BrainMap

Ramona Galatus

- UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Researcher | Teaching staff | Scientific reviewer

Web of Science ResearcherID: L-2414-2014

Expertise & keywords

Detection of water pollutants by fluorescent sensors based on Calcogenide Quantum Dots Composites with Smartphone Interface Call name: P 2 - SP 2.1 - Proiect experimental - demonstrativ
PN-III-P2-2.1-PED-2021-2421 2022 - 2024

Role in this project: Partner team leader

Coordinating institution: UNIVERSITATEA BABES BOLYAI

Project partners: UNIVERSITATEA BABES BOLYAI (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO); TEDELCO S.R.L. (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://depoflu.granturi.ubbcluj.ro

Abstract:

The main objective of the project is to develop a portable fluorescent

device used in the detection and analysis of water contaminants, more

specifically for detection of heavy metal ions. The sensing active

material is based on zinc calcogenide QDs with a fluorescence response

in the visible spectral range. The project’s end-product is an

experimental demonstrator with two modules used for analysis of the

target ions: one for the fluorescence intensity and the other one for

spectral analysis. The demonstrator comprises the following key

components: *the nanostructured fluorescent material (which contains

the sensing area, as the core of the device); *the sampling holder

(which represents a host for the fluorescent chip, forming the sensing

module); *the package (which contain sensing module with appropriate

light sources, detectors, control electronics and software); *the PC and

Smartphone interfaces (for data collection) both wired and Bluetooth

(for data transmission). The fluorescence device presents advantages

compared to the currently existing water systems analysis namely:

*portable, *low-cost, *versatile, *fluorescence excitation mode;

*Bluetooth fast data transmission; * incorporated calcogenide QDs as

sensing area,* enhanced functionality. The project’s activities span

over a broad range of methods and approaches, beginning with specific

techniques in nanotechnology for QDs preparation (colloids, films) and

continuing with electronics, mechanics, automation and embedded

software. Algorithms for signal processing employed for the simulation

of the fluorescent response is also present. The extremely complex

project is realized in a well structured partnership, two academic and

one private: Babes-Bolyai University, Technical University and SC

Tedelco SRL, all in Cluj-Napoca. The results of the project’s topic is of

practical relevance for a variety of analytical applications in field of

environment, medicine, food/water safety, pharmaceutics.

Renewable and green energy smart power supply systems for on-body sensors and handheld devices Call name: P 2 - SP 2.1 - Proiect experimental - demonstrativ
PN-III-P2-2.1-PED-2019-2601 2020 - 2022

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA BABES BOLYAI

Project partners: UNIVERSITATEA BABES BOLYAI (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://www.chem.ubbcluj.ro/~ccsoom/organic/ped2601.html

Abstract:

The project Renewable and green energy smart power supply systems for on-body sensors and handheld devices exhibits as main goal the development of new and innovative charging systems able to support the work of on body sensors and handheld devices. The target energy supply sources are Organic Solar Cells fabricated in the inverted cells technology which provides more robust and friendlier to manipulate devices. Many of the donors and acceptors envisaged to be used are compounds which were already obtained and investigated in our group (in usual OSCs). The target inverted OSCs use as support light and flexible materials which at the same time are eco-friendly and biocompatible. These materials are appropriate to the proposed applications, being possible their “quite” invisible attachment to clothes or small equipment’s and the total requested active surface is of few cm2. Besides the original work concerning the access to the OSCs which transform light in electric power a complex and original arsenal of miniature electronic devices must be produced in order to ensure the appropriate work of the entire power supply device. Several cells will be smartly connectedin an OSC Array (able to provide current at a given voltage). The output current obtained in the OSC Array will be modulated by a Charger System which will produce a current in appropriate parameters either for the charging of Li-ion or Li-po batteries which deserve a handheld device or for the charging of a supercapacitor (with role of battery) which deserve an on-body sensor. Another important device is the DC-DC convertor with role to modulate the current sent to the on-body sensor. All these electronic circuits will use microelectronics design and will be implemented on a thin flexible film coated with ITO as a PCB (printed circuit board) substrate. At the end of the project we will provide demonstrators to prove the viability of our work and we will record an evolution from TRL2 to TRL4.

