Publications: about 130 scientific and pedagogic publications

Identifiers: ORCID 0000-0002-9811-1758

ResearcherID D-5706-2011

Scopus Author ID 6508339570

Selected publications

1. Journal papers

1.1 V.A. Sarychev, V.I. Pen´kov, M.Yu. Ovchinnikov, A.D. Guerman. Motions of a gravitationally stabilized satellite with hysteresis rods in a polar orbit. Cosmic Research, 1988, Vol. 26, Nº5, 561-574.

1.2 V.A. Sarychev, M.Yu. Ovchinnikov, A.D. Guerman. Periodic motions of a satellite with a strong magnet in the plane of a polar orbit. Cosmic Research, 1988, Vol. 26, Nº 6, 830 – 839.

1.3 A.D.Guerman, M.Yu.Ovchinnikov, V.I.Penkov, V.A.Sarychev. Non-resonant motions of a satellite with hysteresis rods under conditions of gravity orientation. Mechanics of Solids,1989, Vol. 24, Nº6, 1–11.

1.4 V.A. Sarychev, V.I. Pen´kov, M.Yu. Ovchinnikov, A.D. Guerman. Influence of a hysteresis rod mounted along the axis of maximum moment of inertia on the motion of a satellite in the gravity-oriented attitude control mode. Cosmic Research, 1989, Vol. 27, Nº 6, 727-737.

1.5 A.D. Guerman. Equilibria of multibody chain in orbit plane. Journal of Guidance, Control and Dynamics, Vol. 26, No. 6, 2003, 942-948.

1.6 V.A. Sarychev, A. Guerman, and P. Paglione. The influence of constant torque on equilibria of satellite in circular orbit. Celestial Mechanics and Dynamical Astronomy, Vol. 87, No.3, 2003, 219-239.

1.7 A.D. Guerman, S.A. Mirer. Stationary rotations of two connected axisymmetric rigid bodies. Russian-American Journal on Actual Problems of Aviation and Aerospace Systems: Processes, Models, Experiments, Vol. 9, No.1 (17), 2004, 60-76.

1.8 S.A. Agafonov, A.D. Guerman. Stabilization of stationary motion of gyrostat satellite by means of external moments. Mechanics of Solids, 2004, Vol. 39, Nº 4, 3-6.

1.9 A.D. Guerman. Spatial equilibria of multibody chain in a circular orbit. Acta Astronautica, 2006, Vol. 58, No. 1, 1-14.

1.10 M.Yu. Ovchinnikov, V. D. Shargorodsky, V.I. Pen'kov, S.A. Mirer, A.D. Guerman, R.B. Nemuchinsky. Nanosatellite REFLECTOR: choice of parameters of the attitude control system. Cosmic Research, 2007, Vol. 45, 60-77.

1.11 A.D. Guerman, G. Smirnov, Comment on “Compound Solar Sail with Optical Properties: Models and Performance”. AIAA Journal of Spacecraft and Rockets, 2007, Vol. 44, Nº.3, 732-734.

1.12 G.V. Smirnov, M. Ovchinnikov, A. Guerman, Use of solar radiation pressure to maintain a spatial satellite formation. Acta Astronautica, 2007, Vol. 61, NNº 7-8, 724-728.

1.13 V.A.Sarychev, P.Paglione, and A.D.Guerman, Stability of equilibria for a satellite subject to gravi­ta­­tional and constant torques. Journal of Guidance, Control and Dynamics, 2008, Vol. 31, No.2, 386-394.

1.14 A.D.Guerman, G.V. Smirnov, P.Paglione, A.M.Seabra. Stationary configurations of tetrahedral tethered satellite formation. Journal of Guidance, Control and Dynamics, 2008, Vol. 31, No.2, 424-428.

1.15 A.D. Guerman, G. Smirnov, and M.C. Pereira, Orbital dynamics of a Simple Solar Photon Thruster. Mathematical Problems in Engineering, Vol. 2009, Article ID 537256, 11 pages, 2009.

1.16 A.A. Burov, A.D. Guerman, and R.S. Sulikashvili, The orbital motion of a tetrahedral gyrostat. Journal of Applied Mathematics and Mechanics, 2010, Vol. 74, No. 4, 425-435.

