SignalEx: Linking environmental acoustics with the signaling schemes
Michael PorterOcean Sciences Division
Science Applications Internationaland
Keyko McDonald, Paul Baxley, Joseph Rice
Space and Naval Warfare Systems CenterSan Diego, CA
Outline
• Motivation Case study: Front engineering test
• SignalEx tests– Telesonar testbeds– Sites b, c, d– Measured channel impulse response– Predicted channel impulse response– Performance of a DPSK/DSSS system
SignalEx
The National Oceanographic Partnership Program (NOPP) FRONT system is being installed by a consortium led by U. Conn
• Cellular modems relay data to shore from the Montauk Point and Block Island USCG buoys
• ADCP sensor nodes with trawl-resistant bottom frame design
– Diver-free recovery: acoustic release holds ball floats, line packed in canister.
– Acoustic modem (azimuthal omnidirectional 409 transducer) at apex; all other components below its lower plane.
– Smooth outer surface to limit snaring of fishing gear.
9-km 9-km spacingspacing
340 342 344 346 3480
10
20
30
Win
d sp
eed
(mph
)
340 342 344 346 3480
50
100
150C
orre
ct re
cept
ions
(%) R = 0.5 km
R = 1.0 kmR = 1.5 kmR = 2.0 km
Upward refraction in FRONT-1 caused strong dependence on the sea-surface boundary
Upward refraction in FRONT-1 caused strong dependence on the sea-surface boundary
Year-day
BE
R=
0 (%
)S
/N (
dB
)W
ind
(kt
s)
1485 1490 1495 1500
0
10
20
30
40
50
Sound Speed (m/s)
Depth
(m
)D
epth
(m
)D
epth
(m
)
Range (m)
Sound speed (m/s)
SignalEx
Summary• The environment can have a big effect on
modem performance• These effects are not well understood• SignalEx program
– study a variety of modems in diverse environments– learn which work … and when– optimize modem parameters– develop and validate a channel model to provide a
predictive capability for modem performance
• Result: ’Smart Modem’ selects best operating mode for the channel
SignalEx
Modem schemes tested in SignalEx
type Method Analysis groupa Multi-frequency shift keyed
(MFSK)SAIC/SPAWARSSC
b Frequency-Hopped FSK (FH-MFSK)
Benthos
x Differential phase-shift keyed (DPSK)
Northeastern Univ.SAIC/SPAWARSSC
d N-QAM (BPSK, QPSK, 16-QAM)
Northeastern Univ., Delphi, NUWC, Benthos
e Pulse-Position Modulation (PPM)
SAIC/SPAWARSSC
g Orthogonal Frequency Division Multiplexing (OFDM)
Polytechnic Univ.
h Multi-Carrier Code Division Multiple Access (MC-CDMA)
Polytechnic Univ.
Mk-1, 1998-99Mk-1, 1998-99
Mk-1Mk-1
Mk-2, 2000-01Mk-2, 2000-01
Mk-1Mk-1Sublink’98Sublink’98
Telesonar
testbeds
Telesonar
testbeds
SignalEx
SignalEx waveform
LFM chirps(8-11 kHz)
7-tone comb
LFM chirps(8-16 kHz)
Type-a MFSK waveforms
Type-x DPSK waveforms
SignalEx spectrogram
LFM chirps(8-11 kHz)
7-tone comb
LFM chirps(8-16 kHz)
Type-a MFSK waveforms
Type-x DPSK waveforms
SignalEx 2000 experiment locations
SX-CSan Diego(in SubLink00)May 23-25, 2000 SX-B
New England Shelf(in ForeFront)April 17-20, 2000
SX-DBuzzard’s Bay(in SeaWeb00)August 10-11, 2000
SignalEx-B in ForeFRONT (New England Shelf)April 17-20, 2000
SignalEx-C in Sublink (Point Loma)May 23-25, 2000
SignalEx-D (Buzzard’s Bay)August 10-11, 2000
Ray/beam trace and incoherent TL
CTD Record
Predicted Impulse Response
SX-B (New England Shelf)impulse response
