Alternate Title: A Near-field Channel Estimation Method for Extremely Large-scale MIMO System Based on Maximum Likelihood.

المؤلفون: 王华华¹, 郑少杰¹ 599738396@qq.com, 王 磊¹

المصدر: Telecommunication Engineering. 12/28/2024, Vol. 64 Issue 12, p1939-1945. 7p.

مصطلحات موضوعية: *ALGORITHMS, ORTHOGONAL matching pursuit, CHANNEL estimation, A priori

المؤلفون: Shao-Chieh Chen, 鄭少傑

Thesis Advisors: 陳瑤明

وصف الملف: 74

الاتاحة: http://ndltd.ncl.edu.tw/handle/02203384994576014927

المؤلفون: 鄭少傑, Chen, Shao-Chieh

المساهمون: 陳瑤明, 臺灣大學：機械工程學研究所

مصطلحات موضوعية: 鹽溶濾法, 毛細節構, 迴路式熱管, loop heat pipe, particulate leaching, wick structure

Relation: Antonios G. Mikos, Yuan Bao, Linda G. Cima, Donald E. Ingber, Joseph P. Vacanti and Robert Langer, “Preparation of Poly(glycolic acid) Bonded Fiber Structures for cell attachment and transplantation,” Journal of Biomedical Materials Research, Vol.27, pp.183-189, 1993. Antonios G. Mikos, Amy J. Thorsen, Lisa A. Czerwonka, Yuan Bao, Robert Langer, Douglas N. Winslow and Joseph P. Vacanti, “Preparation and Characterization of Poly(L-lactic acid) Foams,” POLYMER, Volume 35, Number 5, pp.1068-1077, 1994. Chun-Jen Liao, Chin-Fu Chen, Jui-Hsiang Chen, Shu-Fung Chiang, Yu-Ju Lin, Ken-Yuan Chang, “Fabriction of Porous biodegradable Polymer Scaffolds Using a Solvent Merging/Particulate Leaching Method,” John Wiley & Sons, Inc., pp.676-681, 2001. Cheung, K. H., Hoang, T. T., Ku. J. and Kaya, T., “Thermal Performance and Opera- tional Characteristics of Loop Heat Pipe (NRL LHP),” SAE Paper No. 981813, 1998. Chi, S. W., “Heat Pipe Theory and Practice,” McGraw-Hill, New York,1976. Christoph B., “Theoretical Investigation of Advanced Capillary Structures in Grooved Heat Pipe Evaporators for Space Applications,” Society of Automotive Engineers, Paper 2000-01-2319, 2000. Dunn, P.D., and Reay, D.A., “Heat Pipes,” Pergamon Press, Oxford, 1994. Faghri, A., “Heat Pipe Science and Technology,” Taylor & Francis, Washington, DC. 1995. German, “Powder Metallurgy Science” Metal Powder Industries Federation, 1984. Gluck, D., Gerhart, C., and Stanley, S., “Characterizztion of a High Capacity, Dual Compensation Chamber Loop Heat Pipe,” Space Technology and Applications International Forum, The American Institute of Physics, pp.943-948, 1999. Hoang, T. T., and Kaya, T., “Mathematical Modeling of Loop Heat Pipes,” AIAA Paper No.99-0477, 1999. Holman J. P. “Heat Transfer,” 8th McGraw-Hill, New York,1997. Kaya, T. and Ku, J., “A Parametric Study of Performance Characteristics of Loop Heat Pipe,” SAE Paper No. 1999-01-2006, pp.496-502, 1999. Kaya, T. et al., “Investigation of Low Power Start-Up Characteristics of A Loop Heat Pipe,” NASA GSFC, Space Technology and Applications International Forum,1999. Kaya, T., Ku, J., Hoang, T. T., and Cheung, M. K., “Investigation of Low Power Start-Up Characteristics of A Loop Heat Pipe,” Space Technology and Applications International Forum, American Institute of Physics, New York, 1999. Kaya, T., Baker, C., and Ku, J., “Comparison of Thermal Performance Characteristics of Ammonia and Propylene Loop Heat Pipes,” SAE Paper No.2000-01-2406, pp. 580-586, 2000. Kaya T. and Jentung Ku, “Thermal Operational Characteristics of a Small-Loop Heat Pipe,” Journal of Thermophysics and Heat Transfer, Vol.17 No.4 October-December 2003. Kim, J., and Golliher, E., “Steady State Model of a Micro Loop Heat Pipe,” 18th IEEE SEMI-THERM Symposium, pp.137-144, 2002. Khrustalev, D., “Loop Heat Pipe Technology