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Page 66
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
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Page 66
Page 67
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
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Page 67
Page 68
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
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Page 68
Page 69
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
×
Page 69
Page 70
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
×
Page 70
Page 71
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
×
Page 71
Page 72
Suggested Citation:"6 Bibliography." National Academies of Sciences, Engineering, and Medicine. 2022. Development of a Small Aircraft Runway Length Analysis Tool. Washington, DC: The National Academies Press. doi: 10.17226/26730.
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Page 72

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66 6 BIBLIOGRAPHY [1] Powers, S. A. (1981). "Critical field length calculations for preliminary design." Journal of Aircraft, 18(2), 103-107. [2] Chandrasekharan, R. (1988). "Improved method of analyzing takeoff performance data." Aircraft Design, Systems and Operations Conference, Atlanta, 4509-4513. [3] Anderson, J.D. (2010). Aircraft performance and design, Tata McGraw-Hill Edition, Tata McGraw Hill Education Private Limited, New Delhi. [4] Spencer, T.L., and Trani, A.A. (2019). "Predictive Models of Departure and Arrival Occupancy Time and Takeoff Distance." Journal of Air Transportation, 27(2), 81-95. [5] Lush, K.J. (1953). Standardization of Take-Off Performance Measurements for Airplanes, Air Force Flight Test Center, California. [6] Kim, M., and Kim, J. (2001). "Improved method of analyzing takeoff/landing performance of turboprop aircraft through modeling and simulation." AIAA Atmospheric Flight Mechanics Conference and Exhibit, American Institute of Aeronautics and Astronautics, Montreal, 4072-4079. [7] Orleans, K. and Woolf, R. (2012). "A Method of Standardizing Takeoff Performance Data Using Modeling and Simulation". 28th Aerodynamic Measurement Technology, Ground Testing, and Flight Testing Conference, New Orleans,2725-2736. [8] Daidzic, N.E., and Shrestha, J. (2008). "Airplane landing performance on contaminated runways in adverse conditions. " Journal of Aircraft, 45(6),2131-2144. [9] Wahi, M.K. (1979). "A tire runway interface friction prediction model concept." Journal of Aircraft, 16(6), 407-416. [10] Jones, L., and Boiffier, J.L. (2011). "Modeling braking friction between an aircraft tire and the runway." AIAA Modeling and Simulation Technologies Conference, Portland, 6674-6686. [11] Cerezo, V., Gerthoffert, J., Bouteldja, M., and Do, M.T. (2016). "Modeling-Based Approach to Relate Ground Friction Measurements to Aircraft Braking Performance." Journal of Aircraft, 53(1), 251-261. [12] Jiao, Z., Liu, X., Li, F., and Shang, Y. (2017). "Aircraft antiskid braking control method based on tire–runway friction Model." Journal of Aircraft, 54(1), 75-84. [13] Advani, S.K., Van Der Vaart, J.C., Rysdyk, R.Th., and Grosz, J. (1993). "What optical cues do pilots use to initiate the landing flare? Results of a piloted simulator experiment." Flight Simulation and Technologies, Monterey, 3561-3569. [14] Sakamoto, Y., Mori, R., Suzuki, S., and Takahara, H. (2006). "Analysis of Pilot Landing Control Using Neural Network." AIAA Atmospheric Flight Mechanics Conference and Exhibit, Keystone, 6498-6504. [15] Mori, R., and Suzuki, S. (2010). "Modeling of pilot landing approach control using stochastic switched linear regression model." Journal of aircraft, 47(5), 1554-1558. [16] Mori, R., and Suzuki, S. (2009). "Neural network modeling of lateral pilot landing control." Journal of Aircraft, 46(5), 1721-1726. [17] Takahashi, T.T., Wood, D.L., and Beard, J.E. (2018). "Real Pilots Don't Go Around: Discontinued Approach and Balked Landing Climb Performance." 2018 AIAA Aerospace Sciences Meeting, Kissimmee, 1752-1768. [18] Wood, D.L., and Takahashi, T.T. (2018). "The Effect of Piloting Practices Upon Actual as Opposed to Scheduled Landing Field Performance. " 2018 AIAA Aerospace Sciences Meeting, Kissimmee,1756-1779. [19] Airbus Flight Operation Briefing Notes, “Takeoff and Departure Operations: Understanding Takeoff Speed”, August 2004. [20] Federal Aviation Administration, AC 120-62, “Takeoff Safety Training Aid”, August 3, 1992,