HORIZON2020-COST-CA16220-European Network for High Performance Integrated Microwave Photonics Call name:
COST-CA16220 2017 - 2021

Role in this project: Key expert

Coordinating institution: ITEAM RESEARCH INSTITUTE CAMINO DE VERA S/N Spain VALENCIA

Project partners: ITEAM RESEARCH INSTITUTE CAMINO DE VERA S/N Spain VALENCIA (RO); UNIVERSITATEA TEHNICA CLUJ-NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA CLUJ-NAPOCA (RO)

Project website: https://euimwp.eu/

Abstract:

The European Network for High Performance Integrated Microwave Photonics (EUIMWP) Action aims to shape and bring the relevant IMWP community supporting coordination and networking actions to consolidate this new IMWP ecosystem, providing exchange of knowledge, ideas and delivering a portfolio of technological benchmarkings to establish performance indicators defining future technological requirements in high performance scenarios such as 5G, automotive and aerospace technologies.

SELF-ORGANIZED PI-CONJUGATED SYSTEMS AS ACTIVE CONSTITUENTS FOR SINGLE-MATERIAL ORGANIC SOLAR CELLS (SMOSCs) Call name:
p_37_220 2016 - 2020

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA BABES BOLYAI

Project partners: UNIVERSITATEA BABES BOLYAI (RO)

Affiliation: UNIVERSITATEA BABES BOLYAI (RO)

Project website: http://orglight.granturi.ubbcluj.ro/

Abstract:

obținerea de materiale active inovative pentru celule solare organice unicomponente [single-material organic solar cells (SMOSCs)] utilizând tehnologii ecologice, ieftine și eficiente

Innovative Tehnological Approaches for validation of Sailvary AGEs (Advanced Glycation End Products) as novel biomarkers in evaluation of risk factors in diet related diseases Call name: P 3 - SP 3.2 - Proiecte ERA.NET - COFUND
COFUND-ERA-HDHL ERANET -SALIVAGES 2017 - 2020

Role in this project: Partner team leader

Coordinating institution: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU"

Project partners: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU" (RO)

Affiliation: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU" (RO)

Project website: http://www.umfcluj.ro/component/content/article/8-ro/508-proiect-salivages?Itemid=216

Abstract:

Advanced Glycation End Products (AGEs) may exert negative effects on the human body by altering

structure/function of proteins and by activating selective receptors. We have recently contributed to demonstrate

the role of diet in producing different patterns of AGEs and to elucidate the mechanisms by which AGEs mediate

diet-induced metabolic changes. Nevertheless, the role of salivary AGEs as early biomarkers of transition towards

diet-related disease has never been proposed.

AIMS: The main aims of SALIVAGES are: (i) the identification of the main AGEs modulated by diets, focusing

on saliva as a highly accessible source of AGEs, and (ii) the validation of non-invasive methods to detect salivary

AGEs as biomarkers of the risk of developing diet-related diseases.

WORK PLAN: Original models will be developed to study AGEs accumulation in oral mucosa, gut and adipose

tissue and the related activation of selective molecular pathways. Advanced multidimensional analytical platforms

(GC×GC-MS, HPLC-MS/MS) and highly sensitive biosensors will be used to comparatively detect AGEs in

different biofluids (saliva, blood, urine). Metabolite profiling as well as targeted and untargeted fingerprinting on

multidimensional analytical data will support the investigation overtaking reductionist vision limited to single

biomarker discovery. Innovative glycomic analyses of biological samples will allow the study of glycosylation

changes in response to AGEs and the identification of putative glycobiomarkers. Novel recognition molecules and

biomimics will subsequently be developed. Analysis on salivary AGEs from healthy subjects will allow to verify

whether results emerged from experimental work are relevant for humans and to identify specific AGEs as

biomarkers with relevant clinical information potential. Salivary volatilome will be profiled to define correlations

with AGEs distribution.

IMPACT OF THE EXPECTED RESULTS: The expected results will contribute to promote the development of

innovative diagnostic approaches to classify individual patterns and/or establish the degree of health changes.