1.17 R.Gama, A.Guerman, G.Smirnov, On the asymptotic stability of discontinuous systems via averaging method. Nonlinear Analysis Series A: Theory, Methods & Applications, 2011, Vol. 74, Nº4, 1513–1522.

1.18 A.D. Guerman, A.M.V. Seabra, G. Smirnov, Optimization of parameters of asymptotically stable systems. Mathematical Problems in Engineering, Vol. 2011 (2011), Article ID 526167, 19 pp.

1.19 A.A. Burov, A. D. Guerman, and R. S. Sulikashvili, The steady motions of gyrostats with equal moments of inertia in a central force field. Journal of Applied Mathematics and Mechanics, 2011, Vol. 75, Nº 5, 517-521.

1.20 A.D. Guerman, M.Yu. Ovchinnikov, G. Smirnov, and S. Trofimov, Closed relative trajectories for formation flying with single-input control. Mathematical Problems in Engineering, 2012, Vol. 2012, Article ID 967248, 20 pp.

1.21 F. Couceiro, P. Gamboa, J. M. Silva and A. Guerman, Membrane-based space energy collector: a conceptual study. Acta Astronautica, Vol. 87, 2013, 8–13.

1.22 F. Couceiro, P. Gamboa, J. M. Silva, and A. Guerman, Configuration of a thin circular membrane subject to solar pressure. Applied Mechanics and Materials, Vol. 290, 2013, 47-52.

1.23 R. Gama, A.D. Guerman, A. Seabra, and G. V. Smirnov, Averaging methods for design of spacecraft hysteresis damper, Mathematical Problems in Engineering. Vol. 2013, Article ID 483457, 7 pp.

1.24 A.D. Guerman, G. Smirnov, and M. C. Pereira, Attitude Dynamics and Stability of a Simple Solar Photon Thruster, Mathematical Problems in Engineering. Volume 2013, Article ID 943107, 7 pp.

1.25 V.S. Aslanov, A.S. Ledkov, A.K. Misra, and A. D. Guerman, Dynamics of space elevator after tether rupture. Journal of Guidance, Control, and Dynamics, 2013, Vol.36, No.4, 986-992.

1.26 A.D. Guerman, A.K. Misra, P.M. Bainum. Editorial: Dynamics and Control of Space Systems. Acta Astronautica, 2014, Vol. 94, Issue 1, 293.

1.27 A.D. Guerman, M.Yu. Ovchinnikov, G. Smirnov, and S. Trofimov, High-precision single-input control of relative motion in spacecraft formation. Acta Astronautica, 2014, Vol. 94, Issue 1, 375-382.

1.28 A.A. Burov, A.D. German, and I.I.Kosenko, On plane oscillations of a pendulum with variable length suspended on the surface of a planet’s satellite. Cosmic Research, 2014, Vol. 52(4), 289–294.

1.29 A.A. Burov, A. D. Guerman, I. I. Kosenko, Tether orientation control for lunar elevator. Celestial Mechanics and Dynamical Astronomy, 2014, Vol. 120, Issue 3, 337-347.

1.30 A. Guerman, E. Lansard, A. Ng, Editorial: Satellite constellations and formation flying. Acta Astronautica, Vol. 102, September–October 2014, 295.

1.31 S.A. Gutnik, A. Guerman, V.A. Sarychev, “Application of computer algebra methods to investigation of influence of constant torque on stationary motions of satellite,” Lecture Notes in Computer Science, 2015, Vol. 9301, 198-209.

1.32 D.P.S. Santos, S. A. R. B. A. Morant, A.D. Guerman, A. A. Burov, Stability solutions of a dumbbell-like system in an elliptical orbit. Journal of Physics: Conference Series, 2015, Vol. 641, Nº 1, 012004.

1.33 A.A. Burov, A. D. Guerman, I. I. Kosenko, Uniform rotations of tethered system connected to a moon surface. Acta Astronautica, 2015, Vol. 116, 349-354.

1.34 A. D. German, S. A. Gutnik, V. A. Sarychev, Satellite dynamics due to gravity and constant torques. Journal of Computer and Systems Sciences International, 2017, Vol.56, No.1, 125–136.

