timetable
Description
tb = timetable(bag)tb for all the numeric and scalar message
properties in the ros2bagreader object, bag. The first
column of the timetable consists of timestamps and the rest of the columns consist of
message property values for all messages in bag.
You can use the returned timetable object with all the time-specific functions to align, combine, and perform calculations with other timetables. The returned timetable object is memory-efficient because it only stores specific message properties and not whole messages.
Examples
Extract the ZIP file which contains the ROS 2 bag log file and specify the full path to the log folder.
unzip("ros2_mcap_bag.zip"); folderPath = fullfile(pwd,"ros2_netwrk_bag");
Create a ros2bagreader object to read all the messages in the bag file.
bagrdr = ros2bagreader(folderPath);
Select a specific topic. Timetable supports only single topics.
bagSel = select(bagrdr,Topic="/odom");Create a timetable for all the fields in the /odom topic.
tt1 = timetable(bagSel)
tt1=5275×15 timetable
Time /odom_header.stamp.sec /odom_header.stamp.nanosec /odom_pose.pose.position.x /odom_pose.pose.position.y /odom_pose.pose.position.z /odom_pose.pose.orientation.x /odom_pose.pose.orientation.y /odom_pose.pose.orientation.z /odom_pose.pose.orientation.w /odom_twist.twist.linear.x /odom_twist.twist.linear.y /odom_twist.twist.linear.z /odom_twist.twist.angular.x /odom_twist.twist.angular.y /odom_twist.twist.angular.z
_____________ ______________________ __________________________ __________________________ __________________________ __________________________ _____________________________ _____________________________ _____________________________ _____________________________ __________________________ __________________________ __________________________ ___________________________ ___________________________ ___________________________
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell} {1×1 cell}
⋮
Create a new timetable for the Pose.Pose.Position.X property in the /odom topic.
tt2 = timetable(bagSel,"pose.pose.position.x")tt2=5275×1 timetable
Time /odom_pose.pose.position.x
_____________ __________________________
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
1.602e+09 sec {1×1 cell}
⋮
Create a new timetable for all the angular Twist properties in the /odom topic.
tt3 = timetable(bagSel,"twist.twist.angular.x","twist.twist.angular.y","twist.twist.angular.z")
tt3=5275×3 timetable
Time /odom_twist.twist.angular.x /odom_twist.twist.angular.y /odom_twist.twist.angular.z
_____________ ___________________________ ___________________________ ___________________________
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
1.602e+09 sec {1×1 cell} {1×1 cell} {1×1 cell}
⋮
Input Arguments
Index of the messages in the rosbag, specified as a ros2bagreader
object.
Property names, specified as a string scalar or character vector. You can specify multiple properties. Each property name is a separate input and represents a different column in the time series object.
Output Arguments
Version History
Introduced in R2024a
See Also
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