半正矢

半正矢

性質
奇偶性	偶
定義域	(-∞,∞)
到達域	[0,1]
周期	$2\pi$ （360°）
特定值
當x=0	0
當x=+∞	N/A
當x=-∞	N/A
最大值	( $\left(2k+1\right)\pi$ , 1) $(360° k +180°, 1)$
最小值	(2 $k\pi$ , 0) $(360° k, 0)$
其他性質
渐近线	N/A
根	$2k\pi$ （ $360^{\circ }k$ ）
臨界點	$k\pi$ （ $180^{\circ }k$ ）
拐點	$k\pi -{\tfrac {\pi }{2}}$ （ $180^{\circ }k-90^{\circ }$ ）
不動點	0
k是一個整數。

在數學中，半正矢（英文：haversed sine^[1]、 haversine或semiversus^[2]^[3]）或半正矢函數是一種三角函數，是正矢函數的一半，因半正矢公式出名，在早期導航術中，半正矢是一個很重要的函數，因為半正矢公式可以在給定角度位置（如經度和緯度）精確地計算出任何球面上的兩點間的距離，若不使用半正矢函數，則該計算會出現 $\sin ^{2}\left({\tfrac {\theta }{2}}\right)$ 和對應反運算的 $2\arcsin {\sqrt {z}}$ ，因此若有半正矢函數的函數表，則能夠省去平方及平方根的運算。^[4]

半正矢函數是一個周期函数，其最小正周期为 $2\pi$ （360°）。其定義域為整個實數集，值域是 $[0,1]$ 。在自变量为 $(2n+1)\pi$ （ $360^{\circ }n+180^{\circ }$ ，其中 $n$ 为整数）时，该函数有极大值1；在自变量为 $2n\pi$ （或 $360^{\circ }n$ ）时，该函数有极小值0。半正矢函数是偶函数，其图像关于y轴对称。

半正矢函數有很多種表示法，包括了haversin(θ)、 semiversin(θ)、 semiversinus(θ)、 havers(θ)、 hav(θ)、^[5]^[6] hvs(θ)、^{[註 1]} sem(θ)或 hv(θ)^[7]。

歷史[编辑]

半正矢函數出現於半正矢公式中，其可以据两点的经度和纬度来确定大圆上两点之间距离，且在導航術中被廣泛地使用，因此十九和二十世纪初的导航和三角测量书中包含了半正矢值表和对数表。^[8]^[9]^[10]第一份英文版的半正矢表由詹姆斯·安德鲁（James Andrew）在1805年印刷出版^[11]。而弗洛里安·卡喬里相信类似的术语在1801年就曾被約瑟夫·德門多薩以里奧斯（英语：Josef de Mendoza y Ríos）使用过^[12]^[13]。

1835年，詹姆斯·英曼（英语：James Inman）^[13]^[14]^[15]在其著作《航海与航海天文学：供英国海员使用》（Navigation and Nautical Astronomy: For the Use of British Seamen）第三版中创造了“半正矢”一词^[16]以简化地球表面两点之间的距离计算，應用於球面三角学關於导航的部分。^[17]^[16]

其他備受推崇的半正矢表還有理查德·法利（Richard Farley）發表於1856年的半正矢表^[18]^[19]以及約翰·考菲爾德·漢寧頓（John Caulfield Hannyngton）發表於1876年的半正矢表^[18]^[20]。

半正矢在導航術中持續有相關應用，而近幾十年來發現了半正矢新的應用。如1995年來布魯斯·D·斯塔克（Bruce D. Stark）利用高斯對數（英语：Gaussian logarithm）之清晰的月角距計算方法^[21]^[22]，以及2014年提出用於視線縮減（英语：Sight reduction）之更緊湊的方法^[7]。

定義[编辑]

半正矢定義為正矢函數的一半：^[1]

\operatorname {hav} z={\frac {1}{2}}\operatorname {vers} z

其他等價的定義包括：^[1]