67 Washington, DC. [21] Federal Aviation Administration, AC 91-79A, (2014). “Mitigating the Risk of a Runway Overrun Upon Landing”, July 17, 2014, Washington, DC., AC 91-79A Change 1, April 28, 2016., AC 91- 79A Change 2, February 2, 2018. [22] Federal Aviation Administration, Advisory Circular AC 25-32, Landing Performance Data for Time-of-Arrival, December 22, 2015, Washington, DC. [23] Federal Aviation Administration, Safety Alert SAFO 16009, (2016). “Runway Assessment and Condition Reporting”, October 1, 2016. [24] Federal Aviation Administration, Safety Alert SAFO 16008, (2016). “Reducing the Risk of Runway Excursions During Takeoff”, July 26, 2016. [25] Federal Aviation Administration Aviation Rulemaking Advisory Committee: FTHWG Task 9, “Wet Runway Stopping Distance Final Report”, March 16, 2018. [26] Federal Aviation Administration, Safety Alert SAFO 19001, (2019). “Landing Performance Assessments at Time of Arrival”, March 11, 2019. [27] Federal Aviation Administration, Safety Alert SAFO 19003, (2019). “Turbojet Braking Performance on Wet Runways”, July 2, 2019. [28] Flight Safety Foundation, “Landing Distances: ALAR Briefing Note 8.3”, Alexandria, Virginia, 2009. [29] National Business Aircraft Association, “Pilot’s Runway Condition Assessment Matrix: Quick Reference Card”, 2018. [30] United States Federal Regulations, Title 14, Chapter 1, Subchapter C, Part 25, “Airworthiness Standards: Transport Category Airplanes”, July 22, 2020. [31] United States Federal Regulations, Title 14, Chapter 1, Subchapter C, Part 23, “Airworthiness Standards: Normal, Utility, Acrobatic, and Commuter Category Airplanes”, July 22, 2020. [32] United States Title 14 Code of Federal Regulations Part 135 - Operating Requirements: Commuter and On Demand Operations and Rules. [33] United States Title 14 Code of Federal Regulations Part 91 – General Operating and Flight Rules. [34] Aselin, M., An Introduction to Aircraft Performance (AIAA Education Series), American Institute of Aeronautics and Astronautics, Reston, Virginia,1997. [35] Fillipone, A., (2012). “Advanced Aircraft Flight Performance”, Cambridge University Press, New York. [36] Gallaway, R., Schiller, Jr., and J. Rose, (1971). “The Effects of Rainfall Intensity, Pavement Cross Slope, Surface Texture, and Drainage Length on Pavement Water Depths”, Texas Transportation Institute (TTI) Research Report 138-5, May 1971. [37] Horne, W. B., and Dreher, R.C., (1963). “Phenomena of Pneumatic Tire Hydroplaning, NASA TN D-2056”, Langley Research Center, Langley Station, Hampton, Virginia. [38] Horne, W. B, Yager, T. J., and Taylor, G. R., (1968). “Review of Causes and Alleviation of Low Tire Traction on Wet Runways”, NASA TN D-4406, Langley Research Center, Langley Station, Hampton, Virginia. [39] Horne, W. B. (1975). “Wet Runways”, NASA Technical Memorandum TM-X-72650, NASA Langley Research Center, Hampton, Virginia. [40] Socata. TBM 930 Airplane equipped with MOD70--0476--00 Pilot's Information Manual. Tarbes: Socata, 2015. [41] Cessna Aircraft Company. Citation Encore Model 560 Supplement 40 Austrian Registered FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 2001. [42] Cessna Aircraft Company. Citation Encore+ Model 560 FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 2006. [43] Cessna Aircraft Company. Citation CJ2 Flight Planning Guide. Wichita: Cessna Aircraft Company, 2007. [44] Cessna Aircraft Company. Citation Bravo Flight Planning Guide. Wichita: Cessna Aircraft Company, 1994.

