Hanoi University of Science and Technology

School of Electronics and Telecommunications

Viện Điện tử - Viễn thông

Vietnamese-VNEnglish (United Kingdom)

IEEE ICCE 2018

2018 IEEE Seventh International Conference on Communications and Electronics

Clip giới thiệu Viện ĐTVT

Tư vấn trực tuyến

Learning-Advisor-Banner-2

Lịch trực BCV học tập

Calendar-600

Link

dtdh hust

Hộp thư góp ý

Dịch vụ trực tuyến

SSSLogo

Department Electronic & Computer Eng.

Vo Le Cuong

 

 

 

Full name: Vo Le Cuong

Work address:

Department of Electronics and Computer Engineering, School of Electronics and Telecommunications.

Rom 618, Ta Quang Buu Library Building.

Email: This e-mail address is being protected from spambots. You need JavaScript enabled to view it ,

Website:

Tel:  (84) 43 8692242 or (84) 938628986

Fax: (84) 4 8692241

Teaching Courses

-          Digital Design and Synthesis.

-          CMOS Digital IC Design

-          Digital System Design using VHDL.

-          Digital Electronics

-          Hardware System Design

-          IC Design

-          Image Sensor

Research Interests

-          Image Processing Algorithm and Implementation on Hardware. 

-          Architecture and Technology of CCD and CMOS Sensor.

-          Smart Image Sensor and Camera. .

-          VLSI Architecture to Improve Performance of IC.

Published Papers

. ‘Backside Illuminated CCD Operating at 16,000,000 Frames per Second with Sub-ten-photon Sensitivity’. Takeharu G. Etoh, Nguyen H. Dung, Son V.T. Dao, Cuong Vo Le, and Masatoshi Tanakaa, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment (2011).

21. ‘Back-side Illuminated Image Sensor of 16,000,000 fps’. Etoh, T. G., Nguyen, H. D., Dao, V. T. S., Vo, L. C., Tanaka, M., , Journal of The Institure of Image Information and Television Engineers, Vol. 65, No. 3, pp. 349-352, 2011.

20. “A 16 Mfps 165kpixels Backside-Illuminated CCD”. Takeharu G. Etoh, Dung H. Nguyen, Son V. T. Dao, Cuong L. Vo et al., ISSCC (2011).

19. ‘Estimation of Attenuation and Phase Delay in Driving Voltage Waveform of a Digital-noiseless Ultra-high-speed Image Sensor’. V. T. S. Dao, T. G. Etoh, C. Vo Le, H. D. Nguyen, K. Takehara, T. Akino, K. Nishi, International journal of Electrical and Electronics Engineering, Vol. 1, pp. 1-5 (2010).

18. ‘Time-resolved Visualization of Shock-Vortex Systems Emitted From an Open Shock Tube’. Harald Kleine, Cuong Vo Le, Kohsei Takehara, and T. Goji Etoh, Journal of Visualization (2010).

17. ‘Toward 100 Mega-Frames per Second: Design of an Ultimate Ultra-High-Speed Image Sensor’. Dao Vu Truong Son, Takeharu Goji Etoh, Masatoshi Tanaka, Nguyen Hoang Dung, Vo Le Cuong, Kohsei Takehara, Toshiro Akino, Kenji Nishi, Hitoshi Aoki, and Junichi Nakai, Special Issue Image Sensor Journal (2010).

16. ‘Simulation based design for back-side illuminated ultrahigh-speed CCDs’. T. Arai, T. Hayashida, K. Kitamura, J. Yonai, H. Maruyama, N. Ohtsuka, C. Vo Le, T. G. Etoh, H. van Kuijk, Proc. of SPIE (2010).

15. ‘16-Mfps extremely-high-sensitivity video camera’. H. D. Nguyen, T. G. Etoh, V. T. S. Dao, C.Vo-Le, M. Tanaka, Proc. of SPIE, 2010.

14. ‘A Backside-Illuminated Image Sensor with 200000 Pixels Operating at 250000 Frames per Second’. Cuong Vo Le, T. Goji Etoh, Hoang Dung Nguyen, Vu Truong Son Dao, H. Soya, M. Lesser, D. Ouellette, H. van Kuijk, J. Bosiers, and G. Ingram, Special Issue IEEE Trans., Electron Devices (Nov. 2009).

13. Evolution of Ultra-High-Speed CCD Imagers’. T. Goji Etoh, Cuong Vo Le, Yuichi Hashishin, Nao Otsuka, Kohsei Takehara, Hiroshi Ohtake, Tetsuya Hayashida, and Hirotaka Maruyama, Plasma and Fusion Research, Vol. 2, Issue 0, pp. 1021 (2008).

12. Ultra-high-speed Bionanoscope for Cell and Microbe Imaging’. T. Goji Etoh, Cuong Vo Le, Hiroyuki Kawano, Ikuko Ishikawa, Atshushi Miyawaki, Vu Truong Son Dao, Hoang Dung Nguyen, Sayoko Yokoi, Shigeru Yoshida, Hitoshi Nakano, Kohsei Takehara, and Yoshiharu Saito, Proc. of SPIE, Vol. 7126, pp. 712605, 1-11 (2008).

11. Technologies to Develop a Video Camera with the Frame Rate Higher Than 100 Mfps’. Cuong Vo Le, Hoang Dung Nguyen, Vu Truong Son Dao, Kohsei Takehara, T. Goji Etoh, Toshiro Akino, Kenji Nishi, K. Kitamura, T. Arai, and H. Maruyama, Proc. of SPIE, Vol. 7126, pp. 712606, 1-9 (2008).

