בבצ'נקו

לפרטים על תואר ראשון ושני

למידע נוסף על לימודים אקדמיים בלבד השאירו פרטיכם ונחזור בהקדם

ראשי » בבצ'נקו
ד"ר בבצ'נקו אנטולי,
מרצה
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Curriculum Vitae
קורות חיים

Academic Education   

 

 

1989                                              Ph.D. Applied Optics (Measurements and Electro-Optic devices),

Dissertation: "Optical method for liquid level measurement"

(Supervisor:  Prof. V. Busurin)

Polytechnic University of Vinnitsa (USSR).

1984-1988              Studies towards Ph.D.

Moscow State Aviation Technological University.

1976-1981              M.S. Electrical Engineering (automation, measurement, industrial engineering),

Polytechnic University of Vinnitsa.

 

 

 

Academic Appointments  

 

2000- present         Jerusalem College of Technology, Department of Physics and Applied Optics. Senior Lecturer.

1991-2000              Jerusalem College of Technology, Department of Electro- Optics. Lecturer.

                              

1982-1990                           The Polytechnic University, Vinnitsa, Institute for Automatics, Electronics and Computer Control Systems. Senior Lecturer.

 

 

Relevant Non-academic Employment 

 

2000-2003              Mysens Ltd., CEO, Research and design of fiber optic medical sensors.

 

1997-1998              IPSO Ltd. (JCT industrial incubator), Technical Director, Founder. Research and design of lightguide refractometer.

                              

1985-1990                             The Polytechnic University, Vinnitsa, Founder and head of the "Optoelectronic devices" R&D group.    

 

 

Awards and Honors for Academic or Professional Achievement

 

2008                       Recipient of Jerusalem College of Technology 2008 Outstanding Research and Lecture Award.

 

2006                        Recipient of Jerusalem College of Technology 2006 Outstanding Research and Lecture Award.

 

 

Research and Development Activities

 

 

a.Summary of Current Research and Development Activities

  • Development of light guide and fiber optic sensors for industrial and biomedical applications.
  • Development of polarization method for medical devices.
  • Research and development of optical devices based on non uniform polymer optical fibers.

 

b.Future Directions for Research and Development

  • Research and development of fiber optic devices based on non hollow fibers.
  • Research and development of wireless smart systems.

 

c.Summary of  Past Research and Development Activities

  • Development of optical systems for detection of Stokes parameters.
  • Development of a special intelligent database for non-electric measurement systems (expert system).
  • Research and development of thin film coated light guides.

 

 

Publications  

 

a.Peer-Reviewed Papers in Refereed Journals

 

Before latest appointment

1.       A. Babchenko, V. Busurin, 1988. Method of the Stokes light parameters automatic control. Optical-mechanical Industry, 9 : 1 - 3.

2.       V. Malikov, V. Dubonoy, A. Babchenko, 1989. Mechanisation of designing optoelectronic control devices. Devices and Control Systems, 6 : 7 – 10.

3.       A. Babchenko, V. Busurin, 1986. Optoelectronic liquid level sensor. Sensors Based on Microelectronic Technology, 1 : 145.

4.       M. Nitzan, H. de Boer, S. Turivnenko, A. Babchenko, and D. Sapoznikov. 1994.   Power spectrum analysis of the spontaneous fluctuations in the photoplethysmographic signal.  J. Basic  and Clinical  Physiol. and Pharmacol.  5:269-276.

5.       A. Babchenko, J.S. Bodenheimer and M. Nitzan, 1995. Optical sensor based on coated lightguide. Opt. Eng. 34:3587-3592.

6.       M. Nitzan, S. Turivnenko, A. Milston, A. Babchenko and Y. Mahler, 1996.  Low frequency variability in the blood volume and in the blood volume pulse measured by photoplethysmography.  J. Biomed. Optics, 1:223-229.

7.       M. Nitzan, A. Babchenko, A. Milston, S. Turivnenko, B. Khanokh and Y. Mahler, 1996.  Measurement of the variability of the skin blood volume using dynamic spectroscopy.  Applied Surface Science.  106: 478-482.

