參考文獻 |
[1] 向敬成, 雷達系統. 五南出版社, 2004, p. 524.
[2] C. P. A. Mohan, and T. Poggio, "Example-Based Object Detection in Images by Components," IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 23, pp. 349-361, 2001.
[3] E. S. B. Leibe, and B. Schiele, "Pedestrian Detection in Crowded Scenes," IEEE Conference on Computer Vision and Pattern Recognition, vol. 1, p. 878—885, 2005.
[4] W.-H. Lo, "Realization of High Accuracy FMCW Level Gauge," M.S. thesis, Mechanical Engineering, National Chiao Tung University, 2009.
[5] G. S. M. I. Thorsten Luettel, Michael Himmelsbach, and Hans-Joachim Wuensche, "Autonomous Ground Vehicles - Concepts and a Path to the Future," Proceedings of the IEEE vol. 100, pp. 1831-1839, May 13th 2012.
[6] Y. Lin, "Mini-UAV-Borne LIDAR for Fine-Scale Mapping," IEEE Geoscience and Remote Sensing Letters, vol. 8, pp. 426-430, 2011.
[7] J.-F. Lalonde, "Terrain characterization and classification with a mobile robot," Journal of Field Robotics, vol. 23, p. 839, 2006.
[8] M.-C. Amann, T. Bosch, M. Lescure, R. Myllyla¨, and M. Rioux, "Laser ranging: a critical review of usual techniques for distance measurement," Optical Engineering, vol. 40, no. 1, 2000.
[9] J. M. Risto Myllylädag, Juha Kostamovaaradag, Antti Mäntyniemidag and Gerd-Joachim Ulbrich, "Imaging distance measurements using TOF lidar Mesures " Journal of Optics, vol. 29, pp. 188-193, 1998.
[10] M. L. G.Percheta, T.Boschb, "Error analysis of phase-shift laser range finder with high-level signal," Sensors and Actuators A: Physical, vol. 62, no. 1-3, pp. 534-538, 1997.
[11] J. Zheng, "Optical frequency-modulated continuous-wave interferometers," Applied Optics, vol. 45, no. 12, pp. 2723-2730, 20 April 2006.
[12] T. H. Koichiro Nakamura, Masato Yoshida, Toshiharu Miyahara, and Hiromasa Ito, "Optical Frequency Domain Ranging by a Frequency-Shifted Feedback Laser," IEEE JOURNAL OF QUANTUM ELECTRONICS, vol. 36, pp. 308-309, 2000.
[13] J. E. A. R. D. Massaroa, J. D. Nelsona, J. D. Edwards, "A COMPARATIVE STUDY BETWEEN FREQUENCY-MODULATED CONTINUOUS WAVE LADAR AND LINEAR MODE LIDAR," The International Archives of the Photogrammetry, vol. XL-1, no. Remote Sensing and Spatial Information Sciences, pp. 233-239, 17 – 20 November 2014.
[14] S. Yiou, F. Balembois, P. Georges, and J.-P. Huignard, "Improvement of the spatial beam quality of laser sources with an intracavity Bragg grating," Optics Letters, vol. 28, no. 4, pp. 242-244, 02/15 2003.
[15] B. L. Volodin, S. V. Dolgy, E. D. Melnik, E. Downs, J. Shaw, and V. S. Ban, "Wavelength stabilization and spectrum narrowing of high-power multimode laser diodes and arrays by use of volume Bragg gratings," Optics Letters, vol. 29, no. 16, pp. 1891-1893, 08/13 2004.
[16] T. McComb, V. Sudesh, and M. Richardson, "Volume Bragg grating stabilized spectrally narrow Tm fiber laser," Optics Letters, vol. 33, no. 8, pp. 881-883, 04/15 2008.
[17] F. Delorme, S. Slempkes, P. Gambini, and M. Puleo, "Fast tunable 1.5 μm distributed Bragg reflector laser for optical switching applications," Electronics Letters, vol. 29, no. 1, pp. 41-43Available: http://digital-library.theiet.org/content/journals/10.1049/el_19930027
[18] D. Wandt, M. Laschek, A. Tünnermann, and H. Welling, "Continuously tunable external-cavity diode laser with a double-grating arrangement," Optics Letters, vol. 22, no. 6, pp. 390-392, 03/15 1997.
