Vladimir Antonov scite author profile

Objective. The purpose of the work is to increase the efficiency of the process of task allocation through preliminary decomposition and prioritization of tasks based on the process of collective decision-making (CDM) in swarm robotic systems (SRS).Method. Task decomposition implemented using a hybrid decision-making strategy, the majority principle of changing opinions using distributed registry technology for disseminating opinions among SRS agents and aggregating accumulated knowledge about the functioning environment. An element of scientific novelty is the proposed SRS procedure, which provides the possibility of assessing the priority of tasks, which in turn improves the efficiency of the SRS agents.Result. Software implementation of the proposed method made in the C++ programming language. For the experiments, the scenario of collective perception by SRS agents in a specialized simulation environment ARGoS was used.Conclusion. The method implemented using the solutions proposed in the work turned out to be more efficient than the method based on the greedy algorithm. The proposed solutions can be used not only in SRS, but also in any other robotic systems with decentralized control, designed to monitor and control environmental parameters.

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Photo-, cathodic- and electroluminescence-band models in solid (SiC)_1-x(AIN)_x luminescence centers and SiC/SiC-AIN LEDs

Dadashev

Sankin

Altukhov

et al. 2021

IOP Conf. Ser.: Mater. Sci. Eng.

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The paper presents models of bands (levels) in solid (SiC)1-x(AlN)x luminescence centers and n-SiC/p-(SiC)1-x(AlN)x heterostructures (light-emitting diodes). The diagram of (SiC)1-x(AlN)x energy gaps shows the positions of luminescence levels, subject to x. A SiC/SiC–AlN series of electroluminescence bands, for the first time, is found to have a continuous relationship between the positions of short-wave and long-wave band maxima in a K-minimum conduction band, respectively, as continuous functions of contact current density.

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