These results will be achieved by multidisciplinary approaches based on the integration of preclinical and clinical

studies, analytical and food chemistry, metabolomics and information technologies. Overall, SALIVAGES will

contribute to reveal new horizons in the identification of strategies for monitoring key biological processes

underlying the nutrition-health relationship.

Mobilitate cercetător Ramona Galatus Call name: P 1 - SP 1.1 - Proiecte de mobilitate pentru cercetatori, 2019
PN-III-P1-1.1-MC-2019-2577 2019 - 2019

Role in this project:

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website:

Abstract:

FP7-COST MP1307-Stable Next-Generation Photovoltaics: Unraveling degradation mechanisms of Organic Solar Cells by complementary characterization techniques (StableNextSol) Call name:
COST MP1307 2014 - 2018

Role in this project: Key expert

Coordinating institution: FUNDACIÓ INSTITUT CATALÀ DE NANOCIÈCIA I NANOTECNOLOGIA Edifici ICN2 Bellaterra (Barcelona) Spain Bellaterra

Project partners: FUNDACIÓ INSTITUT CATALÀ DE NANOCIÈCIA I NANOTECNOLOGIA Edifici ICN2 Bellaterra (Barcelona) Spain Bellaterra (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://stablenextsol.eu/

Abstract:

Organic photovoltaic devices (OPVs) have major potential as a principal source of clean electricity for the future. However, the large-scale introduction of OPVs onto the market is currently limited by their stability. Initial reports indicate that the required lifetime of more than 20 years is theoretically feasible. However, progress in this area has been slow, because the complex and hierarchical degradation paths involved can only be understood by applying complementary chemical and physical characterization techniques. The Action StableNextSol aims to create a highly interdisciplinary network of academic and industry researchers to study the degradation mechanisms occurring in state-of-the-art OPVs, based on the use of complementary analytical techniques. The Action seeks to integrate and generate fundamental knowledge and expertise to foster disruptive innovations targeted to mitigate device failure, and aims to develop new concepts for OPVs that are more stable and reach lifetimes longer than 20 years. The added value of this COST Action will be the contribution of photovoltaic researchers at the European (EU) and international levels along the entire value chain, and of public-sector decision makers who will promote the implementation of specialisation policies and standards currently lacking in this area. This Action will contribute to the development of the new generation of researchers in the field by supporting the cooperation and interaction between different laboratories and large European infrastructures. The Action has extended their efforts to Perovskite solar cells technologies, fabrication methodologies and publishing protocols, and has also integrated the Perovskite community; for this reason the title of the Action was changed in April 2018 to include also Perovskite solar cells.

HORIZON2020- COST “MP 1401 - Advanced Fibre Laser and Coherent Source as tools for Society, Manufacturing and Lifescience Call name:
COST MP1401 2014 - 2018

Role in this project: Key expert

Coordinating institution: Swansea University, Singleton Park United Kingdom Swansea

Project partners: Swansea University, Singleton Park United Kingdom Swansea (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://www.aflaser.eu/

Abstract:

Among the different types of Lasers, fibre lasers are, both as research and commercially, the youngest, yet the fast growing type of laser due to several factors. This Action will be the first arena where experts in fundamental material science, established laser and component groups, fibre laser manufacturers and end-users will be able to actively interact, share know-how and focus on common goals. We do expect to boost a series of innovations in the field. Among them we aim to cover the 3-6 micron wavelength interval, and beyond, to support mid-infrared applications and to enhance fibre performance to cover more efficiently visible and ultra-violet wavelength generation for biophotonics and healthcare. The Action will also investigate glass material and fibre design to overcome the actual limitation in output power. The improvements will mainly boost healthcare to benefit wide society and EU manufacturing to retain and increase manufacturing workforce within EU. The Action will mentor a new generation of researchers by providing Early Stage Researchers an opportunity to develop both scientific and management skills. At the same time the Action will actively promote gender balance and women researchers to management positions.

Intelligent system for dams surveilance by information fusion Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2016-0134 2016 - 2018

Role in this project: Key expert

Coordinating institution: IPA SA

Project partners: IPA SA (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://www.automation.ro/damfu/

Abstract:

The project aims to develop a system - complex, modular product destined for dams supervision and other hydrotechnical critical infrastructure, IHC, (dikes, weirs, adductions channel, surge towers), in order to ensure their safety on natural disasters, on technological accidents, and on natural aging processes, for protecting population and environment.

