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Elulookirjeldus (CV)
1.Eesnimi Jaan
2.Perekonnanimi Kalda
3.Töökoht TTÜ Küberneetika Instituut
4.Ametikoht vanemteadur
5.Sünniaeg 12.11.1963 (päev.kuu.aasta)
6.Haridus Moskva Füüsika-Tehnika Instituut, teoreetiline plasmafüüsika (diplom 1988)
7.Teenistuskäik Aspirantuur Moskva Füüsika-Tehnika Instituudis ja Kurtšatovi nim. Aatomienergeetika Instituudis 1988-1990; stažeerimine École Polytechnique'is, Centre de Physique Theoretique (1992-1993), 1990. aastast alates ETA Küberneetika Instituudi Mehaanika ja Rakendusmatemaatika osakonna nooremteadur, 1994.a. alates vanemteadur.
8.Teaduskraad Matemaatika-füüsika kandidaat
9.Teaduskraadi välja
andnud asutus, aasta		 Moskva Füüsika-Tehnika Instituut, 1990
10.Tunnustused Euroopa Teaduste ja Kunstide Akadeemia liige
11.Teadusorganisatsiooniline
ja –administratiivne
tegevus		 Retsensent mitmetele ajakirjadele (ETA Toimetised, Phys. Rev. Lett., Phys. Lett. A, J. Physics: Cond. Mat., J. Phys. A,D, New J. Phys, Plasma Phys. Contr. Fusion). Rahvusvaheliste füüsikaolümpiaadide Eesti võistkonna pedagoogiline juht (aastast 1994).
12.Juhendamisel kaitstud
väitekirjad

Maksim Säkki, PhD, 2005, juh. Jaan Kalda. Südamerütmi pikamastaabiline kord ja juhumuutlikkus; kaitsmine 28. nov. 2005. Tallinna Tehnikaülikool

Robert Kitt, PhD, 2005, juh. Jaan Kalda. Üldistatud mastaabiinvariantsus majanduslikes ajajadades. Tallinna Tehnikaülikool

Maksim Säkki, MSc, 2001, juh. Jaan Kalda. On the fractality of the human heart dynamics. Tallinn University of Technology

Maksim Säkki, MSc, 2001, juh. Jaan Kalda. Fraktaalsusest südame rütmi dünaamikas. Tallinna Tehnikaülikool
13.Teadustöö põhisuunad Mastaabiinvariantsete struktuuride (sh bioloogiliste) modelleerimine ja analüüs, juhumuutlike ajajadade (sh finants) mastaabi-inariantne analüüs, juhuslike pindade statistine topograafia, turbulentne difusioon, mittelineaarsed ülekandeprotsessid.
14.Jooksvad grandid ETF grant Nr 5036: Iseorganiseeruvalt kriitiliste dünaamiliste dissipatiivsete süsteemide statistiline topograafia
15.Teaduspublikatsioonid

M Bachmann, J Kalda, J Lass, V Tuulik, M Säkki, H Hinrikus, Method of nonlinear analysis of electroencephalogram for detection of the effect of low-level electromagnetic field, Medical & Biological Engineering & Computing 43, 1, 142–149 (2005).

M. Bachmann, M. Säkki, J. Kalda, J. Lass, V. Tuulik, H. Hinrikus. Effect of 450 MHz microwave modulated with 217 Hz on human EEG in rest. The Environmentalist, vol 25(2/3), 165-171 (2005).

R. Kitt and J. Kalda, Properties of low-variability periods in financial time series. Physica A, 345 (3-4), pp 622-634 (2005).

R. Kitt and J. Kalda, Scaling analysis of multi-variate intermittent time series. Physica A, 353, pp 480-492 (2005).

A. Soesoo, J. Kalda, P. Bons, K. Urtson, and V. Kalm,Fractality in geology: a possible use of fractals in the studies of partial melting processes. Proc. Estonian Acad. Sci. Geol., 2004, 53, 1, 13–27

J. Kalda, M. Säkki, M. Vainu, and M. Laan, Nonlinear and scale-invariant analysis of heart rate variability, Proc. Estonian Acad. Sci. Phys. Math., 2004, v. 53 (1), 26–44.

