Description: 惯性导航捷联解算程序,坐标系采用北东地坐标-strapdown inertial navigation solution procedures, using coordinates to the coordinates of the North East Platform: |
Size: 3072 |
Author:谢鹏 |
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Description: 这是本人编写的一个接联惯性导航系统解析粗对准的仿真程序,其中分别采用了传统和改进的解析对准算法。-This is the one I prepared received Inertial Navigation System Analysis rough at the simulation program, which were used to the traditional and improved analytical alignment algorithm. Platform: |
Size: 2048 |
Author:吉庆昌 |
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Description: 本人平时收集的惯性导航算法的论文,对搞导航算法的人很有帮助。
1.易于实现的捷联式惯性导航系统仿真.pdf
2.测量运动物体姿态的三自由度定位算法的研究.pdf
3.基于MEMS 技术的微型惯性测量组合.pdf
4.基于四元数的空间全方位算法研究.pdf
5.捷联惯导积分算法设计(连载二)下篇:速度和位置算.pdf
6.数字磁罗经系统的设计.pdf
7.四阶龙格—库塔法在捷联惯导系统姿态解算中的应用.pdf-I normally collected papers inertial navigation algorithm, the navigation algorithm to engage people very helpful. 1. Easy to realize the strapdown inertial navigation system simulation. Pdf2. Measuring movement of three degrees of freedom objects posture positioning algorithm. Pdf3. Based on MEMS technology, micro-inertial measurement unit. Pdf4. Quaternion-based full-space algorithm study. pdf5. SINS Integral Algorithm Design (Part II) next: the speed and position calculation. pdf6. digital magnetic compass system design. pdf7. Fourth-Order Runge- Kutta method in SINS Attitude operator application. pdf Platform: |
Size: 1413120 |
Author:ddk_ok |
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Description: 此程序用语捷联惯性导航系统中姿态,经度,纬度,速度等参数的计算。-This procedure terminology strapdown inertial navigation system in the posture, longitude, latitude, speed and other parameters of the calculation. Platform: |
Size: 2048 |
Author:小赵 |
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Description: 捷联惯导系统仿真算法的研究及其实现.nh.大连理工大学硕士论文,详细阐述了如何用matlab-simulink进行惯导仿真-Strapdown inertial navigation system simulation algorithm and its realization. Nh. Dalian University of Technology master s thesis in detail how to use matlab-simulink simulation for INS Platform: |
Size: 2929664 |
Author:lele |
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Description: 1.介绍了捷联惯性导航系统的基本工作原理,包括坐标系及其之间的关
系,讨论了欧拉角、四元数等几种经典的解算方法,和计算周期的划分等。
2.讨论了等效转动矢量法及其衍生的一系列修正算法和优化算法,并作
了精度分析和数字仿真,并对根据角增量提取角速率的方法进行了研究和验
证。
3.研究了划船运动下,速度解算的误差补偿方法。对利用对偶原理从圆
锥效应到划船效应的对应方法进行了讨论。
4.讨论了捷联式惯性导航系统的误差,对位置计算中的涡卷误差进行了
推证。
-1. Introduced a strapdown inertial navigation system of the basic working principles, including the coordinate system and the relationship between the discussion of the Euler angle, quaternion, such as solving several classical methods, and calculation of the division cycle and so on. 2. Discussed the rotation vector method and its equivalent derived from a series of correction algorithm and optimization algorithm, and made the accuracy of analysis and digital simulation, and in accordance with angle increment of angular velocity extraction methods have been studied and verified. 3. Study of the rowing movement, the speed of solving the error compensation method. The use of principle of duality effect from the cone corresponding to the row effect method is discussed. 4. Discussed the strapdown inertial navigation system error, the calculation of the location of the scroll push the card error. Platform: |
Size: 2340864 |
Author:yangjx |
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Description: 这是一本关于无陀螺捷联式惯性导航的书籍,具有很高的参考价值!-This is on a non-gyro strapdown inertial navigation books, have a high reference value! Platform: |
Size: 1064960 |
Author:罗云峰 |