To achieve the proposed goal, it aims to develop and validate under operating conditions similar to real ones TRL6 of the prototype for modular, configurable product-system, destined for IHC supervision, by acquisition techniques, processing and fusion of multisensory information with image information processed by "computer vision" techniques. Will be capitalized obtained results, at the level of laboratory model, and experimental model: on FUZIBAR project (ctr. 705/2006, CEEX), by partners of the project proposal IPA SA (CO coordinator) and Technical University of Cluj-Napoca (P1 partner)

The system will be composed of Information processing and fusion station – STAFI, and the following subsystems specific to IHC supervision: i)Data acquisition and processing station for sensors and transducers incorporated in IHC - SASI; ii)Data acquisition and processing station for optical sensors designed for IHC tracking – SASO; iii)Video Inspection System - IHC- SIVI.

The system will be achieved and validate both on individual components, as well as an ensemble.

Nano-Enabled Optical Fiber Biosensor Device with Smartphone Interface for Fast and Selective Detection of Antibiotics in Water Call name: P 2 - SP 2.1 - Proiect experimental - demonstrativ
PN-III-P2-2.1-PED-2016-0172 2017 - 2018

Role in this project: Project coordinator

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO); UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU" (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://bel.utcluj.ro/~galatusr/PED67UEFISCDI.html

Abstract:

The water quality of the water subsystem network is important to be monitored in order to protect the public health and the local ecosystems from the harmful effects of the substances with risks to human and wildlife organisms. The European Union follows the strategic plan implementation of the Water Framework Directive 2000/60/EC. Current EU guidance on the implementation of the Water Supply Regulations for water quality monitoring includes the option for using online instrumentation to gather compliance data, rather than using sampling and laboratory analysis. Efficient tools for rapid detection of antibiotics in water are urgently needed and represents the core of the proposal. In the US alone, every year 3400 tons of antibiotics are used on patients, while 8900 tons are used on animals-2015. Up to 85% unmetabolized antibiotic is excreted in urine/feces by the human body On livestock animals are consumed more than twice the amount of antibiotics than on humans. Evidence of antibiotic resistant microorganisms has been found in surface wastewater, groundwater and drinking water. Based on a 2013 report regarding the sales in the community pharmacies of the systemic antibiotics from J01 class, Romania is the third biggest consumer of antibiotics in the EU. The present proposal aims to develop a water quality sensor system (WQSS) by integrating the facilities of the optical fibers technology and smartphone. The system is based on low-cost fiber optic sensors (FOS), with nanostructured plasmonic area, SPR(gold, Molecularly Imprinted Polymer and graphene). FOS, being intrinsically robust, reliable and immune to electromagnetic interference, are especially suitable for in situ real-time detection, being fully compatible with out-of-lab continuous monitoring. FOS offer strong arguments over traditional methods of sensing. Based on the expertise of two partners, the project will start at TRL2 and will end at TRL4 with SPR sensor integration remote monitoring station(WOSS).

Management and evaluation of the local and regional hipertermia models using advanced methods for temperature measurement and control Call name:
ASTR-CA1-2016 2016 - 2017

Role in this project: Partner team leader

Coordinating institution: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU"

Project partners: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU" (RO); TEDELCO S.R.L. (RO)

Affiliation: TEDELCO S.R.L. (RO)

Project website:

Abstract:

În prezent, hipertermia este inclusă în protocoale de tratament multimodal, care asociază chirurgiei, chimioterapia şi/sau radioterapia, existând trei mari modalități: hipertermia locală, regională şi a întregului corp. În funcție de aceste modalități de inducere a hipertermiei, indicațiile tratamentului, problemele tehnice, rezultatele așteptate și riscurile diferă semnificativ.