1.35 J. Salvado, M. R. Calado, A. Espirito Santo, A. D. Guerman. Numerical modal analysis of vibrations in a three-phase linear switched reluctance actuator. Modelling and Simulation in Engineering, 2017, Vol. 2017, Article ID 3258376, 23 pp.

1.36 A.A. Burov, A.D. Guerman, I.I. Kosenko, V.I. Nikonov. On the gravity of dumbbell-like bodies represented by a pair of intersecting balls. Nelineinaya Dinamika, 2017, Vol.13, No.2, 243-256.

1.37 A.A. Burov, A.D. Guerman, I.I. Kosenko, V.I. Nikonov, Tethered spacecraft in asteroid gravitational environment, Acta Astronautica, 2018. Vol. 143, 126–132

1.38 A. A. Burov, A. D. Guerman, E. A. Raspopova, V. I. Nikonov, On the use of the K-means algorithm for determination of mass distributions in dumbbell-like celestial bodies. Rus. J. Nelin. Dyn., 2018, Vol. 14, No. 1, 45–52.

1.39 A. A. Burov, A. D. Guerman, V. I. Nikonov. Collocation of equilibria in gravitational field of triangular body via mass redistribution. Acta Astronautica, 2018. Vol. 146. P. 181–184.

1.40 A. Burov, A. D. Guerman, V. I. Nikonov, Equilibria in gravitation field of triangular body, Celestial Mechanics and Dynamical Astronomy, 2018, 130(9), 58.

1.41 A.A. Burov, A.D.Guerman, I.I. Kosenko, V. I. Nikonov Dynamics of a pendulum anchored to a rotating asteroid. IFAC-PapersOnLine, 2018, 51 (2), 867-872.

1.42 A. A. Burov, A. D. Guerman, V. I. Nikonov, Use of K-means algorithm to agregate mass of alongates celestial bodies, Cosmic Research, Accepted for publication (А.А. Буров, А.Д. Герман, В.И. Никонов Использование метода К-средних для агрегирования масс продолговатых небесных тел. Космические Исследования, Том: 57, Номер: 4, Год: 2019, Страницы: 283-289). DOI:10.1134/s0023420619040022

1.43 A. A. Burov, A. D. Guerman, I. I. Kosenko. Satellite with periodical mass redistribution: relative equilibria and their stability. Celestial Mechanics and Dynamical Astronomy, 2019, 131, 1, Article 1.

1.44 A. A. Burov, A. D. Guerman, E.A. Nikonova, V. I. Nikonov. Approximation for attraction field of irregular celestial bodies using four massive points. Acta Astronautica, 2019, Vol. 157, 225-232.

1.45 A. Ferreira, A.D. Guerman, A.A. Burov, A.F.B.A. Prado, V.I. Nikonov, Stationary configurations of space tether anchored on smaller primary in three-body problem. Acta Astronautica, 2019, Vol.160, 572-582.

1.46 A.D. Guerman, D.S. Ivanov, D.S. Roldugin, S.S. Tkachev, A.S. Okhitina, Orbital and angular dynamics analysis of the small satellite SAR mission INFANTE. Cosmic Research, 2020, Vol. 58, No. 3, 206-207.

1.47 A. A. Burov, A. D. Guerman, V. I. Nikonov, Asymptotic invariant surfaces for non-autonomous pendulum-type systems, Regular and Chaotic Dynamics, 2020, 25(1), 121-130

1.48 D. Ivanov, U. Monakhova, A. Guerman, M. Ovchinnikov, D. Roldugin, Decentralized differential drag based control of nanosatellites swarm spatial distribution using magnetorquers, Accepted to Advances in Space Research, 2020.

1.49 A. Burov, A. D. Guerman, V. I. Nikonov, Force field properties and regions of particle accumulation on asteroid surface, Accepted to Acta Astronautica, 2020.

Papers in Proceedings of International Conferences indexed in Web of Science ou SCOPUS

2.1 V. A. Sarychev, P. Paglione, A. Guerman. Equilibria of a satellite in a circular orbit: the influence of a constant torque. Proc. of 48^th International Astronautical Congress (IAC), Turin, Italy, 1997, Paper IAF-97-A.1.09. 5 pp.

