um_240-20211014T1758-trajectory-raw-rt
eng
UTF8
dataset
service
John Kerfoot
Rutgers University - DMCS
+1 848-932-3344
71 Dudley Road
New Brunswick
NJ
08901
USA
kerfoot@marine.rutgers.edu
pointOfContact
2024-03-28
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for Imagery and Gridded Data
ISO 19115-2:2009(E)
4
column
row
vertical
temporal
um_240-20211014T1758 Real-Time Raw Trajectory
2021-11-11
creation
2021-11-11
issued
slocum-data.marine.rutgers.edu
um_240-20211014T1758-trajectory-raw-rt
John Kerfoot
University of Maine
kerfoot@marine.rutgers.edu
https://umaine.edu/marine/research/ocean-observing-systems/, https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Neal Pettigrew, Robert Prescott, Megan Switzer, Mark Baumgartner, Julianne Bonnell, David Aragon, Nicole Waite, John Kerfoot, Laura Nazzaro, Lori Garzio
contributor
This project is conducting a deployment of a passive acoustic glider in the eastern Gulf of Maine to monitor and survey calls of Sei, Fin, Humpback and Right whales, and physical oceanographic conditions. This approximately 21-to-30 day deployment begins in the Eastern Maine Coastal Current (EMCC), and proceeds to the UMOOS Buoy I, Jordan Basin, and Buoy M. The glider will then cruise NE toward the Grand Manan banks and then SW back to Buoy M, and finally patrolling the LMA1 restricted region that Right whales traditionally visit in the fall and where there is evidence that the area is a mating ground. The glider uses the digital acoustic monitoring (DMON) instrument and the low-frequency detection and classification software (LFDCS). The glider uses an RBR CTD, a WETLabs ECO puck configured with chlorophyll a fluorescence, CDOM, Turbidity, and an Aanderaa optode for measuring dissolved oxygen.
John Kerfoot
University of Maine
kerfoot@marine.rutgers.edu
https://umaine.edu/marine/research/ocean-observing-systems/, https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
pointOfContact
crs
platform
pressure
trajectory
theme
Gulf of Maine Whale Glider Monitoring
project
time
latitude
longitude
depth
depth
eastward_sea_water_velocity
northward_sea_water_velocity
latitude
longitude
time
sea_water_pressure
sea_floor_depth_below_sea_surface
eastward_sea_water_velocity
northward_sea_water_velocity
sea_water_pressure
time
sea_water_electrical_conductivity
sea_water_pressure
sea_water_temperature
theme
CF Standard Name Table v27
This data may be redistributed and used without restriction. Data provided as is with no expressed or implied assurance of quality assurance or quality control
Gulf of Maine Whale Glider Monitoring
largerWorkCitation
project
Unidata Common Data Model
Trajectory
largerWorkCitation
project
eng
geoscientificInformation
1
-69.509476
-68.27461
43.19896
43.724392
seconds
2021-10-31T14:30:36.06Z
2021-11-11T15:23:31.47Z
-188.3707
-0.0
um_240-20211014T1758 Real-Time Raw Trajectory
2021-11-11
creation
2021-11-11
issued
John Kerfoot
University of Maine
kerfoot@marine.rutgers.edu
https://umaine.edu/marine/research/ocean-observing-systems/, https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Neal Pettigrew, Robert Prescott, Megan Switzer, Mark Baumgartner, Julianne Bonnell, David Aragon, Nicole Waite, John Kerfoot, Laura Nazzaro, Lori Garzio
contributor
This project is conducting a deployment of a passive acoustic glider in the eastern Gulf of Maine to monitor and survey calls of Sei, Fin, Humpback and Right whales, and physical oceanographic conditions. This approximately 21-to-30 day deployment begins in the Eastern Maine Coastal Current (EMCC), and proceeds to the UMOOS Buoy I, Jordan Basin, and Buoy M. The glider will then cruise NE toward the Grand Manan banks and then SW back to Buoy M, and finally patrolling the LMA1 restricted region that Right whales traditionally visit in the fall and where there is evidence that the area is a mating ground. The glider uses the digital acoustic monitoring (DMON) instrument and the low-frequency detection and classification software (LFDCS). The glider uses an RBR CTD, a WETLabs ECO puck configured with chlorophyll a fluorescence, CDOM, Turbidity, and an Aanderaa optode for measuring dissolved oxygen.
