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Description: 主要包括:物流配送重心选址、车辆调度、定位运输。-Mainly include: logistics and distribution center of gravity location, vehicle scheduling, location of transport.
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Size: 185344 |
Author: 春雨 |
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Description: 蹦极跳系统的仿真,整个蹦极跳系统的数学描述为mx =mg+bx-a1x -a2|x |x ,m为物体的重量,g为重力加速度,x为物体的位置。-Bungee jumping system simulation, the whole system of bungee jumping mathematical description for mx = mg+ Bx-a1x-a2 | x | x, m is the weight of objects, g is the acceleration due to gravity, x is the location of objects.
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Size: 4096 |
Author: 小林 |
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Description: 数学实验中的最速落径问题
A,B是不在一条铅垂线上的两点,在链接A,B两点的所有光滑曲线中,找出一条曲线,使得初速度为零的质点,在重力的作用下,自A点下滑到B点所需的时间最短
-Mathematical experiment steepest drop Path problems A, B is not a vertical line of two points, the link A, B two points in all the smooth curve, to find a curve, the initial velocity of the particle is zero, gravity role, and since the point A to B points decline in the time required for the shortest
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Size: 1024 |
Author: yedaixiong |
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Description: 能量重心校正法,对能量重心的分析和处理比较有用!-Energy focus of correction law, the focus on energy analysis and handling more useful!
Platform: |
Size: 3072 |
Author: 王歌 |
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Description: 重力感应API之sdk插件 开发环境Carbide C-Sdk sensor API gravity of Carbide C Plug-in Development Environment
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Size: 19456 |
Author: 乌拉圭沙 |
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Description: A few years ago, I got an article named "Experimente zum Chaos" [translated.: "Experiments on Chaos"] from the the German version of the Scientific American. The article dates back to 1994, and introduces among others a simulation showing the chaotic motion of a pendulum under the influence of gravity and three magnets. For some reason, this simulation fascinated me and so I wrote a program implementing it. The original program was coded quite some time ago, and since then I almost forgot about it. But because now I want a high resolution image of this fractal for my wall, I had to recode it. [Stupid reason isn t it? So what!] -A few years ago, I got an article named "Experimente zum Chaos" [translated.: "Experiments on Chaos"] from the the German version of the Scientific American. The article dates back to 1994, and introduces among others a simulation showing the chaotic motion of a pendulum under the influence of gravity and three magnets. For some reason, this simulation fascinated me and so I wrote a program implementing it. The original program was coded quite some time ago, and since then I almost forgot about it. But because now I want a high resolution image of this fractal for my wall, I had to recode it. [Stupid reason isn t it? So what!]
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Size: 209920 |
Author: srhg |
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Description: An Ivy Generator.
The ivy grows from one single root following different forces: a primary growth direction [the weighted average of previous growth directions], a random influence, an adhesion force towards other objects, an up-vector imitating the phototropy of plants, and finally gravity.
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Size: 4368384 |
Author: nibber |
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Description: 基于MFC的OGRE调用,并且增加了ODE的重力测试-Based on the Ogre MFC calls, and an increase of ODE' s gravity test
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Size: 62464 |
Author: 朱朋 |
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Description: The Fountain Simulation
Here I ll explain
Some basic physical things (simulation of a water drop)
How to get antialiased points
How to use blending
Some basic physics...
The movement of a drop contains two factors: The direction, how the drop gets out of the fountain and the gravity. The position of a drop is pretty easy to compute if you know, how much time has passed since the drop has leaved the fountain. You have to multiplicate the vector of the constant moving (how the drop leaves the fountain) with the time and then subtract the squared time multiplicated with an acceleration factor. This acceleration factor contains the weight of a drop and the power of gravity. This is all. You now have to know the direction, how the drop comes out of the fountain, but this is just a bit calculating with sine and cosine. You can look at my code.-The Fountain Simulation
Here I ll explain
Some basic physical things (simulation of a water drop)
How to get antialiased points
How to use blending
Some basic physics...
The movement of a drop contains two factors: The direction, how the drop gets out of the fountain and the gravity. The position of a drop is pretty easy to compute if you know, how much time has passed since the drop has leaved the fountain. You have to multiplicate the vector of the constant moving (how the drop leaves the fountain) with the time and then subtract the squared time multiplicated with an acceleration factor. This acceleration factor contains the weight of a drop and the power of gravity. This is all. You now have to know the direction, how the drop comes out of the fountain, but this is just a bit calculating with sine and cosine. You can look at my code.
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Size: 131072 |
Author: wang |
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Description: 用C++语言实现的各种计算几何算法, 如判断点是否在多边形内, 多边形凸凹性判断, 寻找点集凸包的卷包裹法,求简单多边形的重心,求从多边形外一点出发到该多边形的切线,判断线段是否相交等等! -Using C++ language implementation of a variety of computational geometry algorithms, such as point to determine whether the polygon, the polygon convexity of judge, looking for point set convex hull volume parcels law, the center of gravity for simple polygons, and the starting point from the polygon outside the polygon tangent to determine whether the intersection of line segments and so on!
