Anisotropic-cyclicgraphene: A new two-dimensional semiconducting carbon allotrope

Potentially new, single-atom thick semiconducting 2D-graphene-like material, called Anisotropic-cyclicgraphene, have been generated by the two stage searching strategy linking molecular and ab initio approach. The candidate derived from the evolutionary based algorithm and molecular simulations was then profoundly analysed using first-principles density functional theory from the structural, mechanical, phonon, and electronic properties point of view. The proposed polymorph of graphene (rP16-P1m1) is mechanically, dynamically, and thermally stable and can be semiconducting with a direct band gap of 0.829 eV.Comment: 15 pages, 14 figure

Sensitivity analysis and identification of material defects in dynamical systems

This paper deals with an analytical and computation strategy, based on the adjoint variable approach and boundary integral equation (BIE) formulations, for evaluating void or crack shape sensitivities of objective functionals. Boundary-only expressions for such sensitivities are sought in the context of linear elastodynamics. An evolutionary hybrid algorithm with the gradient mutation is employed for the identification of material defects. Numerical tests of sensitivity expressions and identification of an internal crack and void are presented

Parallel and distributed computations in evolutionary and immune optimization of laminates

Abstract The paper deals with the application of the parallel and distributed calculations for global optimization of composite structures. Evolutionary Algorithm and Artificial Immune System are employed as global optimization methods. The aim of the optimization is to find the best stacking sequence of laminates for given criteria. To reduce the computational time parallel versions of global optimization algorithms are used. Computational grid is used to perform distributed computations. A boundary-value problem for laminates is solved by means of Finite Element Method commercial software. Numerical examples presenting efficiency of proposed attitude are attached

Projekt: Uniwersytet PAN

Among the scientific institutions in Poland, the institutes of the Polish Academy of Sciences possess top-ranking research potential. In the years 2013-2016, for instance, 19.7% of all research articles published in the most prestigious research journals for each particular field (the top 10% of the list of journals for each field, ranked by impact factor) by authors affiliated with Polish institutions came from the institutes of the Polish Academy of Sciences – this is far the best such percentage among all Polish academic institutions. The staff members at the PAS institutes are engaged not only in research, but also in teaching: as of 31 December 2016, there were 1607 individuals in regular PhD programs at the PAS institutes. Moreover, the degree of internationalization (8%) of these programs at the PAS institutes is the highest among all Polish higher-education institutions. These and other factors are seen as providing justification for the plan to pull together the potential of the PAS institutes in order to create a new higher-education institution, to be called the University of the Polish Academy of Sciences (UPAS), meant to become Poland’s first-ever research university. Plans call for UPAS to ultimately have a total of 2500 students studying in its programs, predominantly third-cycle (PhD-level) programs. Such a number will enable each student to be ensured individual supervision by top-notch researchers. It will also allow innovative teaching programs to be developed and tested in keeping with the new trends of the Internet era and e-learning, through online course offerings and through inter- and cross-disciplinary studies. Under this plan, UPAS stands a real chance of becoming a proud showpiece of Polish science and higher education: holding open, international competitions for various long-term positions as visiting professors, post-doc researchers, and PhD candidates will help further bolster the degree of internationalization among both the staff and students of UPAS, bringing it up to the level that characterizes the world’s best higher-education institutions. Given the size of Poland’s budget for science and higher education, attaining such a degree of internationalization in the near future will only be financially feasible for a university as small as UPAS. The above measures will also have a quality-boosting impact on the PAS institutes themselves, significantly improving their level. After several years, UPAS will stand a real chance of attaining very good standing in international rankings of the world’s higher education institutions, among the top 200 or even top 100 in the world. We should stress clearly: for this to happen, the funding for research at PAS institutes will need to be maintained on at least the same level as at present, the network of PAS institutes will need to be made more flexible, incorporating mechanisms generating significant synergy between the institutes (with UPAS as the common objective), and the project will need to be supported by a long-term program of internationalization of staff and students.Instytuty Polskiej Akademii Nauk mają wśród polskich instytucji naukowych czołowy potencjał merytoryczny. W instytutach PAN w latach 2013-2016 powstało 19,7% prac afiliowanych w polskich instytucjach i umieszczonych w najbardziej prestiżowych pismach naukowych danych dziedzin (górne 10% z list pism danej dziedziny nauki uszeregowanych według rosnącego współczynnika wpływu, IF). Jest to najlepszy wynik wśród polskich instytucji akademickich. Kadra instytutów PAN zajmuje się nie tylko badaniami, ale też dydaktyką; 1607 osób (stan na 31 grudnia 2016) było na stacjonarnych studiach doktoranckich w Instytutach PAN. Stopień umiędzynarodowienia studiów w PAN (8%) jest największy wśród polskich uczelni. W związku z tym uzasadnione wydaje się powołanie Uniwersytetu PAN (UPAN), który mógłby stać się pierwszą w Polsce uczelnią badawczą. Planuje się, że docelowo kształciłoby się na nim 2,5 tys. osób, w przeważającej części studentek i studentów III stopnia. Taka liczba pozwoli na zagwarantowanie indywidualnej merytorycznej opieki każdemu studentowi, a także na wprowadzenie i przetestowanie nowatorskich programów dydaktycznych, właściwych erze Internetu i e-learningu, prowadzenia studiów online poprzez courser, studiów inter- i crossdyscyplinarnych. UPAN ma realne szanse stać się wizytówką polskiej nauki i szkolnictwa wyższego, gdyż otwarte, międzynarodowe wieloletnie programy konkursowe na pozycje: wizytujących profesorów, stażystów podoktorskich i doktorantów mogą podnieść umiędzynarodowienie zarówno kadry, jak i studentów UPAN do poziomu właściwego najlepszym uczelniom świata. Z uwagi na wielkość naszego budżetu nauki i szkolnictwa wyższego osiągnięcie takiego umiędzynarodowienia jest finansowo realne w najbliższym czasie tylko dla uczelni tak małej jak UPAN. Opisane działania będą projakościowe także dla samych instytutów PAN i istotnie podniosą ich poziom merytoryczny. Po kilku latach UPAN ma realne szanse na uplasowanie się w międzynarodowych rankingach na bardzo dobrych pozycjach, w pierwszej dwusetce, a nawet w pierwszej setce najlepszych światowych uczelni. Należy podkreślić, że warunkiem tego jest zapewnienie finansowania badań w instytutach PAN na co najmniej takim jak obecnie poziomie, uelastycznienie ich sieci, wytworzenie mechanizmów synergii pomiędzy instytutami (wspólny cel – UPAN) oraz wsparcie tego projektu długoletnim programem umiędzynarodowienia kadry i studentów

