Abstract
For decades, underwater acoustic communication has been restricted to the point-to-point long distance applications such as deep sea probes and offshore oil fields. For this reason, previous acoustic modems were typically characterized by high data rates and long working ranges at the expense of large size and high power consumption. Recently, as the need for underwater wireless sensor networks (UWSNs) has increased, the research and development of compact and low-power consuming communication devices has become the focus. From the consideration that the requisites of acoustic modems for UWSNs are low power consumption, omni-directional beam pattern, low cost and so on, in this paper, we design and implement an omni-directional underwater acoustic micro-modem satisfying these requirements. In order to execute fast digital domain signal processing and support flexible interfaces with other peripherals, an ARM Cortex-M3 is embedded in the micro-modem. Also, for the realization of small and omni-directional properties, a spherical transducer having a resonant frequency of 70 kHz and a diameter of 34 mm is utilized for the implementation. Physical layer frame format and symbol structure for efficient packet-based underwater communication systems are also investigated. The developed acoustic micro-modem is verified analytically and experimentally in indoor and outdoor environments in terms of functionality and performance. Since the modem satisfies the requirements for use in UWSNs, it could be deployed in a wide range of applications requiring underwater acoustic communication.
Highlights
Underwater acoustic communication is a technique which enables devices to exchange data wirelessly in the water
The main applications of underwater acoustic communication have been limited to deep sea probes and exploitation of offshore oil fields, requiring acoustic modems which consume high power but support long working ranges [3,4]
The modem consists of a digital board, two analog boards and a transducer and it can be interconnected with external devices such as personal computer (PC) by the universal asynchronous receiver and transmitter (UART) protocol
Summary
Underwater acoustic communication is a technique which enables devices to exchange data wirelessly in the water. The modem supports a working range of 500 m with a power consumption of 7.2 W, but its data rate is merely 40 bps [13] Since these two micro-modems described above are equipped with underwater transducers having cylindrical shapes and low resonant frequencies between 10 and 30 kHz, they have toroidal beam pattern in the vertical axis and the size of their transducers is quite large. In order to apply an acoustic modem to UWSNs, it has to possess several properties, including low-power consumption, omni-directional beam pattern, small size, low cost, moderate data rate and good working range. From these observations, in this paper we design and implement a.
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