8.       M. Nitzan, A. Babchenko, B. Khanokh and D. Landau, 1998.  The variability of the photoplethysmographic signal - A potential method for the evaluation of the autonomic nervous system.  Physiol. Meas. 19: 93-102.

9.       M. Nitzan, J. J. Vatine, A. Babchenko, B. Khanokh, J. Tsenter and J. Stessmann, 1998.  Simultaneous measurement of the photoplethysmographic signal variability in the right and left hands.  Lasers in Medical Science, 13 : 189 – 195.

10.     M. Nitzan, A. Babchenko and B. Khanokh., 1999. Very low frequency variability in arterial blood pressure and blood volume pulse.  Med. & Biol. Eng. Comput. 37 : 54 – 58.

11.     A. Babchenko, B. Khanokh, Y. Shomer and M. Nitzan, 1999.  A fiber-optic sensor for the measurement of the respiratory chest circumference changes. J. Biomed. Optics.4 : 224 – 229.

12.     M. Nitzan, A. Babchenko and B. Khanokh., and I. Arad, 1999. Low frequency spontaneous fluctuations in the tissue blood volume in neonates.  J. Basic Clin. Physio. 10 : 259 – 272.

 

Since latest appointment

13.M. Nitzan, A. Babchenko, B. Khanokh and H. Taitelbaum, 2000. Measurement of oxygen saturation in venous blood by dynamic near IR spectroscopy.  J. Biomed. Optics.5 : 155-162.

14.A.Babchenko, E. Davidson, D. Adler, Y. Ginosar, V. Kurtz and M. Nitzan, 2000. Increase in pulse transit time to the foot after epidural anesthesia treatment. Med. & Biol. Eng. Comput. 38 : 674-679.

15.A. Babchenko, E. Davidson, Y. Ginosar, V. Kurtz, I. Feib, D. Adler and M. Nitzan, 2001. Photoplethysmographic measurement of changes in total and pulsatile tissue blood volume following sympathetic blockade.  Physiol. Meas. 22:389-396.

16.M. Nitzan, A. Babchenko, D. Shemesh and J. Alberton, 2001. Influence of thoracic sympathectomy on the cardiac induced oscillations in tissue blood volume. Med. Biol. Eng. Comput. 39:579-583.

17.A. Babchenko, Weinberger Z, Itzkovich N and Maryles J. Plastic optical fibre with structural imperfections as a displacement sensor, 2006. Measurements Science and Technology, Vol. 17, No. 5, OFS special edition pp. 1157-1161.

18.A. Babchenko and Maryles J. A sensing element based on 3D imperfect polymer optical fiber, J. Opt. A: Pure Appl. Opt.9.

19.A. Babchenko and Maryles J. Graded-Index Plastic Optical Fiber for Deformation Sensing, 2007. Optics and Lasers in Engineering, Vol. 45, 7, 757-760.

20.A. Babchenko, V. Chernyak, M Levantovsky and E. Vilge.  Bio-chemical sensor based on smart material, 2008. Smart Materials and Structure. Advanced Material Research, Vol. 47-50, pp. 343-346.

 

a.Presentations at Conferences with Published Proceedings.

         Before latest appointment.

 

1.       A. Babchenko. Polarization measurement transformers for control of liquid parameters. Proc. of the International 7th Conf. of Information Control Systems, Moscow, December 1985, pp. 185.

2.       A. Babchenko, R. Reva. Fiber optic sensor for control of mechanical parameters. Sensor-89, Moscow, 1989. Proc of the III Conf. of Fiber Optic Sensors, pp. 162.

3.       E. Ratner, M. Nitzan, Y. Shomer, A. Gutman and A. Babchenko, Analysis of photoplethysmographic signal. Proceedings of the 8th Meeting on Optical Engineering in Israel, Tel Aviv December 1992, Proc. of SPIE, Vol. 1972, pp 410-415.

4.       A. Babchenko, J.S. Bodenheimer, and M. Nitzan, New type of lightguide sensor.  Proceedings of the 8th Meeting on Optical Engineering in Israel, Tel Aviv 1992, Proc. of SPIE, Vol. 1972, pp 354-361.

