THE NERC MST RADAR FACILITY AT ABERYSTWYTH

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[1] Guglielmo S. Aglietti, Stefano Redi, Adrian R. Tatnall, and Thomas Markvart. High altitude electrical power generation. WSEAS Transactions on Environment and Development, 4(12):1067-1077, 2008. [ bib | http ]
[2] G. S. Aglietti, S. Redi, A. R. Tatnall, and T. Markvart. Exploitation of high altitude solar energy. In N. E. Mastorakis, M. Poulos, V. Mladenov, Z. Bojkovic Z, D. Simian D, S. Kartalopoulos, A. Varonides, and C. Udriste, editors, RES 08: Proceedings of the 2nd WSEAS/IASME international conference on renewable energy sources, Energy and Environmental Engineering Series, pages 52-57, 2008. [ bib ]
[3] G. S. Aglietti, S. Redi, A. R. Tatnall, and T. Markvart. Harnessing high-altitude solar power. IEEE Trans. on Energy Conversion, 24(2):442-451, 2009. [ bib | DOI ]
[4] Bogdan Antonescu, Geraint Vaughan, and David M. Schultz. A five-year radar-based climatology of tropopause folds and deep convection over Wales, United Kingdom. Mon. Weather Rev., 141:1693-1707, 2013. [ bib | DOI ]
[5] I. Astin. A study of random fluctuations in Doppler radar wind speeds. Master's thesis, University of Wales Aberystwyth (UK), 1994. [ bib ]
[6] I. Astin. Confidence interval estimation for VHF Doppler radar measurements of wind velocities. Radio Sci., 32:2221-2231, 1997. [ bib | DOI ]
[7] I. Astin and L. Thomas. The accuracy and precision of radar wind measurements. In B. Edwards, editor, Proceedings of the Fifth International Workshop on Technical and Scientific Aspects of MST Radar, pages 15-20. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1992. [ bib ]
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[8] Simon Box, Christopher M. Bishop, and Hugh Hunt. Stochastic six-degree-of-freedom flight simulator for passively controlled high-power rockets. J. Aerosp. Engrg., 24(1):31-45, 2011. [ bib | DOI ]
[9] N. G. Bradshaw. Dynamical theory of ozone layering in the stratosphere. PhD thesis, University of Wales Aberystwyth (UK), 2001. [ bib ]
[10] N. G. Bradshaw, G. Vaughan, R. Busen, S. Garcelon, R. L. Jones, T. Gardiner, and J. Hacker. Tracer filamentation generated by small-scale rossby wave breaking in the lower stratosphere. J. Geophys. Res., 107(D23):4689, 2002. [ bib | DOI ]
[11] K. A. Browning. Mesoscale substructure of extratropical cyclones observed by radar. In R. M. Wakimoto and R. Srivastava, editors, Radar and atmospheric science: a collection of essays in honour of David Atlas, pages 7-32. Amer. Meteor. Soc., Boston, 2003. [ bib ]
[12] K. A. Browning. Observational synthesis of mesoscale structures within an explosively developing cyclone. Q. J. R. Meteorol. Soc., 131(606):603-623, 2005. [ bib | DOI ]
[13] K. A. Browning and E. M. Dicks. Mesoscale structure of a polar low with strong upper-level forcing. Q. J. R. Meteorol. Soc., 127:359-375, 2001. [ bib | DOI ]
[14] K. A. Browning and C.-G. Wang. Cloud-top striations above ana-cold frontal circulations. Q. J. R. Meteorol. Soc., 128:477-499, 2002. [ bib | DOI ]
[15] K. A. Browning, D. Jerrett, J. Nash, T. Oakley, and N. M. Roberts. Cold frontal structure derived from radar wind profiles. Meteorol. Apps., 5:67-74, 1998. [ bib | DOI ]
[16] K. A. Browning, G. Vaughan, and P. Panagi. Analysis of an ex-tropical cyclone after re-intensifying as a warm core extra-tropical cyclone. Q. J. R. Meteorol. Soc., 124:2329-2356, 1998. [ bib | DOI ]
[17] Paul Burns. Spectral analysis of convectively-generated gravity waves using a mid-latitude Doppler radar. Master's thesis, University of Reading (UK), 2010. [ bib ]
