2. Articole
Permanent URI for this collectionhttps://msuir.usm.md/handle/123456789/47
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Item CINETICA TRANZIŢIILOR DE FAZĂ DIRIJATĂ CU PARAMETRII DE CONTROL(CEP USM, 2013-09-26) Gubceac, Ghenadii; Șveț, Aliona; Paladi, FlorentinItem SIMULAREA SISTEMELOR FIZICE COMPLEXE ÎN BAZA MODELELOR ABM(CEP USM, 2013-09-26) Guţu, Roman; Căpăţână, Gheorghe; Paladi, FlorentinItem ON THE STABILITY OF EQUILIBRIUM STATES OF THE DYNAMICAL SYSTEMS IN CRITICAL CASES(Elsevier, 2021) Barsuk, Alexandr A.; Paladi, FlorentinItem MONITORIZAREA PROCESELOR DE DEZVOLTARE A PLANTELOR PRIN MĂSURĂRI ALE SPECTRELOR OPTICE(CEP USM, 2020) Sprincean, Veaceslav; Caraman, Mihail; Chiriţa, Arcadii; Paladi, FlorentinItem CERCETAREA SPECTRELOR DE REFLECTANȚĂ A MICROOBIECTELOR BIOLOGICE LA DISTANȚA(CEP USM, 2020) Chiriţa, Arcadii; Caraman, Mihail; Sprincean, Veaceslav; Paladi, FlorentinItem CONTRIBUȚII LA STUDIUL STABILITĂȚII STĂRILOR DE ECHILIBRU ALE SISTEMELOR DINAMICE COMPLEXE(CEP USM, 2020) Barsuc, Alexandr; Paladi, FlorentinItem MODELAREA DINAMICII DE TRANZIȚIE PRIN INTERMEDIUL FLUCTUAȚIILOR TERMICE(CEP USM, 2020) Paladi, Florentin; Barsuc, AlexandrItem TRANZIŢII DE FAZĂ DE ORDINUL ÎNTÂI: DE LA MODELAREA MICROSCOPICĂ ABM LA MODELE MACROSCOPICE PARAMETRICE(CEP USM, 2014) Gubceac, Ghenadii; Paladi, FlorentinItem ȘCOALA DOCTORALĂ – ELEMENT-CHEIE ÎN ORGANIZAREA ȘTIINŢEI MODERNE(Academia de Ştiinţe a Moldovei, 2011) Paladi, FlorentinItem UAV-BASED MEASURING STATION FOR MONITORING AND COMPUTATIONAL MODELING OF ENVIRONMENTAL FACTORS(IEEE, 2021) Sprincean, Veaceslav; Paladi, Adrian; Andruh, Vasili; Danic, Anton; Lozovanu, Petru; Paladi, FlorentinSoftware application for computational modeling of environmental factors, in connection with UAV -based measuring station for environmental factors monitoring in realtime regime precise measurements [1], which facilitates the analysis and interpretation of the monitoring results, has been developed as an integrated mobile system for exact monitoring and computational modeling of environmental factors. This paper deals with the second stage related to the drone-dedicated system developed at the Moldova State University (MSU) in the research laboratory Environmental Physics and Modeling Complex Systems (MSU ePhysMCS Lab) for the observation and support of the air analysis for pollution, chemical and radiological contaminations [2]. The exact data are used in modeling of the impact of biotic and abiotic factors during the real-time environmental monitoring process.