Applicability of Phase Synchronization Clustering to Detect the Process of Climate Events

Phase synchronization clustering method is used to detect the process of extreme weather events rather than extreme values events mathematically. The applicability is discussed from the aspects of noise intensity and sequence length and the observed data are applied practically. The detection process shows that clustering measure difference can detect the temporal process objectively to a certain degree and it has certain application to detect the temporal process of extreme weather events.


Introduction
With global warming, extreme weather events have become increasingly common.The third and fourth assessment reports by the IPCC both gave a definite definition about extreme weather events: for a particular place at a particular time, extreme weather events are small probability ones, whose occurring probability is about 10% or even more lower [1].Then based on probability distribution curve of meteorological elements, extreme weather events are defined and researched [2][3][4][5][6][7][8][9], which are strictly extreme values events mathematically.In fact, what damage every extreme weather event amount could cause to society and economy depends on its strength, affected area and duration.So it is very significant to focus on the process, i.e., the rise, the development and the fall of extreme weather events.Recently, some researchers have concerned about this issue [10,11], while these methods are not objective enough and need some artificial judgment.
A. Hutt and co-workers proposed a method to detect mutual phase synchronization [12], which provided a kind of thought to detect the process of weather events.The data recorded in certain open systems are considered to be split into temporal sequences of fast transients on the one hand and time windows of narrow-band time scales on the other.The part of phase synchronization is considered to be a state or a cluster about time windows, presenting temporal partition, i.e., the temporal process.Here, the applicability about phase synchronization to detect temporal process of weather events is studied in detail.

Definition of Phase
In physics, phase reflects the state of a signal.Phase synchronization analysis is to separate the information about amplitude and phase from signal and only phase information and phase relativity are considered.The phase   t  of a real signal s(t) can be defined via its corresponding analytical signal   where   1 π , the integral in Equation (2) refers to the Cauchy principal value.Then is the phase of signal.

Phase Clustering and Cluster Quality Measure
In order to detect temporal process objectively, temporal phase sequences are clustered by K-means cluster algorithm and cluster quality measure is used to give the proper number of clusters [12].The following is mainly about the method of detection of phase synchronization approached by A. Hutt and co-workers.Because the phase data represent time series and all the data are well ordered in time.Therefore, clusters can be considered as temporal segments as the K-means algorithm maps data points to their nearest cluster centers.For every number of clusters K, each data point i is associated with a cluster measure where is the normalized factor.and denote the nearest and the second-nearest cluster center of data point i, respectively.i represents a subset of members of the cluster to which data point i is associated.The dataset is partitioned into distinct subsets i reflecting consecutive time segments each.For every number of clusters K the subsets i represent consecutive time segments.Usually the optimal number of clusters is unknown resulting in an uncertainty about a proper choice of K. To minimize this uncertainty a statistical approach and average different cluster measures with increasing K are used and yields the so so-called cluster quality measure, where . R is the maximum number of clusters.An increasing number of clusters K yields an increasing number of subsets i  and subsequently, it diminishes the cluster measures   K A i .In general, an optimal value of the upper bound R depends on the real number of clusters in the data but R is usually in the range of tens.
In order to compare cluster qualities across different datasets, a reference system is introduced by randomizing the examined dataset with respect to its temporal order.Because the surrogates do not contain any temporal structure they can be used to normalize the original values [13].An effective clustering measure is defined by means of The difference reveals significant peaks at segment borders between different clusters [13].
Based on the above analysis, the detection of phase synchronization can classify the temporal phase sequences.A cluster means a temporal phase window, i.e., a state of some event, so the method provides a kind of way to give the process of event.

Detection of One-Dimensional Data
In order to compare with the result of A. Hutt and coworkers', the following stochastic dynamical system is also discussed, Considering the complexity of practically observed meteorological elements data, N = 1 is chosen.Equation ( 8) is simulated solution as a trial being obtained by decreasing β from −1 to 1 for Q = 0.001 in 500 equidistant steps.At each step the system relaxes for 1000 integrations and the final one is stored.The initial phase angles were (0) π   .Figure 1 shows the detection result.The phase changes show that this system switches at about β = 0.5 and about β = −0.5 which is in accord with potential change of the system [14,15].
eff values reveal significant peaks at corresponding β value, which indicates can distinguish different state objectively.

Sensitive Numerical Simulation of Noise Intensity Q
It can be known from Equation (8) that this system shows various forms of phase locking and/or bifurcation patterns depending on parameters β and Q for N = 1.
Here how noise intensity Q affects the result of detection is considering.Figure 2 is phase changing for Q = 0.001, 0.01, 0.05, 1 respectively and Figure 3 is the corresponding detection result.It indicates that enough strong noise intensity makes phase distortion which leads not to detect different clusters with phase synchronization.Because small noise intensity is better for the detection, Q = 0.001 is chosen.Then the influence of sequence length is considered.For the phase system, it is assumed that phase changes as the same with the time changing.In view of extreme values events mathematically rather served data are applied.The results show that clustering

Summary and Discussion
than the process about extreme weather events, phase synchronization clustering method is introduced and the applicability of the method is discussed from the aspects of noise intensity and sequence length.At last the ob-measure difference eff p  can detect the temporal process objectively to a certain degree and it has certain application to detect the oral process of extreme weather events.For simplicity, we only study one-dimension data and multi-dimensions data deserve further research which our future research would focus on.

Figure 4  4 .
is the clustering result for different sequence length.It shows that with sequence length n increasing, eff p  reveals significant peaks at the borders of different states and eff p  value becomes smaller.Because of unchanged dynamic mechanisms of phase system, time points of segment borders are unchanged too, while eff p  value means the ratio of some cluster to all possible clusters, hence its value should get smaller over time which is in accord with physical meanings of .eff p Application of Practically Observed Data For the sake of the adaptability of practically observed data to phase clustering, MSPI (Multi-scales Standardized Precipitation Index) [16] January 2009-December 2012 of 31 observation stations in southwest China is analyzed on Southwest Drought Event in fall 2009.Figure 5 shows the clustering result of Bijie station in Guizhou province as an example.It shows that this station experienced total three processes, i.e., increasing drought, oscillating continuous drought and gradually getting moist.Phase clustering method can detect the temporal process objectively to a certain degree.For this drought event, some station in southwest China began getting drought from January 2009.

Figure 2 .
Figure 2. Phase changes for different noise intensity Q.

Figure 3 .
Figure 3. Phase clustering for different noise intensity Q.

Figure 4 .
Figure 4. Phase clustering for sequence length n. temp