M. Säkki, J. Kalda, M. Vainu and M. Laan, The distribution of low-variability periods in human heartbeat dynamics.Physica A, 2004, v.338 (1-2), 255-260.

M. Säkki, J. Kalda, M. Vainu, and M. Laan, What does measure the scaling exponent of the correlation sum in the case of human heart rate? Chaos, 2004, v. 14, 138-143.

P. D. Bons, J. Arnold, M. A. Elburg, J. Kalda, A. Soesoo and B. P. van Milligen, Melt extraction and accumulation from partially molten rocks. Lithos, 2004, v. 78, (1-2), 25-42.

R. Kitt and J. Kalda, Pareto-Zipf's law in variability of financial time series. WSEAS Transactions on business and economy, 2004, v. 1 (1), 101-104.

Bons, P. D.; Arnold, J.; Kalda, J.; Soesoo, A.; Elburg, M. A., Accumulation and transport of magma, EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #4282

J. Kalda, Gradient-Limited Surfaces: Formation of Geological Landscapes. Phys. Rev. Lett. 90, 118501 (2003).

J. Kalda, Oceanic coastlines: percolation clusters of rough surfaces, EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #6295

J. Kalda, Zipf's law-like distribution of pollution spots in turbulent flows, EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #6322

M.Vainu, J.Kalda, M.Laan, M.Säkki. Mittelineaarsed meetodid südame löögisageduse muutlikkuse hindamisel kardioloogilistel patsientidel ambulatoorse EKG monitooringu andmetel. Eesti Arst. [Nonlinear methods for heart rate variability based on ambulatory EKG monitoring. Estonian Doctor.], 2003, 8, 543-549 - in Estonian.

J. Kalda, Earth's Surface: A New Model and Its Statistical Topography, EGS XXVII General Assembly, Nice, 21-26 April 2002, abstract #3845

J. Kalda, Description of random Gaussian surfaces by a four-vertex model, Phys. Rev. E 64, 020101(R), 4 pages (2001).

J. Kalda, On the multifractal properties of passively convected scalar fields, in: M.Novak, editor, "Paradigms of Complexity. Fractals.", World Scientific, Singapore, 193-201 (2000).

J. Kalda, Simple model of intermittent passive scalar turbulence, Phys Rev. Lett, 84 (3), 471-474 (2000).

J. Kalda, M. Vainu, M. Säkki and M.Laan, The methods of nonlinear dynamics in the analysis of heart rate variability for children Med. Biol. Eng. Comp. 37, Suppl.1, 69-72 (1999).

J. Kalda, On the fractality of the biological tree-like structures, Discrete Dynamics in Nature and Society. 3(4), 297-306 (1999).

J. Kalda, Transport processes in fractal biological networks, Proc. Estonian Acad. Sci. Tech. 1999 (4), 270-280.

J. Kalda, On the optimization of Monte-Carlo simulations, Physica A 246, 646--658 (1997).

A. Salupere, G.A. Maugin, J. Engelbrecht, J. Kalda, On the KdV soliton formation and discrete spectral analysis. - Wave Motion 23, 49-66 (1996).

J.Kalda Fast penetration of a magnetic field into a collisionless plasma, Physical Review E 54 (1996), 2, pp 1824-1828.

J. Kalda, Fractality of blood-vessel system and lung. - Med. Biol. Engng. Comp., 34, Suppl.1, 375-376 (1996).

J. Kalda. Periodic solutions of the Korteweg-de Vries equation and the number of eigenvalues. Proc. Estonian Acad. Sci. Phys. Math., 1995, 44 , 1, pp. 88-95.

J. Kalda. On transport of a passive scalar in 2D turbulent flow. In: S. Benkadda et al. (eds). Transport, Chaos and Plasma Physics. World Scientific, Singapore, 1994, 2720-2725.

J. Kalda, Fractal model of blood vessel system, Fractals 1993, 1 , pp. 191-197.

J. Kalda On the fast penetration of magnetic field into plasmas Phys. Fluids B, 1993, 12, pp. 1883-1890.

M.B. Isichenko, J. Kalda, Shape effects of magnetoresistance J. Moscow Phys. Soc. 1992 2(1), pp. 55-69.

