Laser skin perforation is an effective and promising technique for use in blood collection.In this study,the relation between the perforation profile of skin and laser irradiation at various energies is discussed.Incr...Laser skin perforation is an effective and promising technique for use in blood collection.In this study,the relation between the perforation profile of skin and laser irradiation at various energies is discussed.Increasing laser energy does not uniformly expand the size and depth of a hole because the shallow depth of field(DOF)of the focused light primarily concentrates energy on the skin surface.In practice,the hole gradually transforms from a semielliptical shape to an upsidedown avocado shape as the laser energy increases.This phenomenon can increase the amount of bleeding and reduce pain.The findings support the feasibility of developing an accurate laser skin perforation method.展开更多
Pixel discontinuity in orthoimages occurs frequently due to altitude variations in the pitch and heading of an airplane, and low performance of real-time analyzing software. This study proposes a scheme to resolve pix...Pixel discontinuity in orthoimages occurs frequently due to altitude variations in the pitch and heading of an airplane, and low performance of real-time analyzing software. This study proposes a scheme to resolve pixel discontinuity. The proposed scheme includes the following steps: 1) capture images by a self-made hyperspectral imager;2) determine the pixel locations of orthoimages using a top-down approach;3) repair discontinuities by the Nearest Neighbor (NN) or Bilinear Interpolation (BL) approaches;and, 4) perform a dynamic range adjustment on the orthoimages, according to the maximum pixel value of the raw images and orthoimages. After applying the proposed scheme, this study found that pixel discontinuity was eliminated by both approaches, and that the software dependability and image quality were improved substantially. In addition, the computational efficiency of the NN approach was roughly two minutes faster than that of the BL due to its simpler computation. However, BL produces smoother image edges for landscapes.展开更多
文摘Laser skin perforation is an effective and promising technique for use in blood collection.In this study,the relation between the perforation profile of skin and laser irradiation at various energies is discussed.Increasing laser energy does not uniformly expand the size and depth of a hole because the shallow depth of field(DOF)of the focused light primarily concentrates energy on the skin surface.In practice,the hole gradually transforms from a semielliptical shape to an upsidedown avocado shape as the laser energy increases.This phenomenon can increase the amount of bleeding and reduce pain.The findings support the feasibility of developing an accurate laser skin perforation method.
文摘Pixel discontinuity in orthoimages occurs frequently due to altitude variations in the pitch and heading of an airplane, and low performance of real-time analyzing software. This study proposes a scheme to resolve pixel discontinuity. The proposed scheme includes the following steps: 1) capture images by a self-made hyperspectral imager;2) determine the pixel locations of orthoimages using a top-down approach;3) repair discontinuities by the Nearest Neighbor (NN) or Bilinear Interpolation (BL) approaches;and, 4) perform a dynamic range adjustment on the orthoimages, according to the maximum pixel value of the raw images and orthoimages. After applying the proposed scheme, this study found that pixel discontinuity was eliminated by both approaches, and that the software dependability and image quality were improved substantially. In addition, the computational efficiency of the NN approach was roughly two minutes faster than that of the BL due to its simpler computation. However, BL produces smoother image edges for landscapes.