2.2 A. Guerman. Magnetic hysteresis damper for a satellite in an elliptic orbit. Proc. of 50^th IAC. Amsterdam, the Netherlands, 1999, 5 pp.

2.3 V.A. Sarychev, P. Paglione, A. Guerman. Stability of equilibria of a satellite under the action of a constant torque. Proc. of 51^st IAC, Rio de Janeiro, Brazil, 2000, IAF-00-A.1.01,7 pp.

2.4 V. A. Sarychev, P. Paglione, A. Guerman. Equilibria of a satellite subjected to a constant torque: analysis of stability. Advances in the Astronautical Sciences, 2001, Vol. 108, 555-571 (Conference version of paper 1.13).

2.5 A. D. Guerman. Equilibria of an n-link chain in a circular orbit. Advances in the Astronautical Sciences, 2002, Vol. 112, 833-842 (Conference version of paper 1.5).

2.6 A. D. Guerman, S. A. Mirer. Stationary rotations of two connected axisymmetric rigid bodies. Paper IAC-03-A.4.02. Proc. of 54th IAC, 2003, Bremen, Germany.

2.7 A. Guerman, G. Smirnov. Attitude control of Solar Photon Thrustor vs Plane Solar Sail. Advances in the Astronautical Sciences, 2006, Vol. 123, 2635 – 2648.

2.8 M. Yu. Ovchinnikov, V. D. Shargorodsky, V. I. Pen'kov, S. A. Mirer, A. D. Guerman, Passive Attitude Control System for Nano-Satellite REFLECTOR. Advances in the Astronautical Sciences, 2006, Vol. 123, 1217-1234.

2.9 A. D. Guerman, G. V. Smirnov, Attitude dynamics of a compound solar sail. Proc. of 57^th IAC, Valencia, Spain, 2006, Paper IAC-06-C1.1.8.

2.10 A.D. Guerman, G.V. Smirnov, P. Paglione, A.M. Seabra. Dynamics of tetrahedron tethered satellite formation. Proc. 57^th IAC, Valencia, Spain, 2006, IAC-06-C1.P.3.3.

2.11 A.D. Guerman, G. Smirnov, and M. C. Pereira, Attitude dynamics and control of a compound solar sail. Advances in the Astronautical Sciences, 2008, Vol. 129, 607-619 (Conference version of paper 1.23).

2.12 A.A.Burov, A.D. Guerman, and R.S.Sulikashvili, Relative equilibria of a tetrahedral structure with rigid and tethered elements. Advances in the Astronautical Sciences, 2008, Vol. 129, 1665-1674.

2.13 A. D. Guerman, G. Smirnov, M. C. P. Faria, Attitude dynamics and control of a Simple Solar Photon Thruster. Proc. of 59^th IAC, Glasgow, Scotland, 2008, Paper IAC-08-C1.7.5.

2.14 A.A. Burov, A. D. Guerman, and R. S. Sulikashvili, Dynamics of a tetrahedral satellite-gyrostat. AIP Conference Proceeding: Numerical Analysis and Applied Mathematics. Vol. 1281, 2010, 465-468.

2.15 A.D. Guerman, G. Smirnov, and M. C. Pereira, Comparison of two compound solar sail schemes. AIP Conference Proceeding: Numerical Analysis and Applied Mathematics. Vol. 1281, 2010, 485-488.

2.16 A. A. Burov, O. I. Kononov, and A. D. Guerman, Relative equilibria of a Moon - tethered spacecraft. Advances in the Astronautical Sciences, 2010, Vol. 136, 2553-2562.

2.17 A.A.Burov, A.D.Guerman, I.I.Kosenko, Dynamics of a planet-tethered spacecraft. Proc. of 62^th IAC, Cape Town, South Africa, 2011, IAC-11-D.4.4.8.

2.18 A.A. Burov, I.I. Kosenko, and A. D. Guerman, Dynamics of a moon-anchored tether with variable length. Advances in the Astronautical Sciences, 2012, Vol. 142, 3495-3507.

2.19 A. D. Guerman, P.M. Bainum, J.-M. Contant, Foreword (Editorial). Advances in the Astronautical Sciences, 2012, Vol. 145, vii-ix.

