% COMPDIR Computes a search direction in a subspace defined by Z. % Helper function for NLCONST. % Returns Newton direction if possible. % Returns random direction if gradient is small. % Otherwise, returns steepest descent direction. % If the steepest descent direction is small it computes a Negative % curvature direction based on the most Negative eigenvalue. % For singular matrices, returns steepest descent even if small.
标签: Z. direction Computes function
上传时间: 2014-01-24
上传用户:Thuan
A system simulation environment in Matlab/Simulink of RFID is constructed in this paper. Special attention is emphasized on the analog/RF circuit.Negative effects are concerned in the system model,such as phase noise of the local oscillator,TX-RX coupling,reflection of the environment, AWGN noise,DC offset,I/Q mismatch,etc.Performance of the whole system can be evaluated by changing the coding method,parameters of building blocks,and operation distance.Finally,some simulation results are presented in this paper.
标签: environment constructed simulation Simulink
上传时间: 2014-01-09
上传用户:zhangliming420
A dissipative particle swarm optimization is developed according to the self-organization of dissipative structure. The Negative entropy is introduced to construct an opening dissipative system that is far-from-equilibrium so as to driving the irreversible evolution process with better fitness. The testing of two multimodal functions indicates it improves the performance effectively. structure. The Negative entropy is introduced to construct an opening dissipative system that is far-from-equilibrium so as to driving the irreversible evolution process with better fitness. The testing of two multimodal functions indicates it improves the performance effectively.
标签: self-organization optimization dissipative developed
上传时间: 2016-03-31
上传用户:zgu489
//通过18B20检测的数字温度可在电脑上显示当前温度值 #include <reg52.h> #define uchar unsigned char #define uint unsigned int sbit DS=P2^2 //define interface uint temp // variable of temperature uchar flag1 // sign of the result positive or Negative sbit dula=P2^6 sbit wela=P2^7
标签: define unsigned include 18B20
上传时间: 2014-01-19
上传用户:Andy123456
外国人开发的电磁时域有限差分方法工具包 Electromagnetic Finite-Difference Time-Domain (EmFDTD) is a basic two-dimensional FDTD code developed at the School of Electrical Engineering, Sharif University of Technology. This code has been written based on the standard Yee s FDTD algorithm. Applications include propagation, scattering, and diffraction of electromagnetic waves in homogeneous and non-homogeneous isotropic media for in-plane propagating waves. Negative permittivites or permeabilities as well as dispersion is not included. Zero, Periodic, and Perfectly Matched Layer boundary conditions may be selectively applied to the solution domain. The program is best suited for study of propagation and diffraction of electromagnetic waves in Photonic Crystal structures. EmFDTD is written in MATLAB language and has been tested under MATLAB 5.0 and higher versions.
标签: Finite-Difference Electromagnetic two-dimensio Time-Domain
上传时间: 2014-11-24
上传用户:watch100
Shortest Paths with Multiplicative Cost. In a given undirected graph, the path cost is measured as a product of all the edges in the path. The weights are rational numbers (e.g., 0.25, 0.75, 3.75 etc) or integers (2, 3). There are no Negative edges. Given such a graph as input, you are to output the shortest path between any two given vertices. Input is the adjacency matrix and the two vertices. You must output the path.
标签: Multiplicative undirected Shortest measured
上传时间: 2017-04-08
上传用户:邶刖
full wave rectifierDuring the period from 伪 to 蟺, the input voltage vs input current is are positive and the power flows from supply to the load. The converter is said to be operated at rectification mode .During the period from 蟺 to 蟺+伪 , the input voltage vs is Negative and the input current is is positive and reverse power flows from load to the supply. The converter is said to be operated in inversion mode. Depending on the value of 伪, average output voltage can be either positive or Negative and hence provides 2 quadrant operation.