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[18] CASPAR. User requirements and scenario specifications. In CASPAR project EU deliverable CASPAR-D4101-SCEN-0101-1_0:D4101, 2006. [ bib | .pdf ]
[19] J. M. Chagnon and S. L. Gray. Analysis of convectively-generated gravity waves in mesoscale model simulations and wind profiler observations. Q. J. R. Meteorol. Soc., 134(632):663-676, 2008. [ bib | DOI ]
[20] Jeffrey M. Chagnon and Suzanne L. Gray. A comparison of stratosphere-troposphere transport in convection-permitting and convection-parameterizing simulations of three mesoscale convective systems. J. Geophys. Res., 115(D24318), 2010. [ bib | DOI ]
[21] J. M. Chagnon, S. L. Gray, and J. Methven. Diabatic processes modifying potential vorticity in a north atlantic cyclone. Q. J. R. Meteorol. Soc., 139(674):1270-1282, 2013. [ bib | DOI ]
[22] Y. G. Choi, S. C. Lee, A. J. McDonald, and D. A. Hooper. Wind-profiler observations of gravity waves produced by convection at mid-latitudes. Atmos. Chem. and Phys., 6(10):2825-2836, 2006. [ bib | DOI ]
[23] H. A. Clark. Understanding 46.5 MHz radar reflectivity in the troposphere. PhD thesis, Aberystwyth University (UK), 2007. [ bib ]
[24] Esther Conway. Curating atmospheric data for long term use: Infrastructure and preservation issues for the atmospheric sciences community. 2009. [ bib | http ]
[25] Esther Conway and David Giaretta. Advanced preservation analysis. In Advanced Digital Preservation, chapter 14, pages 233-264. Springer, 2011. [ bib | DOI ]
[26] E. Conway, M. Dunckley, B. McIlwrath, and D. Giaretta. Preservation network models: Creating stable networks of information to ensure the long term use of scientific data. Ensuring Long-Term Preservation and Adding Value to Scientific and Technical Data, Villafranca del Castillo, Madrid, Spain, 2009. [ bib | http ]
[27] Esther Conway, David Giaretta, Simon Lambert, and Brian Matthews. Curating scientific research data for the long term: A preservation analysis method in context. International Journal of Digital Curation, 6(2):38-52, 2011. [ bib | DOI ]
[28] Esther Conway, Sam Pepler, Wendy Garland, David Hooper, Fulvio Marelli, Luca Liberti, Emanuela Piervitali, Katrin Molch, Helen Glaves, and Lucio Badiali. Ensuring the long term impact of earth science data through data curation and preservation. Information Standards Quarterly, 25(3):28-36, 2013. [ bib | DOI ]
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[29] J. Dibbern, D. Engelbart, U. Goersdorf, N. Latham, V. Lehmann, J. Nash, T. Oakley, H. Richner, and H. Steinhagen. Operational aspects. In J. Dibbern, W. Monna, J. Nash, and G. Peters, editors, EUR 20614 - COST Action 76 - Development of VHF/UHF wind-profilers and vertical sounders for use in European observing systems - Final report, pages 133-224. European Commission, Luxembourg, 2003. ISBN 92-894-4899-7. [ bib | http ]
[30] M. Dunckley, S. Rankin, E. Conway, and D. Giaretta. The use of file description languages for file format identification and validation. In PV 2007 Conference Proceedings, 2007. [ bib | http ]
[31] Matthew Dunckley, Shahar Ronen, Ealan A. Henis, Simona Rabinovici-Cohen, Petra Reshef, Esther Conway, and David Giaretta. Using XFDU for CASPAR information packaging. OCLC Systems and Services, 26(2):80-93, 2010. [ bib | DOI ]
