BrainMap

Marilena Stanculescu

Professor - UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI

Researcher | Teaching staff | Scientific reviewer | Consultant | PhD supervisor

Web of Science ResearcherID: I-2914-2012

Curriculum Vitae (13/05/2024)

Expertise & keywords

Remote Control and Telemonitoring for a Railway Outdoor High Voltage Circuit Breaker Call name: P 2 - SP 2.1 - Proiect experimental - demonstrativ
PN-III-P2-2.1-PED-2021-3731 2022 - 2024

Role in this project:

Coordinating institution: UNIVERSITATEA POLITEHNICA DIN BUCURESTI

Project partners: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI (RO); ICPE S.A. (RO)

Affiliation:

Project website: http://www.actionari.plc.pub.ro/research/ped/ped_696_2021.html

Abstract:

The general objective of the project consists in the design, assembling and testing in laboratory conditions of an experimental model of outdoor bipolar high voltage vacuum circuit breaker (Un = 27,5 kV, In = 1.250 A, Ik = 25 kA), equipped with remote control and telemonitoring system for the railway electrical grid and its related technology. In order to achieve the submitted objectives, an elite consortium consisting of University POLITEHNICA of Bucharest (CO-ww.upb.ro) and a medium-sized enterprise - ICPE SA (P1 -www.icpe.ro). Throughout the entire project duration (24 months), young researchers and PhD students will be mobilized to be a part of the research teams.

To achieve optimal working conditions and safety for the electrical networks within ELECTRICA and S.N.C.F.R, the existence of reliable circuit breakers is an essential necessity. Currently, in operation there are over 200 circuit breaker units, with electrical arc extinguishing medium consisting of SF6 gas or oil, mostly produced by ELECTROPUTERE Craiova. As they have exceeded their service lifespan and are no longer reliable in operation, it is necessary to replace them. Regarding this matter, the UPB-ICPE consortium proposes a new solution that consists in the development of an outdoor, high voltage bipolar vacuum circuit breaker developed in Romania, using new technologies and materials (advanced vacuum switching, composite insulation, high energy rare earth permanent magnets, sensors and digital interface).

The project starts from TRL2, as the concept is formulated based on a series of scientific articles, patents and research activities in the field of the project. In the present project proposal, the consortium intends to reach the TRL4 level by validating the technology in laboratory conditions, as the two partners have the necessary scientific maturity, experience and resources.

Servicii mobile "verzi/green" pentru sisteme energetce din orasul inteligent - SMARTELTER Call name:
156223 2023 - 2023

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI

Project partners: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI ()

Affiliation: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI ()

Project website: https://smartelter.audit-itc.ro/

Abstract:

Descriere proiect

Sistemul propune o linie de platforme pentru alimentare cu energie electrică și termică, coordonate printr-un sistem de management inteligent pentru a oferi servicii de energizare în orașul inteligent.

FAcilitating Regional CROSS-border Electricity Transmission through Innovation Call name: EC - H2020
H2020-225176-864274 2019 - 2023

Role in this project: Key expert

Coordinating institution: GIOUMPITEK MELETI SCHEDIASMOS YLOPOIISI KAI POLISI ERGON PLIROFORIKIS ETAIREIA PERIORISMENIS EFTHYNIS

