Abstract
This paper describes development of a visible light 4 Pulse position modulation (4PPM) data communication device for underwater swarms using a nonlinear synchronizing system. SWARM—a group robot that uses intelligence as a group—do as ants and bees, is expected to be useful for marine resource exploration. Specifically, numerous SWARMs will be grouped to explore marine resources efficiently. An important difficulty is the change in electronic circuit characteristics because of high water pressure in the deep sea. Development of small and simple underwater SWARM communication devices must eliminate this problem without using large pressure-proof containers. As described herein, we considered nonlinear synchronizing systems as effective because they can be synchronized even if system time constants differ. Such systems resemble the glow mechanism used by fireflies. They have individuality, but they flash synchronously when in a group. We developed a visible light communication device using this nonlinear synchronization system based on the firefly concept. Test results confirmed that they are synchronized even if a time constant difference exists between them. Furthermore, we achieved 4PPM data communication using the nonlinear synchronization signal as a communication clock.
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References
Buck J, Buck E (1976) Synchronous fireflies. Sci Am 234(5):74–85
Kuramoto Y, Kawamura Y (2017) Science of synchronization (in Japanese). Kyoto University Press, Kyoto
Kimura H, Eguchi M (2002) Development of electronic fireflies which have ability of mutually synchronous flashing (in Japanese). Rep Yamagata Coll Ind Technol 2002:34–37
Tahara J, Koike M, Zhang F (2016) Development of a communication system using a non-linear synchronous firefly. In: Proceedings of 21st international symposium on artificial life and robotics (AROB), pp 78–82
Ito T, Tahara J, Koike M, Zhang F (2017) Development of the visible light communication device for swarm using nonlinear synchronizing. In: Proceedings of 22nd international symposium on artificial life and robotics (AROB), pp 109–113
Sekikawa M, Kimoto K, Kohno T, Kawakami H, Aihara K (2011) Synchronization phenomena in square-wave oscillators with optical coupling (in Japanese). IEICE Tech Rep Circuits Syst 111(242):73–78
Garvar W, Moss F (1993) Electronic fireflies. Sci Am 269(6):128–130
Kousaka T, Ueta T, Kawakami H (1996) Synchronization of EFFs by using square wave generator (in Japanese). Tech Rep IEICE NLP 96(72):27–32
Hatano Y, Tomonaga S, Kousaka T (2008) Synchronization and bifurcation in a square wave oscillator coupled using a capacitor (in Japanese). Tech Rep IEICE NLP 108(175):49–52
Lin X (2017) Adaptive control for LED-based underwater wireless communication using visible light. IEICE E100 100(1):185–193
Ueno H, Sato Y, Kataoka A (2007) Visible light ID system (in Japanese). Toshiba Rev 62(5):44–47
Acknowledgements
This work was supported by JSPS KAKENHI Grant No. JP26420838, and JKA (H28-136). Its promotion funds were received from KEIRIN RACE.
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Ito, T., Tahara, J., Koike, M. et al. Development of the visible light communication device for swarm using nonlinear synchronization. Artif Life Robotics 23, 60–66 (2018). https://doi.org/10.1007/s10015-017-0396-8
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DOI: https://doi.org/10.1007/s10015-017-0396-8