ERDDAP tabledap
1
-69.509476
-68.27461
43.19896
43.724392
seconds
2021-10-31T14:30:36.06Z
2021-11-11T15:23:31.47Z
-188.3707
-0.0
tight
ERDDAPtabledapDatasetQueryAndAccess
https://slocum-data.marine.rutgers.edu/erddap/tabledap/um_240-20211014T1758-trajectory-raw-rt
ERDDAP:tabledap
ERDDAP-tabledap
ERDDAP's tabledap service (a flavor of OPeNDAP) for tabular (sequence) data. Add different extensions (e.g., .html, .graph, .das, .dds) to the base URL for different purposes.
download
um_240-20211014T1758 Real-Time Raw Trajectory
2021-11-11
creation
2021-11-11
issued
John Kerfoot
University of Maine
kerfoot@marine.rutgers.edu
https://umaine.edu/marine/research/ocean-observing-systems/, https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Neal Pettigrew, Robert Prescott, Megan Switzer, Mark Baumgartner, Julianne Bonnell, David Aragon, Nicole Waite, John Kerfoot, Laura Nazzaro, Lori Garzio
contributor
This project is conducting a deployment of a passive acoustic glider in the eastern Gulf of Maine to monitor and survey calls of Sei, Fin, Humpback and Right whales, and physical oceanographic conditions. This approximately 21-to-30 day deployment begins in the Eastern Maine Coastal Current (EMCC), and proceeds to the UMOOS Buoy I, Jordan Basin, and Buoy M. The glider will then cruise NE toward the Grand Manan banks and then SW back to Buoy M, and finally patrolling the LMA1 restricted region that Right whales traditionally visit in the fall and where there is evidence that the area is a mating ground. The glider uses the digital acoustic monitoring (DMON) instrument and the low-frequency detection and classification software (LFDCS). The glider uses an RBR CTD, a WETLabs ECO puck configured with chlorophyll a fluorescence, CDOM, Turbidity, and an Aanderaa optode for measuring dissolved oxygen.
OPeNDAP
1
-69.509476
-68.27461
43.19896
43.724392
seconds
2021-10-31T14:30:36.06Z
2021-11-11T15:23:31.47Z
-188.3707
-0.0
tight
OPeNDAPDatasetQueryAndAccess
https://slocum-data.marine.rutgers.edu/erddap/tabledap/um_240-20211014T1758-trajectory-raw-rt
OPeNDAP:OPeNDAP
OPeNDAP
An OPeNDAP service for tabular (sequence) data. Add different extensions (e.g., .html, .das, .dds) to the base URL for different purposes.
download
um_240-20211014T1758 Real-Time Raw Trajectory
2021-11-11
creation
2021-11-11
issued
John Kerfoot
University of Maine
kerfoot@marine.rutgers.edu
https://umaine.edu/marine/research/ocean-observing-systems/, https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Neal Pettigrew, Robert Prescott, Megan Switzer, Mark Baumgartner, Julianne Bonnell, David Aragon, Nicole Waite, John Kerfoot, Laura Nazzaro, Lori Garzio
contributor
This project is conducting a deployment of a passive acoustic glider in the eastern Gulf of Maine to monitor and survey calls of Sei, Fin, Humpback and Right whales, and physical oceanographic conditions. This approximately 21-to-30 day deployment begins in the Eastern Maine Coastal Current (EMCC), and proceeds to the UMOOS Buoy I, Jordan Basin, and Buoy M. The glider will then cruise NE toward the Grand Manan banks and then SW back to Buoy M, and finally patrolling the LMA1 restricted region that Right whales traditionally visit in the fall and where there is evidence that the area is a mating ground. The glider uses the digital acoustic monitoring (DMON) instrument and the low-frequency detection and classification software (LFDCS). The glider uses an RBR CTD, a WETLabs ECO puck configured with chlorophyll a fluorescence, CDOM, Turbidity, and an Aanderaa optode for measuring dissolved oxygen.
