Konstantinos Panayiotou scite author profile

This paper presents a method of designing variable structure control systems for robots. As the on-board robot computational resources are limited, but in some cases the demands imposed on the robot by the user are virtually limitless, the solution is to produce a variable structure system. The task dependent part has to be exchanged, however the task governs the activities of the robot. Thus not only exchange of some task-dependent modules is required, but also supervisory responsibilities have to be switched. Such control systems are necessary in the case of robot companions, where the owner of the robot may demand from it to

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Expanding a robot's life: Low power object recognition via FPGA-based DCNN deployment

Mousouliotis

Panayiotou

Tsardoulias

et al. 2018

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FPGAs are commonly used to accelerate domainspecific algorithmic implementations, as they can achieve impressive performance boosts, are reprogrammable and exhibit minimal power consumption. In this work, the SqueezeNet DCNN is accelerated using an SoC FPGA in order for the offered object recognition resource to be employed in a robotic application. Experiments are conducted to investigate the performance and power consumption of the implementation in comparison to deployment on other widely-used computational systems.

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Functional properties of egg yolk concentrate with a reduced cholesterol content prepared by treatment with supercritical CO2

1997

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Autonomous Robots, Drones and Repeaters for Fast, Reliable, Low-Cost RFID Inventorying & Localization

Dimitriou¹,

Tzitzis²,

Filotheou³

et al. 2021

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