2–0.6 MPa.The maximum deviation is 0.012 MPa.The linearity of the case is 1.34%F.S.
基金supported by the grants from the National Science Foundation of China(Nos. 91132709 and 31130027)
文摘Sugar and protein are the major macronutrients' sources, and their balanced intake is important for animal's health. It has been observed that animals are able to change food preference in an imbalanced nutritional condition to selectively consume nutrients that are deficient in the body (Dethier, 1976). Early studies in both Drosophila and mouse have demonstrated that animals exhibit food rejection to imbalanced diets lacking essential amino acids (Hao et al., 2005; Bjordal et al., 2014). Furthermore, the food preference change upon protein depri- vation has been characterized using a two choice assay in Drosophila (Ribeiro and Dickson, 2010; Vargas et al., 2010). Different from protein food, sugar is the main energy source, and sugar deficiency severely affects animal survival (Lee et al., 2008). However, whether animals adopt a strategy of fast food preference switch upon sugar deprivation had not been investigated, and the neural mechanisms underlying this behavior regulation remain poorly understood.
文摘LepA, the highly conserved translational GTPase (trGTPase), triggers one-codon back-movement of the elongating ribosome. Here we identify a new enzymatic activity
文摘Subject Code:A02With funding support from the National Natural Science Foundation of China,the research group led by Prof.Yuan Junhua(袁军华)and Zhang Rongjing(张榕京)from the University of Science and Technology of China(USTC)has discovered non-equilibrium effect in the regulation of the bacterial flagellar switch,
