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Graph-Drawing-by-Force-directed
- 这是关于force-direct算法的可视化方向的论文,主要为了使得画布中的各点分布均匀,弹簧与戒指模型说得很不错。-This is about the force-direct visualization of the algorithm the direction of the paper, the main canvas in order to make the points evenly distributed spring model very well with the ring.
hengjia
- 平面、空间桁架的计算程序:1、是计算在载荷作用下的平面桁架位移以及杆件的轴力。轴力符号规定,受拉为正,受压为负。另外还哼计算支座反力。 2、对桁架的节点编号,采取先编可动节点,接着再编固定节点。 3、计算多工况问题-Plane, the calculation of space truss: 1, is included in the load displacement of the plane truss, as well as the axial force rod. Symbol prov
girdercomment
- 简支梁的剪力与弯矩的计算C程序,很简单,结构化程序设计。-Simply supported beam the shear force and bending moment calculation of C procedures, is very simple, structured program design.
VehicleDynamicSimulationwithMATLAB
- ,建立车体6个自由度加上前轮转向系统1个 自由度的汽车数学模型;该汽车数学模型不需引入很多的人为假设;可以实现给定汽车前轮转角,也可以不给定前轮 转角;不依赖需要复杂测定的侧向力函数及相关模型参数;考虑了轮胎的滚动特性-, 6 degree of freedom body set up with front-wheel steering system a degree of freedom mathematical model of the vehicle mathematical m
qqtool
- 为了广大网名需要 做的强行工具 强行聊天 进入空间 了解对方业务 都可以 不错的小工具-Network for the general force of the tool needs to be done forcibly enter the chat room for understanding of each other' s business can be a good gadget
exam4_1
- 等效结点力 单元刚度矩阵的坐标变换 整体刚度矩阵 边界约束条件的处理 -Equivalent nodal force of element stiffness matrix of the overall stiffness of the coordinate transformation matrix to deal with boundary conditions
exam4_2
- 等效结点力 单元刚度矩阵的坐标变换 整体刚度矩阵 边界约束条件的处理 -Equivalent nodal force of element stiffness matrix of the overall stiffness of the coordinate transformation matrix to deal with boundary conditions
exam4_2_post
- 等效结点力 单元刚度矩阵的坐标变换 整体刚度矩阵 边界约束条件的处理 -Equivalent nodal force of element stiffness matrix of the overall stiffness of the coordinate transformation matrix to deal with boundary conditions
1402051026
- Parallel robotic manipulators can be considered a well-established option for many different applications of manipulation, machining, guiding, testing, control, tracking, haptic force feed-back, etc. A typical parallel robotic manipulator (PM)
robotics
- 关于机器人学习的资料,包括坐标系的建立,正向运动学,反向运动学,位置雅克比,力雅克比等-Information on robot learning, including the establishment of the coordinate system, the forward kinematics, inverse kinematics, location Jacques force Jacobian
SJG-OUT
- 设计一任意荷载作用下三铰拱内力计算通用程序-Design an arbitrary loads the next three-hinged arch internal force calculation general program
MWLS1D
- 一维杆的最小二乘无网格方法NATLAB程序,弹性问题-MESHLESS WEIGHTED LEAST-SQUARE PROGRAM TO SOLVE 1D ELASTIC PROBLEM- A 1D BAR OF UNIT LENGTH SUBJECTED TO BODY FORCE LINEARLY VARIATING WITH THE COORDINATE. THE LEFT END IS FIXED AND THE RIGHT IS FREE.
CBMM1D_0
- 一维配点型无网格算法matlab程序,以一维单位长度杆为例子。-ONE DIMENSIONAL Collocation-based MESHLESS PROGRAM FOR SOLVING A 1D BAR OF UNIT LENGTH SUBJECTED TO A LINEAR BODY FORCE OF MAGNITUDE X WHOSE EXACT SOLUTION IS GIVEN BY u = (x/2- x^3/6)/E
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- 基于虚拟力覆盖算法研究 无线传感器网络覆盖的的研究-Covering algorithm based on virtual force wireless sensor network coverage
3
- 请设计一个模拟投篮过程的小游戏,游戏的要求如下: (1)设计一个matlab窗体,在窗体上防止一个坐标轴控件,并设置好该坐标系的坐标轴范围; (2)在坐标系上利用鼠标点击一个点a,作为篮筐的中心,并生成一个半径为r的圆,来模拟篮筐; (3)在坐标系上再用鼠标点一个点b,作为投篮的出发点,同时生成一个红色实心小球来模拟篮球,再选一个点c,b、c之间的连线作为投篮方向; (4)根据a、b、c三个点之间的位置关系,来模拟投篮过程,并记录命中次数; (5)以按住鼠标不放的时间来模拟力
horizontal-bending-beam-calculation
- 若一段钻铤,每10m有一个满眼的稳定器,第一个在圆弧起在0-90°的二维圆弧井眼中,分析计算各稳定器与井壁的接触情况和接触力大小-If a drill collars, each with an eyeful of 10m stabilizer, the first in a two-dimensional circular arc starting in 0-90 borehole, analysis and calculation of the stabilizer and the bore
wiretree
- bootstrap后台模板, 苦逼程序员值得拥有-bootstrap background template, hard to force programmers deserve
truss_FEM
- 桁架结构有限元分析的MATLAB程序,用于计算节点位移、杆轴力以及支座反力-MATLAB program for finite element analysis of truss structure,can be used for calculation of node displacment, bar axial force and support reaction force
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- 用穷举法找出1~100之间的质数,并显示出来,分别使用while,do……while,for循环语句实现-To find prime numbers between 1 to 100 with the brute-force method, and displayed, respectively while, do ...... while, for loop to achieve
SimulatedAnnealing
- Simulated annealing (SA) is a probabilistic technique for approximating the global optimum of a given function. Specifically, it is a metaheuristic to approximate global optimization in a large search space. It is often used when the search space is