BOBr Raw Breaking Wave Data, Agate Beach, OR

Description

Raw data from the BOBr (Buoy to Observe Breaking) wave measurement buoy. Data was recorded off the coast of Newport, OR at Agate Beach, in the surf zone.

Resources

Name Format Description Link
21 Link to a separate submission containing the correction for this data. https://mhkdr.openei.org/submissions/119
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2014-02-04_b.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2013-12-10.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2014-02-23.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2014-04-10.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2014-05-20.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2013-10-31.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2013-11-26.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2014-04-02.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. This data was recorded to determine the natural frequency and damping of the buoy. https://mhkdr.openei.org/files/118/raw_2014-05-24.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2014-02-22.txt
47 Data recorded by the BOBr Wave Measurement buoy. The data is the raw output of a 9dof inertial measurement unit. The dat is comprised of a date and time, the orientation of the buoy (given as a 4 float quaternion), an acceleration vector, gyroscopic rotation vector, and a magnet field vector. Due to a failure of the onboard RTC, some timestamps are incorrect in the raw data. https://mhkdr.openei.org/files/118/raw_2013-11-09.txt

Tags

  • data
  • surf-zone
  • ground
  • hydrokinetic
  • quaternion
  • surf
  • mhk
  • acceleration
  • buoy
  • wave
  • waves
  • marine
  • breaking
  • free-drift
  • power
  • rotation
  • bobr
  • orientation
  • characterization
  • measurement
  • or
  • preprocessed
  • agate-beach
  • raw-data
  • newport
  • oregon
  • resource
  • energy
  • magnetic-field-vectors

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