Study on improving three-dimensional dynamic simulation model and equation of flexible fabric

The use of the traditional fabric simulation model evidently shows that it cannot accurately reflect the material properties of the real fabric. This is against the background that the simulation result is artificial or an imitation, which leads to a low simulation equation. In order to solve such problems from occurring, there is need for a novel model that is designed to enhance the essential properties required for a flexible fabric, the simulation effect of the fabric, and the efficiency of simulation equation solving. Therefore, the improvement study results will offer a meaningful and practical understanding within the field of garment automation design, three-dimensional animation, virtual fitting to mention but a few.

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Research on the Control Algorithm of Coaxial Rotor Aircraft based on Sliding Mode and PID

Electronics ◽

10.3390/electronics8121428 ◽

2019 ◽

Vol 8 (12) ◽

pp. 1428 ◽

Cited By ~ 2

Author(s):

Yiran Wei ◽

Han Chen ◽

Kewei Li ◽

Hongbin Deng ◽

Dongfang Li

Keyword(s):

Simulation Model ◽

Dynamic Simulation ◽

Pid Control ◽

Control Algorithm ◽

Control Method ◽

Sliding Mode ◽

Three Dimensional ◽

Three Dimensional Model ◽

Coaxial Rotor ◽

Dynamic Simulation Model

In this paper, a sliding mode PID control algorithm of coaxial rotor aircraft has been proposed. After that, Adams/MATLAB simulation and experiments were used for verification. The results show that this control method can achieve satisfactory results. Firstly, when considering of the aerodynamic interaction between upper and lower rotor, it is difficult to establish an accurate mathematical model, and the aerodynamic interference between the upper and lower rotors and the brandishing motion of the blades are calculated by using the blade element theory and the dynamic inflow model, and the other parts which are not accurately modeled are compensated for by the control algorithm. Secondly, the sliding mode control algorithm and the PID control algorithm are combined to control the attitude of the aircraft. Among them, the PID control algorithm is used to establish the relationship between attitude and position, so that the aircraft can fly and hover more steadily. Thirdly, the three-dimensional model of the aircraft was imported into Adams to establish the dynamic simulation model. Then, the controller was established in Simulink, after that, and then the controller and the dynamic simulation model were combined for joint simulation. And the sliding mode PID control algorithm has been compared with traditional PID control algorithm through the simulation. Finally, the sliding mode PID control algorithm is verified by the experiment compared with the traditional PID algorithm. The results verify the superiority and practicability of the control method designed in this paper.

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A dynamic simulation model of the widgeon grass Ruppia maritima and its epiphytes in the estuary of the Patos Lagoon, RS, Brazil

Ecological Modelling ◽

10.1016/s0304-3800(00)00425-7 ◽

2001 ◽

Vol 137 (2-3) ◽

pp. 161-179 ◽

Cited By ~ 19

Author(s):

Eduardo Teixeira da Silva ◽

Milton L. Asmus

Keyword(s):

Simulation Model ◽

Dynamic Simulation ◽

Ruppia Maritima ◽

Patos Lagoon ◽

Dynamic Simulation Model

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Organizational and quality systems development: An analysis via a dynamic simulation model

Total Quality Management ◽

10.1080/09544120050007715 ◽

2000 ◽

Vol 11 (4-6) ◽

pp. 410-416 ◽

Cited By ~ 7

Author(s):

Andreas Bauer ◽

Gerald Reiner ◽

Rudolf Schamschule

Keyword(s):

Simulation Model ◽

Dynamic Simulation ◽

Systems Development ◽

Quality Systems ◽

Dynamic Simulation Model

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Exploring Water Management Strategies in an Inland Arid Area Using Dynamic Simulation Model

World Environmental and Water Resources Congress 2015 ◽

10.1061/9780784479162.098 ◽

2015 ◽

Author(s):

Chao Chen ◽

Ajay Kalra ◽

Sajjad Ahmad

Keyword(s):

Water Management ◽

Simulation Model ◽

Dynamic Simulation ◽

Management Strategies ◽

Arid Area ◽

Dynamic Simulation Model

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Climate-related migration and population health: social science-oriented dynamic simulation model

BMC Public Health ◽

10.1186/s12889-020-10120-w ◽

2021 ◽

Vol 21 (1) ◽

Author(s):

Rafael Reuveny

Keyword(s):

Public Health ◽

Social Science ◽

Simulation Model ◽

Environmental Health ◽

Dynamic Simulation ◽

Health Problems ◽

Ecological Impacts ◽

Sensitivity Analyses ◽

Pilot Model ◽

Dynamic Simulation Model

Abstract Background Social science models find the ecological impacts of climate change (EICC) contribute to internal migration in developing countries and, less so, international migration. Projections expect massive climate-related migration in this century. Nascent research calls to study health, migration, population, and armed conflict potential together, accounting for EICC and other factors. System science offers a way: develop a dynamic simulation model (DSM). We aim to validate the feasibility and usefulness of a pilot DSM intended to serve as a proof-of-concept and a basis for identifying model extensions to make it less simplified and more realistic. Methods Studies have separately examined essential parts. Our DSM integrates their results and computes composites of health problems (HP), health care (HC), non-EICC environmental health problems (EP), and environmental health services (ES) by origin site and by immigrants and natives in a destination site, and conflict risk and intensity per area. The exogenous variables include composites of EICC, sociopolitical, economic, and other factors. We simulate the model for synthetic input values and conduct sensitivity analyses. Results The simulation results refer to generic origin and destination sites anywhere on Earth. The effects’ sizes are likely inaccurate from a real-world view, as our input values are synthetic. Their signs and dynamics are plausible, internally consistent, and, like the sizes, respond logically in sensitivity analyses. Climate migration may harm public health in a host area even with perfect HC/ES qualities and full access; and no HP spillovers across groups, conflict, EICC, and EP. Deviations from these conditions may worsen everyone’s health. We consider adaptation options. Conclusions This work shows we can start developing DSMs to understand climate migration and public health by examining each case with its own inputs. Validation of our pilot model suggests we can use it as intended. We lay a path to making it more realistic for policy analysis.

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Dynamic Simulation of Petrochemical Wastewater Treatment Using Wastewater Plant Simulation Software

MATEC Web of Conferences ◽

10.1051/matecconf/201820303005 ◽

2018 ◽

Vol 203 ◽

pp. 03005

Author(s):

Idzham Fauzi Mohd Ariff ◽

Mardhiyah Bakir

Keyword(s):

Simulation Model ◽

Dynamic Simulation ◽

Stable Condition ◽

Oxygen Demand ◽

Simulation Software ◽

Petrochemical Plant ◽

Dynamic Simulation Model ◽

Plant Monitoring ◽

Plant Simulation

A dynamic simulation model was developed, calibrated and validated for a petrochemical plant in Terengganu, Malaysia. Calibration and validation of the model was conducted based on plant monitoring data spanning 3 years resulting in a model accuracy (RMSD) for effluent chemical oxygen demand (COD), ammoniacal nitrogen (NH3-N) and total suspended solids (TSS) of ±11.7 mg/L, ±0.52 mg/L and ± 3.27 mg/L respectively. The simulation model has since been used for troubleshooting during plant upsets, planning of plant turnarounds and developing upgrade options. A case study is presented where the simulation model was used to assist in troubleshooting and rectification of a plant upset where ingress of a surfactant compound resulted in high effluent TSS and COD. The model was successfully used in the incident troubleshooting activities and provided critical insights that assisted the plant operators to quickly respond and bring back the system to normal, stable condition.

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