5.       M. Nitzan, H. de Boer, S. Turivnenko, A. Babchenko, and D. Sapoznikov. The measurement of peripheral circulation resistance variability.  Proc. of the Annual Meeting of the Israel Physical Society, Haifa, 1994.  p. 60.

6.       M. Nitzan, A. Babchenko, A. Lev, and B. Khanokh.  Measurement of thermally insulated skin temperature using an infrared fiber.  Proc. of the 9th Meeting on Optical Engineering in Israel, Tel Aviv  1994.

7.       A. Milston, A. Babchenko, S. Turivnenko, B. Khanokh and M. Nitzan. Tissue blood volume variability measured by red and infrared photoplethysmography. Proc. of the Annual Meeting of the Israel Physical Society, Bar Ilan University, 1995, p. 132

8.       M. Nitzan, A. Babchenko, S. Turivnenko, B. Khanokh, and Y. Mahler.  The variability of peripheral blood vessels volume, as measured by photoplethysmography. Proc. of the 3rd Annual Jerusalem Symposium on Medical Physics and Medical Instrumentation, Jerusalem College of Technology, 1995. 

9.       A. Babchenko, S. Turivnenko, B. Khanokh, Y. Shomer and M. Nitzan.  Simultaneous measurements of heart rate and breath depth, using optical methods. Proc. of the  3rd Annual Jerusalem Symposium on Medical Physics and Medical Instrumentation, Jerusalem College of Technology, 1995.

10.     A. Babchenko, S. Turivnenko, B. Khanokh and M. Nitzan. A fiber optic sensor for the assessment of breathing effort. Proc. of the International Symposium on Biomedical Optics (Europto), Barcelona, 1995.

11.     M. Nitzan, A. Babchenko, A. Milston, B. Khanokh and S. Turivnenko. Spontaneous low frequency fluctuations in finger blood volume measured by photoplethysmography. Proc. of the International Symposium on Biomedical Optics (Europto), Barcelona, 1995.

12.     A. Babchenko, S. Turivnenko, B. Khanokh and M. Nitzan. The measurement of chest circumference by means of a fiber optic sensor for continuous assessment of breathing effort. Proc. of the 7th Mediterranean Conference on Medical and Biological Engineering (Medicon) Jerusalem 1995. p 120.

13.     M. Nitzan, A. Babchenko, A. Milston, S. Turivnenko and B. Khanokh. Spontaneous fluctuations in the tissue blood volume and the systolic blood volume increase. Proc. of the 7th Mediterranean Conference on Medical and Biological Engineering (Medicon) Jerusalem 1995. p 40.

14.     A. Babchenko, S. Turivnenko, B. Khanokh, Y. Mahler and M. Nitzan. Measurement of the variability of the skin blood volume using photoplethysmography. Proc. of the 2nd International Conference Photo-Exited Processes and Applications (ICPEPA) Jerusalem 1995.

15.     M. Nitzan, A. Babchenko, S. Turivnenko and B. Khanokh.  Quantitative assessment of the respiratory sinus arrhythmia by means of two optical sensors.  Proc. of the 5th International Conf. on Non-Invasive Cardiology, Tel Aviv 1995.  J. Cardiovasc. Diagnosis and Procedures 13: 92, 1996.

16.     M. Nitzan, A. Babchenko, S. Turivnenko and B. Khanokh.  The measurement of the respiratory sinus arrhythmia by two optical methods. Proc. of the 9th Annual Meeting of the Mediterranean Assoc. of Cardiology and Cardiac Surgery, Tel Aviv, 1996.

17.     M. Nitzan, A. Babchenko, S. Turivnenko, and B. Khanokh.  Spontaneous fluctuations in the tissue blood volume and the systolic blood volume increase.  Proc. of the 19th Convention of Electrical and Electronics Engineers in Israel (IEEE), Jerusalem, 1996.

18.     M. Nitzan, A. Babchenko, S. Turivnenko and B. Khanokh.  Assessment of breathing depth by means of a fiber optic sensor.  Proc. of BiOS '97, Biomedical Optics, San Jose, California, 1997, p 107.

19.     M. Nitzan, A. Babchenko, S. Turivnenko and B. Khanokh.  Photoplethysmographic variability:  the spontaneous fluctuations in the tissue blood volume and in the systolic blood volume increase.  Proc. of BiOS '97, Biomedical Optics, San Jose, California, 1997, p 203.