În cadrul acestui studiu au fost considerate aplicațiile generale ale hipertermiei cu focalizarea asupra problemelor specifice asocierii cu chimioterapia. Hipertermia, în contextul tratamentului multimodal, prin asocierea cu chimioterapia și radioterapia, s-a dovedit a fi o metodă de tratament eficientă în cancer. Mecanismul are la bază, atât efectul direct citotoxic al temperaturilor crescute, la valori situate între 40-45 (sau limite mai largi 39-48) grade Celsius, dar mai ales potențarea efectelor citostaticelor și radiațiilor, prin modalități multiple. HIPEC este o metodă de tratament, pe cât de complexa, pe atât de agresivă asupra organismului uman, care necesită o logistică specială, motiv pentru care este efectuată doar în centre specializate. În general, fiecare asemenea centru a dezvoltat echipamente proprii. Arhitectura de bază este, în esență aceeași, relativ simplă, constând în pompă peristaltică, schimbător de căldură, rezervor de soluție citostatică și senzori de temperatură, presiune și flux, dar numărul punctelor de măsurare este scăzut (2 până la 4), insuficiente pentru a confirma obținerea unei temperaturi uniforme conform standardelor și principiilor teoretice ale HIPEC. De asemenea, până în prezent, localizarea senzorilor de temperatura nu a putut fi standardizată. Nu există, până în prezent, criterii care să precizeze volumul optim de fluid citostatic, la pacienți cu diferite particularități antropometrice și de boală. Distribuția inegală a temperaturii și a fluxului de soluție citostatică se produce relativ frecvent atât datorită unor pierderi termice crescute la nivelul peretelui abdominal anterior, cât și datorită recirculării dificile a soluției în zone anatomice particulare (rcesuri și fose ale cavității peritoneale).

Hypertermic Intra-Peritoneal Chemotherapy Equipment based on Cyber-Physical System Paradigm Call name: Projects for Young Research Teams - RUTE -2014 call
PN-II-RU-TE-2014-4-2859 2015 - 2017

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://hiper-cps.hpm.ro/

Abstract:

The project entitled ”Hyperthermic Intraperitoneal Chemotherapy Equipment based on

Cyber-Physical System Paradigm” (HIPER-CPS) aims at creating a functional model of an innovative hyperthermic intraperitoneal chemotherapy (HIPEC) equipment. Most authors consider Peritoneal Carcinomatosis (PC) as a systemic disease, featuring a remarkable resistance to standard systemic chemotherapy. HIPER-CPS aims at changing this situation and allows approaching the PC in a therapeutic manner. The success of the therapy depends on a deeper understanding of the complex phenomena associated with HIPEC and on the availability of innovative equipment that exploits this understanding. The problems of the commercially available equipment (lack appropriate distributed temperature monitoring; uncontrolled flow and temperature distribution; lack of advanced control mechanisms implemented in order to achieve homogenous temperature in the peritoneal cavity) can be surpassed by a fully automated HIPEC equipment, able to provide optimal exposure of the patient peritoneal surface area with minimal systemic toxicity and minimal exposure of the personnel. The patient’s safety is increased by providing a dedicated safety controller that continuously monitors the intraperitoneal pressure, central body temperature and the status of the actuator devices, assuring immediate feedback for the surgeon and by a Cyber-Physical Systems approach to developing high-confidence, functionally tested, medical devices .

Integrated Smart Sensor System for Monitoring of Strategic Hydrotehnical Structures Call name: Joint Applied Research Projects - PCCA-2011 call, Type 2
PN-II-PT-PCCA-2011-3.2-1524 2012 - 2016

Role in this project:

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO); IPA SA (RO); CODEC S.R.L. (RO); TECHNOSAM SRL (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://hydrosens.hpm.ro

Abstract:

The HydroSens project aims at strengthening the technical capacity for disaster management and emergency response with a new monitoring platform based on an integrated smart sensor system. Ensuring the correct operation and the appropriate corrective actions to preserve the functionality of these structures is essential for preventing hazardous situations and represents a priority.

The main objective of the project is to conceive a distributed hardware architecture and an associated software platform for intelligent monitoring of strategic hydrotechnical structures using smart sensors systems, organized as hierarchical sensor networks.