M.B. Isichenko, J. Kalda, Anomalous resistance of randomly inhomogeneous Hall media 1991 sov. JETP 72(1), pp. 126-131 (Zh. Eksp. Teor. Fiz. 1991, 99, pp. 224-236)

M.B. Isichenko, J. Kalda, Statistical geometry of multi-scale isolines. Part I. Fractal dimension of coastlines and number-area rule for islands, J. of Nonlin. Sci. 1991, 1, pp. 255-274.

M.B. Isichenko, J. Kalda, Statistical geometry of multi-scale isolines. Part II. 2D transport of a passive scalar , J. of Nonlin. Sci. 1991, 1, pp 375-396.

A.V. Gordeev, A.V. Grechikha, J. Kalda, sov. Fiz. Plazmy 1990, 16, pp. 95-99.

A.V.Gruzinov, M.B.Isichenko, and J. Kalda Two-dimensional turbulent diffusion 1 sov. JETP 1990,70(2), pp. 263-269 (Zh. Eksp. Teor. Fiz. 1990, 97, pp. 476-488).

J. Kalda, A.S.Kingsep On the generation of small scales by convective transport of magnetic field, sov. Fiz. Plazmy 1989, 15, pp. 874-877.

J. Kalda, A.S.Kingsep To the theory of plasma opening switches , Sov. J. Plasma Phys.15 (1989), pp. 508-511. [Russian: Fiz. Plazmy1989,15, pp. 981-986.]

M.B. Isichenko, J. Kalda, E.B. Tatarinova et al.Diffusion in the media with vortex motion Zh. Eksp. Teor. Fiz. 1989, 96, pp. 913-920)

M.B. Isichenko, J. Kalda, Magnetohydrodynamic wave breaking of a magnetized plasma for large Mach numbers sov. JETP 1989, 69(1), pp. 73-75. (Zh. Eksp. Teor. Fiz. 1989, 96, pp. 134-139).

J. Kalda, A.S.Kingsep To the theory of non-linear skin-effect in plasmas, sov. Fiz. Plazmy 1988, 14(1), pp. 1519-1522.

viimati muudetud: 21.10.2004

Curriculum Vitae (CV)
1.First Name Jaan
2.Surname Kalda
3.Institution Department of Mechanics and Applied Mathematics, Institute of Cybernetics, Tallinn Technical University
4.Position senior research fellow
5.Date of birth 12.11.1963 (day.month.year)
6.Education Moscow Physical-Technical Institute (1988), theoretical plasma physics
7.Research and
professional experience		 PhD studies in Moscow Physical-Technical Institute and Kurchatov Institute of Atomic Energy 1988-1990, post-doctoral position in École Polytechnique, Centre de Physique Theoretique (1992-1993). Starting from 1990 research fellow in the Department of Mechanics and Applied Mathematics, Institute of Cybernetics. Starting from 1994, senior research fellow in the same institute.
8.Academic degree PhD in mathematical-physical sciences
9.Dates and sites of
earning the degrees		 Moscow Physical-Technical Institute (1990)
10.Honours/awards member of the European Academy of Sciences and Arts
11.Research-administrative
experience		 Referee for various journals (Phys. Rev. Lett., Phys. Lett. A, J. Physics: Cond. Mat., J. Phys. A,D, New J. Phys, Plasma Phys. Contr. Fusion, Proc. Est. Acad. Sci). Peadagogical leader of the Estonian team for International Physics Olympiads (since 1994)
12.Supervised dissertations

Maksim Säkki, PhD, 2005, superv. Jaan Kalda. Südamerütmi pikamastaabiline kord ja juhumuutlikkus; kaitsmine 28. nov. 2005. Tallinna Tehnikaülikool

Robert Kitt, PhD, 2005, superv. Jaan Kalda. Üldistatud mastaabiinvariantsus majanduslikes ajajadades. Tallinna Tehnikaülikool

