drill: Drill data set
In rotations: Working with Rotation Data
drill R Documentation
Drill data set
Description
The drill data set was collected to assess variation in human movement
while performing a task (Rancourt, 1995). Eight subjects drilled into a metal
plate while being monitored by infared cameras. Quaternions are used to
represent the orientation of each subjects' wrist, elbow and shoulder in one
of six positions. For some subjects several replicates are available. See
Rancourt et al. (2000) for one approach to analyzing these data.
Usage
drill
Format
A data frame with 720 observations on the following 8 variables:
SubjectSubject number (1-8)
JointJoint name (Wrist, elbow, shoulder)
PositionDrilling position (1-6)
ReplicateReplicate number (1-5)
Q1First element of orientation (quaternion)
Q2Second element of orientation (quaternion)
Q3Third element of orientation (quaternion)
Q4Fourth element of orientation (quaternion)
Source
https://www.fsg.ulaval.ca/departements/professeurs/louis-paul-rivest-98
References
Rancourt, D. (1995). "Arm posture and hand
mechanical impedance in the control of a hand-held power drill." Ph.D.
Thesis, MIT.
Rancourt, D., Rivest, L. & Asselin, J. (2000). "Using
orientation statistics to investigate variations in human kinematics."
Journal of the Royal Statistical Society: Series C (Applied Statistics),
49(1), pp. 81-94.
Examples
# Estimate central orientation of the first subject's wrist
Subject1Wrist <- subset(drill, Subject == 1 & Joint == "Wrist")
Qs <- as.Q4(Subject1Wrist[, 5:8])
mean(Qs)
# Plot Subject 1's wrist measurements using the connection to rotation matrices
plot(Qs, col = c(1, 2, 3))
# Translate the quaternion measurements into rotations and
# estimate the central orientation in terms of rotations
Rs <- as.SO3(Qs)
mean(Rs)
rotations documentation built on May 29, 2024, 6:02 a.m.
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| drill | R Documentation |
Drill data set
Description
The drill data set was collected to assess variation in human movement
while performing a task (Rancourt, 1995). Eight subjects drilled into a metal
plate while being monitored by infared cameras. Quaternions are used to
represent the orientation of each subjects' wrist, elbow and shoulder in one
of six positions. For some subjects several replicates are available. See
Rancourt et al. (2000) for one approach to analyzing these data.
Usage
drill
Format
A data frame with 720 observations on the following 8 variables:
SubjectSubject number (1-8)
JointJoint name (Wrist, elbow, shoulder)
PositionDrilling position (1-6)
ReplicateReplicate number (1-5)
Q1First element of orientation (quaternion)
Q2Second element of orientation (quaternion)
Q3Third element of orientation (quaternion)
Q4Fourth element of orientation (quaternion)
Source
https://www.fsg.ulaval.ca/departements/professeurs/louis-paul-rivest-98
References
Rancourt, D. (1995). "Arm posture and hand mechanical impedance in the control of a hand-held power drill." Ph.D. Thesis, MIT.
Rancourt, D., Rivest, L. & Asselin, J. (2000). "Using orientation statistics to investigate variations in human kinematics." Journal of the Royal Statistical Society: Series C (Applied Statistics), 49(1), pp. 81-94.
Examples
# Estimate central orientation of the first subject's wrist
Subject1Wrist <- subset(drill, Subject == 1 & Joint == "Wrist")
Qs <- as.Q4(Subject1Wrist[, 5:8])
mean(Qs)
# Plot Subject 1's wrist measurements using the connection to rotation matrices
plot(Qs, col = c(1, 2, 3))
# Translate the quaternion measurements into rotations and
# estimate the central orientation in terms of rotations
Rs <- as.SO3(Qs)
mean(Rs)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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