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Students’ View of Quantum Information Technologies

Drecka Dagmara A., Lipiński Marek T., Sarwiński Adrian Z., Sowa Arkadiusz, Turliński Jakub K., Romaniuk Ryszard S.

International Journal of Electronics and Telecommunications

2023

Vol. 69, No. 3

627--633

The article is a sort of advanced publication workshop prepared by a group of M.Sc. students in ICT participating in the course on QIT. The idea behind the publishing exercise is to try to link, if possible, individual own work just under realization for the thesis with new unique possibilities offered by the QIT. Each chapter is written by a single author defining concisely her/his research interest in the classical ICT field and trying to find possible correlations with respective abruptly developing branches of the QIT. The chapter texts are somehow moderated by the tutor but are exclusively authored by young researchers. The aim was to present their views on the possible development directions of particular subfields of QIT, if not fully mature, but still based on their own ideas, research and dreams.

Selected Advances of Quantum Biophotonics : a Short Review

Lelit Marcin, Białecki Andrzej, Gabler Tomasz, Łabaj Filip, Pituła Emil, Romaniuk Ryszard S.

International Journal of Electronics and Telecommunications

2023

Vol. 69, No. 2

399--405

This article discusses four fields of study with the potential to revolutionize our understanding and interaction with biological systems: quantum biophotonics, molecular and supramolecular bioelectronics, quantum-based approaches in gaming, and nano-biophotonics. Quantum biophotonics uses photonics, biochemistry, biophysics, and quantum information technologies to study biological systems at the sub-nanoscale level. Molecular and supramolecular bioelectronics aim to develop biosensors for medical diagnosis, environmental monitoring, and food safety by designing materials and devices that interface with biological systems at the molecular level. Quantum-based approaches in gaming improve modeling of complex systems, while nanomedicine enhances disease diagnosis, treatment, and prevention using nanoscale devices and sensors developed with quantum biophotonics. Lastly, nano-biophotonics studies cellular structures and functions with unprecedented resolution.

Eksploatacyjne właściwości magistrali CAN w pojazdach samochodowych

Plich M., Szypowski P.

Prace Naukowe Politechniki Warszawskiej. Transport

2013

z. 92

155--166

W artykule przedstawiono koncepcję stanowiska diagnostycznego do badań bloków funkcjonalnych i zespołów elektryczno-elektronicznych współpracujących w ramach nowej generacji połączeń w sieci CAN. Sformułowano ogólne cele i zasady działania systemu zawarte w protokóle CAN. Pokazano strukturę sieci multipleksowej ilustrując przykładową jej budowę wraz z rozmieszczeniem poszczególnych elementów w samochodzie. Przedstawiono stosowane obecnie urządzenia diagnostyczne z zaznaczeniem urządzeń dedykowanych dla pojazdów wyposażonych w stosowny interfejs oraz oprogramowanie na przykładzie marki samochodów Renault Nissan, Dacia.

The paper presents the concept of diagnostic station for testing functional blocks and electrical and electronic sets cooperating within new generation connections of CAN network. General objectives have been formed as well as the rules of system operation within CAN protocol. The structure of multiplex network has been presented illustrating its sample construction together with the arrangement of particular elements in a motor vehicle. Currently used diagnostic devices have been presented indicating the devices dedicated for vehicles equipped with appropriate interface and software on the example of such car makes as Renault, Nissan, Dacia.