REAL-TIME TIME-FREQUENCY ACTIVE SONAR PROCESSING - A SIMD APPROACH

被引：2

作者：

ZVARA, GP

机构：

[1] Naval Undersea Warfare Center, Division Newport, Detachment New London, Code 2153

来源：

IEEE JOURNAL OF OCEANIC ENGINEERING | 1993年 / 18卷 / 04期

关键词：

PARALLEL PROCESSING; REPLICA CORRELATION; HIGH PERFORMANCE COMPUTING; TIME-FREQUENCY PROCESSING;

D O I：

10.1109/48.262302

中图分类号：

TU [建筑科学];

学科分类号：

0813 ;

摘要：

A paradigm for massively parallel processing of matched filters, replica correlators, ambiguity functions, and time-frequency distributions is presented using a SIMD (Single Instruction Multiple Data) programming methodology. It is shown that active sonar detection algorithms, as implemented by frequency domain processing, can be a ''natural match'' to a SIMD methodology. Using the Connection Machine, a 8192 node SIMD parallel processor, this methodology meets the extensive computational needs of enhanced active sonar systems. The decomposition process is presented and examples are given of the output of the computer program OMASP (Connection Machine Ambiguity Surface Processor). CMASP can provide real-time simultaneous multiple beam, Doppler and waveform replica correlations. Synthetic data are processed and the corresponding CMASP outputs are displayed as three-dimensional ambiguity surfaces on networked graphic workstations. Because of efficient problem decomposition, other time-frequency processing can be exploited. Specifically, real-time instantaneous-like time-frequency distributions have been realized (e.g., Rihaczek distributions) in which the data set is presented and processed as time-varying spectral representations.

引用

页码：520 / 528

页数：9

共 50 条

[41] SliM-II: A linear array SIMD processor for real-time image processing
Chang, H
Lee, C
Sunwoo, MH
1997 INTERNATIONAL CONFERENCE ON PARALLEL AND DISTRIBUTED SYSTEMS, PROCEEDINGS, 1997, : 132 - 137
[42] Time-Frequency Photonic Signal Processing
Cincotti, G.
Konishi, T.
Murakawa, T.
Nagashima, T.
Shimizu, S.
Hasegawa, M.
Hattori, K.
Okuno, M.
Mino, S.
Himeno, A.
Wada, N.
Uenohara, H.
2016 21ST OPTOELECTRONICS AND COMMUNICATIONS CONFERENCE (OECC) HELD JOINTLY WITH 2016 INTERNATIONAL CONFERENCE ON PHOTONICS IN SWITCHING (PS), 2016,
[43] Adaptive time-frequency ISAR processing
Chen, VC
RADAR PROCESSING, TECHNOLOGY, AND APPLICATIONS, 1996, 2845 : 133 - 140
[44] A PROGRAMMABLE MICROCOMPUTER-BASED SONAR ECHO PROCESSOR FOR REAL-TIME PROCESSING
POWELL, LA
STANTON, TK
IEEE JOURNAL OF OCEANIC ENGINEERING, 1983, 8 (04) : 280 - 287
[45] Time-Frequency Processing for Spatial Audio
Rumsey, Francis
JOURNAL OF THE AUDIO ENGINEERING SOCIETY, 2010, 58 (7-8): : 655 - 659
[46] Time-Frequency Processing of Nonstationary Signals
Boashash, Boualem
Azemi, Ghasem
O'Toole, John M.
IEEE SIGNAL PROCESSING MAGAZINE, 2013, 30 (06) : 108 - 119
[47] Information processing on the time-frequency plane
Aviyente, S
2004 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH, AND SIGNAL PROCESSING, VOL II, PROCEEDINGS: SENSOR ARRAY AND MULTICHANNEL SIGNAL PROCESSING SIGNAL PROCESSING THEORY AND METHODS, 2004, : 617 - 620
[48] SIMPil-K: a SIMD reconfigurable platform processor for real-time image processing
Fabiano, F. S.
Gentile, A.
Sorbello, F.
4TH INTERNATIONAL INDUSTRIAL SIMULATION CONFERENCE 2006, 2006, : 290 - +
[49] Automated real-time active sonar decision making by exploiting massive parallelism
Dwyer, RF
OCEANS '96 MTS/IEEE, CONFERENCE PROCEEDINGS, VOLS 1-3 / SUPPLEMENTARY PROCEEDINGS: COASTAL OCEAN - PROSPECTS FOR THE 21ST CENTURY, 1996, : 1193 - 1196
[50] REAL-TIME MAP REFINEMENT BY USE OF SONAR AND ACTIVE STEREO-VISION
WALLNER, F
DILLMANN, R
ROBOTICS AND AUTONOMOUS SYSTEMS, 1995, 16 (01) : 47 - 56

← 1 2 3 4 5 →