Baker, T., 2001, The causes of arrow speed, Primitive Technology: Ancestral Skills, 2, 107–114.
Barringer, J. M., 2001, The hunt in ancient Greece, Johns Hopkins University Press, Baltimore, MD.
Baugh, R. A., 2003, Dynamics of spear throwing, American Journal of Physics, 71(4), 345–350.
Bergman, C. A., McEwen, E., and Miller, R., 1988, Experimental archery: projectile velocities and comparison of bow performances, Antiquity, 62(237), 658–670.
Bickerstaffe, P., 2008, Shooting the English longbow, Bickerstaffe Bows, Kegworth.
Bleetman, A., Watson, C. H., Horsfall, I., and Champion, S. M., 2003, Wounding patterns and human performance in knife attacks: optimising the protection provided by knife-resistant body armour, Journal of Clinical Forensic Medicine, 10(4), 243–248.
Bottoms, L., Greenhalgh, A., and Sinclair, J., 2013, Kinematic determinants of weapon velocity during the fencing lunge in experienced épée fencers, Acta of Bioengineering and Biomechanics, 15(4), 109–113.
Bourke, P., and Whetham, D., 2007, A report of the findings of the Defence Academy warbow trials Part 1 Summer 2005, Arms & Armour, 4(1), 53–81.
Butler, W. B., 1979, The atlatl: the physics of function and performance, Plains Anthropologist, 20(68), 105–110.
Carrère, P., 1990, Contribution de la balistique au perfectionnement des études techno-fonctionnelles des pointes de projectiles préhistoriques, PALÉO, (2), 167–176.
Cattelain, P., 1989, Un crochet de propulseur solutréen de la grotte de Combe-Saunière 1 (Dordogne), Bulletin de la Société préhistorique française, 86(7), 213–216.
Cattelain, P., 1997, Hunting during the upper Paleolithic: bow, spearthrower, or both? in Projectile technology (ed. H. Knecht), 213–240, Plenum Press, New York.
Chadwick, E., Nicol, A., Lane, J., and Gray, T., 1999, Biomechanics of knife stab attacks, Forensic Science International, 105(1), 35–44.
Chen, T. L.-W., Wong, D. W.-C., Wang, Y., Ren, S., Yan, F., and Zhang, M., 2017, Biomechanics of fencing sport: a scoping review, PloS One, 12(2), e0171578.
Clarenne, V., 2017, Lancer reproductible et étude balistique d'une flèche à pointe en silex, Ecole Royale Militaire, Brussels.
Clarkson, C., 2016, Testing archaeological approaches to determining past projectile delivery systems using ethnographic and experimental data, in Multidisciplinary approaches to the study of Stone Age weaponry (eds. R. Iovita and K. Sano), 189–202, Springer, New York.
Connolly, P., Sim, D., and Watson, C., 2001, An evaluation of the effectiveness of three methods of spear grip used in antiquity, Journal of Battlefield Technology, 4, 49–54.
Coppe, J., and Rots, V., 2017, Focus on the target: the importance of a transparent fracture terminology for understanding projectile points and projecting modes, Journal of Archaeological Science: Reports, 12, 1–15.
English, F., 1930, The exterior ballistics of the arrow, Journal of the Franklin Institute, 210, 805–819.
Fredéric, L., 1985, Tir à l'arc, le matériel, la technique, l'entrainement, la compétition, Laffont, Paris.
Geneste, J., and Plisson, H., 1990, Technologie fonctionnelle des pointes à cran solutréennes: l'apport des nouvelles données de la grotte de Combe Saunière (Dordogne), in Feuilles de pierre: les industries à pointes foliacees du Paleolithique Superieur Europeen: Actes du Colloque de Cracovie 1989 (ed. J. K. Kozlowski), 293–320, ERAUL, Liège.
Gregor, R. J., and Pink, M., 1985, Biomechanical analysis of a world record javelin throw: a case study, International Journal of Sport Biomechanics, 1, 73–77.
Hamm, J., 2000, Turtle bow, in The traditional bowyer's bible, volume four, 336, Bois d'Arc Press (Lyons Press), Goldthwaite, TX.
Horsfall, I., Prosser, P., Watson, C., and Champion, S. M., 1999, An assessment of human performance in stabbing, Forensic Science International, 102(2–3), 79–89.
Hughes, S. S., 1998, Getting to the point: evolutionary change in prehistoric weaponry, Journal of Archaeological Method and Theory, 5(4), 345–408.
Hull, D. B., 1964, Hounds and hunting in ancient Greece, University of Chicago Press, Chicago, IL.
Hutchings, K. W., and Bruchert, L. W., 1997, Spearthrower performance: ethnographic and experimental research, Antiquity, 71, 890–897.
Hutchings, W. K., 2015, Finding the Paleoindian spearthrower: quantitative evidence for mechanically-assisted propulsion of lithic armatures during the North American Paleoindian Period, Journal of Archaeological Science, 55, 34–41.
Iovita, R., Schönekeß, H., Gaudzinski-Windheuser, S., and Jäger, F., 2014, Projectile impact fractures and launching mechanisms: results of a controlled ballistic experiment using replica Levallois points, Journal of Archaeological Science, 48(1), 73–83.
