Moball: An intelligent wind-opportunistic mobile sensor to monitor the polar regions

Sensors capable of operating in harsh environments for long periods of time and having wireless readout capability are needed for mapping environmental conditions in remote areas, such as polar regions. In this paper, we report the first measured results of an innovative in-situ system of controllab...

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Bibliographic Details
Published in:2015 IEEE SENSORS
Main Authors: Davoodi, Faranak, Asama, Junichi, Rais-Zadeh, Mina, Burdick, Joel, Behar, Alberto
Format: Book Part
Language:unknown
Published: IEEE 2015
Subjects:
Arctic Mapping
Energy Harvesting
Wireless mesh Network of Mobile Sensors
Sensor Networks
Mobile Sensor Networks
Distributed Control System of Moballs
Moball
Moball Network
Moball-buoy
Task sharing and Learning Sensor Network
Intelligent Buoy Network
Spherical Sensors
Wind Energy Harvesting
Arctic
Online Access:https://doi.org/10.1109/ICSENS.2015.7370545
Description
Summary:Sensors capable of operating in harsh environments for long periods of time and having wireless readout capability are needed for mapping environmental conditions in remote areas, such as polar regions. In this paper, we report the first measured results of an innovative in-situ system of controllable and wind-opportunistic spherical mobile sensors (called Moballs), used to monitor and map various environmental factors in polar areas. To have self-powered controlled motion, Moballs exploit the abundance of wind and a novel dual-functioning mechanical control and linear induction system. Moballs have peer-to-peer and Moball-to-base (e.g. satellite) communication capability, reporting the sensory data back to the base station or other peer Moballs for task sharing decisions, improving area coverage, optimizing system performance, etc. © 2015 IEEE. This work is supported by NASA HQ Novel Research in Earth Science Program and by the NASA Early Career Faculty Development Program.

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