Publications

[14] H. Lindström, J. Öhman, V. Meulenberg, R. Gnauert, C. Weimann, and W. Birk, “Feasibility of condition monitoring of belt splices in belt conveyor systems using IoT devices”, PHM Society European Conference, vol. 8, no. 1, p. 7, Jun. 2024, issn: 2325-016X.
[13] V. Meulenberg, K. Moloukbashi Al-Kahwati, J. Öhman, W. Birk, and R. Nilsen, “Hazardous object detection in bulk material transport using video stream processing”, in International Congress and Workshop on Industrial AI and eMaintenance 2023, U. Kumar, R. Karim, D. Galar, and R. Kour, Eds., Cham: Springer Nature Switzerland, 2024, pp. 531–543, isbn: 978-3-031-39619-9.
[12] J. Öhman, W. Birk, and J. Westerberg, “Wheel damage prediction using wayside detector data for a cross-border operating fleet with irregular detector passage patterns”, in International Congress and Workshop on Industrial AI and eMaintenance 2023, U. Kumar, R. Karim, D. Galar, and R. Kour, Eds., Cham: Springer Nature Switzerland, 2024, pp. 491–501, isbn: 978-3-031-39619-9.
[11] J. Öhman, P. Gren, M. Sjödahl, and T. S. Lundström, “Experimental investigation of face mask filtration in the 15–150 m range for stationary flows”, Journal of Applied Physics, vol. 131, no. 4, p. 044 702, 2022.
[10] R. Brännvall, J. Öhman, G. Kovács, and M. Liwicki, “Cross-encoded meta embedding towards transfer learning”, in 28th European Symposium on Artificial Neural Networks, Computational Intelligence and Machine Learning, 2020.
[9] M. Hedlund, C. Holmström, E. H. Deak, R. Olsson, M. Sjödahl, and J. Öhman, “Convolutional neural networks applied to inline particle holography”, in Imaging and Applied Optics Congress, Optical Society of America, 2020, JW2A.15.
[8] J. Öhman and M. Sjödahl, “Identification and size estimation of non-spherical nanoparticles using polarization-resolved holography”, in Imaging and Applied Optics Congress, Optical Society of America, 2020, HTh4H.8.
[7] J. Öhman and M. Sjödahl, “Identification, tracking, and sizing of nano-sized particles using dual-view polarization-resolved digital holography and t-matrix modeling”, Appl. Opt., vol. 59, no. 14, pp. 4548–4556, May 2020.
[6] J. Öhman, P. Gren, and M. Sjödahl, “Polarization resolved dual-view holographic system for investigation of microparticles”, in Digital Holography and Three-Dimensional Imaging 2019, Optical Society of America, 2019, Th2A.5.
[5] J. Öhman, P. Gren, and M. Sjödahl, “Polarization-resolved dual-view holographic system for 3d inspection of scattering particles”, Appl. Opt., vol. 58, no. 34, G31–G40, Dec. 2019.
[4] J. Öhman and M. Sjödahl, “Improved particle position accuracy from off-axis holograms using a chebyshev model”, Appl. Opt., vol. 57, no. 1, A157–A163, Jan. 2018.
[3] J. Öhman and M. Sjödahl, “Axial particle positioning by wavefront parameterization using chebyshev polynomials and off-axis digital holography”, in Digital Holography and Three-Dimensional Imaging, Optical Society of America, 2017, M4A.3.
[2] J. Öhman and M. Sjödahl, “Off-axis digital holographic particle positioning based on polarization-sensitive wavefront curvature estimation”, Appl. Opt., vol. 55, no. 27, pp. 7503–7510, Sep. 2016.
[1] B. Jiang, J. Carlson, M. Arranz, P. Lindblad, and J. Öhman, “Ultrasonic imaging through thin reverberating materials”, in Physics Procedia, vol. 70, 2015.