Maksim Säkki, MSc, 2001, superv. Jaan Kalda. On the fractality of the human heart dynamics. Tallinn University of Technology

Maksim Säkki, MSc, 2001, superv. Jaan Kalda. Fraktaalsusest südame rütmi dünaamikas. Tallinna Tehnikaülikool
13.Current research program Modelling of fractal structures, statistical topography of random surfaces, statistical analysis of intermittent timeseries (incl. financial), turbulent diffusion, nonlinear transport processes
14.Current grant funding Est. SF grant No 5036: Statistical topography for dynamical dissipative systems at self-organized criticality
15.List of most important publications

M Bachmann, J Kalda, J Lass, V Tuulik, M Säkki, H Hinrikus, Method of nonlinear analysis of electroencephalogram for detection of the effect of low-level electromagnetic field, Medical & Biological Engineering & Computing 43, 1, 142–149 (2005).

M. Bachmann, M. Säkki, J. Kalda, J. Lass, V. Tuulik, H. Hinrikus. Effect of 450 MHz microwave modulated with 217 Hz on human EEG in rest. The Environmentalist, vol 25(2/3), 165-171 (2005).

R. Kitt and J. Kalda, Properties of low-variability periods in financial time series. Physica A, 345 (3-4), pp 622-634 (2005).

R. Kitt and J. Kalda, Scaling analysis of multi-variate intermittent time series. Physica A, 353, pp 480-492 (2005).

A. Soesoo, J. Kalda, P. Bons, K. Urtson, and V. Kalm,Fractality in geology: a possible use of fractals in the studies of partial melting processes. Proc. Estonian Acad. Sci. Geol., 2004, 53, 1, 13–27

J. Kalda, M. Säkki, M. Vainu, and M. Laan, Nonlinear and scale-invariant analysis of heart rate variability, Proc. Estonian Acad. Sci. Phys. Math., 2004, v. 53 (1), 26–44.

M. Säkki, J. Kalda, M. Vainu and M. Laan, The distribution of low-variability periods in human heartbeat dynamics.Physica A, 2004, v.338 (1-2), 255-260.

M. Säkki, J. Kalda, M. Vainu, and M. Laan, What does measure the scaling exponent of the correlation sum in the case of human heart rate? Chaos, 2004, v. 14, 138-143.

P. D. Bons, J. Arnold, M. A. Elburg, J. Kalda, A. Soesoo and B. P. van Milligen, Melt extraction and accumulation from partially molten rocks. Lithos, 2004, v. 78, (1-2), 25-42.

R. Kitt and J. Kalda, Pareto-Zipf's law in variability of financial time series. WSEAS Transactions on business and economy, 2004, v. 1 (1), 101-104.

Bons, P. D.; Arnold, J.; Kalda, J.; Soesoo, A.; Elburg, M. A., Accumulation and transport of magma, EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #4282

J. Kalda, Gradient-Limited Surfaces: Formation of Geological Landscapes. Phys. Rev. Lett. 90, 118501 (2003).

J. Kalda, Oceanic coastlines: percolation clusters of rough surfaces, EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #6295

J. Kalda, Zipf's law-like distribution of pollution spots in turbulent flows, EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #6322

M.Vainu, J.Kalda, M.Laan, M.Säkki. Mittelineaarsed meetodid südame löögisageduse muutlikkuse hindamisel kardioloogilistel patsientidel ambulatoorse EKG monitooringu andmetel. Eesti Arst. [Nonlinear methods for heart rate variability based on ambulatory EKG monitoring. Estonian Doctor.], 2003, 8, 543-549 - in Estonian.

J. Kalda, Earth's Surface: A New Model and Its Statistical Topography, EGS XXVII General Assembly, Nice, 21-26 April 2002, abstract #3845

J. Kalda, Description of random Gaussian surfaces by a four-vertex model, Phys. Rev. E 64, 020101(R), 4 pages (2001).

J. Kalda, On the multifractal properties of passively convected scalar fields, in: M.Novak, editor, "Paradigms of Complexity. Fractals.", World Scientific, Singapore, 193-201 (2000).

