[1] Asmus, Im., Duality between hyperbolic and de Sitter geometry. J. Geom. 96 (2009), no. 1-2, 11-40.
[2] Böhm, J. and Hof, H. C. I., Flächeninhalt verallgemeinerter hyperbolischer Dreiecke. Geom. Dedicata 42 (1992), no. 2, 223-233.
[3] Cho, Y.-H., Trigonometry in extended hyperbolic space and extended de Sitter space. Bull. Korean Math. Soc. 46 (2009), no. 6, 1099-1133.
[4] Coxeter, H. S. M., A Geometrical Background for De Sitter’s World. Amer. Math. Mon. 50 (1943), no. 4, 217-228.
[5] Klein, F., Vorlesungen Über Nicht-Euclidische Geometrie. Verlag Von Julius Springer, Berlin, 1928.
[6] Klychkova, V. N., Trirectangle of the hyperbolic plane of positive curvature. Coll. of articles of the Int. sci. and pract. conf. "Modern view on
the future of science", Tomsk, May 25, 2016. Aeterna. (2016), 14-17. (In Russian)
[7] Milnor, J. W., Hyperbolic geometry: The first 150 years. Amer. Math. Soc. (N.S.). 6 (1982), no. 1, 9-24.
[8] Romakina, L. N., Geometry of the hyperbolic plane of positive curvature. P. 1: Trigonometry. Publishing House of the Saratov University,
Saratov, 2013. (In Russian)
[9] Romakina, L. N., Geometry of the hyperbolic plane of positive curvature. P. 2: Transformations and Simple Partitions. Publishing House
of the Saratov University, Saratov, 2013. (In Russian)
[10] Romakina, L. N., The area of a generalized polygon without parabolic edges of a hyperbolic plane of positive curvature. Asian J. Math.
Comp. Research. 10 (2016), no. 4, 293-310.
[11] Romakina, L. N., On the area of a trihedral on a hyperbolic plane of positive curvature. Mat. Tr. 17 (2014), no. 2, 184-206. (In Russian).
Translated in Sib. Adv. Math. 25 (2015), no. 2, 138-153.
[12] Romakina, L. N., The areas of the regular polygons, inscribed in a hypercycle of a hyperbolic plane of positive curvature. Int. Sci. J.
«Innovative science». 6 (2016), 20-22. (In Russian)
[13] Romakina, L. N., Analogs of a formula of Lobachevsky for angle of parallelism on the hyperbolic plane of positive curvature. Sib. Elektron.
Mat. Izv. 10 (2013), 393-407. (In Russian)
[14] Romakina, L. N., Oval lines of a hyperbolic plane of positive curvature. Izv. Saratov Univ. (N.S.), Ser. Math. Mech. Inform. 12 (2012), no. 3,
37-44. (In Russian)
[15] Romakina, L. N., Cycles of the hyperbolic plane of positive curvature. Zap. Nauchn. Sem. POMI. 415 (2013), 137-162. (In Russian).
Translated in J. Math. Sci. 212 (2016), no. 5, 605-621.
[16] Romakina, L. N., The theorem of the area of a rectangular trihedral of the hyperbolic plane of positive curvature. Dal’nevost. Mat. Zh. 13
(2013), no. 1, 127-147. (In Russian)
[17] Romakina, L. N., To the theory of the areas of a hyperbolic plane of positive curvature. Publications de l’Institut Mathematique. 99 (2016),
no. 113, 139-154. (In Russian).
[18] Romakina, L. N., Finite closed 3(4)-loops of extended hyperbolic plane. Izv. Saratov Univ. (N.S.), Ser. Math. Mech. Inform. 10 (2010), no. 3,
14-26. (In Russian)
[19] Romakina, L. N., The chord length of a hypercycle in a hyperbolic plane of positive curvature. Sibirsk. Mat. Zh. 54 (2013), no. 5, 1115-1127.