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[32] J. D. Eastment, W. J. Bradford, D. A. Hooper, Z. A. K. Olewicz, O. T. Davies, and L. Dean. The effects of almost 20 years of operation on the performance of the Aberystwyth MST radar. In N. Swarnalingam and W. K. Hocking, editors, Proceedings of the Twelfth International Workshop on Technical and Scientific Aspects of MST Radar, pages 119-122. Canadian Association of Physicists, 2010. ISBN:978-0-9867285-0-1. [ bib | http ]
[33] Jon D. Eastment, David A. Hooper, Darcy N. Ladd, and Chris J. Walden. Detecting low Earth orbit (LEO) satellites using UK-based atmospheric radars. In R. Latteck and W. Singer, editors, Proceedings of the Thirteenth International Workshop on Technical and Scientific Aspects of MST Radar, pages 43-46. Leibniz-Institute of Atmospheric Physics at the Rostock University, Kühlungsborn, Germany, 2013. ISBN:978-3-00-044654-2. [ bib | http ]
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[34] A. J. Fisher, S. P. Kingsley, and L. Merlin. Using MST radar observations of meteor echoes to investigate small scale structures in the upper atmosphere. In B. Edwards, editor, Proceedings of the Seventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 290-293. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1996. [ bib ]
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[35] Balsubramani Goudar. The antenna beam pattern of the UK MST radar. Master's thesis, University of Bath (UK), 2010. [ bib ]
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[36] D. A. Hooper. Thin layers of turbulence in the middle atmosphere. PhD thesis, University of Wales Aberystwyth (UK), 1995. [ bib ]
[37] D. Hooper. The NERC MST radar facility at aberystwyth. NERC Estate News, 11, 2006. [ bib | http ]
[38] D. A. Hooper. Data storage standards for the atmospheric sciences. Technical Report RAL-TR-2010-009, STFC Rutherford Appleton Laboratory, 2010. ISSN:1358-6254. [ bib | http ]
[39] D. Hooper and L. Thomas. Aspect sensitivity of VHF scatterers in the troposphere and stratosphere from comparisons of powers in off-vertical beams. J. Atmos. Terr. Phys., 57(6):655-663, 1995. [ bib | DOI ]
[40] D. A. Hooper and L. Thomas. The importance of the background gradient of potential refractive index to backscattered signal strength. In B. Edwards, editor, Proceedings of the Seventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 5-8. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1996. [ bib ]
[41] D. A. Hooper and L. Thomas. The structure of mesospheric summer echoes observed at Aberystwyth. In B. Edwards, editor, Proceedings of the Seventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 260-263. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1996. [ bib ]
[42] D. A. Hooper and L. Thomas. The small-scale structure of VHF mesospheric summer echo layers observed at mid-latitudes. Ann. Geophys., 15:1037-1047, 1997. [ bib | DOI ]
[43] D. A. Hooper and L. Thomas. Complementary criteria for identifying regions of intense atmospheric turbulence using lower VHF radar. J. Atmos. Sol.-Terr. Phys., 60(1):49-61, 1998. [ bib | DOI ]
[44] D. A. Hooper and L. Thomas. Layers of intense turbulence in the troposphere and lower stratosphere identified from combined MST radar and radiosonde observations at Aberystwyth. In B. Edwards, editor, Proceedings of the Eighth International Workshop on Technical and Scientific Aspects of MST Radar, pages 100-102. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1998. [ bib ]
[45] David A. Hooper and Ed Pavelin. Tropopause erosion by mountain wave breaking. In Jorge Chau, Jaime Lau, and Jürgen Röttger, editors, Proceedings of the Tenth International Workshop on Technical and Scientific Aspects of MST Radar, pages 46-49. Radio Observatorio de Jicamarca, Lima, Peru/Universidad de Piura, Piura, Peru, 2003. [ bib ]