Iovita, R., Schönekeß, H., Gaudzinski-Windheuser, S., and Jäger, F., 2016, Identifying weapon delivery systems using macrofracture analysis and fracture propagation velocity: a controlled experiment, in Multidisciplinary approaches to the study of Stone Age weaponry (eds. R. Iovita and K. Sano), 13–27, Springer, New York.
Jung, J.-H., Kim, D.-S., Kang, H.-Y., Chae, W.-S., Yoon, C.-J., and Lee, H.-S., 2012, Kinematic analysis of the women's javelin throw at the IAAF World Championships, Daegu 2011, in 30th Annual Conference of Biomechanics in Sports—Melbourne 2012 (eds. E. J. Bradshaw, A. Burnett and P. A. Hume), 41–44.
Junkmanns, J., 2013, Pfeil und Bogen—Von der Altsteinzeit bis zum Mittelalter, Verlag Angelika Hörnig, Ludwigshafen.
Karpowicz, A., 2007, Ottoman bows—an assessment of draw weight, performance and tactical use, Antiquity, 81(313), 675–685.
Lecaille, J.-M., and Menu, J.-P., 1985, Chasse a l'arc, Gerfaut Club, Paris.
Lepers, C., 2010, Réflexions sur l'usage du propusleur, Bulletin des Chercheurs de la Wallonie, 49, 105–131.
Mailly, D., 2010, Les carnets de crazy doc, http://crazy.doc.pagesperso-orange.fr/ (accessed 25 May 2018).
Milks, A., Champion, S., Cowper, E., Pope, M., and Carr, D., 2016, Early spears as thrusting weapons: isolating force and impact velocities in human performance trials, Journal of Archaeological Science: Reports, 10, 191–203.
Movius, J., and Hallam, L., 1950, A wooden spear of third interglacial age from Lower Saxony, Southwestern Journal of Anthropology, 6(2), 139–142.
Oakley, K. P., Andrews, P., Keeley, L. H., and Desmond, J. C., 1977, A reappraisal of the Clacton spearpoint, Proceedings of the Prehistoric Society, 43, 13–30.
Pargeter, J., Shea, J., and Utting, B., 2016, Quartz backed tools as arrowheads and hand-cast spearheads: hunting experiments and macro-fracture analysis, Journal of Archaeological Science, 73, 145–157.
Park, J. L., 2011, The aerodynamic drag and axial rotation of an arrow, Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology, 225(4), 199–211.
Pettigrew, D. B., 2015, The ballistics of archaic North American atlatls and darts, Thesis, University of Arkansas, Fayetteville, AR.
Raymond, A., 1986, Experiments in the function and performance of the weighted atlatl, World Archaeology, 18(2), 153–177.
Robins, B., Hutton, C., and Wilson, J., 1805, New principles of gunnery: containing the determination of the force of gunpowder, and investigation of the difference in the resisting power of the air to swift and slow motions, London.
Roth, R., 2004, Histoire de l'archerie arc & arbalète, Les Editions de Paris Max Chaleil, Paris.
Rots, V., and Plisson, H., 2014, Projectiles and the abuse of the use-wear method in a search for impact, Journal of Archaeological Science, 48, 154–165.
Rousseau, J., and Nicolier, E., 2005, Les fondamentaux du tir à l'arc, Amphora, Paris.
Sano, K., 2016, Evidence for the use of the bow-and-arrow technology by the first modern humans in the Japanese islands, Journal of Archaeological Science: Reports, 10, 130–141.
Sano, K., and Oba, M., 2014, Projectile experimentation for identifying hunting methods with replicas of Upper Palaeolithic weaponry from Japan, in International conference on use-wear analysis: Use-Wear 2012 (eds. J. Marreiros, N. Bicho, and J. G. Bao), 466–478, Cambridge Scholars Publishing, Newcastle.
Sano, K., and Oba, M., 2015, Backed point experiments for identifying mechanically-delivered armatures, Journal of Archaeological Science, 63, 13–23.
Schmitt, D., Churchill, S. E., and Hylander, W. L., 2003, Experimental evidence concerning spear use in Neandertals and early modern humans, Journal of Archaeological Science, 30(1), 103–114.
Shea, J. J., 2006, The origins of lithic projectile point technology: evidence from Africa, the Levant, and Europe, Journal of Archaeological Science, 33(6), 823–846.
Shea, J. J., and Sisk, M. L., 2010, Complex projectile technology and Homo sapiens dispersal into Western Eurasia, PaleoAnthropology, 2010, 100–122.
Sisk, M. L., and Shea, J. J., 2011, The African origin of complex projectile technology: an analysis using tip cross-sectional area and perimeter, International Journal of Evolutionary Biology, 2011, 1–8.
Strickland, M., and Hardy, R., 2005, The great warbow: from Hastings to the Mary Rose, Sutton Publishing, Stroud.
Tomka, S. A., 2013, The adoption of the bow and arrow: a model based on experimental performance characteristics, American Antiquity, 78(3), 553–569.
Vassilios, P., and Iraklis, K. A., 2013, Kinematics of the delivery phase and release parameters of top female javelin throwers / Kinematični parametri faze meta in izmeta pri vrhunskih metalkah kopja, Kinesiologia Slovenica, 19(1), 32–43.
Whittaker, J. C., Pettigrew, D. B., and Grohsmeyer, R. J., 2017, Atlatl dart velocity: accurate measurements and implications for Paleoindian and Archaic archaeology, PaleoAmerica, 3(2), 161–181.
