Titlebook: Underwater Communications; Marco Lanzagorta Book 2013 Springer Nature Switzerland AG 2013

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悅耳

Underwater Communication Channels,e physical properties of the ocean determine the relative advantages or disadvantages of underwater communication systems. To this end, the theoretical study of information propagation through noisy channels produces reliable quantitative measures of the operational performance of communication devi

INTER

Underwater Optical Communications: Technology,omings to the use of this underwater communication channel. But perhaps more restrictive, these systems are characterized by a extremely small data bandwidth, about 300 bits per second for VLF and a few bits per minute for ELF.

健壯

Underwater Optical Communications: System Performance,imit our discussion to the use of the APD and BQP sensors described in Chapter 5. For simplicity, in what follows we will ignore atmospheric effects and concentrate our analysis on the underwater channel. That is, our interest is the quality of the transmission on the water column above an underwate

指派

Conclusions, effect on the communication systems that can be deployed by a naval fleet. In particular, we described why underwater vehicles are required to communicate while operating at depths in excess of 60-100 m. In general, the most desirable mechanism for underwater vehicle-to-satellite communications wou

規(guī)章

Book 2013ystem connecting underwater vehicles on a long seaborne mission and a ground station. As a matter of fact, the deployment of efficient communication links with underwater vehicles is one of the greatest technological challenges presently confronted by the world‘s naval forces.To circumvent most of t

laparoscopy

1932-1244 nication system connecting underwater vehicles on a long seaborne mission and a ground station. As a matter of fact, the deployment of efficient communication links with underwater vehicles is one of the greatest technological challenges presently confronted by the world‘s naval forces.To circumvent

Inferior

虛度

Underwater Communication Channels,ces. In this chapter we will rely on an information-theoretical analysis to determine the specific advantages and disadvantages of the most widely used underwater communication channels: fiber optics, acoustic, radio-frequency (RF), and optical.

BRIDE

Underwater Optical Communications: System Performance,nd concentrate our analysis on the underwater channel. That is, our interest is the quality of the transmission on the water column above an underwater vehicle traveling below the mixed layer. However, a detailed link budget of the system should consider the non-negligible effects created by the atmospheric column and the air-water interface.