calc_inertia_ellcyl: Moment of inertia tensor of a solid elliptical cylinder...
In AvInertia: Calculate the Inertial Properties of a Flying Bird
View source: R/inertiafunctions.R
calc_inertia_ellcyl R Documentation
Moment of inertia tensor of a solid elliptical cylinder
Reference: https://apps.dtic.mil/sti/pdfs/AD0274936.pdf
Description
Moment of inertia tensor of a solid elliptical cylinder
Reference: https://apps.dtic.mil/sti/pdfs/AD0274936.pdf
Usage
calc_inertia_ellcyl(a, b, l, m)
Arguments
a
half height of the base - oriented along the x axis in torso FOR
(z axis in full bird FOR) (m)
b
half width of the base - oriented along the y axis in torso FOR
(y axis in full bird FOR) (m)
l
length of the cylinder - oriented along the z axis in torso FOR
(x axis in full bird FOR) (m)
m
mass of the cylinder (kg)
Value
a 3x3 matrix representing the moment of inertia tensor of a solid
elliptical cylinder about it's center of gravity
Author(s)
Christina Harvey
Examples
# refer to the vignette
library(AvInertia)
# load data
data(dat_id_curr, package = "AvInertia")
data(dat_bird_curr, package = "AvInertia")
data(dat_feat_curr, package = "AvInertia")
data(dat_bone_curr, package = "AvInertia")
data(dat_mat, package = "AvInertia")
data(clean_pts, package = "AvInertia")
# 1. Determine the center of gravity of the bird's torso (including the legs)
dat_torsotail_out = massprop_restbody(dat_id_curr, dat_bird_curr)
# 2. Calculate the inertia of the flight feathers about the tip of the calamus
feather_inertia <- compute_feat_inertia(dat_mat, dat_feat_curr, dat_bird_curr)
# 3. Determine the center of gravity of one of the bird's wings
dat_wing_out = massprop_birdwing(dat_id_curr, dat_bird_curr,
dat_bone_curr, dat_feat_curr, dat_mat, clean_pts,
feather_inertia, plot_var = 0)
# Visualize the center of gravity of each wing component in the x and y axis
dat_wing_out = massprop_birdwing(dat_id_curr, dat_bird_curr,
dat_bone_curr, dat_feat_curr, dat_mat, clean_pts,
feather_inertia, plot_var = "yx")
# or the y and z axis
dat_wing_out = massprop_birdwing(dat_id_curr, dat_bird_curr,
dat_bone_curr, dat_feat_curr, dat_mat, clean_pts,
feather_inertia, plot_var = "yz")
# 4. Combine all data and obtain the center of gravity, moment of inertia
# and principal axes of the bird
curr_full_bird = combine_inertialprop(dat_torsotail_out,dat_wing_out,
dat_wing_out, dat_id_curr, dat_bird_curr, symmetric=TRUE)
AvInertia documentation built on March 24, 2022, 5:07 p.m.
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View source: R/inertiafunctions.R
| calc_inertia_ellcyl | R Documentation |
Moment of inertia tensor of a solid elliptical cylinder Reference: https://apps.dtic.mil/sti/pdfs/AD0274936.pdf
Description
Moment of inertia tensor of a solid elliptical cylinder Reference: https://apps.dtic.mil/sti/pdfs/AD0274936.pdf
Usage
calc_inertia_ellcyl(a, b, l, m)
Arguments
a |
half height of the base - oriented along the x axis in torso FOR (z axis in full bird FOR) (m) |
b |
half width of the base - oriented along the y axis in torso FOR (y axis in full bird FOR) (m) |
l |
length of the cylinder - oriented along the z axis in torso FOR (x axis in full bird FOR) (m) |
m |
mass of the cylinder (kg) |
Value
a 3x3 matrix representing the moment of inertia tensor of a solid elliptical cylinder about it's center of gravity
Author(s)
Christina Harvey
Examples
# refer to the vignette library(AvInertia) # load data data(dat_id_curr, package = "AvInertia") data(dat_bird_curr, package = "AvInertia") data(dat_feat_curr, package = "AvInertia") data(dat_bone_curr, package = "AvInertia") data(dat_mat, package = "AvInertia") data(clean_pts, package = "AvInertia") # 1. Determine the center of gravity of the bird's torso (including the legs) dat_torsotail_out = massprop_restbody(dat_id_curr, dat_bird_curr) # 2. Calculate the inertia of the flight feathers about the tip of the calamus feather_inertia <- compute_feat_inertia(dat_mat, dat_feat_curr, dat_bird_curr) # 3. Determine the center of gravity of one of the bird's wings dat_wing_out = massprop_birdwing(dat_id_curr, dat_bird_curr, dat_bone_curr, dat_feat_curr, dat_mat, clean_pts, feather_inertia, plot_var = 0) # Visualize the center of gravity of each wing component in the x and y axis dat_wing_out = massprop_birdwing(dat_id_curr, dat_bird_curr, dat_bone_curr, dat_feat_curr, dat_mat, clean_pts, feather_inertia, plot_var = "yx") # or the y and z axis dat_wing_out = massprop_birdwing(dat_id_curr, dat_bird_curr, dat_bone_curr, dat_feat_curr, dat_mat, clean_pts, feather_inertia, plot_var = "yz") # 4. Combine all data and obtain the center of gravity, moment of inertia # and principal axes of the bird curr_full_bird = combine_inertialprop(dat_torsotail_out,dat_wing_out, dat_wing_out, dat_id_curr, dat_bird_curr, symmetric=TRUE)
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