Project partners: GIOUMPITEK MELETI SCHEDIASMOS YLOPOIISI KAI POLISI ERGON PLIROFORIKIS ETAIREIA PERIORISMENIS EFTHYNIS (EL); NEZAVISNI OPERATOR SISTEMA U BOSNII HERZEGOVINI (BA); TECH INSPIRE LTD (UK); FUNDACION CIRCE CENTRO DE INVESTIGACION DE RECURSOS Y CONSUMOS ENERGETICOS (ES); ELEKTROENERGIEN SISTEMEN OPERATOR EAD (BG); BORZEN, OPERATER TRGA Z ELEKTRIKO,D.O.O. (SI); HOLDING SLOVENSKE ELEKTRARNE DOO (SI); COMPANIA NATIONALA DE TRANSPORT ALENERGIEI ELECTRICE TRANSELECTRICA SA (RO); MONITEC GMBH (DE); HUPX MAGYAR SZERVEZETT VILLAMOSENERGIA-PIAC ZARTKORUEN MUKODO RESZVENYTARSASAG (HU); C & G SKUPINA, INVESTIRANJE IN SVETOVANJE DOO (SI); EUROPEAN DYNAMICS LUXEMBOURG SA (LU); BUDAPESTI MUSZAKI ES GAZDASAGTUDOMANYI EGYETEM (HU); SVEUCILISTE U ZAGREBU FAKULTET ELEKTROTEHNIKE I RACUNARSTVA (HR); CINTECH SOLUTIONS LTD (CY); BULGARSKA NEZAVISIMA ENERGIJNA BORSA EAD (BG); OPERATORI SISTEMIT TE TRANSMETIMITOST - SHOQERI ANONIME (AL); SCHWEITZER ENGINEERING LABORATORIES ESPANA, SL (ES); AUSTRIAN POWER GRID AG (AT); SMART WIRE GRID EUROPE LIMITED (IE); MAVIR MAGYAR VILLAMOSENERGIA-IPARI ATVITELI RENDSZERIRANYITO ZARTKORUEN MUKODO RESZVENYTARSASAG (HU); UNIPER HUNGARY ENERGETIKAI KFT (HU); SOFTWARE COMPANY EOOD (BG); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); MOBILITY ENERGY INNOVATIONS KFT (HU); WEATHER2UMBRELLA LTD (UK); INNOVATIVE ENERGY AND INFORMATION TECHNOLOGIES LTD (BG); STUDIO ELEKTRONIKE RIJEKA DOO (HR); UBITECH ENERGY (BE); INDEPENDENT POWER TRANSMISSION OPERATOR SA (EL); HRVATSKI OPERATOR PRIJENOSNOG SUSTAVA DOO (HR); EUROPEAN DYNAMICS ADVANCED INFORMATION TECHNOLOGY AND TELECOMMUNICATION SYSTEMS SA (GR)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website:

Abstract:

TSO-DSO-Consumer INTERFACE aRchitecture to provide innovative grid services for an efficient power system Call name: EC - H2020
H2020-221497-824330 2019 - 2022

Role in this project: Key expert

Coordinating institution: EUROPEAN DYNAMICS LUXEMBOURG SA

Project partners: EUROPEAN DYNAMICS LUXEMBOURG SA (LU); FUNDACION UNIVERSIDAD LOYOLA ANDALUCIA (ES); EDP DISTRIBUICAO ENERGIA SA (PT); ELEKTRILEVI OU (EE); ELEKTROENERGIEN SISTEMEN OPERATOR EAD (BG); RIGAS TEHNISKA UNIVERSITATE (LV); ELEKTRO LJUBLJANA PODJETJE ZADISTRIBUCIJO ELEKTRICNE ENERGIJE D.D. (SI); AGENCIJA ZA ENERGIJO (SI); COMPANIA NATIONALA DE TRANSPORT ALENERGIEI ELECTRICE TRANSELECTRICA SA (RO); NKM ARAMHALOZATI KFT (HU); CEZ DISTRIBUTION BULGARIA AD (BG); RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN (DE); FINGRID OYJ (FI); ALTEO ENERGIASZOLGALTATO NYILVANOSAN MUKODO RESZVENYTARSASAG (HU); BUDAPESTI MUSZAKI ES GAZDASAGTUDOMANYI EGYETEM (HU); CINTECH SOLUTIONS LTD (CY); EUROPEAN UNIVERSITY INSTITUTE (IT); EUROPEAN NETWORK OF TRANSMISSION SYSTEM OPERATORS FOR ELECTRICITY AISBL (BE); BULGARSKA NEZAVISIMA ENERGIJNA BORSA EAD (BG); AKCIJU SABIEDRIBA AUGSTSPRIEGUMA TIKLS (LV); TAMPEREEN KORKEAKOULUSAATIO SR (FI); REN - REDE ELECTRICA NACIONAL SA (PT); UNIVERSITY OF PIRAEUS RESEARCH CENTER (EL); MYTILINAIOS ANONIMI ETAIREIA (EL); RICERCA SUL SISTEMA ENERGETICO - RSE SPA (IT); SOFTWARE COMPANY EOOD (BG); EMAX (BE); PREDUZECE ZA TELEKOMUNIKACIJSKE USLUGE REALAIZ DOO BEOGRAD (SAVSKI VENAC) (RS); ELERING AS (EE); C & G ZASTOPANJE, SVETOVANJE IN INZENIRING DOO (SI); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); ASTEA SPA (IT); INNOVATIVE ENERGY AND INFORMATION TECHNOLOGIES LTD (BG); ENERIM OY (FI); UNIVERSITA POLITECNICA DELLE MARCHE (IT); MIG 23 LTD (BG); E.ON DEL-DUNANTULI ARAMHALOZATI ZARTKORUEN MUKODO RESZVENYTARSASAG (HU); DISTRIBUTIE ENERGIE OLTENIA SA (RO); ELES DOO SISTEMSKI OPERATER PRENOSNEGA ELEKTROENERGETSKEGA OMREZJA (SI); TECHNICAL UNIVERSITY OF SOFIA (BG); ELENIA VERKKO OYJ (FI); CYBERNETICA AS (EE); SOCIAL OPEN AND INCLUSIVE INNOVATION ASTIKI MI KERDOSKOPIKI ETAIREIA (GR); EUROPEAN DYNAMICS ADVANCED INFORMATION TECHNOLOGY AND TELECOMMUNICATION SYSTEMS SA (GR); CENTRO DE INVESTIGACAO EM ENERGIA REN - STATE GRID SA (PT); DISTRIBUZIONE ELETTRICA ADRIATICA SPA (IT); NRG. LAB SL (ES); ENEFIT CONNECT OU (EE)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