2.20 A. D. Guerman and G. Smirnov, Orbital maneuvers with single-input control. Advances in the Astronautical Sciences, 2012, Vol. 145, 171-181.

2.21 A. M. V. Seabra, G. Smirnov, and A. D. Guerman, Parameter optimization for stabilizers. Advances in the Astronautical Sciences, 2012, Vol. 145, 639-647.

2.22 V.S. Aslanov, A. Ledkov, A. Misra, A.D. Guerman, Motion of the space elevator after the ribbon rupture. Proc. of 63^rd IAC, Naples, Italy, 2012, IAC-12-D.4.3.9.

2.23 A.A. Burov, A. D. Guerman, and I.I. Kosenko, Equilibrium configurations and control of a Moon-anchored tethered system. Advances in the Astronautical Sciences, 2013, Vol. 146, 251-266.

2.24 F. Couceiro, P. Gamboa, J. M. Silva, and A. Guerman, Configuration of a thin circular membrane subject to solar pressure. Applied Mechanics and Materials, 2013, Vol. 290, 47-52.

2.25 A.A.Burov, I.I.Kosenko, A.D.Guerman, Uniform rotations of a two-body tethered system in an elliptic orbit. Proc. of 64^th IAC, Beijing, P.R.China, 2013, IAC-13-C.1.1.6.

2.26 A.A.Burov, A.D.Guerman, I.I.Kosenko, Dynamics of spacecraft anchored to moon. Proc. of 65^th IAC, Toronto, Canada, 2014, IAC-14-D4.3.9.

2.27 M. Ovchinnikov, V. Penkov, A.D. Guerman, and D. Roldugin, Active magnetic attitude control system providing three-axis inertial attitude. Advances in the Astronautical Sciences, 2014, Vol. 153, 259-270.

2.28 A.D. Guerman, A.M. Seabra, and G.V. Smirnov, On optimization of parameters for linear stabilization systems. Advances in the Astronautical Sciences, 2014, Vol. 153, 699-706.

2.29 A. A. Burov, A. D. Guerman, and I. I. Kosenko, Dynamics of tethered system connected to a planet surface. Advances in the Astronautical Sciences, 2014, Vol. 153, 913-925.

2.30 F. Graziani, A.D. Guerman, J.-M. Contant, Foreword. Advances in the Astronautical Sciences, 2015, Vol. 153, vii-viii.

2.31 A.A.Burov, A.D.Guerman, I.I.Kosenko, A. Ferraz, V. Nikonov, Dynamics of space elevator on asteroid. Proc. of 66^th IAC, Jerusalem, Israel, 2015, IAC-15-D4.3.2.

2.32 D.P.S. dos Santos, S.R.B.A. Morant, A.D. Guerman, A.A. Burov, Stability solutions of a dumbbell-like system in an elliptical orbit. Proc. of XVII Brazilian Colloquium on Orbital Dynamics, CBDO 2014, Journal of Physics Conference Series, 2015, Vol. 641, Art. Nº UNSP 012004.

2.33 S.A. Gutnik, A. Guerman, V.A. Sarychev, Application of computer algebra methods to investigation of influence of constant torque on stationary motions of satellite. Proc. of Computer Algebra In Scientific Computing (CASC 2015). Lecture Notes in Computer Science, 2015, Vol. 9301, 198-209.

2.34 A.A. Burov, A.D.Guerman, I.I. Kosenko, V. I. Nikonov, Motion of spacecraft tethered to an asteroid. Proc. of 67^th IAC, Guadalajara, Mexico, 2016, IAC–16–D4.3.12.

2.35 Y. Razoumny, F. Graziani, A.D. Guerman, J.-M. Contant, Foreword. Advances in the Astronautical Sciences, 2017, Vol. 161, v-vi.

2.36 A.A. Burov, A.D.Guerman, I.I. Kosenko, V. I. Nikonov, Dynamics of a massive point about a uniformly rotating, two-lobe celestial body. Advances in the Astronautical Sciences, 2017, Vol. 161, 165-179.