(In Russian). Translated in Sib. Math. J. 54 (2013), no. 5, 894-904.
[20] Romakina, L. N., Partitions of a hyperbolic plane of positive curvature generated by a regular n-contour. Relativity theory, gravity and
geometry, Proc. of the Petrov 2010 Anniversary Symposium on General Relativity and Gravitation (Kazan’ 2010), Kazan’ State University, Kazan’
(2010). 227-232. (In Russian)
[21] Romakina, L. N., Simple partitions of a hyperbolic plane of positive curvature. Mat. Sb. 203 (2012), no. 9, 83-116. (In Russian). Translated
in Sbornik: Mathematics. 203 (2012), no. 9, 1310-1341.
[22] Rosenfel’d, B. A., Zamakhovskii, M. P., Geometry of Lie groups. Symmetric, parabolic and periodic spaces. Moscow centre for
Countinuous Mathematical Education, Moscow, 2003. (In Russian)
[23] Rosenfel’d, B. A., Noneuclidean spaces. Nauka, Moscow, 1969. (In Russian)
[24] De Sitter,W., On the Relativity of Inertia. Remarks Concerning Einstein’s Latest Hypothesis. Proc. Royal Acad. Amsterdam. 19 (1917), no. 2,
1217-1225.
[1] Asmus, Im., Duality between hyperbolic and de Sitter geometry. J. Geom. 96 (2009), no. 1-2, 11-40.
[2] Böhm, J. and Hof, H. C. I., Flächeninhalt verallgemeinerter hyperbolischer Dreiecke. Geom. Dedicata 42 (1992), no. 2, 223-233.
[3] Cho, Y.-H., Trigonometry in extended hyperbolic space and extended de Sitter space. Bull. Korean Math. Soc. 46 (2009), no. 6, 1099-1133.
[4] Coxeter, H. S. M., A Geometrical Background for De Sitter’s World. Amer. Math. Mon. 50 (1943), no. 4, 217-228.
[5] Klein, F., Vorlesungen Über Nicht-Euclidische Geometrie. Verlag Von Julius Springer, Berlin, 1928.
[6] Klychkova, V. N., Trirectangle of the hyperbolic plane of positive curvature. Coll. of articles of the Int. sci. and pract. conf. "Modern view on
the future of science", Tomsk, May 25, 2016. Aeterna. (2016), 14-17. (In Russian)
[7] Milnor, J. W., Hyperbolic geometry: The first 150 years. Amer. Math. Soc. (N.S.). 6 (1982), no. 1, 9-24.
[8] Romakina, L. N., Geometry of the hyperbolic plane of positive curvature. P. 1: Trigonometry. Publishing House of the Saratov University,
Saratov, 2013. (In Russian)
[9] Romakina, L. N., Geometry of the hyperbolic plane of positive curvature. P. 2: Transformations and Simple Partitions. Publishing House
of the Saratov University, Saratov, 2013. (In Russian)
[10] Romakina, L. N., The area of a generalized polygon without parabolic edges of a hyperbolic plane of positive curvature. Asian J. Math.
Comp. Research. 10 (2016), no. 4, 293-310.
[11] Romakina, L. N., On the area of a trihedral on a hyperbolic plane of positive curvature. Mat. Tr. 17 (2014), no. 2, 184-206. (In Russian).
Translated in Sib. Adv. Math. 25 (2015), no. 2, 138-153.
[12] Romakina, L. N., The areas of the regular polygons, inscribed in a hypercycle of a hyperbolic plane of positive curvature. Int. Sci. J.
«Innovative science». 6 (2016), 20-22. (In Russian)
[13] Romakina, L. N., Analogs of a formula of Lobachevsky for angle of parallelism on the hyperbolic plane of positive curvature. Sib. Elektron.