[46] D. A. Hooper and A. J. McDonald. The unexpected dominance of stratiform precipitation return power over clear-air return power for observations made at lower-VHF. In V. K. Anandan, editor, Proceedings of the Eleventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 36-40. Macmillan India Ltd., 2007. [ bib | http ]
[47] D. A. Hooper and I. Astin. The reintroduction of mesospheric observations at Aberystwyth. In V. K. Anandan, editor, Proceedings of the Eleventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 126-130. Macmillan India Ltd., 2007. [ bib | http ]
[48] D. A. Hooper and C. Gaffard. What is the optimal level of time-averaging for radar-derived wind-profiles? In N. Swarnalingam and W. K. Hocking, editors, Proceedings of the Twelfth International Workshop on Technical and Scientific Aspects of MST Radar, pages 99-102. Canadian Association of Physicists, 2010. ISBN:978-0-9867285-0-1. [ bib | http ]
[49] David A. Hooper, Helen J. Reid, and Ed Pavelin. The signature of mid-latitude convection observed by MST radar. In Jorge Chau, Jaime Lau, and Jürgen Röttger, editors, Proceedings of the Tenth International Workshop on Technical and Scientific Aspects of MST Radar, pages 334-337. Radio Observatorio de Jicamarca, Lima, Peru/Universidad de Piura, Piura, Peru, 2003. [ bib ]
[50] D. A. Hooper, A. J. McDonald, E. Pavelin, T. K. Carey-Smith, and C. L. Pascoe. The signature of mid-latitude convection observed by VHF wind-profiling radar. Geophys. Res. Lett., 32:L04808, 2005. [ bib | DOI ]
[51] D. A. Hooper, J. Nash, T. Oakley, and M. Turp. Validation of a new signal processing scheme for the MST radar at Aberystwyth. In V. K. Anandan, editor, Proceedings of the Eleventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 311-315. Macmillan India Ltd., 2007. [ bib | http ]
[52] D. A. Hooper, J. Nash, T. Oakley, and M. Turp. Validation of a new signal processing scheme for the MST radar at Aberystwyth. Ann. Geophys., 26(11):3253-3268, 2008. [ bib | DOI ]
[53] D. A. Hooper, O. T. Davies, J. Nash, T. Oakley, and M. Turp. The diagnosis of a range gating problem suffered by the Aberystwyth MST radar. In N. Swarnalingam and W. K. Hocking, editors, Proceedings of the Twelfth International Workshop on Technical and Scientific Aspects of MST Radar, pages 123-126. Canadian Association of Physicists, 2010. ISBN:978-0-9867285-0-1. [ bib | http ]
[54] David A. Hooper, John Bradford, Les Dean, Jon D. Eastment, Marco Hess, Eric Hibbett, John Jacobs, and Richard Mayo. Renovation of the Aberystwyth MST radar: evaluation. In R. Latteck and W. Singer, editors, Proceedings of the Thirteenth International Workshop on Technical and Scientific Aspects of MST Radar, pages 86-90. Leibniz-Institute of Atmospheric Physics at the Rostock University, Kühlungsborn, Germany, 2013. ISBN:978-3-00-044654-2. [ bib | http ]
[55] David A. Hooper, David M. Edwards, Gemma Holmes, Kevin Linklater, Tim Oakley, Colin Parrett, and Myles Turp. The usefulness of model-comparison statistics for wind-profiling radar operators. In R. Latteck and W. Singer, editors, Proceedings of the Thirteenth International Workshop on Technical and Scientific Aspects of MST Radar, pages 141-150. Leibniz-Institute of Atmospheric Physics at the Rostock University, Kühlungsborn, Germany, 2013. ISBN:978-3-00-044654-2. [ bib | http ]
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[56] N. Issaeva. Quantifying the system balancing cost when wind energy is incorporated into electricity generation system. PhD thesis, University of Edinburgh (UK), 2009. [ bib | http ]
