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Your search keyword '"Kalogeiton, Vicky S."' showing total 8 results
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8 results on '"Kalogeiton, Vicky S."'

1. Programmable Crossbar Quantum-dot Cellular Automata Circuits

Author

Kalogeiton, Vicky S., Papadopoulos, Dim P., Liolis, Orestis, Mardiris, Vassilios A., Sirakoulis, Georgios Ch., and Karafyllidis, Ioannis G.

Subjects
Computer Science - Emerging Technologies
Abstract

Quantum-dot fabrication and characterization is a well-established technology, which is used in photonics, quantum optics and nanoelectronics. Four quantum-dots placed at the corners of a square form a unit cell, which can hold a bit of information and serve as a basis for Quantum-dot Cellular Automata (QCA) nanoelectronic circuits. Although several basic QCA circuits have been designed, fabricated and tested, proving that quantum-dots can form functional, fast and low-power nanoelectornic circuits, QCA nanoelectronics still remain at its infancy. One of the reasons for this is the lack of design automation tools, which will facilitate the systematic design of large QCA circuits that contemporary applications demand. Here we present novel, programmable QCA circuits, which are based on crossbar architecture. These circuits can be programmed to implement any Boolean function in analogy to CMOS FPGAs and open the road that will lead to full design automation of QCA nanoelectronic circuits. Using this architecture we designed and simulated QCA circuits that proved to be area efficient, stable and reliable.

Published
2016

8. Hey Physarum! Can you Perform SLAM?

Author

KALOGEITON, VICKY S., PAPADOPOULOS, DIM P., and SIRAKOULIS, GEORGIOS CH.

Subjects
PHYSARUM polycephalum, PLASMODIUM, CELLULAR automata, AGGREGATION (Robotics), ROBOT motion
Abstract

In this paper, an innovative bio-inspired unconventional approach to tackle with the Simultaneous Localization and Mapping (SLAM) task is presented. The proposed method draws inspiration from the slime mold Physarum polycephalum by utilizing the computational tool of Cellu-lar Automata (CA). In particular, a fully autonomous robot, equipped only with an omni-directional camera, explores and maps successfully an indoor unknown terrain by adopting the behaviour of the micro-organism Physarum polycephalum, namely its olfaction, its propaga-tion and foraging process. The Physarum's sense of olfaction corre-sponds to the robots unique sensor, namely an omni-directional camera and the foraging as well as the movement procedure of the organism in terms of robots SLAM is matched with the detection and mapping of an unknown space and the movement strategy, respectively. Moreover, the diffusion field of the Plasmodium corresponds to the robots field of view. In order to evaluate the proposed approach several experiments are drawn, that indicate the ability of the presented model to effectively and efficiently achieve its goals. The obtained results were compared to the corresponding ones produced by the random movement algorithm as well as by an exhaustive search algorithm. In all the examined cases, the presented simulation results reveal the strength and the superiority of the proposed method. [ABSTRACT FROM AUTHOR]

Published
2014

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