标签: input rectifierDuring the positive
上传时间: 2017-04-10
上传用户:alan-ee
管脚号 管脚名称 LEVER 管脚功能描述 1 VSS 0V 电源地 2 VDD 5.0V 电源电压 3 VEE 5.0V~(-13V) 液晶显示器驱动电压 4 D/I H/L D/I=“H”,表示DB7~DB0为显示数据 D/I=“L”,表示DB7~DB0为显示指令数据 5 R/W H/L R/W=“H”,E=“H”,数据被读到DB7~DB0 R/W=“L”,E=“H→L”, DB7~DB0的数据被写到IR或DR 6 E H/L 使能信号:R/W=“L”,E信号下降沿锁存DB7~DB0 R/W=“H”,E=“H” DRAM数据读到DB7~DB0 7 DB0 H/L 数据线 8 DB1 H/L 数据线 9 DB2 H/L 数据线 10 DB3 H/L 数据线 11 DB4 H/L 数据线 12 DB5 H/L 数据线 13 DB6 H/L 数据线 14 DB7 H/L 数据线 15 CS1 L (19264A) 选择IC1,即(左)64列 16 RESET L 复位控制信号,RST=0有效 17 CS2 L (19264A) 选择IC2,即(中)64列 18 CS3 L (19264A) 选择IC3,即(右)64列 19 V0 -9V Negative Voltage for LCD driving 20 LED+ +5.0V The LED supply
上传时间: 2014-01-01
上传用户:541657925
Two scripts are included here. 1. convsys.m - combines the state space representation of two systems connected in series. [Ao,Bo,Co,Do]=convsys(A1,B1,C1,D1,A2,B2,C2,D2) This algorithm gives the convolution of two state space representations | A1 B1 | | A2 B2 | u ==> | | ==> | | ==> y | C1 D1 | | C2 D2 | The algorithm also accepts state space objects as inputs and gives out a state space object as output. 2. sysfeedbk.m [Ao,Bo,Co,Do]=convsys(A1,B1,C1,D1,A2,B2,C2,D2) Gives the closed loop state space representation for two systems connected with Negative feedback in the following manner. | A1 B1 | u ==> | | ==> y + o | C1 D1 | | - | | | | A2 B2 | | |= | |= | | C2 D2 | The zip file also contains checkcompatibility.m , which checks the compatibility of matrix dimensions in the system and cleanss.m which can be used to clean a state space representation.
标签: representation included combines scripts
上传时间: 2017-07-25
上传用户:semi1981
matlab有限元网格划分程序 DistMesh is a simple MATLAB code for generation of unstructured triangular and tetrahedral meshes. It was developed by Per-Olof Persson (now at UC Berkeley) and Gilbert Strang in the Department of Mathematics at MIT. A detailed description of the program is provided in our SIAM Review paper, see documentation below. One reason that the code is short and simple is that the geometries are specified by Signed Distance Functions. These give the shortest distance from any point in space to the boundary of the domain. The sign is Negative inside the region and positive outside. A simple example is the unit circle in 2-D, which has the distance function d=r-1, where r is the distance from the origin. For more complicated geometries the distance function can be computed by interpolation between values on a grid, a common representation for level set methods. For the actual mesh generation, DistMesh uses the Delaunay triangulation routine in MATLAB and tries to optimize the node locations by a force-based smoothing procedure. The topology is regularly updated by Delaunay. The boundary points are only allowed to move tangentially to the boundary by projections using the distance function. This iterative procedure typically results in very well-shaped meshes. Our aim with this code is simplicity, so that everyone can understand the code and modify it according to their needs. The code is not entirely robust (that is, it might not terminate and return a well-shaped mesh), and it is relatively slow. However, our current research shows that these issues can be resolved in an optimized C++ code, and we believe our simple MATLAB code is important for demonstration of the underlying principles. To use the code, simply download it from below and run it from MATLAB. For a quick demonstration, type "meshdemo2d" or "meshdemond". For more details see the documentation.
标签: matlab有限元网格划分程序
上传时间: 2015-08-12
上传用户:凛风拂衣袖