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

Abstract:

The synergy of the university environment with the economic environment to meet the current and future needs of the labor market in the fields of electricity, energy and materials science Call name:
131213 2021 - 2022

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI

Project partners: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI ()

Affiliation: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI ()

Project website:

Abstract:

Innovative Electric Motor with rare earths free permanent magnets for Light Electric Vehicles Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2019-0423 2020 - 2022

Role in this project:

Coordinating institution: ICPE S.A.

Project partners: ICPE S.A. (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website: http://www.icpe.ro/ro/emlev/

Abstract:

Electric motors for traction applications of electric vehicles have restrictive requirements regarding torque density and power density that needs to have the highest values, power that must be constant for a wide range of speeds and efficiency, which is the reason why electric motors with this destination are generally synchronous motors with permanent magnets based on rare earth elements. The context of the global dynamics regarding the exports of materials made from rare earths elements and the prices dynamics, can generate a shock wave that can affect the companies whose production is based for example on the import of magnets made from rare earths elements. The project idea was generated by the market, which practically impose to companies, due to the current technological advances, the development of more compact electric traction systems, with high power density and high efficiency and, preferably, not to use in their component materials elements considered rare as rare earths elements.The project proposal aim is to develop and to put into production of a new, innovative series of synchronous motors with variable reluctance assisted by ferrite permanent magnets for light electric vehicles (EMLEV). The innovative solution proposed will lead to a reliable product, with an efficiency of over 95%, achieved by correlating elements such geometry optimization of the rotor, rectangular section of the winding coils, optimized electric drive, water cooling system. As a result of the project, significant technological and economic effects will result and ICPE in this way will expand its research capability and will diversify its range of products adapted to the new performance and efficiency requirements, assimilating the R&D results of the UPB and UTCN project partners.

Improving Public Policies in Higher Education and Improving Quality of Regulations by Updating Quality Standards Call name:
SIPOCA/SMIS2014+: 16 2017 - 2020

Role in this project: Key expert

Coordinating institution: MINISTERUL EDUCATIEI NATIONALE

Project partners: MINISTERUL EDUCATIEI NATIONALE (RO); ACADEMIA DE STUDII ECONOMICE (RO)

Affiliation: MINISTERUL EDUCATIEI NATIONALE (RO)

Project website: http://www.aracis.ro/proiecte/qafin/despre-proiect/

Abstract:

Electric generator geometry optimization for energy efficiency enhancement Call name: P 2 - SP 2.1 - Cecuri de inovare
PN-III-P2-2.1-CI-2018-1343 2018 - 2018

Role in this project:

Coordinating institution: ICPE S.A.

Project partners: ICPE S.A. (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website: http://www.optim4gen.elth.pub.ro/

Abstract:

Synchronous electric machine with permanent magnets (SEM-PM) are used in a wide range of applications, from electric cars, electro drive systems to power generation. This is due to an increased torque and efficiency, correlated to a low maintenance cost because using permanent magnetis in the rotor. As a consequence, SEM-PM can function both as motor and as generator. In the current economic context, due to globalization and high dynamics of the market segment that includes SEM-PM, the manufacturers are obliged to offer new and competitive solution for their products. To design the synchronous electric machine as a generator with high efficiency it is necessary to optimize the construction of the magnetic circuit. The projects start from the idea that the study of rotor overhang represents an major objective for the specialists in this field. Unfortunately, there are not yet fast algorithms for obtaining the machine parameters and which lead to an optimal solution. The purpose of this proposal is to optimize the magnetic circuit of SEM-PM. In this respect, it is necessary to develop a procedure for fast electromagnetic field computation and evaluation of the parameters of the electric machine. This projects aims to solve this problem by: developing mathematical models for SEM-PM and rotor overhang; developing an algorithm for magnetic field problem computation; developing programs that will implement the proposed algorithms. The originality of the project is given by: a rapid method for analyzing the magnetic field and the parameters of SEM-PM will be proposed; this method will allow the development of efficient procedures for machine geometry optimization in order to increase the energy efficiency.