68 [45] Cessna Aircraft Company. Citation V Ultra Flight Planning Guide. Wichita: Cessna Aircraft Company, 1994. [46] Cessna Aircraft Company. Citation VI Flight Planning Guide. Wichita: Cessna Aircraft Company, 1994. [47] Cessna Aircraft Company. Citation VII Flight Planning Guide. Wichita: Cessna Aircraft Company, 1994. [48] Cessna Aircraft Company. Citation X Flight Planning Guide. Wichita: Cessna Aircraft Company, 1994. [49] Cessna Aircraft Company. Citation Sovereign Flight Planning Guide. Wichita: Cessna Aircraft Company, 2001. [50] Cessna Aircraft Company. Citation Sovereign+ Flight Planning Guide. Wichita: Cessna Aircraft Company, 2018. [51] Cessna Aircraft Company. Citation X Flight Planning Guide. Wichita: Cessna Aircraft Company, 2004. [52] Piaggio Aero Industries. Piaggio Avanti Flight Planning Guide. Genova: Piaggio Aero Industries, 2005. [53] Learjet. Learjet 31A Mission Planning Guide. Wichita: Learjet, 1994. [54] Learjet. Learjet 35A Mission Planning Guide. Wichita: Learjet, 1991. [55] Learjet. Learjet 60 Mission Planning Guide. Wichita: Learjet, 1993. [56] Raytheon Aircraft Company. Beechjet 400A Manufacturer Approved Airplane Flight Manual Supplement: Operation on Wet or Contaminated Runways. Wichita: Raytheon Aircraft Company, 2003. [57] Romeyn, A. "Aircraft Reciprocating Engine Failure: An Analysis of Failure in a Complex Engineered System." ATSB Transport Safety Investigation Report—Aviation Safety Research and Analysis Report 191 (2007). [58] Raytheon Aircraft Company. Super King Air 350, 350i and 350C Pilot Operating Handbook and Manufacturer Approved Airplane Flight Manual Supplement: Operation on Wet or Contaminated Runways. Wichita: Raytheon Aircraft Company, 2015. [59] Raytheon Aircraft Company. King Air C90GTi, C90GT, and C90GTx Pilot Operating Handbook and Manufacturer Approved Airplane Flight Manual Supplement: EU-OPS Operations. Wichita: Raytheon Aircraft Company, 2011. [60] Raytheon Aircraft Company. Super King Air 350, 350i and 350C Pilot Operating Handbook and Manufacturer Approved Airplane Flight Manual Supplement: Operations on Grass Runways. Wichita: Raytheon Aircraft Company, 2016. [61] Raytheon Aircraft Company. Premiere I Model 390 Approved Airplane Flight Manual Supplement (JAR-OPS 1). Wichita: Raytheon Aircraft Company, 2005. [62] Cessna Aircraft Company. Skyhawk 172SP Pilot Operating Handbook and Approved Airplane Flight Manual Supplement. Wichita: Cessna Aircraft Company, 2014. [63] Cessna Aircraft Company. Skylane 182T Pilot Operating Handbook and Approved Airplane Flight Manual Supplement. Wichita: Cessna Aircraft Company, 2017. [64] Cessna Aircraft Company. Citation Mustang Model 510 Airplane Flight Manual Supplement: EASA Certified Airplanes. Wichita: Cessna Aircraft Company, 2007. [65] Cessna Aircraft Company. Citation Mustang Model 510 Airplane Flight Manual Supplement: Sod Runway Operations. Wichita: Cessna Aircraft Company, 2009. [66] Cessna Aircraft Company. Citation Encore+ Model 560 Airplane Flight Manual Supplement: EASA Certified Airplanes. Wichita: Cessna Aircraft Company, 2007. [67] Cessna Aircraft Company. Citation Encore+ Model 560 Airplane Flight Manual Supplement: Operational Dispatch Planning Landing Performance. Wichita: Cessna Aircraft Company, 2008. [68] Cessna Aircraft Company. Citation Excel+ Model 560XL Airplane Flight Manual Supplement: Operational Dispatch Planning Landing Performance. Wichita: Cessna Aircraft Company, 2004. [69] Cessna Aircraft Company. Citation CJ2 Airplane Flight Manual Supplement 58: EASA Certified