Mat. Izv. 10 (2013), 393-407. (In Russian)
[14] Romakina, L. N., Oval lines of a hyperbolic plane of positive curvature. Izv. Saratov Univ. (N.S.), Ser. Math. Mech. Inform. 12 (2012), no. 3,
37-44. (In Russian)
[15] Romakina, L. N., Cycles of the hyperbolic plane of positive curvature. Zap. Nauchn. Sem. POMI. 415 (2013), 137-162. (In Russian).
Translated in J. Math. Sci. 212 (2016), no. 5, 605-621.
[16] Romakina, L. N., The theorem of the area of a rectangular trihedral of the hyperbolic plane of positive curvature. Dal’nevost. Mat. Zh. 13
(2013), no. 1, 127-147. (In Russian)
[17] Romakina, L. N., To the theory of the areas of a hyperbolic plane of positive curvature. Publications de l’Institut Mathematique. 99 (2016),
no. 113, 139-154. (In Russian).
[18] Romakina, L. N., Finite closed 3(4)-loops of extended hyperbolic plane. Izv. Saratov Univ. (N.S.), Ser. Math. Mech. Inform. 10 (2010), no. 3,
14-26. (In Russian)
[19] Romakina, L. N., The chord length of a hypercycle in a hyperbolic plane of positive curvature. Sibirsk. Mat. Zh. 54 (2013), no. 5, 1115-1127.
(In Russian). Translated in Sib. Math. J. 54 (2013), no. 5, 894-904.
[20] Romakina, L. N., Partitions of a hyperbolic plane of positive curvature generated by a regular n-contour. Relativity theory, gravity and
geometry, Proc. of the Petrov 2010 Anniversary Symposium on General Relativity and Gravitation (Kazan’ 2010), Kazan’ State University, Kazan’
(2010). 227-232. (In Russian)
[21] Romakina, L. N., Simple partitions of a hyperbolic plane of positive curvature. Mat. Sb. 203 (2012), no. 9, 83-116. (In Russian). Translated
in Sbornik: Mathematics. 203 (2012), no. 9, 1310-1341.
[22] Rosenfel’d, B. A., Zamakhovskii, M. P., Geometry of Lie groups. Symmetric, parabolic and periodic spaces. Moscow centre for
Countinuous Mathematical Education, Moscow, 2003. (In Russian)
[23] Rosenfel’d, B. A., Noneuclidean spaces. Nauka, Moscow, 1969. (In Russian)
[24] De Sitter,W., On the Relativity of Inertia. Remarks Concerning Einstein’s Latest Hypothesis. Proc. Royal Acad. Amsterdam. 19 (1917), no. 2,
1217-1225.
Romakina, L. N. (2017). Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature. International Electronic Journal of Geometry, 10(2), 20-31. https://doi.org/10.36890/iejg.545042
AMA
Romakina LN. Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature. Int. Electron. J. Geom. October 2017;10(2):20-31. doi:10.36890/iejg.545042
Chicago
Romakina, Lyudmila N. “Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature”. International Electronic Journal of Geometry 10, no. 2 (October 2017): 20-31. https://doi.org/10.36890/iejg.545042.
EndNote
Romakina LN (October 1, 2017) Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature. International Electronic Journal of Geometry 10 2 20–31.
IEEE
L. N. Romakina, “Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature”, Int. Electron. J. Geom., vol. 10, no. 2, pp. 20–31, 2017, doi: 10.36890/iejg.545042.
ISNAD
Romakina, Lyudmila N. “Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature”. International Electronic Journal of Geometry 10/2 (October 2017), 20-31. https://doi.org/10.36890/iejg.545042.
JAMA
Romakina LN. Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature. Int. Electron. J. Geom. 2017;10:20–31.
MLA
Romakina, Lyudmila N. “Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature”. International Electronic Journal of Geometry, vol. 10, no. 2, 2017, pp. 20-31, doi:10.36890/iejg.545042.
Vancouver
Romakina LN. Regular and Equiangular Polygons of a Hyperbolic Plane of Positive Curvature. Int. Electron. J. Geom. 2017;10(2):20-31.