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[57] D. Jerrett. Results from a three month radio-sonde, MST radar and LAP-3000 intercomparison trial at Aberystwyth, Wales. In B. Edwards, editor, Proceedings of the Seventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 170-173. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1996. [ bib ]
[58] J. Jones. An Assessment of the Quality of GPS Water Vapour Estimates and their use in Operational Meteorology and Climate Monitoring. PhD thesis, University of Nottingham (UK), 2009. [ bib ]
[59] W. Jones and S. P. Kingsley. MST radar observations of meteors. In Proceedings of the Wagstaff (USA) Conference on Astroids, Comets and Meteors. Lunar and Planetary Institute (NASA Houston), July 1991. [ bib ]
[60] W. Jones and S. P. Kingsley. The observation of celestial objects by means of the MST radar and the calculation of the antenna pattern. Technical report to the SERC and the MST radar user community, 1993. [ bib ]
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[61] Ahmet Kale. Software defined radar. Master's thesis, University of Kocaeli (Turkey), 2010. [ bib ]
[62] Lakshmi Kantha, Elliott Barlow, Penina Axelrad, David Hooper, and Larry Cornman. Turbulence retrievals from radio occultations. In Radio Science Meeting (USNC-URSI NRSM), 2013 US National Committee of URSI National. IEEE, 2013. [ bib | DOI ]
[63] S. P. Kingsley. Radio-astronomical methods of measuring the MST radar antenna. Technical report to MST radar user community, 1989. [ bib ]
[64] Ashish Kumar. Signal analysis and processing of mini-profiler echoes. Master's thesis, NIMS University (India), 2012. [ bib ]
[65] P. Kungl, J. Haecker, D.-A. Wimmer, and M. Schlenker. Verbundforschnungsvorhaben AIRCHAIN, autonome hochfliegende plattformen (Joint research project AIRCHAIN: Autonomous stratospheric platforms). In Abschlussbericht zum 14. Marz 2005. Arbeitspaket ISD III: Integration und elektrische Vernetzung Bordsystem (Final Report March 14th 2005. Work Package ISD III: Integration and electric Network of On-Board-Systems), 2005. [ bib ]
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[66] John Lawson, Geraint Vaughan, and David M. Schultz. Classifying fronts in data from a VHF wind-profiling radar. Atmos. Sci. Lett., 12(4):375-380, 2011. [ bib | DOI ]
[67] John Lawson, David M. Schultz, Geraint Vaughan, and Daniel J. Kirshbaum. Multiple bands near fronts in VHF wind-profiling radar and radiosonde data. Atmos. Sci. Lett., 14(3):146-152, 2013. [ bib | DOI ]
[68] Christopher F. Lee. Use of Wind Profilers to Quantify Atmospheric Turbulence. PhD thesis, University of Manchester (UK), 2011. [ bib ]
[69] C. F. Lee and G. Vaughan. Quantifying atmospheric turbulence - a simple signal processing approach for turbulent Doppler spectra. In R. Latteck and W. Singer, editors, Proceedings of the Thirteenth International Workshop on Technical and Scientific Aspects of MST Radar, pages 2-7. Leibniz-Institute of Atmospheric Physics at the Rostock University, Kühlungsborn, Germany, 2013. ISBN:978-3-00-044654-2. [ bib | http ]
[70] C. F. Lee, G. Vaughan, and D. A. Hooper. Evaluation of wind profiles from the NERC MST radar, Aberystwyth, UK. Atmos. Meas. Tech., 7(9):3113-3126, 2014. [ bib | DOI ]
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[71] Hamish Macdonald, David Infield, David H. Nash, and Margaret M. Stack. Mapping hail meteorological observations for prediction of erosion in wind turbines. Wind Energ., 19:777-784, 2016. [ bib | DOI ]