10.Evaluation of a Backside-illuminated ISIS’. Hoang Dung Nguyen, Cuong Vo Le, Vu Truong Son Dao, Kohsei Takehara, T. Goji Etoh, Y. Kondo, H. Maruno, H. Tominaga, H. Soya, H. van Kuijk, J. Bosiers, W. Klaassens, G. Ingram, S. Shingh, and M. Lesser, Proc. of SPIE, Vol. 7126, pp. 712607, 1-8 (2008).

9. ‘Estimation of Driving Voltage Attenuation of an Ultra-high-speed Image Sensor by Dimensional Analysis’. V. T. S Dao, C. Vo Le, H. D. Nguyen, T. G. Etoh, K. Takehara, T. Akino, K. Nishi, International Journal of Electronics, Circuits and Systems, Vol. 2, pp. 200-205 (2008).

8. A Simulation-based Design of a CCD Image Sensor for a 100-Mfps Video Camera’. Cuong Vo Le, Hoang Dung Nguyen, Vu Truong Son Dao, Kohsei Takehara, T. Goji Etoh, Toshiro Akino, Kenji Nishi, K. Kitamura, T. Arai, H. Maruyama, Proc. Int. Workshop on Advances in Optics, Photonics, Spectroscopy and Applications, pp. 109-114 (2008).

7. ‘Phototriggering system for an ultrahigh-speed video microscopy’. Pavel Karimov, Cuong Vo Le, Kohsei Takehara, Sayoko Yokoi, and Takeharu Goji Etoh, Review of Scientific Instruments, Volume 78, Issue 11, pp. 113702, 1-5 (2007).

6. ‘A Lateral Unified-CBiCMOS Buffer Circuit for Driving 5nF Maximum Load Capacitance per CCD Clock’, Masatoshi Kobayashi, Takashi Hamahata, Toshiro Akino, Kenji Nishi, Cuong Vo Le, Kousei Takehara, T. Goji Etoh, Technical report of IEICE, Vol. 107, No. 103, pp. 19-24 (2007).

5. Toward 100 Mfps: an Innovative Ultra-High-Speed Video Camera’. Cuong Vo Le, Nao Otsuka, Toshiro Akino, Kenji Nishi, Kohsei Takehara, and T. Goji Etoh, ITE Technical Report Vol. 31, No. 3, pp. 1-4 (2007).

4. Design of an Image Sensor for an Ultra-high-speed and Ultra-high-sensitive Video Microscope’. Nao Otsuka, Vo Le Cuong, Pavel Karimov, Kohsei Takehara, and T. Goji Etoh, Proc. of the SPIE, Vol. 6491, pp. 6491, 1-11 (2007).

3. Estimation of Driving Voltage Attenuation of an Ultra-high-speed Image Sensor by Dimensional Analysis Vu Truong Son Dao, Cuong Vo Le, Hoang Dung Nguyen, T. Goji Etoh, Kohsei Takehara, Toshiro Akino, Kenji Nishi, Proc. Int. Workshop on Advances in Optics, Photonics, Spectroscopy and Applications, pp. 118-122 (2008).

2. Evaluation of an Image Sensor with Sub-ten-photon Sensitivity and Ultra-high Frame Rate’. Hoang Dung Nguyen, Cuong Vo Le, Vu Truong Son Dao, M. Tanaka, Kohsei Takehara, T. Goji Etoh, Y. Kondo, H. Maruno, H. Tominaga, H. Soya, H. van Kuijk, J. Bosiers, W. Klaassens, G. Ingram, V. P. Singh, and M. Lesser, Proc. Int. Workshop on Advances in Optics, Photonics, Spectroscopy and Applications, pp. 123-128 (2008).

1. ‘Evolution of Ultra-High-Speed CCD Imagers’. T. Goji Etoh, P. Karimov, Vo Le Cuong, T. Okinaka, K. Takehara and Y. Takano, 16th International Toki Conference on Advanced Imaging and Plasma Diagnostics (2006). 

 

 

Published Books

 

Current master students

  1. 1.Chu Van Thanh (2012-2013). Thesis: Design and Implementation of a Video Image Acquisition System on FPGA.
  2. 2.Nguyen Tuan Anh (2012-2013). Thesis: Design of High Dynamic Range Active Pixel Sensor for CMOS Camera.
  3. 3.Le Van Thuy (2012-2013). Thesis: Optimization of Vinaphone 3G NetworkQuang Tri Province.

Current Ph.D students

  1. 1.Nguyen Tuong Thanh (2012-2016). Thesis: Image Quality Enhancement using Nonlinear Methods.

Other information

(If any)

1. Research Topics for Master and PhD Candidate:

(a) Nonlinear Algorithms for Image Quality Enhancement. Implementation and Optimization of Performance of the Algorithm on Hardware.   

(b) Technology and Design of CMOS Image Sensor with:

(i)                 High Speed,  

(ii)               High Sensitivity, 

(iii)             High Dynamic Range and/or 

(iv)             Low Noise.

(c) New Technologies for Smart Camera.

 

3. Research Projects:

- Design of Active Pixel Sensor using CMOS 130 nm.

- Design of CCD Image Sensor with Maximum Frame Rate of 40 Mfps (Collaboration with Kinki University and Ritsumekan University).

- New Technologies to Develop an Image Sensor with Maximum Frame Rate of 1Gfps(Collaboration with Kinki University and Ritsumekan University).

- New Technologies for Smart Camera.