The expected results of the project are:

•a more reliable monitoring solution of these structures, able to support quick and correct decisions that may avoid loss of lives, damages to the environment, and significant costs, by enabling improved prediction of hazardous situations and faster reaction,

•network interfacing modules, and of analog/digital front-ends, for hydrotechnical structure specific transducers;

•original smart sensors, based on partners granted or pending patents, intended for the monitoring tasks of displacement, inclination and soil humidity;

•a software supporting strategic structures with behavioral prediction, diagnostics, and remote alerting, based on mathematical models of the dynamic behavior of the structures.

The consortium, formed by an university, a research institution and two SMEs, was selected for the complementarities of partner’s expertise. HydroSens will contribute to the development of qualified human resources for the participating SME, increasing their social-economical competitiveness and will involve MSc and PhD students in activities that will prepare them for applied research. IPA will exploit the project results by technological transfer within his joint industrial projects.

The two SME will use the project results in the manufacturing of the sensors into their future busines

FP7-COST TD1001-Novel and Reliable Optical Fibre Sensor Systems for Future Security and Safety Applications (OFSeSa) Call name:
COST TD1001 2010 - 2014

Role in this project: Key expert

Coordinating institution: University of Limerick Optical Fibre Sensors Research Centre University of Limerick Plassey Ireland Limerick

Project partners: University of Limerick Optical Fibre Sensors Research Centre University of Limerick Plassey Ireland Limerick (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://www3.ul.ie/td1001/

Abstract:

Optical Fibre Sensors offer a definitive solution to monitoring extreme parameters associated with security and safety applications. While the advantages of such sensors are well known, there are a number of identified technical problems yet to be resolved. By supporting collaboration of experts from multidisciplinary fields, to share their knowledge in sensor development and system design, together with developing characterisation and validation procedures, these problems can be addressed and so new generation optical fibre sensor systems can be realised awarding fundamentally stable and reliable sensors for enhancing public security and safety.

4D - POSTDOC Call name:
POSDRU/89/1.5/S/52603 2011 - 2013

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO); UNIVERSITATEA TEHNICĂ "GHEORGHE ASACHI" IAŞI (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://193.226.17.4:8080/sites/fordoc/Obiective/Home.aspx

Abstract:

Axei prioritare 1 - Domeniul major de intervenţie - DMI 1.5; iniţiativelor europene care privesc cercetarea şi inovarea, competitivitatea globală a universităţilor, dezvoltarea aptitudinilor antreprenoriale şi transferul cunoaşterii în produse şi servicii, iniţiate de Programul Lisabona având corespondenţă în programele prevăzute în Cadrul Financiar 2007-2013.

POSDRU/18/1.2/G/6831, Master studies in engineering and management Call name:
POSDRU/18/1.2/G/6831 2009 - 2011

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA ()

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA ()

Project website:

Abstract:

Assisted citologic screening of histopatologic diagnostic with computerized techniques Call name:
CNCSIS nr. 33385/2004 2004 - 2006

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website:

Abstract:

Virtual lab for electrical reluctance motor with internet connection Call name:
CNCSIS COD 1045 2004 - 2006

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website: http://old.uefiscdi.ro/UserFiles/File/granturi/2004/A_NOI_FINANTATE.htm

Abstract:

The Reform Program of Higher Education and Research RO-4096 Call name:
RO-4096 2002 - 2002

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU"

Project partners: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU" ()

Affiliation: UNIVERSITATEA DE MEDICINA SI FARMACIE "IULIU HATIEGANU" ()

Project website: http://old.uefiscdi.ro/Public/cat/459/RO--4096-1996--2002.html

Abstract:

The restructuring program of higher education and university research was carried out between 1996 and 2002 and benefited from a total fund of 84 million USD, coming from three sources:

- a non-reimbursable grant from the European Community in the equivalent value of $ 9.6 million;

- a loan granted to the Romanian Government by the World Bank in the amount of 50 million USD;

- associated with a contribution of the Romanian Government in the amount of 24.4 million USD.

real time speed control of the switched reluctance motor drive Call name:
CNCSIS, 1998-2000 1998 - 2000

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Project website:

Abstract:

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List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager	Download (227.21 kb) 25/11/2019
R&D activities in enterprises
Peer-review activity for international programs/projects	Download (142.08 kb) 25/11/2019