2.37 A.A. Burov, A.D.Guerman, I.I. Kosenko, V. I. Nikonov, Tethered spacecraft in an asteroid gravitational environment, Proc. of 68^th IAC, Adelaide, Australia, 2017, IAC–17–D4.5.15

2.38 A.A. Burov, A.D. Guerman, I.I. Kosenko, V.I. Nikonov. Dynamics of a massive point about a uniformly rotating two-lobe celestial body. Advances in the Astronautical Sciences, 2018, Vol. 161, 165–179.

2.39 A. F. S. Ferreira, A. F. B. A. Prado, A. D. Guerman, D. P. S. Santos, A. Burov and O. C. Winter, Dynamics of space tether on binary asteroid, Advances in the Astronautical Sciences, 2018, Vol. 162, 3901-3920

2.40 A. F. S. Ferreira, A. F. B. A. Prado, A. D. Guerman, D. P. S. Santos, A. Burov and O. C. Winter, Using tethers to build a “Capture Portal” for the planets, Advances in the Astronautical Sciences, 2018, Vol. 162, 3839-3858.

2.41 J. B. Monteiro, A. Azevedo, G. Pardal, A. Guerman, J. Páscoa, F. Dias, T. Rebelo, A. João, P. Figueiredo, MECSE: A CubeSat mission aiming to measure and manipulate the ionospheric plasma layer. Advances in the Astronautical Sciences, 2018, Vol. 163, 69-81.

2.42 A.A. Burov, A.D.Guerman, I.I. Kosenko, V. I. Nikonov, Dynamics and control of space tethers. Advances in the Astronautical Sciences, 2018, Vol. 163, 713-728.

2.43 A.A. Burov, A.D.Guerman, I.I. Kosenko, V. I. Nikonov, Space elevator operation in proximity of asteroids. Proc. of 70^th IAC, Washington D.C., USA, IAC–19–D4.3.16.

2.44 Yu. Razoumny, F. Graziani, A.D. Guerman, J.-M. Contant, Foreword to Proceedings of the 1^st IAA/AAS SciTech Forum on Space Flight Mechanics and Space Structures & Materials, Advances in the Astronautical Sciences, 2020, Vol. 170, xv-xxvi.

3. Book Chapter

3.1 G. Smirnov, A. Guerman, and S. Dias, “Linear differential games and high precision attitude stabilization of spacecraft with large flexible elements”. In: Advances in Spacecraft Technologies, Jason Hall, ISBN: 978-953-307-551-8, InTech, 2011, 423-442.

4. Pedagogical Publications

Books

4.1 A.I. Belousov, S.V. Galkin, A.D. Guerman, et al. Optimization Methods in Engineering Problems. Mosc. State Tech. Univ., Moscow, 1990, 160 pp. (ISBN 5-7038-0680-1).

4.2 A.D. Guerman, G.V. Grishina. Calculus of Variations. Mosc. State Tech. Univ., Moscow, 1992, 73 pp. (ISBN 5-7038-0837-5).

4.3 S.A. Agafonov, A.D. Guerman, and T.V. Muratova. Ordinary Differential Equations. Mosc. State Tech. Univ., Moscow, Editions: 1^st – 1997, 2^nd – 2000, 3^rd - 2004, 4^th -6^th - 2005, 7^th – 2006 (ISBN 5-7038-1274-7, 5-7038-1270-4, 5-7038-1649-1, 5-7038-2796-5).

4.4 S. Antontsev, A. Guerman. Estabilidade das Soluções de Sistemas de Equações Diferenciais (Stability of Solutions to Systems of Differential Equations). UBI, Covilhã, 2001, 53 pp.

4.5 A. Guerman. Dinâmica dos sistemas mecânicos. Métodos de mecânica analítica (Dynamics of Mechanical Systems. Methods of Analytical Mechanics). UBI, 2002, 64 pp.

International Journals

4.6 P.D. Gaspar, A.D. Guerman, P. Fael, C. Fernandes, Knowledge and attitudes development through didactic competitions: Spaghetti Bridge Contest at UBI. Advances in Education Sciences, 2013, Vol. 1, 398-403.

International Conferences

4.7 H. Santos, A. Guerman, C. Fernandes. O Uso da Internet no Ensino da Engenharia. Actas do IIIº Congresso Luso-Moçambicano de Engenharia, Maputo, 19-21 de Agosto, 2003, 43-51.