[19] D. Nordin, "Optical frequency modulated continuous wave (FMCW) range and velocity measurements," Docroral Thesis Docroral Thesis, Department of Computer Science and Electrical Engineering, Lulea University of Technology, 2004.
[20] K. Y. Hsu, S. H. Lin, Y.-N. Hsiao, and W. T. Whang, "Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage," Optical Engineering, vol. 42, no. 5, pp. 1390-1396, 2003.
[21] V. Reddy. (2015). Death of Pulsed LiDAR: Gieger Mode LiDAR vs FMCW LADAR. Available: https://www.linkedin.com/pulse/death-pulsed-lidar-gieger-mode-vs-fmcw-ladar-vasanth-reddy
[22] B. C. a. I. P. Giles, "Frequency Modulated Heterodyne Optical Fiber Sagnac Interferometer," IEEE Transactions on Microwave Theory and Techniques, vol. 30, no. 4, pp. 536 - 539, Apr. 1982.
[23] A. D. M.-C. Amann, "Frequency-modulated continuous-wave (FMCW) lidar with tunable twin-guide laser diode," in SPIE′s 1994 International Symposium on Optics, Imaging, and Instrumentation, 1994, vol. 2271, p. 9: SPIE.
[24] D. Pierrottet, F. Amzajerdian, L. Petway, B. Barnes, G. Lockard, and M. Rubio, "Linear FMCW laser radar for precision range and vector velocity measurements," MRS Online Proceedings Library Archive, vol. 1076, 2008.
[25] F. M. Müller, G. Böttger, C. Janeczka, N. Arndt-Staufenbiel, H. Schröder, and M. Schneider-Ramelow, "Frequency-modulated laser ranging sensor with closed-loop control," in SPIE OPTO, 2018, vol. 10539, p. 6: SPIE.
[26] G. B. Fabian M. Müller , Christian Janeczka , Norbert Arndt-Staufenbiel , Henning Schröder , Martin Schneider-Ramelow "Frequency-modulated laser ranging sensor with closed-loop control," SPIE OPTO, vol. 10539, no. Photonic Instrumentation Engineering V, 22 February 2018.
[27] 詹偉平, "以錐形半導體放大器為增益介質、外腔VBG回饋半體雷射研究," 國立中央大學, 2010.
[28] 陳傳文, "以PQ:PMMA製作反射式體積布拉格光柵回饋錐形半導體放大器之窄波長雷射輸出研究," 國立中央大學, 2016.
[29] O. M. Efimov, L. B. Glebov, and V. I. Smirnov, "High-frequency Bragg gratings in a photothermorefractive glass," Optics Letters, vol. 25, no. 23, pp. 1693-1695, 12/01 2000.
[30] O. M. Efimov, L. B. Glebov, L. N. Glebova, K. C. Richardson, and V. I. Smirnov, "High-efficiency Bragg gratings in photothermorefractive glass," Applied Optics, vol. 38, no. 4, pp. 619-627, 02/01 1999.
[31] G. B. Venus, A. Sevian, V. I. Smirnov, and L. B. Glebov, "High-brightness narrow-line laser diode source with volume Bragg-grating feedback," 2005, vol. 5711, pp. 166-176.
[32] P. Jelger, P. Wang, J. K. Sahu, F. Laurell, and W. A. Clarkson, "High-power linearly-polarized operation of a cladding-pumped Yb fibre laser using a volume Bragg grating for wavelength selection," Optics Express, vol. 16, no. 13, pp. 9507-9512, 06/23 2008.
[33] 朱士維. (2012). Laser resonator. Available: http://www.lasertech.tw/laser_noun.php?g_id=IyQlKiYlMjYlXiQqJio=
[34] E. Hecht, Optics. Reading, Mass.: Addison-Wesley, 2002.
[35] Y.-N. Hsiao, W.-T. Whang, and S. H. Lin, "Analyses on physical mechanism of holographic recording in phenanthrenequinone-doped poly(methyl methacrylate) hybrid materials," Optical Engineering, vol. 43, no. 9, pp. 1993-2002, 2004.
[36] S. Liu et al., "Modeling the photochemical kinetics induced by holographic exposures in PQ/PMMA photopolymer material," Journal of the Optical Society of America B, vol. 28, no. 11, pp. 2833-2843, 11/01 2011. |