diff --git a/met/docs/Users_Guide/appendixC.rst b/met/docs/Users_Guide/appendixC.rst index 96ade7b949..1adefc5cec 100644 --- a/met/docs/Users_Guide/appendixC.rst +++ b/met/docs/Users_Guide/appendixC.rst @@ -1107,7 +1107,7 @@ A mathematical metric, :math:`m(A,B)\geq 0`, must have the following three prope The first establishes that a perfect score is zero and that the only way to obtain a perfect score is if the two sets are identical according to the metric. The second requirement ensures that the order by which the two sets are evaluated will not change the result. The third property ensures that if *C* is closer to *A* than *B* is to *A*, then :math:`m(A,C) < m(A,B)`. -It has been argued in :ref:`Gilleland (2019) ` that the second property of symmetry is not necessarily an important quality to have for a summary measure for verification purposes because lack of symmetry allows for information about false alarms and misses. +It has been argued in :ref:`Gilleland, Part II (2020) ` that the second property of symmetry is not necessarily an important quality to have for a summary measure for verification purposes because lack of symmetry allows for information about false alarms and misses. The results of the distance map verification approaches that are included in the Grid-Stat tool are summarized using a variety of measures. These measures include Baddeley's :math:`\Delta` Metric, the Hausdorff Distance, the Mean-error Distance, Pratt's Figure of Merit, and Zhu's Measure. Their equations are listed below. diff --git a/met/docs/Users_Guide/refs.rst b/met/docs/Users_Guide/refs.rst index 493a6c9a38..f50ece82ff 100644 --- a/met/docs/Users_Guide/refs.rst +++ b/met/docs/Users_Guide/refs.rst @@ -117,11 +117,19 @@ References | Gilleland, E., 2010: Confidence intervals for forecast verification. | *NCAR Technical Note* NCAR/TN-479+STR, 71pp. -.. _Gilleland-2019: +.. _Gilleland_PartI-2020: -| Gilleland, E., 2019: Bootstrap methods for statistical inference. Part II: -| Extreme-value analysis. Submitted to the Journal of Atmospheric and -| Oceanic Technology on 2 December 2019. Re-submitted on 12 May 2020 +| Gilleland, E., 2020. Bootstrap methods for statistical inference. +| Part I: Comparative forecast verification for continuous variables. +| Journal of Atmospheric and Oceanic Technology, 37 (11), 2117 - 2134, +| doi: 10.1175/JTECH-D-20-0069.1. +| + +.. _Gilleland_PartII-2020: + +| Gilleland, E., 2020. Bootstrap methods for statistical inference. +| Part II: Extreme-value analysis. Journal of Atmospheric and Oceanic +| Technology, 37 (11), 2135 - 2144, doi: 10.1175/JTECH-D-20-0070.1. | .. _Gilleland-2021: