Shaobo Sun scite author profile

Shaobo Sun

4Publications

23Citation Statements Received

40Citation Statements Given

How they've been cited

How they cite others

Affiliations

Coventry (United Kingdom), University of Warwick, Technical University of Denmark

Publications

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Measurements and analysis of acoustic backscattering by elastic cubes and irregular polyhedra

Thorne

Sun

Zhang

et al. 1997

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Underwater acoustic studies of backscattering by submerged targets have generally focused on bodies with spherical and cylindrical symmetry. However, there are interests in scattering by objects which may be characterized by more angular features, with surfaces that tend to be composed of facets and edges. To investigate the scattering properties of such bodies, the backscattering by a number of elastic cubes, and irregularly shaped polyhedra, have been studied. Data were collected by measuring the band limited impulse response of the scatterers, using a broadband transducer, which operated as a transceiver, both transmitting and receiving signals. To present the scattering measurements nondimensionally a form function definition has been employed to normalize the backscattered signals. The normalized frequency has been expressed as ka, where k is the acoustic wave number, and a is a characteristic dimension of the scatterer. The cube observations covered a broad ka range, kaϭ3 -34, thereby encompassing the lower ka scattering region where the cube can be considered to be nominally rigid, through to higher ka values where it would be expected that the elastic properties of the cube become important. The measurements on irregular polyhedra are more limited in extent, however, the results are presented for comparison with the cube data. To compare the observations with predictions, computations of acoustic backscattering for both rigid and elastic cubes are presented.

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Tunable Pulse Amplitude and Position Modulation Technique for Reliable Optical Wireless Communication Channels

Zeng¹,

Green

Sun

et al. 2007

JCM

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Modulation techniques have attracted increasing attention in optical wireless communications. Basic schemes such as on off keying (OOK), pulse amplitude modulation (PAM) and pulse position modulation (PPM) have been validated as suitable for the optical wireless channel. This paper starts from the analysis of these three modulation schemes in terms of their power and bandwidth requirements. As a result, a new tunable hybrid modulation technique is proposed. The proposed modulation scheme takes the real time channel conditions into account, which is different from other schemes. By employing amplitude and position modulation selectively, a guaranteed system performance can be secured, without compromising power and bandwidth efficiency. This is also a new approach to realize reliable optical wireless links.

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Spectrum slicing for low cost wavelength division multiplexing

Leeson

Sun

2008

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The key features of spectrum slicing are discussed in the context of the provision of low cost customer access as an alternative to laser systems. The history of the method is presented followed by an outline of performance analysis techniques. Following from this, system results are introduced from on-off keying leading to promising outcomes from the use of more sophisticated coding and modulation methods. There is also discussion of the use of shared optical preamplifiers that can deliver increased throughput and sensitivity benefits of almost 11 dB.

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Inversion in shallow-water using the WKB modal condition

Shang

Wang²,

Sun³

1996

IEEE J. Oceanic Eng.

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Shaobo Sun

Measurements and analysis of acoustic backscattering by elastic cubes and irregular polyhedra

Tunable Pulse Amplitude and Position Modulation Technique for Reliable Optical Wireless Communication Channels

Spectrum slicing for low cost wavelength division multiplexing

Inversion in shallow-water using the WKB modal condition

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