20.     M. Nitzan, A. Babchenko, S. Turivnenko, and B. Khanokh.  The measurement of the respiratory heart rate changes by two optical sensors.  Proc. of the 10th Meeting of Optical Engineering in Israel, Jerusalem, 1997, p 286.

21.     M. Nitzan, A. Babchenko, S. Turivnenko and B. Khanokh.  The variability of the photoplethysmographic signal - a measure of autonomic neuropathy.  Proc. of the 16th International Diabetes Federation Congress, Helsinki, 1997  p. A565.

22.     M. Nitzan, A. Babchenko and B. Khanokh.  The dependence of the respiratory sinus arrhythmia on breathing depth, as measured by two optical sensors.  Proc. of CiC,Computers in Cardiology, Lund, 1997 p. 39.

23.     M. Nitzan, A. Babchenko, B. Khanokh and V. Neeman.  The assessment of breathing depth using a fiber optic sensor for the measurement of chest circumference.  Proc. of the World Congress on Medical Physics and Biomedical Engineering, Nice, 1997 p. 259.

24.     M. Nitzan, A. Babchenko, B. Khanokh and J. J. Vatine.  Measurement of the spontaneous fluctuations in the tissue blood volume and in the systolic blood volume increase. Proc. of the World Congress on Medical Physics and Biomedical Engineering, Nice, 1997  p. 627.

25.     M. Nitzan, A. Babchenko, B. Khanokh.  Low-frequency fluctuations in the arterial blood pressure and the tissue blood volume.  Proc. of the Israel-China Bi-national Conference on Cardiovascular Engineering and Assisted Circulation, Maale Hachamisha, 1998.

26.     M. Nitzan, A. Babchenko, B. Khanokh. The relationship between the low-frequency fluctuations in the arterial blood pressure and the tissue blood volume. Proc. of Biomedical sensors, Fibers and Optical Delivery Systems, Stockholm, 1998, p.132.

27.     M. Nitzan, A. Babchenko, E. Davidson, V. Kurz, Y. Ginosar. Tissue light absorption as a novel method for assessing sympathetic function after epidural anesthesia. Proc. of the Annual Meeting of the American Society of Anesthesiologists, Dallas, TX, October, 1999. Anesthesiology, 91 : Abstract # A609.

28.     M. Nitzan, A. Babchenko, D. Adler, H. Taitelbaum. Oximetry of venous blood. Proc. of the 7th Annual Symposium on Medical Physics and Medical Instrumentation, Jerusalem, 1999, p.26.

29.     M. Nitzan, A. Babchenko, D. Adler, H. Taitelbaum and B. Khanokh. Electro-Optical measurement of venous blood oxygen saturation. Proc. of the 11th International Meeting on Electro-Optics and microelectronics in Israel, Tel-Aviv, Nov.1999, p.22.

30.     A. Sukov, M. Nitzan, and A. Babchenko. Fiber optic device for respiration measurement. The 11th International Meeting on Electro-Optics, Tel-Aviv, 1999.

         

          Since latest appointment

31.M. Nitzan, A. Babchenko, Ch. Rosenfeld and I. Milishanski. A novel non-invasive method for automatic measurement of systolic and diastolic blood pressure. Proc. of the Tenth European Meeting on Hypertension, Goteborg, June 2000, p.543.

32.A. Babchenko, B. Khanokh, H. Taitelbaum and M. Nitzan. Venous blood oximetry. Proc. of the World Congress on Medical Physics and Biomedical Engineering, Chicago, 2000.

33.A. Babchenko, M. Nitzan. Noninvasive Assesment of Changes in Small Arteries Complience by Photoplethythmography. Proc. of the World Congress on Medical Physics and Biomedical Engineering, Chicago, 2000.

34.M. Nitzan, A. Babchenko, E. Davidson, Y. Ginosar, V. Kurz and D. Adler. Noninvasive Assessment of Changes in Small Arteries Compliance by Photoplethythmography. Proc. of the World Congress on Medical Physics and Biomedical Engineering, Chicago, 2000.

35.M. Nitzan, A. Babchenko, I Faib, E. Davidson and D. Adler.  Assessment of changes in arterial compliance by photoplethysmography.  Proc. of the 21th IEEE Convention of the Electrical and Electronic Engineers in Israel, Tel-Aviv April 2000.

36.M. Nitzan, Ch. Rosenfeld, A. Babchenko and I. Milishanski.  A novel method for automatic measurement of systolic and diastolic blood pressure.  Proc. of the 11th European Meeting on Hypertension, Milano June 2001.

37.A. Babchenko, N. Itzkovich,  J. Maryles. Displacement sensor based on bent optical fiber with structural imperfections on the outer side. Proceedings of SPIE - The International Society for Optical Engineering, v 5855 PART II, Fonds voor Wetenschappelijk Onderzoek - Vlaanderen, FWO, 2005, p 719-722.

38.J. Maryles, N. Itzkovich, M. Nitzan, A. Babchenko. Respiratory sensor based on macrobending fiber with side disturbances.  Progress in Biomedical Optics and Imaging - Proceedings of SPIE, v 5864, Novel Optical Instrumentation for Biomedical Applications II, 2005, p 1-3.

39.A.Babchenko, J. Maryles, N. Itzkovich, M. Nitzan. Respiratory Sensor Based on Macrobending Fiber with Side Disturbances. Proceedings of OSA- 136 FiO/LS 2005 Conference TuH21 (CD-Rom) June 2005.

40.A. Babchenko, J. Maryles, N. ItzkovichPlastic Fiber-Optic Hybrid Sensor. Lasers and Electro-Optics Society, 2005. LEOS 2005. The 18th Annual Meeting of the IEEE 23-27 Oct. 2005 Page(s):810 - 811.(Digital Object Identifier 10.1109/LEOS.2005.1548255)

41.J. Maryles, N. Itzkovich, I. Babchenko, H. Galitzer and A. Babchenko. Performance on an Imperfected Graded-Index Plastic Optical Fiber for Deformation Sensing. Proceedings of Workshop POF 2006 Brazil pp. 191-196.

42.J.  Maryles, N. Itzkovich, Y. Hofman, I. Babchenko, I. Tulbovich and A. Babchenko. Characterization of Curved Polymer Optical Fiber with Regulated Imperfections. Proceedings of Workshop POF 2006 Brazil pp.197-202.

43.. Proc. of Would Congress on Medical Physics and Biomedical Engineering Aug. 2006, S. Korea, p.198.

44.         A. Babchenko,  J. Maryles and H. Poisel. Multiple Imperfected Plastic Optical Fiber Sensing Element.  Proc. of The Joint Conference on Plastic Optical Fiber & Microoptics 2006, Seoul, 2006, pp.242-246.

  1. A. Babchenko and J. Maryles. Longitude Movement Fiber Optic Sensor. Proc. of The Joint Conference on Plastic Optical Fiber & Microoptics 2006, Seoul, 2006, pp.283-287.
  2. M. Pinchas, A. Avraham, I. Faib, A. Babchenko and M. Nitzan. A fiber optic sensor for the measurement of inspiration and expiration time.  Bulletin of the Israel Physical Society (52nd Annual Meeting), Israel, 2006, v.52, p.46.

47.Plastic Optical Fiber with Inner Imperfections for Displacement Application. Proceedings of OSA.Frontiers in Optics 2006/Laser Science XXII Conference, JWD50 (CD-Rom), Oct. 2006.

48.V. Chernyak,   J. Maryles, and A. BabchenkoOptics and Optoelectronics - Proceedings of SPIE, v 6585, Optical Sensing Technology and Applications, 2007, p 1V1-1V7.

49.E. Vilge, M. Levantovsky, V. Chernyak, A. Babchenko. Fiber Optic Sensing Element with Multiple Overlapping Imperfections. International Meeting on Optical Engineering and Science, Israel, 2007, (CD-Rom).

50.M. Pinchas, A. Avraham, I. Faib, A. Babchenko and M. Nitzan, S.Mizrahy. A Fiber Optic Sensor for Measuring Respiratory Changes in Chest-Circumference. International Meeting on Optical Engineering and Science, Israel, 2007, (CD-Rom).

51.M. Levantovsky, E. Vilge, H. Poisel  and   A. Babchenko. Fiber Optic Pressure Sensor. Proceedings of SPIE -Third European Workshop on Optical Fibre Sensors ,v.6619 OR, Napoli, July 2007.

52..

53.         A. Babchenko, E. Vilge, V. Chernyak. Fiber optic sensor for linear displacement measurements. ISOT 2007, pp. 37-40, Switzerland, October 2007.

54.         S. Moshe, Y. Yashuvaev, A. Babchenko. Fiber optic sensor for diabetic plantar pressure monitoring. ISMBE Annual Meeting , Tel Aviv, p. 38, March 2008.

 

  1. D. Dayan, A. Babchenko, M. Nitzan. Changes in heart rate and tissue blood volume induced by inspiration and expiration. Computers in Cardiology, Bologna, Italy, p.131, 2008.

 

56.         A. Babchenko. Optical biosensor. Optics Within Live Sciences, Genoa, Italy, 2012, (CD-Rom).

T. A. Lampert, A. Perez, A. Babchenko. Multi-channel Analysis of Micro-cracks in Reinforced Concrete. Mathematical Modelling of Complex System, Ecole Centrale, Paris, p.30, December 2013.

c.       Patents

 

         Before latest appointment

1. A. Babchenko and V. Busurin. Optical device for liquid level measurement. Patent application No 42 39332, May 1987.

2. A. Babchenko. A device and method for liquid level measurement. Patent application No 47 41772, May 1990.

3. A. Babchenko and J. S. Bodenheimer.  A device and method for measuring characteristics of fluids.  Israeli Patent Application No. 103683, November 1992.

4. M. Nitzan, A. Babchenko and Y. Shomer.  A device for the measurement of body movements.  Israeli Patent Application No. 110210, July 1994.

5. M. Nitzan and A. Babchenko.  A method and a device for evaluation of the autonomic nervous system of a living body.  Israeli Patent Application No. 122285, November 1997.

 

            Since latest appointment

6. M. Nitzan, Ch. Rosenfeld, A. Babchenko.  Method for systolic blood pressure measurement.  US patent 640269B1, June 11, 2002.

7. A. Babchenko, V. Chenyak.  System and method for fetal monitoring. PCT Patent Application  PCT/IL2003/000667, 2003.

8. A. Babchenko. An optical sensor and a method of its use. Israel patent 173894, 2012.

9. A. Babchenko. An optical sensor and a method of its use. PCT Patent  PCT/IL2006/000305, 2013.

10. A. Babchenko, E. Perez, Z. Falk, E. Shalom. Fiber optic sensor. Provisional Application, 2013.

 

 

Other Relevant Academic and Professional Activities

 

                              Before latest appointment

1994-1999              Developed and taught lecture classes on Physics, Geometric optics, Electro-Optics, Computed signal analysis.

 

Since latest appointment

 

2000-present          Developing and teaching lecture classes and labs on electro-optics, Introduction in geometric optics, Geometric Optics A, Optoelectronic Instrumentation and Sensors, Fiber-Optic communication systems. Development of advanced teaching methods and learning programs for students in electro-optics. Developed seven new experiments for Physics and electro-optic laboratories. Ten experiments for physics lab were renewed. Supervised, directed and reviewed more than 70 graduate and undergraduate student projects in fiber optic sensing and photonics. More than 20 publications with graduate and undergraduate students as co-authors.

                                                                                                                                         

2000-2012              Ad Hoc Reviewer.  Journals: Biomedical Optics, Measurement Science and         Technology, Optics and Lasers in Engineering.

 

2000-2012              Member of Optical Society of America.

 

2003-2006              Invited Scientific reports: Boeing-France, Elbit Systems, Electro-optics-Elop          Ltd.-Israel

 

2007                       Ad Hoc Reviewer. Grants: City University of Hong Kong (MEEM Research     Committee).

 

2008                       Invited Scientific reports: Electro-optics-ElOp Ltd., Israel

 

2012                       Ad Hoc Reviewer. Grants: Carrick Institute, New York, US.

                              

 

Public Service

 

2007-present        OSA Student Chapter Head Adviser – Volunteer Activity.