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[72] G. J. Marlton, P. D. Williams, and K. A. Nicoll. On the detection and attribution of gravity waves generated by the 20 march 2015 solar eclipse. Phil. Trans. R. Soc. A., 374(2077), 2016. [ bib | DOI ]
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[73] Franco Marenco, Ben Johnson, Kate Turnbull, Stuart Newman, Jim Haywood, Helen Webster, and Hugo Ricketts. Airborne lidar observations of the 2010 Eyjafjallajökull volcanic ash plume. J. Geophys. Res., 116(D20), 2011. [ bib | DOI ]
[74] Graeme John Marlton. On the development, characterisation and applications of a ballon-borne atmospheric turbulence sensor. PhD thesis, University of Reading (UK), 2016. [ bib ]
[75] Oscar Martínez-Alvarado, Florian Weidle, and Suzanne L. Gray. Sting jets in simulations of a real cyclone by two mesoscale models. Mon. Weather Rev., 138(11):4054-4075, 2010. [ bib | DOI ]
[76] Jon Paul McCalmont. Greenhouse gas balance in transition from semi-improved agricultural grassland to Miscanthus x giganteus bioenergy crop. PhD thesis, Aberystwyth University, 2014. [ bib ]
[77] A. J. McDonald. Lidar and radar observations of the vertical propagation of gravity waves in the middle atmosphere. PhD thesis, University of Wales Aberystwyth (UK), 1996. [ bib ]
[78] A. J. McDonald, S. Pepler, and L. Thomas. Coordinated MST and lidar observations of the middle atmosphere at Aberystwyth. In B. Edwards, editor, Proceedings of the Seventh International Workshop on Technical and Scientific Aspects of MST Radar, pages 100-103. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1996. [ bib ]
[79] A. J. McDonald, L. Thomas, and D. P. Wareing. Night to night changes in the characteristics of gravity waves at stratospheric and lower mesospheric heights. Ann. Geophys., 16:229-237, 1998. [ bib | DOI ]
[80] A. J. McDonald, T. K. Carey-Smith, D. A. Hooper, G. J. Fraser, and B. P. Lublow. The effect of precipitation on wind-profiler clear air returns. Ann. Geophys., 22(11):3959-3970, 2004. [ bib | DOI ]
[81] A. J. McDonald, A. Baumgaertner, T. K. Carey-Smith, D. A. Hooper, and K. P. Monahan. An idiot's guide to signal processing. In R. C. Driscoll, editor, Proceedings of the eleventh electronics New Zealand conference, pages 165-170. Massey University, New Zealand, 2004. [ bib ]
[82] A. J. McDonald, K. P. Monahan, D. A. Hooper, and C. T. Gaffard. VHF signal power suppression in stratiform and convective precipitation. Ann. Geophys., 24(1):23-35, 2006. [ bib | DOI ]
[83] N. J. Mitchell, L. Thomas, I. T. Prichard, and A. K. P. Marsh. Co-ordinated radar and lidar observations of inertia-gravity waves in the troposphere and stratosphere. In B. Edwards, editor, Proceedings of the Fifth International Workshop on Technical and Scientific Aspects of MST Radar, pages 228-233. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 1992. [ bib ]
[84] N. J. Mitchell, L. Thomas, and I. T. Prichard. Gravity waves in the stratosphere and troposphere observed by lidar and MST radar. J. Atmos. Terr. Phys., 56(8):939-947, 1994. [ bib | DOI ]
[85] H.G. Muller, R.L. Havill, V.E. Comley, and P.C.J. Hill. A study of meteor radar winds from two locations in the British Isles. J. Atmos. Terr. Phys., 57(9):979 - 993, 1995. [ bib | DOI ]
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[86] J. Nash. Technologies for upper wind measurements. In C. Lafaysse, editor, EUR 15450 - COST 74 Final Report - Utilization of UHF/VHF radar wind profiler networks for improving weather forecasting in Europe, chapter 3, pages 45-82. European Commission, 1994. [ bib ]