for Electronics Cooling,” Proceedings of SPIE, International Conference on High-Density Interconnect and SystemsPackaging, Vol.4428, pp.375-380, 2001. Ku, J., “Operating Characteristics of Loop Heat Pipes,” SAE Paper No.1999, pp.503-519, 1999. Ku, J., Rogers, P., and Cheung, K., “Investigation of Low Power Operation in a Loop Heat Pipe,” SAE Paper No.2001-01-2192, 2001. Maidanik, Y. f., Fershtater, Y. G., and Solodovnik, N. N., “Loop Heat Pipes:Design, Investigation, Prospects of Use in Aerospace Technics,” SAE Paper No.941185,1994. Maidanik, Y. F., Pastukhov, V. G. and Chernyshova, M. A., “Development and Investigation of Miniature Loop Heat Pipe,” SAE Paper No.1999-01-1983, pp.483-487, 1999. Maidanik, Y. F., Vershinin, S. V., and Chernysheva, M. A., “Development and Tests of Miniature Loop Heat Pipe with a Flat Evaporator,” SAE Paper No.2000-01-2491, pp.652-656, 2000. Maidanik, Y. F., Vershinin, S., Kholodov, V., and Dolgirev, J., “Heat Transfer Apparatus,” US Patent, No.4515209, May 7, 1985. Muraoka, I., Ramos, F. M., and Vlassov, V. V., “Analysis of the operational characte- ristics and limits of a loop heat pipe with porous element in the condenser,” Internati- onal Journal of Heat and Mass Transfer, Vol.44, pp.2287-2297, 2001. Neison J. G., Gregg J. B. and Joseph M. G. “Fine Pore Loop Heat Pipe Wick Structure Development,” SAE Paper No.961319, 1996. Nikitkin, M., and Bienert, W. B., “Non-Condensable Gases and Loop Heat Pipe Oper- ation ,” SAE Paper No.981854, pp.394-399, 1998. Qingpu Hou, Dirk W. Grijpma and Jan Feijen “Porous Polymeric Structures for Tissue Engineering Prepared by a Coagulation, Compression Moulding and Salt Leaching Technique,” Biomaterials, 24, pp1937-1947, 2003. Rodriguez, J. I., and Na-Nakornpanom, A., “Investigation of Transient Temperature Oscillations of a Propylene Loop Heat Pipe,” SAE Paper No.2001-01-2235, 2001. Schlitt, R., “Performance characteristics of Recently Developed High-Performance Heat Pipes,” Heat Transfer Engineering, Vol. 16, No. 1, 1995, pp.44-52 Stephan, P. C. and Busse, C. A.,“Analysis of the Heat Transfer Coefficient of Grooved Heat Pipe Evaporator Walls,” International Journal of Heat and Mass Transfer, Vol.30, No, 2, 1992, pp.383-391. Tracey, V. A. “Pressing and Sintering of Nickel Powders,” The International Journal of Powder Metallurgy & Powder Technology, Vol.20, No.4, pp.281-285, 1984. Takashi Kobayashi, Tetsurou Ogushi, Seiji Haga, Eiichi Ozaki, and Masao Fujii, “Heat Transfer Performance of a Flexible Looped Heat Pipe Using R134a as a Working Fluid: Proposal for Method to Predict the Maximum Heat Transfer Rate of FLHP,” Heat Transfer-Asian Research, 32(4), pp.306-318, 2003. Wolf, D. A., Ernst, D. M., and Phillips A. L., “Loop Heat Pipes-Their Performance and Potential,” SAE Paper No.941575, 1994. Wrenn, K. R., Wolf, D. A., and Kroliczek, E. J., “Effect of Noncondensible Gas and Evaporator Mass on Loop Heat Pipe Performance,” SAE Paper No.2000-01-2409, pp.603-614, 2001. 杜逸虹 “聚合體學” 三民書局 , 1978. 黃文宏, 燒結式微熱管之製造與性能測試”, 國立台灣大學碩士論文, 2000. 賴錦川,“燒結式微熱管毛細結構參數之影響研究”, 國立台灣大學碩士論文, 2000. 陳泰宇,“迴路式熱管製造與性能測試”, 國立台灣大學碩士論文, 2001. 張文華,“迴路式熱管參數影響之研究”, 國立台灣大學碩士論文, 2001. 黃坤祥 “粉末冶金學” 中華民國粉末冶金協會 , 2001. 朱振毅, “微小型迴路式熱管之設計製造及性能測試” , 國立台灣大學碩士論文, 2002. 王添銘 “迴路式熱管之毛細結構的設計製造及性能測試”, 國立台灣大學碩士論文, 2002. 鄭國章 “具高緻密度毛細結構之迴路式熱管”, 國立台灣大學碩士論文, 2003. 高濂, 孫靜和劉陽橋 “奈米粉體的分散與表面改質” , 化學工業出版社, 2003; zh-TW; http://ntur.lib.ntu.edu.tw/handle/246246/60960

الاتاحة: http://ntur.lib.ntu.edu.tw/handle/246246/60960