Title: The Kauai Experiment: HighFrequency Channel Characterization
1The Kauai Experiment High-Frequency Channel
Characterization
- Michael Porter, Paul Hursky, Martin Siderius
- Ocean Sciences Division, Science Applications
International - William Hodgkiss
- Scripps Institution of Oceanography
- Dan Rouseff
- University of Washington, Applied Physics
Laboratory - Dan Kilfoyle
- Science Applications International, Woods Hole
- Larry Mayer, Christian de Moustier, Barbara Kraft
- University of New Hampshire
- Mohsen Badiey
- University of Delaware
- Keyko McDonald
2Experiment site
3Waypoints for equipment
4Experiment Objectives
- Characterize time-angle variation of HF (8-50
kHz) ocean acoustic propagation (role of bottom,
surface, bubble clouds, ocean thermal structure)
as a function of range, frequency, and sea state - Relate these properties of the channel to the
performance of a variety of acoustic
communications schemes
5Experiment Site
6Thermistor strings waverider buoy
7UDel Array
8MPL arrays
9UW array
10Telesonar testbeds
11Testbed Applications
Subsurface float
- Telesonar testbed applications
- SignalEx experiments
- acoustic model evaluation and verification
- directional transducer testing
- algorithm development and evaluation
- network protocol (design and testing)
- probe development
- platform for third party signal testing
4-channel (1.522 kHz) or 2-channel (1.550 kHz)
receiver array
816 kHz transmitter
2550 kHz transmitter
Modem (for remote control and mission status)
Record and transmit electronics
Burn-wire release
Anchor
12Added Capabilities
- Capabilities Added FY 02
- Remote control of testbeds
- High-accuracy clock added to each testbed
- One two-channel 1.550 kHz testbed receive array
- Two four-channel 1.522 kHz testbed receive
arrays - Projected Capabilities for FY 03
- Two new transmit bands 14-21, 2550 kHz
- Over-the-side four-channel 2550 kHz transmit
array - 32-bit floating point DSP added for real-time
decoding
13Telesonar testbed deployment
14MPL Array (auton)
15UDel array
16SAIC/WHOI Source Deployment
R/V Revelle
Note Both arrays are not deployed simultaneously
Reference hydrophone
Tilt Meter/Compass/Pressure Sensor /Thermistor
String Unit
100 m
Array midpoint at 50 m 2 meter element spacing
HF source array frame Populated with 4 ITC-1032
sources 70 meter depth
6 MF AT-12ET sources
The sub-surface float deployment has successfully
been used by WHOI to provide substantial surface
wave isolation of vertical line arrays.
17APL Role in HFX
Send sequences designed both to test
communication algorithms and estimate the
channel impulse response. Deploy eight-element
vertical array at range 5 km, water depth 80
m. In each half-hour block, send five 10 second
long sequences. Record for 18 seconds bracketing
each sequence. Store data at array and download
samples via RF link to ship. Can operate 24/7
for two weeks with one battery pack change.
Goal Gather high quality data set with
detailed associated oceanographic
measurements.
18HFX Array Deployment Test February 11, 2003.
floats
array
Array is deployed top first with floats above
array.
19acoustic release
rail road wheel (anchor)
20anchor
Anchor ready for release. Anchor falls pulling
array into vertical.
21Attaching RF antenna and battery pack to array.
22battery pack
Array recovery. Battery pack visible near Zodiac.
23Waypoints