\operatorname {hav} z={\frac {1-\cos z}{2}}=\sin ^{2}{\frac {z}{2}}

對應的指數定義為：^[23]

\operatorname {hav} z={\frac {2-e^{iz}-e^{-iz}}{4}}

半正矢也可以使用麦克劳林级数來定義：^[1]

\operatorname {hav} z={\frac {z^{2}}{4}}-{\frac {z^{4}}{48}}+{\frac {z^{6}}{1440}}-{\frac {z^{8}}{80640}}+\cdots =\sum _{k=1}^{\infty }{\frac {(-1)^{k-1}}{2(2k)!}}z^{2k}

微分與積分[编辑]

半正矢函數的微分為：^[1]

{\frac {d}{dz}}\operatorname {hav} z={\frac {\sin z}{2}}

積分為：^[1]

\int \operatorname {hav} z\;dz={\frac {z-\sin z}{2}}+C\,\!

反半正矢[编辑]

反半正矢

反半正矢的函數圖形

反半正矢或反半正矢函數是半正矢函數的反函數。由於半正矢函數是週期函數，導致半正矢函數是雙射且不可逆的而不是一個對射函數（即多個值可能只得到一個值，例如1和所有同界角），故無法有反函數，但我們可以限制其定義域，因此，反半正矢是單射和滿射也是可逆的，另外，我們也需要限制值域，將半正矢函數函數的值域定義在 $\left[0,\pi \right]$ （[0,180°]）。在此定義下，其最小值為0、最大值為 $\pi$ （180°）。該定義只考慮了實數的部分，進一步的，我們可以將反半正矢以反正弦進行定義，進一步地將之推廣到複數域：^[24]

\operatorname {archav} z=2\arcsin {\sqrt {z}}

反半正矢函數也可以使用級數來定義：^[24]

\operatorname {archav} x=2x^{\frac {1}{2}}+{\frac {x^{\frac {3}{2}}}{3}}+{\frac {3x^{\frac {5}{2}}}{20}}+{\frac {5x^{\frac {7}{2}}}{56}}+\cdots =\sum _{n=0}^{\infty }{\frac {1}{2^{2n-1}\left(2n+1\right)}}{\binom {2n}{n}}x^{n+{\frac {1}{2}}}

反半正矢函數的微分與積分為：^[24]

{\frac {d}{dz}}\operatorname {archav} z={\frac {1}{\sqrt {\left(1-z\right)z}}}

\int \operatorname {archav} z\;dz=\left(2z-1\right)\arcsin \left({\sqrt {z}}\right)+{\sqrt {z\left(1-z\right)}}+C\,\!

半正矢公式[编辑]

对于任何球面上的两点，圆心角的半正矢值可以通过如下公式计算：

\operatorname {hav} \left({\frac {d}{r}}\right)=\operatorname {hav} (\varphi _{2}-\varphi _{1})+\cos(\varphi _{1})\cos(\varphi _{2})\operatorname {hav} (\lambda _{2}-\lambda _{1})

$d$ 是两点之间的距离（沿大圆，见球面距离）；
$r$ 是球的半径；
$\varphi _{1}\varphi _{2}$ ：点 1 的纬度和点 2 的纬度，以弧度制度量；
$\lambda _{1}\lambda _{2}$ ：点 1 的经度和点 2 的经度，以弧度制度量。

左边的等号 ${\frac {d}{r}}$ 是圆心角，以弧度来度量。

半正矢定理[编辑]

给出一个单位球，一个在表面的球面三角形三个过三点 $(u,v,w)$ 的大圆所围出来的区域。如图，这个球面三角形的三边分别是 $a$ （ $\mathbf {u}$ 至 $\mathbf {v}$ ）， $b$ （ $\mathbf {u}$ 到 $\mathbf {w}$ ）和 $c$ （ $\mathbf {v}$ 至 $\mathbf {w}$ ）并且角 $C$ 对边 $c$ 那么有如下关系：