Equipment for mobile phones wireless charging Call name: P 2 - SP 2.1 - Cecuri de inovare
PN-III-P2-2.1-CI-2018-1275 2018 - 2018

Role in this project:

Coordinating institution: ELCOS PROIECT S.R.L.

Project partners: ELCOS PROIECT S.R.L. (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website: http://www.wiphone.elth.pub.ro/

Abstract:

WiPhone project starts from the idea that our society is continuously on the move. The modern man faces two major problems: space and time. The two variables translate into a larger space to be covered and lack of time. At the same time, while he is on the move, it must remain connected, depending on the dynamics of his job, for example, using the mobile phone, using applications that are consuming a lot of energy. As a consequence, there is a real need for devices placed in crowded places (subway stations, buses) to provide, in short time, a wireless transfer of electromagnetic energy (WTEE), with enhanced advantages compared to the existing technologies.

The main objective of WiPhone project is the realization of a WTEE equipment that could be used to charge the mobile phones. This objective will be accomplished by addressing several specific objectives: analysis and simulation of several types emitter-receiver circuits to identify the optimum structure which will satisfy performance criteria; WTEE devices analysis and modelling from the electromagnetic point of view taking into account several media types between the emitter-receiver; elaboration of a new procedure to extract the electric parameters and analysis and modelling of WTEE devices from the electric circuit theory; results dissemination for technological transfer.

The original elements brought by the above objective, can be synthesized as follows: a unitary approach of WTEE used for charging batteries which cane used in a wide range of applications (from mobile telephones, medical implants, home appliances, to electric vehicles); procedure elaboration for extracting the electric parameters of the studied devices and the sensitivities computation of these parameters for WTEE optimization; original constructive solutions to realize the emitter-receiver system with a high quality factor; realization of a functional model which integrates all the above-mentioned original contributions.

Thermal sensing bra used for breast cancer detection and locating Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2016-0029 2016 - 2018

Role in this project:

Coordinating institution: ICPE S.A.

Project partners: ICPE S.A. (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); UNIVERSITATEA DE MEDICINA SI FARMACIE (U.M.F) Cluj-Napoca (RO)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website: http://www.icpe.ro/ro/termocan/

Abstract:

Breast cancer represents the majority of new cancer cases diagnosed in Romania. Early detection of the tumor allows an increased life expectancy for the ill. Thermography can be a solution for early detection of breast tumors. The principle of the method is based on the fact that thermal footprint at the surface of the sick breast is different from the one corresponding to the normal breast. Exploiting this correlation, detection can reach cancer cells much earlier as mammographic investigation to give a result.

The partners involved in this project have already achieved important results, in which, starting from measuring the thermal infrared footprint, the position of the tumor is looked after in a tetrahedral mesh, by solving Pennes equation. Physical constants of the breast tissue (strongly inhomogeneous) influence the relationship between the thermal footprint and the position of the tumor. The key that opens the way towards thermographic detection, followed in this project, is given in a paper published by the team members. It is shown that the temperature difference between the sick breast and the healthy one, relative to the maximum of this difference is practically influenced only by the location of the tumor. This result has produced an efficient procedure of searching for the location of the tumor. The detection device and method were proposed for patenting.

In this project the scope is to realize the prototype thermal-bra for breast tumors detection and localization. The bra is rigid and compels breast to fit into the cup. On both cups are mounted two identical temperature sensor networks collected by a data acquisition system. Knowing the geometric position of the sensors and the measured temperatures, dedicated software solves the inverse thermal field and locates the tumor. The device and the algorithm will be tested on laboratory models that will approximate the real properties of the sick breast.

Walls drying equipment in high-frequency electromagnetic field Call name: P 2 - SP 2.1 - Cecuri de inovare
PN-III-P2-2.1-CI-2017-0358 2017 - 2017

Role in this project:

Coordinating institution: ICPE S.A.

Project partners: ICPE S.A. (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website: http://elma-dry.elth.pub.ro

Abstract:

The wall drying equipment in high-frequency electromagnetic field, a product that Icpe plans to manufacture, is an innovative solution and an original approach to the damp walls problem. The development of a technology able to remove the dampness from the building walls through a minimally invasive procedure is a long-time goal of the engineering community. The project is a step forward towards achieving Icpe goal to address the market with an innovative product that solves the problem of rising damp, a product with market potential, targeting a wide segment of potential users, from local, regional or government authorities which have under their administration buildings that are part of the national heritage, historical buildings, also companies that operate in the construction sector or individual users.