69 Airplanes. Wichita: Cessna Aircraft Company, 2007. [70] Cessna Aircraft Company. Citation CJ3+ Airplane Flight Manual Supplement 23: EASA Certified Airplanes. Wichita: Cessna Aircraft Company, 2006. [71] Cessna Aircraft Company. Citation CJ3+ Airplane Flight Manual Supplement 4: Operational Dispatch Planning Landing Performance. Wichita: Cessna Aircraft Company, 2016. [72] Hawker Beechcraft Corporation. Model 4000 Approved Airplane Flight Manual Supplement. Wichita: Hawker Beechcraft Corporation, 2005. [73] Hawker Beechcraft Corporation. Model 800XP Approved Airplane Flight Manual Supplement: Operation on Wet and Contaminated Runways. Wichita: Hawker Beechcraft Corporation, 2004. [74] Hawker Beechcraft Corporation. Model 900XP Approved Airplane Flight Manual Supplement: Operation on Gravel and Natural Surface Runways. Wichita: Hawker Beechcraft Corporation, 2013. [75] Cessna Aircraft Company. Citation III Model 650 Airplane Flight Manual Supplement: Automatic Performance Reserve. Wichita: Cessna Aircraft Company, 1976. [76] North American Rockwell. Turbo Commander 690B Pilot’s Operating Handbook. Seal Beach: North American Rockwell, 1985. [77] Cessna Aircraft Company. Cessna Grand Caravan Model 208B G1000 III Pilot’s Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 2007. [78] Cessna Aircraft Company. Cessna Grand Caravan Model 208B G1000 III Pilot’s Operating Handbook and FAA Approved Airplane Flight Manual: High Altitude Takeoff and Landing Performance. Wichita: Cessna Aircraft Company, 2008. [79] Beech Aircraft Corporation. Musketeer 23 Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Beech Aircraft Corporation, 1980. [80] Beech Aircraft Corporation. Pilot's Operating Handbook and FAA Approved Airplane Flight Manual for Beechcraft Debonair 35-C33 and Bonanza E33, F33. Wichita: Beech Aircraft Corporation, 1983. [81] Beech Aircraft Corporation. Pilot's Operating Handbook and FAA Approved Airplane Flight Manual for Beechcraft Skipper 77. Wichita: Beech Aircraft Corporation, 1982. [82] Beechcraft Corporation. King Air C90A (with PT6A-135A engines) King Air C90GT & C90GTi Pilot's Operating Handbook and FAA Approved Airplane Flight Manual Supplement. Wichita: Beechcraft Corporation, 2016. [83] Beechcraft Corporation. Super King Air 350, 350ER, 350i, 350iER, 350C & 350CER (Model B300/B300C) Pilot's Operating Handbook and Approved Airplane Flight Manual Supplement for Commercial Air Transport (CAT) & EU-OPS 1 Operations. Wichita: Beechcraft Corporation, 2016. [84] Beechcraft Corporation. Super King Air 350, 350ER, 350i, 350iER, 350C & 350CER (Model B300/B300C) Pilot's Operating Handbook and FAA Approved Airplane Flight Manual Supplement for Operations On Unimproved Runways. Wichita: Beechcraft Corporation, 2016. [85] Beechcraft Corporation. Super King Air 350, 350ER, 350i, 350iER, 350C & 350CER (Model B300/B300C) Pilot's Operating Handbook and FAA Approved Airplane Flight Manual Supplement for Operations On Unimproved Runways. Wichita: Beechcraft Corporation, 2016. [86] BLR Aerospace. B200GT & B200CGT BLR Ultimate Performance Package Pilot's Operating Handbook and FAA Approved Airplane Flight Manual Supplement. Wichita: BLR Aerospace, 2012. [87] Cessna Aircraft Company. Citation CJ1 Flight Planning Guide. Wichita: Cessna Aircraft Company, 2000. [88] Cessna Aircraft Company. Citation CJ3 Flight Planning Guide. Wichita: Cessna Aircraft Company, 2006. [89] Cessna Aircraft Company. Citation Excel Supplement 32 Gravel Runway Modification FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 2001. [90] Cessna Aircraft Company. Citation XLS+ Flight Planning Guide. Wichita: Cessna Aircraft