\operatorname {hav} (c)=\operatorname {hav} (a-b)+\sin(a)\sin(b)\operatorname {hav} (C)

^[25]

註釋[编辑]

^ ^1.0 ^1.1 在訊號分析中，hvs有時用於半正矢函數（haversine function），也有時代表单位阶跃函数。

參考文獻[编辑]

^ ^1.0 ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 Weisstein, Eric W. (编). Haversine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2005-03-10）（英语）.
^ Fulst, Otto. 17, 18. Lütjen, Johannes; Stein, Walter; Zwiebler, Gerhard (编). Nautische Tafeln 24. Bremen, Germany: Arthur Geist Verlag. 1972 （德语）.
^ Sauer, Frank. Semiversus-Verfahren: Logarithmische Berechnung der Höhe. Hotheim am Taunus, Germany: Astrosail. 2015 [2004] [2015-11-12]. （原始内容存档于2013-09-17）（德语）.
^ Calvert, James B. Trigonometry. 2007-09-14 [2004-01-10] [2015-11-08]. （原始内容存档于2007-10-02）.
^ Rider, Paul Reece; Davis, Alfred. Plane Trigonometry. New York, USA: D. Van Nostrand Company. 1923: 42 [2015-12-08]. （原始内容存档于2022-05-28）.
^ Haversine. Wolfram Language & System: Documentation Center. 7.0. 2008 [2015-11-06]. （原始内容存档于2014-09-01）.
^ ^7.0 ^7.1 Rudzinski, Greg. Ix, Hanno. Ultra compact sight reduction. Ocean Navigator (Portland, ME, USA: Navigator Publishing LLC). July 2015, (227): 42–43 [2015-11-07]. ISSN 0886-0149.
^ H. B. Goodwin, The haversine in nautical astronomy, Naval Institute Proceedings, vol. 36, no. 3 (1910), pp. 735–746: Evidently if a Table of Haversines is employed we shall be saved in the first instance the trouble of dividing the sum of the logarithms by two, and in the second place of multiplying the angle taken from the tables by the same number. This is the special advantage of the form of table first introduced by Professor Inman, of the Portsmouth Royal Navy College, nearly a century ago.
^ W. W. Sheppard and C. C. Soule, Practical navigation (World Technical Institute: Jersey City, 1922).
^ E. R. Hedrick, Logarithmic and Trigonometric Tables (Macmillan, New York, 1913).
^ van Brummelen, Glen Robert. Heavenly Mathematics: The Forgotten Art of Spherical Trigonometry. Princeton University Press. 2013 [2015-11-10]. ISBN 9780691148922. 0691148929.
^ de Mendoza y Ríos, Joseph. Memoria sobre algunos métodos nuevos de calcular la longitud por las distancias lunares: y aplication de su teórica á la solucion de otros problemas de navegacion. Madrid, Spain: Imprenta Real. 1795 [2018-08-14]. （原始内容存档于2017-11-07）（西班牙语）.
^ ^13.0 ^13.1 ^13.2 ^13.3 Cajori, Florian. A History of Mathematical Notations 2 2 (3rd corrected printing of 1929 issue). Chicago, USA: Open court publishing company. 1952: 172 [1929] [2015-11-11]. ISBN 978-1-60206-714-1. 1602067147. The haversine first appears in the tables of logarithmic versines of José de Mendoza y Rios (Madrid, 1801, also 1805, 1809), and later in a treatise on navigation of James Inman (1821).
^ White, J. D. (unknown title). Nautical Magazine. February 1926. (NB. According to Cajori, 1929^[13], this journal has a discussion on the origin of haversines.)
^ White, J. D. (unknown title). Nautical Magazine. July 1926. (NB. According to Cajori, 1929^[13], this journal has a discussion on the origin of haversines.)
