Staggered pillaring: a strategy to control layer–layer packing and enhance porosity in MOFs

Nowadays, modern power converters installed in renewable power plants can provide flexible electromechanical characteristics that rely on the developed control technologies such as Synchronous Power Controller (SPC). Since high renewable penetrated power grids result in a low-inertia system, this electromechanical characteristic provides support to the dynamic stability of active power and frequency in the power generation area. This goal can be achieved through the proper tuning of virtual electromechanical parameters that are embedded in the control layers of power converters. In this paper, a novel mathematical pattern and strategy have been proposed to adjust dynamic parameters in Renewable Static Synchronous Generators controlled by SPC (RSSG-SPC). A detailed dynamic modeling was obtained for a feasible design of virtual damping coefficient and virtual moment of inertia in the electrometrical control layer of RSSG-SPC’s power converters. Mathematical solutions, modal analysis outcomes, time-domain simulation results, and real-time validations of the test in IEEE-14B benchmark confirm that the proposed method is an effective procedure for the dynamic design of RSSG-SPC to provide these dynamic stability supports in grid connection.

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A black‐box automated approach to calibrate numerical simulations and optimize cover design: Application to a flow control layer constructed on an experimental waste rock pile

Vadose Zone Journal ◽

10.1002/vzj2.20130 ◽

2021 ◽

Author(s):

Tom Crouzal ◽

Thomas Pabst

Keyword(s):

Flow Control ◽

Numerical Simulations ◽

Black Box ◽

Waste Rock ◽

Rock Pile ◽

Waste Rock Pile ◽

Cover Design ◽

Control Layer

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A novel path tracking approach considering safety of the intended functionality for autonomous vehicles

Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering ◽

10.1177/09544070211020535 ◽

2021 ◽

pp. 095440702110205

Author(s):

Huiran Wang ◽

Qidong Wang ◽

Wuwei Chen ◽

Linfeng Zhao ◽

Dongkui Tan

Keyword(s):

Autonomous Vehicles ◽

Autonomous Vehicle ◽

Coordinated Control ◽

Steering System ◽

Front Wheel ◽

Path Tracking ◽

Hierarchical Architecture ◽

Automatic Steering ◽

The Stability ◽

Control Layer

To reduce the adverse effect of the functional insufficiency of the steering system on the accuracy of path tracking, a path tracking approach considering safety of the intended functionality is proposed by coordinating automatic steering and differential braking in this paper. The proposed method adopts a hierarchical architecture consisting of a coordinated control layer and an execution control layer. In coordinated control layer, an extension controller considering functional insufficiency of the steering system, tire force characteristics and vehicle driving stability is proposed to determine the weight coefficients of automatic steering and the differential braking, and a model predictive controller is designed to calculate the desired front wheel angle and additional yaw moment. In execution control layer, a H∞ steering angle controller considering external disturbances and parameter uncertainty is designed to track desired front wheel angle, and a braking force distribution module is used to determine the wheel cylinder pressure of the controlled wheels. Both simulation and experiment results show that the proposed method can overcome the functional insufficiency of the steering system and improve the accuracy of path tracking while maintaining the stability of the autonomous vehicle.

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The Control Strategy Of V2G Participating in Peak Regulation in Power System

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.383-390.4151 ◽

2011 ◽

Vol 383-390 ◽

pp. 4151-4157

Author(s):

Wen Qi Tian ◽

Jing Han He ◽

Jiu Chun Jiang ◽

Cheng Gang Du

Keyword(s):

Power System ◽

Electric Vehicle ◽

Electric Vehicles ◽

Control Strategy ◽

Distributed Energy ◽

Control Center ◽

Distributed Energy Storage ◽

New Energy ◽

Regulation Function ◽

Control Layer

With the increase of new energy power generation, the requirement of smart grid and the popularity of electric vehicles, the research focus on V2G. With Electric vehicles being distributed energy storage or distributed generation, peak regulation in power system is involved in important functions of V2G. In order to achieve peak regulation function, the paper has analyzed the control relationship between the electric vehicles, V2G station and electric vehicle charge\ discharge control center, presented charge and discharge control strategy based on the two levels of electric vehicle charge\discharging control center and V2G station control layer and introduced algorithms and examples to achieve these strategies.

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Vehicle Stability Control on Tire Burst Steering and Braking Condition With Active Steering System

Volume 3: 20th International Conference on Advanced Vehicle Technologies; 15th International Conference on Design Education ◽

10.1115/detc2018-85283 ◽

2018 ◽

Author(s):

Yaqi Dai ◽

Jian Song ◽

Liangyao Yu

Keyword(s):

Control Strategy ◽

Steering System ◽

Stability Control ◽

Steering Angle ◽

Tire Force ◽

Vehicle Stability Control ◽

Yaw Moment Control ◽

Moment Control ◽

Control Layer ◽

Yaw Moment

By analyzing the key safety problems under the front-outside-tire burst steering condition, a vehicle stability control strategy is proposed in this paper, which is based on active front steering and differential braking systems. Taken both the handling stability and safety into account, we divided the whole control strategy into two layers, which are yaw moment control layer and the additional steering angle & tire force distribution layer. To solve the similar linear problem concisely, the LQR control is adopted in the yaw moment control layer. To achieve the goal of providing enough additional lateral force and yaw moment while keeping the burst tire in appropriate condition, the additional steering angle provided by active front steering system and the tire force distribution was adjusted step by step. To test the proposed control strategy performance, we modelling a basic front-outside-tire burst steering condition, in which the tire blows out once the vertical pressure reach the predefined critical value. Through simulation on different adhesion coefficient road, the control strategy proposed in this paper performance quite better compare with the uncontrolled one in aspect of movement, burst tire protection, handling stability.

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Cement Raw Mill Based on PCS7 and PROFIBUS Production Line Automation Control System

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.644-650.722 ◽

2014 ◽

Vol 644-650 ◽

pp. 722-725

Author(s):

Fan Wu

Keyword(s):

Control System ◽

Production Line ◽

Control Parameters ◽

Feed Composition ◽

Loop Control ◽

Automation Control ◽

Machine Speed ◽

And Control ◽

Control Layer ◽

Layer Control

A large cement factory as an example, according to the requirements of process and control parameters of production line of raw mill, this paper researches and designs the automatic control system of cement raw mill production line based on PCS7 and PROFIBUS. The design of the whole system consists of three levels: field layer, control layer and operation layer which are connected by Ethernet and PROFIBUS implementation, and focus on the design of the feed flow includeing feed composition, feed machine speed loop control etc. Through the on-site operation, the system is stable and reliable, and has good application and promotion effect.

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Performance analysis of the internet-protocol multimedia-subsystem's control layer using a detailed queueing Petri-net model

International Journal of Communication Systems ◽

10.1002/dac.3885 ◽

2018 ◽

Vol 32 (4) ◽

pp. e3885

Author(s):

Mozafar Roshani ◽

Siavash Khorsandi

Keyword(s):

Performance Analysis ◽

Petri Net ◽

Internet Protocol ◽

The Internet ◽

Control Layer

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