70 Company, 2008. [91] Cessna Aircraft Company. Model 150M Commuter Pilot's Operating Handbook. Wichita: Cessna Aircraft Company, 1977. [92] Cessna Aircraft Company. Model 152 Information Manual. Wichita: Cessna Aircraft Company, 1978. [93] Cessna Aircraft Company. Model 172N Skyhawk Pilot's Operating Handbook. Wichita: Cessna Aircraft Company, 1978. [94] Cessna Aircraft Company. Model 177B Cardinal Pilot's Operating Handbook. Wichita: Cessna Aircraft Company, 1977. [95] Cessna Aircraft Company. Model 180K Skywagon Pilot's Operating Handbook. Wichita: Cessna Aircraft Company, 1978. [96] Cessna Aircraft Company. Model 182Q Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 1978. [97] Cessna Aircraft Company. Model 208 With PT6A-114A (675 SHP) Engine Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 2004. [98] Cessna Aircraft Company. Model 310R Pilot's Operating Handbook. Wichita: Cessna Aircraft Company, 1976. [99] Cessna Aircraft Company. Model 402B Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 1976. [100] Cessna Aircraft Company. Model 421C Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 1980. [101] Cessna Aircraft Company. Model T206H Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 1998. [102] Cessna Aircraft Company. Model T210N Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Cessna Aircraft Company, 1981. [103] Cirrus Design Corporation. Pilot's Operating Handbook and FAA Approved Airplane Flight Manual for the Cirrus SR20. Duluth: Cirrus Design Corporation, 2017. [104] Cirrus Design Corporation. Pilot's Operating Handbook and FAA Approved Airplane Flight Manual for the Cirrus SR22. Duluth: Cirrus Design Corporation, 2016. [105] Cirrus Design Corporation. Pilot's Operating Handbook and FAA Approved Airplane Flight Manual for the Cirrus SR22T. Duluth: Cirrus Design Corporation, 2013. [106] Columbia Aircraft Manufacturing Corporation. Columbia 400 Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Bend: Columbia Aircraft Manufacturing Corporation, 2006. [107] Costruzioni Aeronautiche Tecnam. Tecnam P2006T Aircraft Flight Manual. Capua: Costruzioni Aeronautiche Tecnam, 2010. [108] Czech sport aircraft. SportCruiser Pilot's Operating Handbook. Kunovice: Czech sport aircraft, 2011. [109] Diamond Aircraft Industries. DA 20 Katana Flight Manual. London, Ontario: Diamond Aircraft Industries, 1994. [110] Diamond Aircraft Industries. DA40 Airplane Flight Manual. London, Ontario: Diamond Aircraft Industries, 2000. [111] Diamond Aircraft Industries. DA42 Airplane Flight Manual. London, Ontario: Diamond Aircraft Industries, 2017. [112] EADS Socata. TB20 from SIN 948 Pilot's Information Manual. Tarbes: EADS Socata, 1988. [113] Embraer. Phenom 300 FAA Airplane Flight Manual. São José dos Campos: Embraer, 2009. [114] Flight Design GmbH. CTLS-LSA Pilot's Operating Handbook. Eisenach: Flight Design GmbH, 2012. [115] Grumman American Aviation Corporation. Model AA-1C T-CAT and LYNX Pilot's Operating Handbook. Savannah: Grumman American Aviation Corporation, 1977. [116] Gulfstream Aerospace Corporation. Commander 112B Pilot's Operating Handbook. Savannah:

71 Gulfstream Aerospace Corporation, 1986. [117] Gulfstream Aerospace Corporation. Model AA-5A Cheetah Pilot's Operating Handbook. Savannah: Gulfstream Aerospace Corporation, 1977. [118] Hawker Beechcraft Corporation. Super King Air 350ER, 350ERi & 35CER (Model B300 & B300C) Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Hawker Beechcraft Corporation, 2007. [119] Honda Aircraft Company. HA-420 FAA Approved Airplane Flight Manual. Greensboro: Honda Aircraft Company, 2018. [120] Jabiru Aircraft. Model J230-D Pilot's Operating Handbook. Bundaberg: Jabiru Aircraft, 2014. [121] Killough, Douglas L. Piper PA-24-180 Comanche Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Austin: Aircraft Publications, 1993&1996. [122] Killough, Douglas L. Piper PA-30 Twin Comanche Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Austin: Aircraft Publications, 1993&1996. [123] Lancair Company. Columbia 300 (LC40-550FG) Information Manual. Bend: Lancair Company, 1975. [124] McGraw-Hill. Purchase Planning Handbook. Business and Commercial Aviation, May 1993. [125] McGraw-Hill. Purchase Planning Handbook. Business and Commercial Aviation, May 2003. [126] McGraw-Hill. Purchase Planning Handbook. Business and Commercial Aviation, May 2016. [127] McGraw-Hill. Purchase Planning Handbook. Business and Commercial Aviation, May 2017. [128] McGraw-Hill. Purchase Planning Handbook. Business and Commercial Aviation, May 2020. [129] Mooney Aviation Company. M20R-Ovation Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Kerrville: Mooney Aviation Company, 1994. [130] Mooney Aviation Company. Mooney M20J Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Kerrville: Mooney Aviation Company, 1996. [131] Mooney International Corporation. Mooney Model M20V Acclaim Ultra Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Kerrville: Mooney International Corporation, 2017. [132] New Piper Aircraft. Meridian PA-46-500TP Information Manual. Vero Beach: New Piper Aircraft, 2005. [133] Pilatus Aircraft. PC-12/47E Pilot's Operating Handbook and EASA Approved Airplane Flight Manual. Switzerland: Pilatus Aircraft, 2010. [134] Piper Aircraft Corporation. Dakota Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Vero Beach: Piper Aircraft Corporation, 1978. [135] Piper Aircraft Corporation. Seminole Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Vero Beach: Piper Aircraft Corporation, 1978. [136] Piper Aircraft Corporation. Tomahawk Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Vero Beach: Piper Aircraft Corporation, 1978. [137] Rans Designs. S-7LS Courier Light Sport Aircraft Pilot's Operating Handbook. Kansas: Rans Designs, 2005. [138] Raytheon Aircraft Company. Baron 58 and 58A Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Raytheon Aircraft Company, 1976. [139] Raytheon Aircraft Company. Baron 95-B55 Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Raytheon Aircraft Company, 1978. [140] Raytheon Aircraft Company. Beech Model B200/B200C Landplanes Pilot's Operating Handbook and FAA Approved Airplane Flight Manual Supplement for Aeroplanes Registered In The United Kingdom. Everett: Raytheon Aircraft Company, 1999. [141] Raytheon Aircraft Company. Bonanza 36 and A36 Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Raytheon Aircraft Company, 1994. [142] Raytheon Aircraft Company. Bonanza V35, V35A and V35B Pilot's Operating Handbook and FAA Approved Airplane Flight Manual. Wichita: Raytheon Aircraft Company, 1994. [143] Rockwell International. Rockwell Commander 690B Pilot's Operating Handbook. Seal Beach:

72 Rockwell International, 1976. [144] Simcom Aviation Training. Cessna 340A Reference Manual. Orlando: Simcom Aviation Training, 2010. [145] Socata. TBM 700 Versions A and B equipped with MOD70-0276-00 Pilot's Information Manual. Tarbes: Socata, 2010. [146] Socata. TBM 850 From S/N 434 to 999 Pilot's Information Manual. Tarbes: Socata, 2007. [147] Van's Aircraft. RV-12 Pilot's Operating Handbook. Aurora: Van's Aircraft, 2018.

Next: 7 Appendix A Selection of Aircraft Included in SARLAT »
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 Development of a Small Aircraft Runway Length Analysis Tool
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An important operational characteristic of an airport is the length of its longest runway. The longest runway determines the types of aircraft that can use the airport and dictates the operational limitations at the airport.

The TRB Airport Cooperative Research Program's ACRP Web-Only Document 54: Development of a Small Aircraft Runway Length Analysis Tool provides a user-friendly computer tool to help airport planners and designers estimate runway length requirements for a variety of aircraft and design conditions.

Supplemental to the report are the SARLAT (for Windows and Mac) and the SARLAT Users Guide.

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