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Size: 13312 |
Author: 11 |
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Description: 视频运动目标检测,包括背景预测法目标检测和帧间差分法目标检测,Meam Shift目标跟踪和多目标重心法跟踪,内含演示说明。-Video moving target detection, including the context of target detection and prediction inter-frame difference method target detection, Meam Shift target tracking and multi-purpose center of gravity method to track, including presentation notes.
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Size: 3115008 |
Author: jiaojiao003 |
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Description: 用单片机atmega16制作重力加速度测量仪,液晶显示,c语言-Acceleration due to gravity with the production of single-chip measurement atmega16, liquid crystal display, c language
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Size: 10240 |
Author: pedpan |
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Description: 重力的正演程序,模拟了地质体的重力异常情况。-gravity anomaly forward modeling
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Size: 2048 |
Author: 幽幽 |
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Description: 用protues+keil Uv3模拟仿真一个杆的重心位置,假定杆长300CM。-Protues+ keil Uv3 with simulation of a center of gravity position under the assumption that length 300CM.
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Size: 125952 |
Author: 黄宇 |
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Description: :将K—means算法引入到朴素贝叶斯分类研究中,提出一种基于K—means的朴素贝叶斯分类算法。首先用K—
me.arks算法对原始数据集中的完整数据子集进行聚类,计算缺失数据子集中的每条记录与 个簇重心之间的相似度,把记
录赋给距离最近的一个簇,并用该簇相应的属性均值来填充记录的缺失值,然后用朴素贝叶斯分类算法对处理后的数据
集进行分类。实验结果表明,与朴素贝叶斯相比,基于K—means思想的朴素贝叶斯算法具有较高的分类准确率。-: K-means algorithm will be introduced to the Naive Bayesian Classifier study, a K-means based on the Naive Bayesian classification algorithm. First of all, with K-me. arks algorithm focus on the raw data of the complete data subset of the cluster, the calculation of missing data for each subset of records and the similarity between the cluster center of gravity to the nearest record assigned to a cluster, and the corresponding attributes of the cluster means to fill the missing value record, and then use Naive Bayes classification algorithm to deal with the data set after classification. The experimental results show that compared with the Naive Bayes, K-means based on the thinking of Naive Bayes algorithm has higher classification accuracy.
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Size: 173056 |
Author: 李浩 |
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Description: 重力勘探
频率域重力延拓
二维傅里叶变换
源代码-Gravity Gravity exploration extension frequency domain two-dimensional Fourier Transform source code
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Size: 183296 |
Author: 赵伟超 |
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Description: 通过重心法确定光斑图像的中心。根据个像素的灰度值和所在的位置乘积和总面值作比,进而求得重心。-Through the center of gravity method to determine the center of the image spot. According to the gray-scale pixel value and the location of the product and the total for more than face value, and then get the focus.
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Size: 54272 |
Author: 孟合民 |
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Description: 模拟钟摆实现动画
(1)绘制圆柱状三维钟摆模型,计算合理的摆线长度以及摆动初始位置,保证钟摆一个摆动周期为1秒,提供误差计算并显示误差(20分)
(2)计算重力作用以及摆线弹性拉力作用下的钟摆速度,计算每一帧的钟摆位置及相应的旋转变换角度,并实现动画(30分)
(3)增加阻尼计算,提供阻尼参数的调整工具,实现带阻尼的钟摆动画(30分)
(4)音效、图形画面效果(10分)
(5)详细的作业报告(10分)-Simulation of the pendulum to achieve animation (1) mapping of three-dimensional cylindrical pendulum model, calculation of a reasonable length of cycloid initial position swing, a pendulum swing to ensure that the cycle of 1 seconds, provided the error is calculated and displayed error (20 points) (2) calculating the gravity role and under cycloid elastic pull speed of the pendulum to calculate the location of each frame of the pendulum and the corresponding rotation angle, and the animation (30 minutes) (3) to increase damping, the damping parameters to provide adjustment tools with damping animation of the pendulum (30 minutes) (4) audio, graphics, picture effects (10 points) (5) a detailed operation report (10 points)
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Size: 1150976 |
Author: xuhao |
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Description: 模型预测控制的一个小例子~Gravity Drained Water Tank-A little example in MPC ——Gravity Drained Water Tank
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Size: 60416 |
Author: Lola |
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Description: 重力等高线的绘制、显示及其范例。本软件也可用于绘制其他类型的等高线。-Contour map of gravity, and examples show. This software can also be used to draw other types of contour lines.
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Size: 11218944 |
Author: 彭邦彦 |
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