ERDDAP Subset
1
-69.509476
-68.27461
43.19896
43.724392
seconds
2021-10-31T14:30:36.06Z
2021-11-11T15:23:31.47Z
-188.3707
-0.0
tight
ERDDAP_Subset
https://slocum-data.marine.rutgers.edu/erddap/tabledap/um_240-20211014T1758-trajectory-raw-rt.subset
search
Subset
Web page to facilitate selecting subsets of the dataset
download
physicalMeasurement
time
double
Timestamp
trajectory
String
Trajectory/Deployment Name
source_file
String
Source data file
c_alt_time
float
C Alt Time
c_climb_target_depth
float
C Climb Target Depth
c_de_oil_vol
float
C De Oil Vol
c_dive_target_depth
float
C Dive Target Depth
c_fin
float
C Fin
c_heading
float
C Heading
c_science_send_all
byte
C Science Send All
c_thruster_on
float
C Thruster On
c_weight_drop
byte
C Weight Drop
c_wpt_lat
double
C Wpt Lat
c_wpt_lon
double
C Wpt Lon
c_wpt_x_lmc
float
C Wpt X Lmc
c_wpt_y_lmc
float
C Wpt Y Lmc
crs
int
http://www.opengis.net/def/crs/EPSG/0/4326
f_fin_offset
float
F Fin Offset
f_ocean_pressure_max
float
F Ocean Pressure Max
f_ocean_pressure_min
float
F Ocean Pressure Min
instrument_bbfl2slo
int
ECO Triplet Puck
instrument_ctd_rbr
int
RBR CTD
instrument_dmon
int
WHOI Digital Acoustic Monitoring Instrument DMON
instrument_optode
int
Oxygen Optode
m_avg_speed
float
M Avg Speed
m_battery_inst
float
M Battery Inst
m_battpos
float
M Battpos
m_comms_tickle_timestamp
double
m_comms_tickle_timestamp
m_cop_tickle_timestamp
double
m_cop_tickle_timestamp
m_coulomb_amphr
float
M Coulomb Amphr
m_coulomb_amphr_total
float
M Coulomb Amphr Total
m_de_oil_vol
float
M De Oil Vol
m_depth
float
Depth
m_depth_rate_avg_final
float
M Depth Rate Avg Final
m_digifin_leakdetect_reading
float
M Digifin Leakdetect Reading
m_dip_angle
float
m_dip_angle
m_fin
float
M Fin
m_final_water_vx
float
M Final Water Vx
m_final_water_vy
float
M Final Water Vy
m_gps_lat
double
GPS Measured Latitude
m_gps_lon
double
GPS Measured Longitude
m_gps_mag_var
float
M Gps Mag Var
m_gps_status
byte
M Gps Status
m_hdg_derror
float
M Hdg Derror
m_hdg_error
float
M Hdg Error
m_hdg_ierror
float
M Hdg Ierror
m_heading
float
M Heading
m_iridium_attempt_num
float
m_iridium_attempt_num
m_iridium_call_num
float
m_iridium_call_num
m_iridium_dialed_num
float
m_iridium_dialed_num
m_lat
double
Dead-Reckoned Latitude
m_leakdetect_voltage
float
M Leakdetect Voltage
m_leakdetect_voltage_forward
float
M Leakdetect Voltage Forward
m_lon
double
Dead-Reckoned Longitude
m_magnetic_field
float
m_magnetic_field
m_pitch
float
M Pitch
m_present_time
double
m_present_time
m_pressure
float
Flight Pressure
m_raw_altitude
float
M Raw Altitude
m_roll
float
M Roll
m_science_clothesline_lag
float
m_science_clothesline_lag
m_thruster_power
float
M Thruster Power
m_tot_num_inflections
float
M Tot Num Inflections
m_vacuum
float
M Vacuum
m_veh_temp
float
M Veh Temp
m_vehicle_temp
float
m_vehicle_temp
m_water_depth
float
M Water Depth
m_water_vx
float
Depth-averaged Eastward Sea Water Velocity
m_water_vy
float
Depth-averaged Northward Sea Water Velocity
m_weight_drop
byte
m_weight_drop
m_x_lmc
float
M X Lmc
m_y_lmc
float
M Y Lmc
platform
int
Teledyne Webb Research Slocum G2 glider