^ ^16.0 ^16.1 haversine. Oxford English Dictionary 2nd. Oxford University Press. 1989.
^ Inman, James. Navigation and Nautical Astronomy: For the Use of British Seamen 3. London, UK: W. Woodward, C. & J. Rivington. 1835 [1821] [2015-11-09]. （原始内容存档于2016-12-28）.
^ ^18.0 ^18.1 Archibald, Raymond Clare. Recent Mathematical Tables §197: Natural and Logarithmic Haversines (PDF). Mathematical Tables and Other Aids to Computation (MTAC) (Review) (The National Research Council, Division of Physical Sciences, Committee on Mathematical Tables and Other Aids to Computation; American Mathematical Society). 1945-07-11, 1 (11): 421–422 [2015-11-19]. doi:10.1090/S0025-5718-45-99080-6. （原始内容存档 (PDF)于2015-11-19）. [1] （页面存档备份，存于互联网档案馆）
^ Farley, Richard. Natural Versed Sines from 0 to 125°, and Logarithmic Versed Sines from 0 to 135°. London. 1856. (A haversine table from 0° to 125°/135°.)
^ Hannyngton, John Caulfield. Haversines, Natural and Logarithmic, used in Computing Lunar Distances for the Nautical Almanac. London. 1876. (A 7-place haversine table from 0° to 180°, log. haversines at intervals of 15", nat. haversines at intervals of 10".)
^ Stark, Bruce D. Stark Tables for Clearing the Lunar Distance and Finding Universal Time by Sextant Observation Including a Convenient Way to Sharpen Celestial Navigation Skills While On Land 2. Starpath Publications. 1997 [1995] [2015-12-02]. ISBN 978-0914025214. 091402521X. （原始内容存档于2023-02-26）. (NB. Contains a table of Gaussian logarithms lg(1+10^−x).)
^ Kalivoda, Jan. Bruce Stark - Tables for Clearing the Lunar Distance and Finding G.M.T. by Sextant Observation (1995, 1997) (Review). Prague, Czech Republic. 2003-07-30 [2015-12-02]. （原始内容存档于2004-01-12）. [2] （页面存档备份，存于互联网档案馆）[3]
^ Wolfram, Stephen. "((e^(i*x/2)-e^(-i*x/2))/2i)^2". from Wolfram Alpha: Computational Knowledge Engine, Wolfram Research （英语）.
^ ^24.0 ^24.1 ^24.2 Weisstein, Eric W. (编). Inverse Haversine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2023-02-01] （英语）.
^ Korn, Grandino Arthur; Korn, Theresa M. Appendix B: B9. Plane and Spherical Trigonometry: Formulas Expressed in Terms of the Haversine Function. Mathematical handbook for scientists and engineers: Definitions, theorems, and formulas for reference and review 3. Mineola, New York, USA: Dover Publications, Inc. 2000: 892–893 [1922]. ISBN 978-0-486-41147-7.
^ ^26.0 ^26.1 Weisstein, Eric W. (编). Hacoversine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2014-03-29）（英语）.
^ van Vlijmen, Oscar. Goniology. Eenheden, constanten en conversies. 2005-12-28 [2003] [2015-11-28]. （原始内容存档于2009-10-28）（英语）.
^ ^28.0 ^28.1 Weisstein, Eric W. (编). Havercosine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2014-03-29）（英语）.
^ Horst Rinne. Location-Scale Distributions – Linear Estimation and Probability Plotting Using MATLAB (PDF): 116. 2010 [2012-11-16]. （原始内容存档 (PDF)于2023-03-31）.
^ ^30.0 ^30.1 Weisstein, Eric W. (编). Hacovercosine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2014-03-29）（英语）.

