Dr. ĐÀO VŨ TRƯỜNG SƠN
- Office: A2.504, School of Industrial engineering and management, International University.
- Quarter 6, Linh Trung Ward, Thu Duc District, HCM City, Vietnam
- Phone: (028) 37244270 Ext: 3327
- BEng. In Aeronautical Engineering, Ho Chi Minh City University of Technology, 2004
- MEng. In Advanced Manufacturing Systems & Technology, Nanyang Technological University, Singapore, 2005
- PhD. in Science and Technology, Kindai University, Japan, 2010
- 2006 - 2007: Laser Designer at Hypertronics Ltd., Singapore
- 2010 - 2012: Postdoctoral research at Kinki University, Japan
- 2012 - 2016: Senior Scientist at Ritsumeikan University, Japan
- 2016 - present: Lecturer, School of Industrial engineering and management, International University - Vietnam National University of HCMC
- Artificial Intelligence
- Advanced Imaging Sensors & Systems
- Machine Vision
- Industrial Automation
- Engineering Mechanic Statics/Dynamics
- Experimental Design
- Intro to computing
- Probability & Statistics
- Time Series & forecasting techniques
- Product Design
- Work Design
- Quality Management
- System Engineering
- Scientific Writing
- Research Methodology
- Engineering Economics
 V. T. S. Dao and T. Pham, Chapter: “Capacitated Vehicle Routing Problem - A New Clustering Approach Based on Hybridization of Adaptive Particle Swarm Optimization and Grey Wolf Optimization,” in Evolutionary Data Clustering: Algorithms, and Applications, Springer, 2020 (in press)
 T. Pham and V. T. S. Dao, Chapter: “Plant leaf disease classification based on feature selection and deep neural network,” in Handbook of Deep Learning in Biomedical Engineering, Elsevier, 2020 (in press)
 T.G. Etoh, T. Yamada, V.T.S. Dao, Solid state imaging apparatus,
USA: US20140362268 A1
World: WO2013129559 A1.
 T.G. Etoh, V.T.S. Dao, M. Tsuji, Image sensor having on-chip signal accumulation, Japan: JP2011-258906.
 C. Vo Le, T. G. Etoh, H. D. Nguyen, V. T. S. Dao, H. Soya, M. Lesser, D. Ouellette, H. van Kuijk, J. Bosiers, and G. Ingram, “A Backside-Illuminated Image Sensor With 200 000 Pixels Operating at 250 000 Frames per Second,” IEEE Trans. Electron Devices, vol. 56, no. 11, pp. 2556–2562, 2009. (SCI, Q1 – IF 2.8)
 V. T. S. Dao, T. G. Etoh, M. Tanaka, N. H. Dung, V. L. Cuong, K. Takehara, T. Akino, K. Nishi, H. Aoki, and J. Nakai, “Toward 100 Mega-frames per second: Design of an ultimate ultra-high-speed image sensor,” Sensors, vol. 10, no. 1. pp. 16–35, 2010. (SCIE, Q1 – IF 3.3)
 T. G. Etoh, V. T. S. Dao, T. K. Akino, T. Akino, K. Nishi, M. Kureta, and M. Arai, “Ultra-high-speed image signal accumulation sensor,” Sensors, vol. 10, no. 4, pp. 4100–4113, 2010. (SCIE, Q1 – IF 3.3)
 T. G. Etoh, H. D. Nguyen, V. T. S. Dao, C. Vo Le, and M. Tanaka, “Backside illuminated CCD operating at 16,000,000 frames per second with sub-ten-photon sensitivity,” Nucl. Instruments Methods Phys. Res. Sect. A Accel. Spectrometers, Detect. Assoc. Equip., vol. 647, no. 1, pp. 112–116, 2011. (SCI, Q1 – IF 1.3)
 T. G. Etoh, V.T.S. Dao, T. Yamada, and E. Charbon, “Toward one Giga frames per second - Evolution of in-situ storage image sensors,” Sensors, vol. 13, no. 4. pp. 4640–4658, 2013. (SCIE, Q1 – IF 3.3)
 V. T. S. Dao, T.G. Etoh, K. Shimonomura, and Y. Kamakura, “Simulation Analysis of a Backside-illuminated Multi-collection-gate Image Sensor,” ITE Trans. Media Application and Technology, vol. 2, no. 2, pp. 114–122, 2014. (Scopus, Q1)
 V. U. S. Ha, D. Tran, T. Nguyen, V. T. S. Dao, "High Variation Removal for Background Subtraction in Traffic Surveillance Systems," IET Computer Vision, vol. 12, no. 8, pp. 1163-1170, 2018. (SCI, Q2 – IF 1.6)
 A. Q. Nguyen, V. T. S. Dao, K. Shimonomura, K. Takehara, T. G. Etoh, "Toward the Ultimate- High-Speed Image Sensor: From 10 ns to 50 ps," Sensors, vol. 18, no. 8, pp. 1-11, 2018. (SCIE, Q1 – IF 3.3)
 V. T. S. Dao, N. Ngo, A. Q. Nguyen, K. Morimoto, K. Shimonomura, P. Goetschalckx, L. Haspeslagh, P. D. Moor, K. Takehara, T. G. Etoh, "An Image Signal Accumulation Multi-Collection-Gate Image Sensor Operating at 25 Mfps with 32 × 32 Pixels and 1220 In-Pixel Frame Memory," Sensors, vol. 18, no. 9, pp.1-11, 2018. (SCIE, Q1 – IF 3.3)
 T. G. Etoh, T. Okinaka, Y. Takano, K. Takehara, H. Nakano, K. Shimonomura, T. Ando, N. Nguyen, Y. Kamakura, V. T. S. Dao, A. Q. Nguyen, E. Charbon, C., P. D. Moor, P. Goetschalckx, L. Haspeslagh, "Light-In-Flight Imaging by a Silicon Image Sensor: Toward the Theoretical Highest Frame Rate," Sensors, vol. 19, no. 5, pp. 1-16. (SCIE, Q1 – IF 3.3)
 H. D. Nguyen, C. Vo-Le, V. T. S. Dao et al., “Evaluation of a backside-illuminated ISIS,” SPIE Int. Congress on High speed Imaging and Photonics 2008, pp. 712607–712607–8.
