文件名称:Strapdown
介绍说明--下载内容均来自于网络,请自行研究使用
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
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
相关搜索: strapdown
陀螺
Strapdown
matlab
7
292115147e-5
jlfw
陀螺仪
G0
strapdown
inertial
navigation
unit
inertial
navigation
strapdown
ACCELEROMETERS
陀螺
Strapdown
matlab
7
292115147e-5
jlfw
陀螺仪
G0
strapdown
inertial
navigation
unit
inertial
navigation
strapdown
ACCELEROMETERS
(系统自动生成,下载前可以参看下载内容)
下载文件列表
Strapdown
.........\A2T.m
.........\AVP_Calc.m
.........\Calc_Initial.m
.........\Data_Genetate.m
.........\Delete_Bias.m
.........\GetDataFromFile.m
.........\GetParams.m
.........\jl.dat
.........\jl.ini
.........\main.m
.........\Oula_Angla.m
.........\Para_Loading.m
.........\Para_Setting.m
.........\plot2.asv
.........\plot2.m
.........\PlotModeSetting.m
.........\PlotResult.m
.........\Q2T.m
.........\Qone.m
.........\Q_update.m
.........\SkewMatrix_4.m
.........\T2A.m
.........\T2Q.m
.........\V2AG.m
.........\XwXa.mat
.........\A2T.m
.........\AVP_Calc.m
.........\Calc_Initial.m
.........\Data_Genetate.m
.........\Delete_Bias.m
.........\GetDataFromFile.m
.........\GetParams.m
.........\jl.dat
.........\jl.ini
.........\main.m
.........\Oula_Angla.m
.........\Para_Loading.m
.........\Para_Setting.m
.........\plot2.asv
.........\plot2.m
.........\PlotModeSetting.m
.........\PlotResult.m
.........\Q2T.m
.........\Qone.m
.........\Q_update.m
.........\SkewMatrix_4.m
.........\T2A.m
.........\T2Q.m
.........\V2AG.m
.........\XwXa.mat