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Description: 这个是关于GPS和捷联惯性导航系统的组合导航技术研究论文,非常有参考价值.-This is about GPS and strapdown inertial navigation system, a combination of navigation technology research papers, a very good reference material. Platform: |
Size: 2411520 |
Author:彭杰 |
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Description: 基于matlab平台编写的捷联导航程序,采用四元数法求解导航参数-Prepared based on matlab platform inertial navigation procedures, the use of quaternion navigation method parameter Platform: |
Size: 1024 |
Author:小何 |
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Description: 基于Matlab平台开发的的针对捷联式惯性到导航的仿真,比较全的代码-Matlab-based platform for the development of strapdown inertial navigation simulation to compare the entire code Platform: |
Size: 3072 |
Author:小何 |
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Description: 捷联惯导系统原理 陈哲老师编写,非常经典 相信对很多人有用。-Principle Strapdown Inertial Navigation System from professor Chen Zhe , very classic ,I believe it be very useful for many people . Platform: |
Size: 14854144 |
Author:jason |
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Description: 基于MATLAB Simul ink 的捷联惯性导航系统仿真,主要介绍了其基本原理,然后阐述了编程实现-MATLAB Simul ink based on the strapdown inertial navigation system simulation, introduces the basic principles of programming and then set out to achieve Platform: |
Size: 485376 |
Author:宋磊 |
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Description: 捷联惯性导航与GPS组合导航。采用matlab实现。采用自适应算法对其进行处理。并取得了很好的效果。-Strapdown inertial navigation and GPS Navigation. Using matlab to achieve. Adaptive algorithm used to deal with them. And has achieved good results. Platform: |
Size: 7168 |
Author:zhanglaoshi |
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Description: 《Strapdown inertial navigation technology》全面系统地介绍了捷联惯导的基本原理与计算。-Strapdown inertial navigation technology, a comprehensive and systematic introduction to the basic principles of strapdown inertial navigation system and calculation. Platform: |
Size: 27342848 |
Author: |
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Description: 一、数据说明:
1:惯导系统为指北方位的捷连系统。初始经度为116.344695283度、纬度为39.975172度,高度h为30米。
初速度为v0=[0.000048637 0.000206947 0.007106781],飞行高度不变。
2:jlfw中为600秒的数据,陀螺仪和加速度计采样周期分别为为1/80秒和1/80秒。
3:初始姿态角为[0.120992605 0.010445947 91.637207](俯仰,横滚,航向,单位为度),
jlfw中保存的为比力信息f_INSc(单位m/s^2)、陀螺仪角速率信息wib_INSc(单位rad/s),排列顺序为 一~三行分别为东、北、天向信息.
4: 航向角以逆时针为正。
5:地球椭球长半径re=6378245 地球自转角速度wie=7.292115147e-5 重力加速度g=g0*(1+gk1*c33^2)*(1-2*h/re)/sqrt(1-gk2*c33^2);
g0=9.7803267714 gk1=0.00193185138639 gk2=0.00669437999013 c33=sin(lat纬度) -First, data on:
1: inertial navigation system that links the north bit of the Czech system. Initial longitude 116.344695283 degrees latitude 39.975172, height h is 30 meters.
Initial speed of v0 = [0.000048637 0.000206947 0.007106781], the same altitude.
2: jlfw for 600 seconds of data, gyroscopes and accelerometers were sampling period of 1/80 sec and 1/80 seconds.
3: Initial attitude angle [0.120992605 0.010445947 91.637207] (pitch, roll, heading, in units of degrees),
jlfw than the power saved information f_INSc (unit m/s ^ 2), angular rate gyro information wib_INSc (units of rad/s), in the order of 1 ~ three lines were east, north, days to the information.
4: The heading angle is positive counterclockwise.
5: Earth ellipsoid long radius re = 6378245 Earth s rotation angular velocity wie = 7.292115147e-5 acceleration due to gravity g = g0* (1+ gk1* c33 ^ 2)* (1-2* h/re)/sqrt (1-gk2* c33 ^ 2)
g0 = 9.7803267714 gk1 = 0.00193185138639 gk2 = 0.00669437999013 Platform: |
Size: 401408 |
Author:袁刚平 |
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