[hvs-7] 1.0 ^1.1 在訊號分析中，hvs有時用於半正矢函數（haversine function），也有時代表单位阶跃函数。

[Weisstein_hav-1] 1.0 ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 Weisstein, Eric W. (编). Haversine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2005-03-10）（英语）.

[Fulst_1972-2] Fulst, Otto. 17, 18. Lütjen, Johannes; Stein, Walter; Zwiebler, Gerhard (编). Nautische Tafeln 24. Bremen, Germany: Arthur Geist Verlag. 1972 （德语）.

[Sauer_2015-3] Sauer, Frank. Semiversus-Verfahren: Logarithmische Berechnung der Höhe. Hotheim am Taunus, Germany: Astrosail. 2015 [2004] [2015-11-12]. （原始内容存档于2013-09-17）（德语）.

[Calvert_2004-4] Calvert, James B. Trigonometry. 2007-09-14 [2004-01-10] [2015-11-08]. （原始内容存档于2007-10-02）.

[Rider_1923-5] Rider, Paul Reece; Davis, Alfred. Plane Trigonometry. New York, USA: D. Van Nostrand Company. 1923: 42 [2015-12-08]. （原始内容存档于2022-05-28）.

[Wolfram_hav-6] Haversine. Wolfram Language & System: Documentation Center. 7.0. 2008 [2015-11-06]. （原始内容存档于2014-09-01）.

[Rudzinski_2015-8] 7.0 ^7.1 Rudzinski, Greg. Ix, Hanno. Ultra compact sight reduction. Ocean Navigator (Portland, ME, USA: Navigator Publishing LLC). July 2015, (227): 42–43 [2015-11-07]. ISSN 0886-0149.

[9] H. B. Goodwin, The haversine in nautical astronomy, Naval Institute Proceedings, vol. 36, no. 3 (1910), pp. 735–746: Evidently if a Table of Haversines is employed we shall be saved in the first instance the trouble of dividing the sum of the logarithms by two, and in the second place of multiplying the angle taken from the tables by the same number. This is the special advantage of the form of table first introduced by Professor Inman, of the Portsmouth Royal Navy College, nearly a century ago.

[10] W. W. Sheppard and C. C. Soule, Practical navigation (World Technical Institute: Jersey City, 1922).

[11] E. R. Hedrick, Logarithmic and Trigonometric Tables (Macmillan, New York, 1913).

[Brummelen_2013-12] van Brummelen, Glen Robert. Heavenly Mathematics: The Forgotten Art of Spherical Trigonometry. Princeton University Press. 2013 [2015-11-10]. ISBN 9780691148922. 0691148929.

[Ríos_1795-13] Mendoza y Ríos, Joseph. Memoria sobre algunos métodos nuevos de calcular la longitud por las distancias lunares: y aplication de su teórica á la solucion de otros problemas de navegacion. Madrid, Spain: Imprenta Real. 1795 [2018-08-14]. （原始内容存档于2017-11-07）（西班牙语）.

[Cajori_1929-14] 13.0 ^13.1 ^13.2 ^13.3 Cajori, Florian. A History of Mathematical Notations 2 2 (3rd corrected printing of 1929 issue). Chicago, USA: Open court publishing company. 1952: 172 [1929] [2015-11-11]. ISBN 978-1-60206-714-1. 1602067147. The haversine first appears in the tables of logarithmic versines of José de Mendoza y Rios (Madrid, 1801, also 1805, 1809), and later in a treatise on navigation of James Inman (1821).

[White_1926-02-15] White, J. D. (unknown title). Nautical Magazine. February 1926. (NB. According to Cajori, 1929^[13], this journal has a discussion on the origin of haversines.)

[White_1926-07-16] White, J. D. (unknown title). Nautical Magazine. July 1926. (NB. According to Cajori, 1929^[13], this journal has a discussion on the origin of haversines.)

[OED_1989_Haversine-17] 16.0 ^16.1 haversine. Oxford English Dictionary 2nd. Oxford University Press. 1989.

[Inman_1835-18] Inman, James. Navigation and Nautical Astronomy: For the Use of British Seamen 3. London, UK: W. Woodward, C. & J. Rivington. 1835 [1821] [2015-11-09]. （原始内容存档于2016-12-28）.