4.8 A. Guerman, H. Santos, C. Fernandes. Ensino de Mecânica Aplicada na Universidade da Beira Interior: Experiência de e-Learning. Actas de CIBEM6 – 6º Congresso Ibero-americano de Engenharia Mecânica, 16-18 de Outubro 2003, Coimbra, Portugal, 417-422.

4.9 A. Guerman, H. Santos, C. Santos. Use of e-Learning platform for teaching Applied Mechanics. Proc. of 3rd ASEE International Colloquium on Engineering Education, Sept. 7-10, 2004, Beijing, P.R. China.

4.10 M. Merino, J. A. García-Souto, G. Pradels, F. Daveran, A. Ghiotto, E. Kerherve, B. Escudier, T. Gateau, N. Roche, M. Bernard, L. Dusseau, E. Fontán, G. Alonso, A. Guerman, F. Charrua-Santos, L. Braga Campos. NanoStar University Network: Hands-on higher Aerospace Education through Nanosatellite Student Challenges. 2nd Symposium on Space Educational Activities, April 11-13, 2018, Budapest, Hungary. Paper ID: SSEA-2018-8.

National Conferences

4.11 A. D. Guerman, H. Santos, P. D. Gaspar, A. Espírito Santo, C. Santos. Exercícios acompanhados: conjunto inovador de funcionalidades de plataformas de e-Learning. Proc. Conf. Engenharia’2003 (ISBN 972-8790-14-17), Covilhã, UBI, 2003, 559-564.

4.12 A. Guerman, H. Santos, P. D. Gaspar, A. Espírito Santo, C. Santos. Módulo de gestão e resolução de exercícios: tutoria on-line. Proc. Conf. eLES (ISBN 972-789-134-9), Aveiro, Out. 27 – 30, 2004, 9 pp.

4.13 H. Santos, R. Costa, A. Guerman, C. Santos, A. Espírito Santo, M. C. Lopes. Plataforma SAMURAI – um ambiente de apoio ao ensino universitário. Proc. Conf. eLES (ISBN 972-789-134-9), Aveiro, Out.27 – 30, 2004, 10 pp.

4.14 A. Gurtovoi, A. D. Guerman, C. S. Santos, L. F. A. Bernardo. Sistema de ensino baseado no computador: gerador automático dos exercícios. Proc. Conf. Engenharia’2005, Covilhã, UBI, 2005 (ISBN 972-8790-56-2), Vol. 2, 35-37.

4.15 R. P. Costa, A. D. Guerman, C. S. Santos, C. Lopes e A Raposo. Plataforma de e-Learning SEMENTE: sistemas e métodos de ensino usando tecnologias de informação avançadas. Proc. Conf. Engenharia’2005, Covilhã, UBI, 2005, Vol.2, 28-31.

4.16 A. Guerman, C. Santos, R. Costa, A. Raposo, A. Mendonça e C. Lopes, Plataforma SEMENTE: Tecnologias de Informação para o Ensino na UBI. Proc. Conf. Engenharia’2007, Covilhã, UBI, 2007, Paper ENG-07-7.2.

4.17 A.D. Guerman, P. Dinis Gaspar, P. Fael, C. Fernandes, A. Espírito Santo, B. Ribeiro, F. Santos, Concurso de pontes de esparguete: engenho e criatividade. Proc. Conf. Engenharia’2009, Covilhã, UBI, 2009, Paper ENG-09-13.1.

Other publications

4.18 D.Coelho, T. Lages, R. Costa, A. Guerman, F. Velez, M. Verissimo, Redes sem fios ao serviço da qualidade de vida, In@var - Publicação Bimestral da Portugal Telecom Inovação, Julho de 2004.

Teaching/Learning Tools

4.19 Página Web de apoio às aulas de Mecânica Aplicada (em colaboração com Engº. Humberto Santos) - www.mecanica-aplicada.ubi.pt

4.20

Plataforma de e-learning SEMENTE (em colaboração com outros investigadores do Projecto SEMENTE) e os conteúdos para as disciplinas “Mecânica Aplicada”, “Sistemas Mecânicos” e “Vibrações e Ruído” – www.e-ensino.ubi.pt.