SignalEx
SX-C (San Diego)Eigenrays and impulse response
SX-D (Buzzard’s Bay) impulse response
Drift 1: 0-3.5 km
Drift 2: 2.2-4.2 km
Drift 3: 1.4-3.8 km
Type-x (DPSK) bit error rates
Range = 5 km Range = 7 km
SignalEx
MFSK BER
DSSS/DPSK (type-x)
Transmitter•½ rate, contraint length 7 convolutional coder•(interleaver)•Gold sequence for spreading (4000 chips/sec)•BPSK on I/Q channels (QPSK out) (12 kHz carrier)•Shaping filter
Receiver•RAKE receiver, variable number of taps (or sparse)•Delay-locked loop•Viterbi decoder, 35 stage lookback
(John Proakis/Ethem Sozer Delphi/NEU)
DSSS/DPSK (type-x) bit errors in SX-B
400-bit transmissions8 kHz bandwidth
SignalEx
Transmission 10 bps 50 bps 100 bps 200 bps 400 bps1 0 3 13 400 1582 0 0 3 46 1303 0 0 400 25 1264 0 0 1 10 605 0 0 0 0 306 0 0 0 4 747 0 0 0 0 158 0 0 0 15 1599 0 0 0 15 127
10 0 37 24 28 7311 0 400 205 400 207
DSSS/DPSK bit errors in SX-C64-bit transmissions; 3 kHz bandwidth
SignalEx
50 bps 100 bps 150 bps 300 bps 500 bps0 0 1 17 150 0 0 1 140 0 0 32 170 0 0 8 210 0 0 2 200 0 0 6 210 0 1 3 240 0 1 8 170 0 0 7 210 0 0 9 250 0 0 1 160 0 1 5 210 0 0 5 180 0 0 2 140 0 0 4 200 0 0 7 160 0 37 11 220 0 0 0 160 0 0 8 210 0 0 9 240 0 0 6 21
37 0 0 5 260 0 38 5 240 0 1 9 230 0 0 7 210 0 0 4 220 0 0 6 180 0 0 2 220 0 0 5 20
50 bps 100 bps 150 bps 300 bps 500 bps0 0 2 23 640 0 0 8 190 0 0 12 240 1 1 10 220 0 1 6 200 0 0 11 180 0 0 2 140 0 0 8 150 0 0 12 110 3 14 14 230 0 1 8 270 0 64 11 240 64 3 16 280 0 64 12 26
38 0 0 5 180 0 0 7 180 0 0 4 160 0 0 4 150 0 1 9 160 0 0 8 160 0 0 9 230 0 0 4 130 0 0 6 170 0 0 1 130 0 0 18 220 0 1 11 220 0 1 9 190 1 0 15 210 2 3 22 26
R=3 km R=5 km
DSSS/DPSK bit errors in SX-D (Drift 1)
500-bit transmissions; 8 kHz bandwidth SignalEx
Channel errors Convolutional coding
20 bps 50 bps 100 bps 200 bps 400 bps 20 bps 50 bps 100 bps 200 bps 400 bps7 0 0 11 46 0 0 0 0 387 1 0 5 41 0 0 0 0 230 0 0 1 28 0 0 0 0 00 0 0 0 23 0 0 0 0 8
242 1 5 1 32 121 0 0 0 050 4 0 0 24 36 0 0 0 25 0 0 64 62 0 0 0 34 577 0 0 0 60 0 0 0 0 361 0 0 1 46 0 0 0 0 158 0 2 0 47 0 0 0 0 286 0 0 2 27 4 0 0 0 0
123 0 7 30 32 93 0 0 13 3128 24 26 17 47 4 9 15 9 101 0 0 0 40 0 0 0 0 53 0 0 1 19 0 0 0 0 01 0 0 0 26 0 0 0 0 0
42 0 65 3 86 8 0 55 0 37
DSSS/DPSK bit errors in SX-D (Drift 3)
500-bit transmissions; 8 kHz bandwidth SignalEx
Channel errors Convolutional coding20 bps 50 bps 100 bps 200 bps 400 bps 20 bps 50 bps 100 bps 200 bps 400 bps
0 0 0 3 116 0 0 0 0 1170 0 254 7 43 0 0 125 0 122 0 0 10 62 0 0 0 0 940 0 0 3 56 0 0 0 0 270 0 0 1 83 0 0 0 0 591 0 0 5 42 0 0 0 0 110 0 0 0 66 0 0 0 0 470 0 0 6 145 0 0 0 0 910 0 0 0 22 0 0 0 0 00 0 0 1 38 0 0 0 0 130 0 0 6 33 0 0 0 0 00 0 0 3 25 0 0 0 0 00 0 0 0 41 0 0 0 0 60 0 0 0 31 0 0 0 0 40 0 0 2 48 0 0 0 0 350 0 0 3 33 0 0 0 0 120 0 0 0 30 0 0 0 0 40 0 0 1 193 0 0 0 0 1110 0 0 1 59 0 0 0 0 490 0 0 0 38 0 0 0 0 110 0 0 0 46 0 0 0 0 44
Summary
•Channel impulse response is well-predicted by classical multipath picture
•Type-x multi-access DPSK performs reliably at 100 bps in all cases tested to date (ranges from 0-7 km)
•Further SignalEx analysis will provide common-platform comparisons between many signaling schemes
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