[RCA_1945-19] 18.0 ^18.1 Archibald, Raymond Clare. Recent Mathematical Tables §197: Natural and Logarithmic Haversines (PDF). Mathematical Tables and Other Aids to Computation (MTAC) (Review) (The National Research Council, Division of Physical Sciences, Committee on Mathematical Tables and Other Aids to Computation; American Mathematical Society). 1945-07-11, 1 (11): 421–422 [2015-11-19]. doi:10.1090/S0025-5718-45-99080-6. （原始内容存档 (PDF)于2015-11-19）. [1] （页面存档备份，存于互联网档案馆）

[Farley_1856-20] Farley, Richard. Natural Versed Sines from 0 to 125°, and Logarithmic Versed Sines from 0 to 135°. London. 1856. (A haversine table from 0° to 125°/135°.)

[Hannyngton_1876-21] Hannyngton, John Caulfield. Haversines, Natural and Logarithmic, used in Computing Lunar Distances for the Nautical Almanac. London. 1876. (A 7-place haversine table from 0° to 180°, log. haversines at intervals of 15", nat. haversines at intervals of 10".)

[Stark_1997-22] Stark, Bruce D. Stark Tables for Clearing the Lunar Distance and Finding Universal Time by Sextant Observation Including a Convenient Way to Sharpen Celestial Navigation Skills While On Land 2. Starpath Publications. 1997 [1995] [2015-12-02]. ISBN 978-0914025214. 091402521X. （原始内容存档于2023-02-26）. (NB. Contains a table of Gaussian logarithms lg(1+10^−x).)

[Kalivoda_2003-23] Kalivoda, Jan. Bruce Stark - Tables for Clearing the Lunar Distance and Finding G.M.T. by Sextant Observation (1995, 1997) (Review). Prague, Czech Republic. 2003-07-30 [2015-12-02]. （原始内容存档于2004-01-12）. [2] （页面存档备份，存于互联网档案馆）[3]

[24] Wolfram, Stephen. "((e^(i*x/2)-e^(-i*x/2))/2i)^2". from Wolfram Alpha: Computational Knowledge Engine, Wolfram Research （英语）.

[Weisstein_archav-25] 24.0 ^24.1 ^24.2 Weisstein, Eric W. (编). Inverse Haversine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2023-02-01] （英语）.

[Korn_2000-26] Korn, Grandino Arthur; Korn, Theresa M. Appendix B: B9. Plane and Spherical Trigonometry: Formulas Expressed in Terms of the Haversine Function. Mathematical handbook for scientists and engineers: Definitions, theorems, and formulas for reference and review 3. Mineola, New York, USA: Dover Publications, Inc. 2000: 892–893 [1922]. ISBN 978-0-486-41147-7.

[Weisstein_hacoversin-27] 26.0 ^26.1 Weisstein, Eric W. (编). Hacoversine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2014-03-29）（英语）.

[Vlijmen_2005-28] van Vlijmen, Oscar. Goniology. Eenheden, constanten en conversies. 2005-12-28 [2003] [2015-11-28]. （原始内容存档于2009-10-28）（英语）.

[Weisstein_havercos-29] 28.0 ^28.1 Weisstein, Eric W. (编). Havercosine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2014-03-29）（英语）.

[30] Horst Rinne. Location-Scale Distributions – Linear Estimation and Probability Plotting Using MATLAB (PDF): 116. 2010 [2012-11-16]. （原始内容存档 (PDF)于2023-03-31）.

[Weisstein_hacovercos-31] 30.0 ^30.1 Weisstein, Eric W. (编). Hacovercosine. at MathWorld--A Wolfram Web Resource. Wolfram Research, Inc. [2015-11-06]. （原始内容存档于2014-03-29）（英语）.

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半正矢

歷史[编辑]

定義[编辑]

微分與積分[编辑]

反半正矢[编辑]

半正矢公式[编辑]

半正矢定理[编辑]

相關函數[编辑]

半餘矢[编辑]

餘的半正矢[编辑]

餘的半餘矢[编辑]

註釋[编辑]

參考文獻[编辑]