J. Kalda, Simple model of intermittent passive scalar turbulence, Phys Rev. Lett, 84 (3), 471-474 (2000).

J. Kalda, M. Vainu, M. Säkki and M.Laan, The methods of nonlinear dynamics in the analysis of heart rate variability for children Med. Biol. Eng. Comp. 37, Suppl.1, 69-72 (1999).

J. Kalda, On the fractality of the biological tree-like structures, Discrete Dynamics in Nature and Society. 3(4), 297-306 (1999).

J. Kalda, Transport processes in fractal biological networks, Proc. Estonian Acad. Sci. Tech. 1999 (4), 270-280.

J. Kalda, On the optimization of Monte-Carlo simulations, Physica A 246, 646--658 (1997).

A. Salupere, G.A. Maugin, J. Engelbrecht, J. Kalda, On the KdV soliton formation and discrete spectral analysis. - Wave Motion 23, 49-66 (1996).

J.Kalda Fast penetration of a magnetic field into a collisionless plasma, Physical Review E 54 (1996), 2, pp 1824-1828.

J. Kalda, Fractality of blood-vessel system and lung. - Med. Biol. Engng. Comp., 34, Suppl.1, 375-376 (1996).

J. Kalda. Periodic solutions of the Korteweg-de Vries equation and the number of eigenvalues. Proc. Estonian Acad. Sci. Phys. Math., 1995, 44 , 1, pp. 88-95.

J. Kalda. On transport of a passive scalar in 2D turbulent flow. In: S. Benkadda et al. (eds). Transport, Chaos and Plasma Physics. World Scientific, Singapore, 1994, 2720-2725.

J. Kalda, Fractal model of blood vessel system, Fractals 1993, 1 , pp. 191-197.

J. Kalda On the fast penetration of magnetic field into plasmas Phys. Fluids B, 1993, 12, pp. 1883-1890.

M.B. Isichenko, J. Kalda, Shape effects of magnetoresistance J. Moscow Phys. Soc. 1992 2(1), pp. 55-69.

M.B. Isichenko, J. Kalda, Anomalous resistance of randomly inhomogeneous Hall media 1991 sov. JETP 72(1), pp. 126-131 (Zh. Eksp. Teor. Fiz. 1991, 99, pp. 224-236)

M.B. Isichenko, J. Kalda, Statistical geometry of multi-scale isolines. Part I. Fractal dimension of coastlines and number-area rule for islands, J. of Nonlin. Sci. 1991, 1, pp. 255-274.

M.B. Isichenko, J. Kalda, Statistical geometry of multi-scale isolines. Part II. 2D transport of a passive scalar , J. of Nonlin. Sci. 1991, 1, pp 375-396.

A.V. Gordeev, A.V. Grechikha, J. Kalda, sov. Fiz. Plazmy 1990, 16, pp. 95-99.

A.V.Gruzinov, M.B.Isichenko, and J. Kalda Two-dimensional turbulent diffusion 1 sov. JETP 1990,70(2), pp. 263-269 (Zh. Eksp. Teor. Fiz. 1990, 97, pp. 476-488).

J. Kalda, A.S.Kingsep On the generation of small scales by convective transport of magnetic field, sov. Fiz. Plazmy 1989, 15, pp. 874-877.

J. Kalda, A.S.Kingsep To the theory of plasma opening switches , Sov. J. Plasma Phys.15 (1989), pp. 508-511. [Russian: Fiz. Plazmy1989,15, pp. 981-986.]

M.B. Isichenko, J. Kalda, E.B. Tatarinova et al.Diffusion in the media with vortex motion Zh. Eksp. Teor. Fiz. 1989, 96, pp. 913-920)

M.B. Isichenko, J. Kalda, Magnetohydrodynamic wave breaking of a magnetized plasma for large Mach numbers sov. JETP 1989, 69(1), pp. 73-75. (Zh. Eksp. Teor. Fiz. 1989, 96, pp. 134-139).

J. Kalda, A.S.Kingsep To the theory of non-linear skin-effect in plasmas, sov. Fiz. Plazmy 1988, 14(1), pp. 1519-1522.

last updated: 21.10.2004

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