This study performs the spatial Durbin model (SDM) and threshold model to analyze the efficiency of agricultural green production following technological progress from 1998 through 2019. The SDM supports a nonlinear contribution of technological progress spillover to agricultural green total factor productivity (GTFP), exacerbated by upgrading agricultural structure. Moreover, the threshold model confirms that technological progress has a single threshold effect on agricultural GTFP with the rationalization of the agrarian system as a threshold variable; meanwhile, the contribution of technological progress to agricultural GTFP is less than that of agricultural total factor productivity. Out of the expanded application of dissipative structure theory in agricultural GTFP systems innovatively, this study reveals the urgency to strengthen the innovation of independent technology, lower the threshold for introducing technology, and optimize the agrarian structure in the long-term sustainable agriculture for the economies that are undergoing a similar development stage as China.

/pdf/the-agricultural-green-production-following-the-3hn3geic.pdf

The Agricultural Green Production following the Technological Progress: Evidence from China

With the purpose of building a recycling-oriented town, this paper discusses the implementation of planning EIA with an indicator system incorporating the recycling indicators. As a case study, the 11th five-year plan for economical and social development of Foshan City, Guangdong Province is analyzed, and a model of grey correlation method is used to evaluate whether the plan is appropriate for leading the city to the goal of sustainable development. From the point of view regarding lowcarbon and building recycling -oriented city, the authors put forward suggestion to tackle the problems facing the City.

A Tentative Inquiry into Indicator System of Planning EIA Based on Low Carbon and Circular Economy

A comprehensive energy system collaborative optimization integrated modeling method based on a large system theory relates to that a decomposition-aggregation method in the large system theory is applied to establish a comprehensive energy system cold, heat, electricity and gas heterogeneous energy multi-energy complementary model, and the method comprises the steps: decomposing the comprehensiveenergy system into m subsystems through the decomposition-aggregation method, and establishing an aggregation matrix; gathering the m subsystems through a gathering matrix; establishing a cold, heat,electricity and gas heterogeneous energy multi-energy complementary model of the comprehensive energy system; decomposing adjustable parts of subsystem sources, networks, loads and storages into n secondary subsystems; establishing a source, network, load and storage coordination interaction model; and enabling the main body model and the subordinate model to jointly form a comprehensive energy system collaborative optimization integrated model integrating transverse cold, heat, electricity and gas multi-energy complementation and longitudinal source, network, load and storage coordinated interaction. According to the method, the complexity of model solving is reduced, and an optimization scheme considering both the whole and individuals is obtained.

Comprehensive energy system collaborative optimization integrated modeling method based on large system theory

Quantitative analysis of the contribution rate of China's hydraulic science and technology and analysis of the underlying reasons behind changes provide an important foundation upon which the government can formulate water policies. This paper abandons the assumption of a scale economy and separates the changes of benefits brought about by the scale from scientific and technological progress, thus changing the C-D production function from linear to nonlinear. Based on a feedforward neural network, it calculates the coefficient of the output elasticity, the economic contribution rate of China's hydraulic science and technology and the scale economies for each year using relevant data from 1981 to 2016. The results show that (1) the average contribution rate of capital investment from 1981 to 2016 was 47.3%, and the average contribution rate of labor from 1981 to 2016 was 9.1%. It is not obvious that the significant increase in the labor force has contributed to the growth of China's water conservancy industry. (2) The average contribution rate of scale economies in 1981-2016 was 26.7%, and the contribution rate of scale economies is negatively correlated with the capital contribution rate. (3) The average contribution rate of China's hydraulic science and technology was 43.6% from 1981 to 2016, and the average contribution rate of the total factor productivity after removing scale economies from 1981 to 2016 was 16.9%. During the period of the 6th Five-Year Plan(1981~1985), the contribution rate of water conservancy science and technology was relatively high. Since that time, it has remained at 40%. In recent years, as water conservancy reforms in key areas have made positive progress, scientific and technological progress has increased the growth of water conservancy benefits annually.

/pdf/calculation-of-the-contribution-rate-of-china-s-hydraulic-2qshuwidxz.pdf

Calculation of the contribution rate of China's hydraulic science and technology based on a feedforward neural network.

The invention discloses a water resource allocation method based on a decomposition coordination idea of a heuristic large system., which comprises the following steps of: performing water resource allocation on each calculation unit period by period by taking a natural river channel topological structure as a basis and taking the number of the calculation units as a cycle; taking the water shortage of each subsystem as heuristic information, considering the maximum supplementable amount of the riverway and the water supply capacity in the calculation unit, and performing compensation scheduling on the ecological flow of the cross section in the riverway after the calculation unit lacking water is processed; and following groundwater supplement configuration, groundwater water extraction capacity constraints and annual groundwater amount control in all time periods need to be considered at the same time, subsystem water shortage and regional groundwater consumption serve as heuristic information, and the groundwater consumption is configured. The water resource allocation method provided by the invention is high in calculation speed and high in calculation efficiency. Through the combination of the simulation model and the actual operation rule, the related constraints of the configuration problem can be better processed, the random optimization strategy is closer to the reality than the random optimization strategy of the heuristic intelligent algorithm, and the engineering practical value is better.

Water resource allocation method based on decomposition coordination idea of heuristic large system

The invention discloses a flood forecasting automatic calculation remote control realization method which is characterized by comprising the following steps of: step 1: designing model interfaces including an external interface for a model calculation process and an interface between models; step 2: performing integrated development on the models; step 3: designing control information of the models and storing the control information; and step 4: performing design and development on a remote control process. The network based reservoir flood forecasting automatic calculation remote control realization method solves the problem in unified operation of model calculation control and model status reading-writing in a browser/server mode, solves the problem in remote tracking of the model calculation process, and realizes that the model calculation process can be dynamically displayed; and all control operation commands can be stored, the problem in storage of model calculation operation logs is solved, calculation operation traceability is realized, and calculation results are conveniently tracked.

Network based reservoir flood forecasting automatic calculation remote control realization method

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Calculation of the contribution rate of China's hydraulic science and technology based on a feedforward neural network.

Water resource allocation method based on decomposition coordination idea of heuristic large system

Network based reservoir flood forecasting automatic calculation remote control realization method