[87] J. Nash. Data collection and quality analysis. In C. Lafaysse, editor, EUR 15450 - COST 74 Final Report - Utilization of UHF/VHF radar wind profiler networks for improving weather forecasting in Europe, pages 117-142. European Commission, 1994. [ bib ]
[88] J. Nash and T.J. Oakley. Development of COST 76 wind profiler network in Europe. Phys. Chem. Earth (B), 26(3):193 -199, 2001. [ bib | DOI ]
[89] J. Nash and D. Ruffieux. Role of wind profilers in observing systems. In J. Dibbern, W. Monna, J. Nash, and G. Peters, editors, EUR 20614 - COST Action 76 - Development of VHF/UHF wind-profilers and vertical sounders for use in European observing systems - Final report, pages 9-67. European Union, Brussels, 2003. ISBN 92-894-4899-7. [ bib | http ]
[90] Luke Norris. On the implications of atmospheric gravity waves on wind power. Master's thesis, University of Edinburgh (UK), 2011. [ bib ]
[91] E. J. Noyes. Technical assistance for the validation of AATSR land surface temperature products: third contract continuation final report. In University of Leicester contractual report to ESA, 19054/05/NL/FF, 2008. [ bib ]
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[92] F. O'Connor. Rossby wave breaking in the mid-latitude lower stratosphere. PhD thesis, University of Wales Aberystwyth (UK), 2000. [ bib ]
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[93] P. M. Panagi, E. M. Dicks, G. L. Hamer, and J. Nash. Preliminary results of the soutine comparison of wind profiler data with the Meteorological Office Unified Model vertical wind profiles. Phys. Chem. Earth (B), 26(3):187 - 191, 2001. [ bib | DOI ]
[94] G. A. Parton. Observations and interpretation of strong winds in the mid-troposphere. PhD thesis, University of Manchester (UK), 2007. [ bib ]
[95] G. A Parton, G. Vaughan, E. G. Norton, K. A. Browning, and P. A. Clark. Wind profiler observations of a sting jet. Q. J. R. Meteorol. Soc., 135(640, Part A):663-680, 2009. [ bib | DOI ]
[96] Graham Parton, Anthony Dore, and Geraint Vaughan. A climatology of mid-tropospheric mesoscale strong wind events as observed by the MST radar, Aberystwyth. Meteorol. Apps., 17:340-354, 2010. [ bib | DOI ]
[97] E. G. Pavelin. Observations of gravity waves, turbulence and mixing in the tropopause region. PhD thesis, University of Wales Aberystwyth (UK), 2002. [ bib ]
[98] E. Pavelin and J. A. Whiteway. Gravity wave interactions around the jet stream. Geophys. Res. Lett., 29:2024, 2002. [ bib | DOI ]
[99] E. Pavelin, J. Whiteway, and G. Vaughan. MST radar observations of a monochromatic inertia-gravity wave in the lower stratosphere. In Proceedings of the Ninth International Workshop on Technical and Scientific Aspects of MST Radar. Sci. Comm. on Sol.-Terr. Phys. Secr., Boulder, Colorado, 2000. [ bib ]
[100] E. Pavelin, J. A. Whiteway, and G. Vaughan. Observation of gravity wave generation and breaking in the lowermost stratosphere. J. Geophys. Res., 106:5173-5179, 2001. [ bib | DOI ]
[101] E. Pavelin, C-G. Wang, K. A. Browning, P. Berrisford, and B. J. Hoskins. VHF wind-profiler data as a teaching aid. Meteorol. Apps., 10:297-300, 2003. [ bib | DOI ]
[102] S. J. Pepler. Novel techniques for observing upper-level fronts. PhD thesis, University of Wales Aberystwyth (UK), 1994. [ bib ]
[103] S. J. Pepler, G. Vaughan, and D. A. Hooper. Detection of turbulence around jet streams using a VHF radar. Q. J. R. Meteorol. Soc., 124:447-462, 1998. [ bib | DOI ]
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