Wykaz obszarów badawczych związanych z tagiem Automatyzacja:
| # | Obszar badawczy | Dziedzina naukowa |
|---|---|---|
| 1 |
The research area encompasses methods and algorithms for optimization, control, and automation developed for quantum computer infrastructure systems using the ARTIQ environment and its extensions (such as DAX, QisDAX), as well as employing statistical methods of deep learning and heuristic algorithms. The work will include the conceptualization, modeling, and simulation of developed proprietary algorithms and their implementation and experimental evaluation on the physical infrastructure of a quantum computer based on trapped ions.
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| 2 |
Design and development of integrated point-of-care systems for biomedical diagnostics – this research area encompasses the development of modern, miniaturized point-of-care (POC) diagnostic devices that integrate sample preparation, analysis, and result reading functions into a single system. Research focuses on the design of disposable microfluidic systems (cassettes, cartridges, LFA test strips) and the construction of autonomous readers enabling diagnostic testing directly at the patient. This includes the development of integrated flow management systems (micropumps, microvalves, microfluidic channels), measurement electronics, control software, and user interfaces. Particular emphasis is placed on the integration of biosensors (e.g., electrochemical, optical) with microfluidic platforms and the automation of the entire diagnostic process. The technologies being developed are used in companion diagnostics, oncology, cardiovascular diseases, and many other conditions requiring rapid and precise biomarker detection. Furthermore, the systems being developed can be adapted to detect infectious agents, including viruses, bacteria, and parasites, enabling their use in the rapid diagnosis of infectious diseases in clinical settings, in the field, and during crisis situations. Such platforms also have potential for diagnostic applications in the military, emergency services, and combat medicine, where mobility, speed, independence from laboratory infrastructure, and the ability to operate in challenging environmental conditions are essential.
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