pressure
float
CTD Pressure
sci_bbfl2s_bb_scaled
float
sci_bbfl2s_bb_scaled
sci_bbfl2s_cdom_scaled
float
sci_bbfl2s_cdom_scaled
sci_bbfl2s_chlor_scaled
float
sci_bbfl2s_chlor_scaled
sci_dmon_msg_byte_count
float
sci_dmon_msg_byte_count
sci_m_present_time
double
Sci M Present Time
sci_oxy3835_wphase_dphase
float
sci_oxy3835_wphase_dphase
sci_oxy3835_wphase_oxygen
float
sci_oxy3835_wphase_oxygen
sci_oxy3835_wphase_saturation
float
sci_oxy3835_wphase_saturation
sci_oxy3835_wphase_temp
float
sci_oxy3835_wphase_temp
sci_water_cond
float
Sci Water Cond
sci_water_pressure
float
CTD Pressure
sci_water_temp
float
sci_water_temp
u_alt_filter_enabled
byte
U Alt Filter Enabled
u_alt_min_depth
float
u_alt_min_depth
u_hd_fin_ap_deadband_reset
byte
U Hd Fin Ap Deadband Reset
u_hd_fin_ap_dgain
float
U Hd Fin Ap Dgain
u_hd_fin_ap_gain
float
U Hd Fin Ap Gain
u_hd_fin_ap_hardover_holdoff
float
U Hd Fin Ap Hardover Holdoff
u_hd_fin_ap_igain
float
U Hd Fin Ap Igain
u_hd_fin_ap_inflection_holdoff
float
U Hd Fin Ap Inflection Holdoff
u_heading_deadband
float
U Heading Deadband
u_heading_rate_deadband
float
U Heading Rate Deadband
u_low_power_cycle_time
float
U Low Power Cycle Time
u_low_power_hd_fin_ap_dgain
float
U Low Power Hd Fin Ap Dgain
u_low_power_hd_fin_ap_gain
float
U Low Power Hd Fin Ap Gain
u_low_power_hd_fin_ap_igain
float
U Low Power Hd Fin Ap Igain
u_min_water_depth
float
U Min Water Depth
u_pitch_ap_deadband
float
U Pitch Ap Deadband
u_pitch_ap_dgain
float
U Pitch Ap Dgain
u_pitch_ap_gain
float
U Pitch Ap Gain
u_pitch_max_delta_battpos
float
U Pitch Max Delta Battpos
u_reqd_depth_at_surface
float
U Reqd Depth At Surface
u_science_low_power
float
u_science_low_power
x_current_target_altitude
float
X Current Target Altitude
x_cycle_overrun_in_ms
float
X Cycle Overrun In Ms
x_fin_deadband
float
X Fin Deadband
x_fin_max
float
X Fin Max
x_lmc_xy_source
byte
X Lmc Xy Source
x_low_power_status
float
X Low Power Status
x_thruster_state
byte
X Thruster State
John Kerfoot
Rutgers University - DMCS
+1 848-932-3344
71 Dudley Road
New Brunswick
NJ
08901
USA
kerfoot@marine.rutgers.edu
distributor
OPeNDAP
DAP/2.0
https://slocum-data.marine.rutgers.edu/erddap/tabledap/um_240-20211014T1758-trajectory-raw-rt.html
order
Data Subset Form
ERDDAP's version of the OPeNDAP .html web page for this dataset. Specify a subset of the dataset and download the data via OPeNDAP or in many different file types.
download
https://slocum-data.marine.rutgers.edu/erddap/tabledap/um_240-20211014T1758-trajectory-raw-rt.graph
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Make-A-Graph Form
ERDDAP's Make-A-Graph .html web page for this dataset. Create an image with a map or graph of a subset of the data.
mapDigital
dataset
2021-11-11T16:35:09Z: /tmp/tmpem8l0pf_/TrajectoryNetCDFWriter.pyyzjabjy7.nc created
2021-11-11T16:35:09Z: /home/kerfoot/code/glider-proc/scripts/proc_deployment_trajectories_to_nc.py /home/coolgroup/slocum/deployments/2021/um_240-20211014T1758/data/in/ascii/sbd/um_240_2021_314_0_60_sbd.dat
This record was created from dataset metadata by ERDDAP Version 2.22