Electromagnetic stimuli for live tissues Call name:
439 2016 - 2017

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI

Project partners: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI ()

Affiliation: UNIVERSITATEA NAŢIONALĂ DE ŞTIINŢĂ ŞI TEHNOLOGIE POLITEHNICA BUCUREŞTI ()

Project website:

Abstract:

research on electromagnetic stimuli for live tissues

Electromagnetic techniques for the improvement of wine processing Call name: Joint Applied Research Projects - PCCA 2013 - call
PN-II-PT-PCCA-2013-4-2225 2014 - 2017

Role in this project:

Coordinating institution: UNIVERSITATEA DIN ORADEA

Project partners: UNIVERSITATEA DIN ORADEA (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); ICPE S.A. (RO)

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO)

Project website: http://www.wine-tech.ro

Abstract:

The research for environmentally friendly products and technologies is forcing the winegrowing industry to change of direction to developing new processes capable to guarantee the sustainability of a high quality and productivity and also to recovering some beneficial compounds from resulted grape by products.

One of the most important procedures in preparation of the winegrowing products (wines, juices, secondary compounds) is an efficient extraction of phenolic (coloured and aromatic) acids, flavanols and anthocyanins and also the production of some modified compounds that takes place in the maceration phase.

These compounds, that are located in grape peel enclosed in insoluble structures, improves the quality of wine. They possess antibacterial, antiviral, antioxidant, anti-inflammatory, anti cancerogenic properties, can prevent cardiovascular diseases and essentially conduce to a better global impression of winegrowing products on consumers.

The traditional maceration phase extraction procedures (diffusion, adsorption) conduce to grape cells mortification, accompanied with chromoplastides membranes from peel cell vacuoles damage. Here are located the beneficial compounds and there diffusion is very slow. A great amount of this content rests in remnant (grape by-product).

In the last years, new technologies of these compounds extraction during maceration phase emerged. Ultrasonics, high hydrostatic pressure or pulsed electric fields are employed. The first two methods involve high investments and power demands.

This project approach consists in a solution that appear to be more efficient using an applied variable electric field (called PEF=Pulsed electric field) that can provide a very good rating if the electromagnetic phenomena modelling and the optimal design of the equipment are done.

The electrical tension may be applied directly (through electrodes), procedure proposed by some authors for fruits and vegetables juices treatment, or it can be induced from outside through eddy current.

These methods accelerates the better carry of content from grape peel using the electroplasmolysis (named also electroplasmocontraction) effect, that consists in a fast destruction of chromoplastides membranes when a variable electric potential difference is brought into. The proposed processes are environmentally friendly and low-cost.

During PEF treatment, the grape crushed mass or grape by-product is warming-up. It is necessary to control the field of temperatures which, between some limits, may make a profit on grape-crushed treatment. Consequently, an objective of our research is to resolve the electroplasmolysis specific thermal diffusion problem.

The proposed experimental models (based on eddy-current or voltages applied under electrodes) ensures the acceleration of maceration using electromagnetic fields, being applicable in : 1. melioration of wines (especially red and black for a better colour extraction) 2. raising up the efficiency in grape juice and shorten the pre fermentation period by replacing the enzymatic maceration, 3. secondary metabolites extraction from remnant grape by product.

According to PCCA recommendations regarding the priority research directions, the proposed project belongs to the thematic area 5.1.3 Increasing technical and economic competitiveness of agri-food products.

The project aims to develop a consortium involving two university partners, namely Universitz of Oradea (UO), as coordinator and “POLITEHNICA” University of Bucharest (UPB), and R&D Institute ICPE SA. Research teams involve highly experienced specialists with notable scientific results, appreciated both at national and international level. Young specialists complete every team so that their specialization in the required research directions established by our national programs will be beneficial. Young researchers and students involved in the project research activities will acquire new knowledge.

Locating and Evaluating the Dimensions of Breast Tumors by Solving the Reverse Problem of Thermal Field Call name:
125 2006 - 2008

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA POLITEHNICA DIN BUCURESTI

Project partners: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (); ICPE S.A. (); UNIVERSITATEA "TITU MAIORESCU" ()

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI ()

Project website:

Abstract:

Parteneriate CD (2006-2008) 125/2006:

Tehnologii informatice ca răspuns la provocările societăţii (îmbunătăţirea capacităţii de prevenire a bolilor, de diagnostic precoce şi personalizat)

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects