dr. D Wicaksono

PhD student
Bioelectronics (BE), Department of Microelectronics


Promotor: Paddy French

Themes: Bioinspired electronics

Publications

  1. Two types of silicon biomimetics MEMS gyroscopes
    w Cui; G. Pandraud; D.H.B. Wicaksono; Y. Chen; V. Rajaraman; P.J. French;
    conference, 2010.

  2. Biomimetics learning from nature to make better transducers
    P.J. French; D.H.B. Wicaksono;
    J Dell; W Wlodarski (Ed.);
    apcot, , pp. 30-31, 2010.

  3. Biomimetics: learning from nature to make better sensors
    P.J. French; D.H.B. Wicaksono;
    In {De Lima Monteiro}, D; O Bonnaud; N Morimoto (Ed.), Microelectronics Technology and Devices - SBMicro 2009,
    Electrochemical Society, pp. 193-202, 2010.

  4. Time domain optical coherence tomography system with integrated delay line for surgical guidance applications
    M. Geljon; E. Margallo Balbas; G. Pandraud; D.H.B. Wicaksono; P.J. French;
    In s.n. (Ed.), Proceedings 2010 Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC),
    IEEE, pp. 3017-3020, 2010. ISSN: 1557-170X Print ISBN: 978-1-4244-4123-5 Engineering in Medicine and Biology Society (EMBC), 2010 Annual International Conference of the IEEE.

  5. Micro-optics assembly in dental drill as a platform for imaging and sensing during surgical drilling
    D.H.B. Wicaksono; E. Margallo Balbas; G. Pandraud; P.J. French; P. Breedveld; J. Dankelman;
    In T Kenny; G Fedder (Ed.), Proceedings of the 9th IEEE Sensors Conference 2010,
    IEEE, pp. 265-268, 2010.

  6. ar-infrared sensor with LPCVD-deposited low-stress Si-rich nitride absorber membranes: Part 1. Optical absorptivity
    F. Jutzi; D.H.B. Wicaksono; G. Pandraud; N. de Rooij; P.J. French;
    Sensors and actuators a-physical,
    Volume 152, pp. 119-125, 2009.

  7. Far-infrared sensor with LPCVD-deposited low-stress Si-rich nitride absorber membrane: Part 2: Thermal property, and sensitivity
    F. jutzi; D.H.B. Wicaksono; G. Pandraud; N. de Rooij; P.J. French;
    Sensors and actuators a-physical,
    Volume 152, pp. 126-138, 2009.

  8. Far-infrared sensor with LPCVD-deposited low-stress Si-rich nitride absorber membrane┬┐Part 2: Thermal property, and sensitivity
    F. jutzi; D.H.B. Wicaksono; G. Pandraud; N. de rooij; P.J. French;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume 152, pp. 126-138, 2009.

  9. Far-infrared sensor with LPCVD-deposited low-stress Si-rich nitride absorber membrane-part 2.Thermal property and sensitivity
    F. jutzi; D.H.B. Wicaksono; G. Pandraud; N. de rooij; P.J. French;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume A152-2(2), pp. 126-138, 2009.

  10. Far-infrared sensor with LPCVD-deposited low-stress Si-rich nitride absorber membrane┬┐Part 1. Optical absorptivity
    F. jutzi; D.H.B. Wicaksono; G. Pandraud; N. de rooij; P.J. French;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume 152, pp. 119-125, 2009.

  11. Bio-inspired dome-shape SiO2/SiN membrane as strain-amplifying transducer
    D.H.B. Wicaksono; G. Pandraud; C.K. Yang; J. Dankelman; P.J. French;
    In J. Brugger; D. Briand (Ed.), Eurosensors XXIII,
    Lausanne, Switzerland, Elsevier, pp. 770-773), 2009.
    document

  12. Bio-inspired dome-shape SiO2/SiN membrane as strain-amplifying transducer
    D.H.B. Wicaksono; G. Pandraud; C.K. Yang; J. Dankelman; P.J. French;
    In J Brugger; D Briand (Ed.), Procedia Chemistry, Volume 1, Issue 1,
    Elsevier, pp. 770-773, 2009.

  13. Biomemitics:learning from nature to make better sensors
    P.J. French; D.H.B. Wicaksono;
    In s.n. (Ed.), proceedings of 24th symposium on microelectronics technology and devices-SBMicro 2009,
    The Electrochemical Society, pp. 193-202, 2009.

  14. Modeling heat generation and temperature distribution for temperature sensing during dental surgical drilling
    M. abayazid; D.H.B. Wicaksono; J. Dankelman; P.J. French;
    In s.n. (Ed.), Proceedings of SAFE 2009,
    STW, pp. 1-10, 2009.

  15. Early feasibility study for MOMS-based shear stress sensing in dental drilling
    D.H.B. Wicaksono; F. Carta; P.J. French; P. Breedveld; J. Dankelman;
    In s.n. (Ed.), Proceedings of SAFE 2009,
    STW, pp. 545-550, 2009.

  16. Integrated sensor-packaging probe for dental drilling system:design and early fabrication results
    D.H.B. Wicaksono; E. Margallo; P. Breedveld; P.J. French; J. Dankelman;
    In s.n. (Ed.), Proceedings of SAFE 2009,
    STW, pp. 556-560, 2009.

  17. Bio-inspired dome-shape SiO2/SiN membrane as strain-amplifying transducer
    D.H.B. Wicaksono; G. Pandraud; C.K. Yang; J. Dankelman; P.J. French;
    In s.n. (Ed.), Proceedings of Eurosensors, XXIII 2009,
    s.n., pp. 770-773, 2009.

  18. Infrared sensor comprising a golay cell
    D.H.B. Wicaksono; P.J. French; C. Maeda; K. Kagawa; H. Onome; E. Kakiuchi;
    2009.

  19. Thermal property of LPCVD SiN membrane for far infrared sensor application
    D.H.B. Wicaksono; F. Jutzi; G. Pandraud; P.J. French;
    In s.n. (Ed.), Thermal property of LPCVD SiN membrane for far infrared sensor application,
    ISSM, pp. 168-173, 2008.

  20. Performance of miniaturized LPCVD-SiN-membrane-based 7-14 micrometer infrared thermal detector:analytical,modelling and experimental study
    D.H.B. Wicaksono; F. jutzi; G. Pandraud; P.J. French;
    In s.n. (Ed.), Proceedings of IEEE Sensors 2008,
    IEEE, pp. 498-501, 2008.

  21. Optical and thermal properties investigation of Si-rich nitride membrane for bio-inspired far infrared sensor applications
    D.H.B. Wicaksono; F. jutzi; G. Pandraud; N.F. de Rooij; P.J. French;
    In s.n. (Ed.), apcot, pp. 397-400, 2008.

  22. Optical absorptivity of LPCVD SiN membrane in 8-14 micrometer wavelength region for far infrared sensor application
    D.H.B. Wicaksono; F. jutzi; G. Pandraud; P.J. French;
    In s.n. (Ed.), ISSM, pp. 163-167, 2008.

  23. Modelling of bio-inspired IR sensor
    D.H.B. Wicaksono; P.J. French;
    Toyota Motor Europe, , 2007.

  24. Learning from nature (U_SP_2_I_IC_T)
    D.H.B. Wicaksono; P.J. French;
    STW, , 2007.

  25. Summary of progressand plan biomimetic far infrared sensor
    D.H.B. Wicaksono; P.J. French;
    Toyota Motor Europe, , 2007.

  26. Learning from nature
    D.H.B. Wicaksono; P.J. French;
    STW, , 2007.

  27. Short progress status report bio-inspired MEMS far-infrared sensor for night vision application
    F. jutzi; D.H.B. Wicaksono; P.J. French;
    Toyota Motor Europe, , 2007.

  28. The design and modelling of bio-inspired cheap MEMS far infrared sensor (FIR) for night vision application
    D.H.B. Wicaksono; P.J. French;
    Toyota Motor Europe, , 2007.

  29. Design and modelling of a bio-inspired MEMS gyroscope
    D.H.B. Wicaksono; Y. Chen; P.J. French;
    In s.n. (Ed.), Proceedings of the International Conference on Electrical Engineering and Informatics (ICEEI2007),
    Institut Teknologi Bandung, pp. 226-229, 2007.

  30. Modelling, design and fabrication of a bio-inspired MEMS vibratory gyroscope (U_SP_2_I_IC_T)
    Y. Chen; D.H.B. Wicaksono; L. Pakula; V. Rajaraman; P.J. French;
    In s.l. (Ed.), Modelling, design and fabrication of a bio-inspired MEMS vibratory gyroscope.,
    SAFE, pp. 572-576, 2007.

  31. Optical absorptivity and thermal property of LPCVD-deposited low-stress Si-rich nitride membrane for far-infrared sensor
    F. jutzi; D.H.B. Wicaksono; G. Pandraud; P.J. French;
    In s.n. (Ed.), Optical absorptivity and thermal property of LPCVD-deposited low-stress Si-rich nitride membrane for far-infrared sensor,
    SAFE, pp. 482-487, 2007.

  32. Design of a biologically-inspired piezoresistive strain-sensing MEMS (U_SP_2_I_IC_T)
    D.H.B. Wicaksono; V. Rajaraman; P.J. French;
    In {A. Liu, J.Wu, C.Lu, C.D. Reddy} (Ed.), MEMS Technology and Devices,
    Pan Stanford publishing, pp. 340-343, 2007.

  33. On the initial design and simulation of a biologically-inspired MEMS gyroscope (U_SP_2_I_IC_T)
    D.H.B. Wicaksono; Y. Chen; V. Rajaraman; L. Pakula; P.J. French;
    In {A.Liu, J. Wu, C. Lu, C.D. Reddy} (Ed.), MEMS Technology and Devices,
    Pan Stanford publishing, pp. 336-339, 2007.

  34. Modelling, design and fabrication of a bio-inspired MEMS vibratory gyroscope
    Y. Chen; D.H.B. Wicaksono; L. Pakula; V. Rajaraman; P.J. French;
    In s.n. (Ed.), Book of Abstracts - 18th Workshop on MicroMechanics Europe, MME 2007,
    MME, pp. 199-202, 2007.

  35. Early stages on design and simulation ofa silicon bio-inspired MEMS vibratory gyroscope
    Y. Chen; D.H.B. Wicaksono; P.J. French;
    In s.l. (Ed.), Early stages on design and simulation ofa silicon bio-inspired MEMS vibratory gyroscope,
    Sense of Contact 2009, pp. 1-5, 2007.

  36. A dome-shape bio-inspired piezoresistive MEMS strain sensor
    D.H.B. Wicaksono; G. Pandraud; L. Pakula; V. Rajaraman; P.J. French; J.F.V. Vincent;
    In s.n. (Ed.), Proceedings of the International Conference on Electrical Engineering and Informatics (ICEEI2007),
    Institut Teknologi Bandung, pp. 464-467, 2007.

  37. Feasibility study for the design and the development of Bio-inspired small and Inexpensive Far Infrared Sensor for Night Vision Application (U-SP-2-I-ICT)
    D.H.B. Wicaksono; P.J. French;
    Toyota Motor Company, , 2006.

  38. Learning from Nature: Report for the users committe meeting (U-SP-2-I-ICT)
    D.H.B. Wicaksono; D. Tanase; P.J. French;
    STW, Volume STW report , 2006.

  39. Learning from nature
    D.H.B. Wicaksono; D. Tanase; P.J. French;
    OTB-RES-VI Transport and Infrastructure, , 2006.

  40. Fly's Proprioception-inspired micromachined strain-sensing structure: Idea, design,modelling and simulation and comparison with experimental results (U-SP-2-I-ICT)
    D.H.B. Wicaksono; L. Zhang; G. Pandraud; P.J. French; J.F.V. Vincent;
    In {Francis E.H.tay, Miao Jianmin}; {John Bergstrom, Ciprian Iliesc} (Ed.), s.l., pp. 336-341, 2006.

  41. Preliminary Study on the Design of a Silicon Bio-inspired MEMS Gyroscope (U-SP-2-I-ICT)
    Yue chen; D.H.B. Wicaksono; L. Zhang; P.J. French;
    In P.J. French; {de Meyer}, K; W Krautschneider; J Schmitz; L.K. Nanver; {van de Sande}, MCM (Ed.), Proceedings of the 9th annual workshop on Semiconductor Advances for Future Electronics and Sensors 2006,
    SAFE, pp. 379-383, 2006.

  42. Strain Amplifying property of Bioinspired Membrane-in-Recess Microstructure: Analytical Modelling (U-SP-2-I-ICT)
    Yue chen; D.H.B. Wicaksono; L. Zhang; P.J. French; J.F.V. Vincent;
    In P.J. French; W Krautschneider; J Schmitz; L.K. Nanver; {de Meyer}, K; {van de Sande}, MCM (Ed.), Proceedings of the 9th annual workshop on Semiconductor Advances for Future Electronics and Sensors 2006,
    SAFE, pp. 373-378, 2006.

  43. Influence of Structural Parameters on Stress/Strain Amplification property of Biomimetics Membrane-in-Recess Si Microstructure (U-SP-2-I-ICT)
    D.H.B. Wicaksono; L. Zhang; Yue chen; P.J. French; N. Gharbage;
    In P.J. French; {de Meyer}, K; W Krautschneider; {van de Sand}, MCM; J Schmitz; L.K. Nanver (Ed.), Proceedings of the 17th ProRISC, Annual Workshop on Circuits, Systems and Signal Processing (ProRISC 2006),
    SAFE, pp. 398-403, 2006.

  44. Numerical Modelling of Biomimetics Strain-sensing Microstructure (U-SP-2-I-ICT)
    D.H.B. Wicaksono; L. Zhang; Yue chen; P.J. French; N. Gharbage; J.F.V. Vincent;
    In {Peter Enoksson} (Ed.), Numerical Modelling of Biomimetics Strain-sensing Microstructure,
    Eurosensors, pp. 1-4, 2006.

  45. Biomimetic strain-sensing microstructure for improved strain sensor: fabrication results and optical characterization
    D.H.B. Wicaksono; J.F.V. Vincent; G. Pandraud; G. Craciun; P.J. French;
    Journal of Micromechanics and Microengineering,
    Volume 15, pp. 72-81, 2005.

  46. Learning from nature
    D.H.B. Wicaksono; D. Tanase; P.J. French;
    STW, Volume STW Report , 2005.

  47. Compact building blocks for optical sensing on PECVD SiC technology
    G. Pandraud; D.H.B. Wicaksono; P.J. French; P.M. Sarro;
    In s.n. (Ed.), ICICI proceedings,
    ICICI, pp. 453-458, 2005. Editor onbekend JH /100% EI.

  48. Simple optical characterisation for biopmimetic micromachined silicon strain-sensing structure
    D.H.B. Wicaksono; G. Pandraud; P.J. French;
    In C Quan; FS Chau; A Asundi; BS Wong; CT Lim (Ed.), Proceedings of the Third International Conference on Experimental Mechanics (ICEM 2004),
    SPIE, pp. 788-795, 2005.

  49. Induced coupled plasma deep reactive ion etching based sensors
    G. Pandraud; D.H.B. Wicaksono; L.B. Hebrard; A.J.L. Adam; P.J. French;
    In s.n. (Ed.), Proceedings of the 16th MME MicroMechanics Europe Workshop,
    s.n., pp. 68-71, 2005. Editor onbekend JH.

  50. Image processing and interpretation for optical characterisation of biomimetic mechanical-strain-sensing microstructure
    D.H.B. Wicaksono; G. Pandraud; P.J. French;
    In S Yudha; A Suparmanto (Ed.), ICICI proceedings,
    ICICI, pp. 341-346, 2005.

  51. Size-dependency of cryo-icp-etching-based process for the fabrication of biomimetic membrane-in-recess microstructure
    D.H.B. Wicaksono; G. Pandraud; G. Craciun; P.J. French;
    In {R Reus}, de; {S Bouwstra} (Ed.), Eurosensors XIX, proceedings,
    IEEE, pp. 1-4, 2005. Editor onbekend.

  52. Fabrication and initial characterisation results of a micromachined biomimetic strain sensor inspired from the campaniform sensillum of insects
    D.H.B. Wicaksono; G. Pandraud; G. Craciun; J.F.V. Vincent; P.J. French;
    In s.n. (Ed.), Proceedings of IEEE Sensors, 2004,
    IEEE, pp. 542-545, 2004. niet eerder opgevoerd.

BibTeX support

Last updated: 29 Sep 2020

Dedy Wicaksono

Alumnus
  • Left in 2008