 C. Vo Le, H. D. Nguyen, V. T. S. Dao et al., “Technologies to develop a video camera with a frame rate higher than 100 Mfps,” SPIE Int. Cong, on High speed Imaging and Photonics 2008, pp. 712606–712606–9.
 T. G. Etoh, C. Vo Le, H. Kawano, I. Ishikawa, A. Miyawaki, V. T. S. Dao et al., “Ultra-high-speed bionanoscope for cell and microbe imaging,” SPIE Int. Cong. on High-speed Imaging and Photonics 2008, pp. 712605–712605–11.
 S. Yoshida, S. Yokoi, V. T. S. Dao et al., “Efforts to obtain fluorescence images from mammalian single cells and brain slices at the μs order,” Neurosci. Res., vol. 68, p. e65, Jan. 2010.
 T. G. Etoh, D. H. Nguyen, V. T. S. Dao et al., “A 16 Mfps 165kpixel backside-illuminated CCD,” in Digest of Technical Papers - IEEE International Solid-State Circuits Conference (ISSCC), 2011, pp. 406–407.
 T. G. Etoh, V. T. S. Dao et al., “Progress of Ultra-high-speed Image Sensors with In-Situ CCD Storage,” IEEE Int. Image Sensor Workshop, 2011, R57.
 T. G. Etoh, V. T. S. Dao, and T. Yamada, “Toward one Giga frames per second: Evolution of In-situ Storage Image Sensors, “in International Workshop on Semiconductor Pixel Detectors for Particles and Imaging (PIXEL2012), 2012.
 T. G. Etoh, V. T. S. Dao, T. Yamada, and E. Charbon, “Toward one Giga frames per second: Multi-Collection-Gate BSI Image Sensors,” IEEE Int. Image Sensor Workshop, 2013.
 V. T. S. Dao et al., “Toward 10 Gfps: Factors Limiting the Frame Rate of the BSI MCG Image Sensor,” IEEE Int. Image Sensor Workshop, 2015.
 C. Zhang, V. T. S. Dao et al., “Designing pixel parallel localized drivers of a 3D 1Gfps image sensor family,” IEEE Int. Image Sensor Workshop, 2015.
 T.G. Etoh, V.T.S. Dao et al., "Fusion: ultra-high-speed and IR image sensors, " SPIE Optical Sensing, Imaging, and Photon Counting: Nanostructured Devices and Applications, 95550N, 2015.8.
 V. T. S. Dao et al., ”Crosstalk Analysis of an Image Sensor Operating At 1 Gfps,” IEEE Int. Conf. on Communications and Electronics (ICCE 2016).
 A. Q. Nguyen, V. T. S. Dao et al., “Crosstalk in multi-collection-gate image sensors and its improvement,” SPIE Int. Cong. on High-Speed Imaging and Photonics, 2017.
 T. Phan, V. T. S. Dao, “Ultrasonic cutting machine,” Asia Pacific Ind. Eng. Mgt. APIEMS 2017.
 K. Truong, V. T. S. Dao, “Advanced High Dynamic Range Imaging Using A Multi-Camera Array,” ICLS 2018.
 N. Nguyen, V. T. S. Dao, “Grey Wolf Optimization Coupled With Finite Element Simulation For Mechanical Structures,” ICLS 2018.
 T. Tran, V. T. S. Dao, “Design and Analysis of Ultrasonic cashew nut cutting blade,” ICLS 2018.
 T. Tong, V. T. S. Dao, “Design of A 3D Chocolate Printer,” ICLS 2018.
 K. Truong, V. T. S. Dao, “Grey Wolf Optimization for 0/1 Multiple Knapsack Problem,” ICLIE 2019.
 T. Nguyen, V. T. S. Dao, “Design the Best-fit Footwear Using Image Processing,” ICLIE 2019.