Applied Mechanics and Materials Vols. 713-715

Abstract: This paper is addressed water pipe pressure control method, chose a water pipe with bypass valve as an object. The paper made the pressure and flow control of the object a mathematic model. This paper design a PID control algorithm which base on RBF neural network to control the pressure and flow of the object, and simulate the control process both RBF neural network PID algorithm and PID algorithm. The last part of the paper contrasts the two simulation result.

Abstract: Aiming at the problem that individual control of urban traffic lights and stable signal timing. This paper proposed a real timing control method of traffic lights which based on Kalman filter. This method use Kalman filter to predict the next time traffic flows and then update the signal timing. By field researching the traffic flow of intersection in peak hour and predicting the traffic flow. Then update the signal timing. Meanwhile using the VISSIM to simulate the intersection. The result of the simulation shows that the length of vehicle queue decreased significantly and the number of stops dropped. The efficiency of access has been greatly improved.

Abstract: This paper presents the optimization of gripping points of an end effector of three fingers, and this is done by ensuring that the force exerted on the object is minimum. It begins with the design of the gripper has two degrees of freedom (DOF) for each finger. Is performed a brief mathematical description of the kinematics involved in the gripper and with this is determined the work area. With the workspace is determines the points with contact with the object geometry are obtained and these are gripping the possible points of the object. To select which of these points is the best to grab the object, we proceed to evaluate the force exerted on the object by means of the mathematic denominated of Screw. This force should be minimal, avoiding sliding and in turn damage the object. As the contact points are numerous and the evaluating would take quite some time in an algorithm combinational by this reason the optimization algorithm Non-dominated Sorting Genetic Algorithm (NSGA) is implemented.

Abstract: A new method that is to model the electric field of a warship with a hybrid model which is “horizontal current line plus discrete dipoles” is put forward. The majority of the electric field is simulated by horizontal current line, and several discrete dipoles can be used to modify the detail of the electric field. This method is expected to have same precision but more stabilization and less calculation. The method is validated by experiments using a physical scale model of ship.

Abstract: Micro-grid is to integrate a variety of distributed energy resources to weaken the adverse effects of decentralized distributed generation on a large grid, effective way to fully exploit the economic benefits of distributed generation.When large grid power quality appear, failure, power outages and other problems, micro-grid based on local information can be quickly switched to the state from the network, and under the jurisdiction of the load especially important to provide power to support the load, to avoid accidents.Therefore, micro-grid has become an important research focus and direction of development of distributed power generation field.The main thesis of the existing micro-grid operation control strategies to summarize, summarize, and control the operation of the micro-grid reference when choosing strategies.

Abstract: With the continuous development of society and the increasingly update as well as the thought of science and technology progress, we learn more and more about living fast, energy saving, smart. The traditional mode of the campus management can't meet the requirements of The Times, so should be an intelligent campus system. This article analyzes the performance characteristics and development direction of RFID to its working system and based on the principle role in the field of campus , from identification campus , library management, student attendance in class named have done a detailed explanation.

Abstract: A novel multi-finger power SiGe heterojunction bipolar transistor (HBT) with non-uniform segmented emitter fingers and non-uniform emitter finger spacing was proposed to improve the thermal stability. Thermal simulation for a five-finger power SiGe HBT with novel structure was conducted with ANSYS software. Three-dimensional temperature distribution on emitter fingers was obtained. Compared with non-uniform segmented emitter fingers structure and non-uniform emitter finger spacing structure, the maximum junction temperature of novel structure reduce significantly, the thermal resistance reduce, temperature distribution were significantly improved. Thermal stability was effective enhanced.

Abstract: This paper presents the design of a 10 bit 2GHz digital to analog converter circuit. The digital to analog converter circuit adopts the design simulation of HBT process, able to work at a sampling frequency of 2 GHz, the highest sampling frequency can reach about 4 GHz. The SFDR of the digital to analog converter circuit can reach 62dB (simulation work at 2 GHz), the SFDR can reach 45 dB (simulation work at 4 GHz). Early product parameters of the digital to analog converter circuit (working in 1 GHz sampling frequency) are as follows: the narrowband SFDR parameter can be achieved 81 dB, broadband SFDR parameters can reach 46 dB.

Abstract: The traffic of the distribution automation communication network under different size and applications is analyzed based on the communications models. From the network availability and the resource utilization, the distribution automation adaptability is compared with the different communication networks combined with the current main power terminal communication network technologies. The results provide an important theoretical basis for the planning of the distribution automation communication network.

Abstract: When fault distance is greater than a certain value, attenuation of high frequency fault signal over the line is greater than what the DC line boundary is subject to. To sensitively detect a fault and improve the reliability of UHVDC (Ultra High Voltage Direct Current) transmission line protection, a new protection scheme based on wavelet based direction element is proposed, where directional element and attenuation of high frequency energy are used to identify an internal fault. Extensive simulation results show that the proposed protection scheme is able to sensitively detect high impedance faults, identify the faulty pole.