Optimization of Automatic Control System for Construction Machinery Based on Low Carbon Environmental Protection Requirements

Bing Zhang, Yi Zhang, Hui Zhang, Pengchao Zhang

Ekoloji, 2019, Issue 108, Pages: 1223-1227


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With the continuous development of epoch, the field of construction machinery is also in constant progress and update, due to the increasing types of mechanical products, so the application of mechanical products in various industries in the society is also more and more widely. However, the increase of mechanical products not only led to social development, but also brought some disadvantages. Although the use of mechanical products can bring people a certain degree of convenience, but the environment is constantly deteriorating, excessive exploitation of resources leads to resource waste, the production process of waste gas emissions pollution of the environment. Therefore, in order not to damage the environment in the process of development, the most important problem to be solved is how to design a low-carbon environmental protection requirements of construction machinery automation control system. In order to solve this problem, an optimization scheme of construction machinery automation control system based on low carbon environmental protection requirements is designed. The optimization method of construction machinery automation control system under low carbon environmental protection requirements is studied and analyzed mainly from the aspects of material selection, accessory selection, technical improvement and hydraulic system 


low carbon environmental protection requirements, engineering machinery, automation, control system, optimize


  • Bai ZY, Xu AD. (2017) Construction Machinery Attitude Control System Based on Wireless Sensor Network. Journal of Instruments and Instruments, 28(S):342-346.
  • Chena K, Wang Y, Fengb H. (2018) Research on Optimization Effect of Environmental Pollution Accounting Control Based on Green Low Carbon Background. IOP Conference Series Earth and Environmental Science 208(6):012110.
  • Chundi. (2016) Ecological and Environmental Protection of Jiangxi Province from the Perspective of Low Carbon Economy. Asian Agricultural Research: English Edition 08(10):46-50.
  • Degui Y U, Qun W U. (2018) Optimization and Regulation Policy for Land Use Changes Based on Low-carbon Emission in Developed Regions of China. Asian Agricultural Research 39(6):67-76.
  • Gawali, M. B., Shinde, S. K. (2018). Task Scheduling and Resource Allocation in Cloud Computing Using a Heuristic Approach. Journal of Cloud Computing 7(1).
  • Han J, Sun JG, Yang XQ, et al. (2017) Design and Study of Engineering Plant Automatic Control System Based on CANBUS. Development & Innovation of Machinery & electrical Products 24(1):155-157.
  • Li Y, Feng J, Song P, et al. (2016) Developing Situation and System Construction of Low-carbon Environment Friendly Drip Irrigation Technology. Transactions of the Chinese Society for Agricultural Machinery 73(5):43-52.
  • Liu, H. (2019). Gini Coefficient Analysis of Regional Differences in Energy Utilization under the Concept of Low-Carbon Ecological Environmental Protection. Ekoloji 28: 2149-2160.
  • Men YL. (2018) Design of Anti-skid Control System for Construction Machinery Drive Based on Fuzzy Algorithms. Automation & Instrumentation 45(11):94-96.
  • Wang S, Tao F, Shi Y. (2018) Optimization of Location–Routing Problem for Cold Chain Logistics Considering Carbon Footprint. International Journal of Environmental Research & Public Health 15(1):86-94.