Generalized shape optimization of three-dimensional structures using evolutionary computation

The paper is devoted to an application of the evolutionary algorithms and the finite element method to genetic generation of 3-D structures using two different types of parameterization. The shape, topology and material of the structure are generated for optimization criterion like minimum of the volume, minimum of the elastic strain energy and minimum of the resultant displacement. Two different interpolation functions like: multinomial interpolation and interpolation bases on the neighbourhood of elements which aim at the appropriate selection of Young’s modulus are used. After optimization the procedure which smoothes an external and internal boundary of three-dimensional structure is used. 2. Keywords: evolutionary algorithms, structural optimization, finite element method, 3-D structures The paper is devoted to an application of sequential and distributed evolutionary algorithms in shape, topology and material optimization of 3-D solids. Evolutionary methods [6], considered as the simulation of biological processes based on heredity (genetics) and on the natural selection (the theory of evolution), have been applied in structural optimization by several authors [3]. Optimization of 3-D solids belong to complicated and time consuming problems [5] and the evolutionary approach is rarely applie

Research University, namely…

With this paper we try to contribute to the debate on the nature of research intensive universities and the chances to create this type of institution in Poland. Research universities are presented as elite, flagship institutions for educating students mostly at the doctoral level and to produce the bulk of the research output. Examples of world-class research intensive universities from various countries are presented. It is shown that intensified competition among universities exists to prove their performance through global university league tables or ranking exercises and it is discussed whether Poland is at the stage to create at least one such institution playing important role in that competition. We argue that the establishment of a University of the Polish Academy of Sciences could be a solution. This University stands to become a unique research institution in Poland and one of very few establishments of its type in Central and Eastern Europe. The University will conduct scientific research and provide programs of the highest standard, exploiting the research and teaching potential of the PAS institutes as well as the competence and experience of members of the Academy's corporation. It is intended as a higher education institution with a decentralized organizational structure, based on the PAS research institutes. The University of the Polish Academy of Sciences will have a quality-boosting impact on the PAS institutes as well as initiate their consolidation and reorganization in the field of teaching.

Modern methods in the field of machine modelling and simulation as a research and practical issue related to Industry 4.0

Artificial intelligence (AI) is changing many areas of technology in the public and private spheres, including the economy. This report reviews issues related to machine modelling and simulations concerning further development of mechanical devices and their control systems as part of novel projects under the Industry 4.0 paradigm. The challenges faced by the industry have generated novel technologies used in the construction of dynamic, intelligent, flexible and open applications, capable of working in real time environments. Thus, in an Industry 4.0 environment, the data generated by sensor networks requires AI/CI to apply close-to-real-time data analysis techniques. In this way industry can face both fresh opportunities and challenges, including predictive analysis using computer tools capable of detecting patterns in the data based on the same rules that can be used to formulate the prediction