Mobile management system, mobile management server, mobile management method and mobile management program

What is claimed is: 1. A mobile management system comprising a plurality of mobile nodes and a mobile management server connected to each other, the mobile management server receiving status information acquired by the mobile nodes and analyzing changes in distribution of the status information, wherein: the mobile node comprises a processor and memory storing computer-executable code that the processor executes to acquire the status information and transmit the status information to the mobile management server; the mobile management server comprises a processor and memory storing computer executable code that the processor executes to: receive the status information from the mobile nodes; analyze the changes in the distribution of the status information; calculate a part with a particularly high distribution density in the distribution as a characteristic part; output information regarding the calculated characteristic part, wherein: as part of analysis of the changes in the distribution, a node data registering function is performed which stores the status information along with identifiers of each of the mobile nodes, a label calculating function is performed which calculates a label in which the status information is bundled, and a characteristic part extracting function is performed which extracts characteristic parts showing high distribution density of the label in order from the part with the higher distribution density; the label calculating function calculates a label which has the same value with higher probability when the status information of the mobile nodes are closer with respect to distance relation defined among the status information of the plurality of mobile nodes; the label in which the status information is bundled is the label bundled by putting together the labels calculated by the plurality of label calculating functions which are formed using an outcome of a random variable generated according to a probability distribution; the characteristic part extracting function stores a characteristic information set in which the characteristic parts showing the parts with high distribution density of the status information of the mobile nodes are clustered by using the label in which the status information is bundled; and the characteristic parts extracted by the characteristic part extracting function are output, wherein the analysis of the changes in the distribution, and calculation of the part with the particularly high distribution density are performed sufficient to provide output of the information in real-time, where the output of the information is positional information regarding the mobile nodes and displayed on the mobile node, wherein the mobile node comprises a movable terminal for which there is a positional information management system, wherein the positional information management system displays the received positional information regarding the mobile nodes in real-time such that capabilities of the positional information management system are improved, and wherein the navigation system performs functionality that receiving the position information in real-time permits such that the capabilities of the positional information management system are improved. 2. The mobile management system as claimed in claim 1 , wherein the label calculating function of the mobile management server calculates the label from the status information by utilizing a function which maps the status information to discriminable values by reflecting locality of status distribution. 3. The mobile management system as claimed in claim 1 , wherein the characteristic part extracting function of the mobile management server stores a characteristic information set in which the characteristic parts showing the parts with high distribution density of the label are clustered. 4. The mobile management system as claimed in claim 3 , wherein the mobile management server outputs information regarding distribution density of the status information at a specific observing point designated from the mobile node. 5. The mobile management system as claimed in claim 1 , wherein: the mobile management server performs, instead of the label calculating function, a label calculation parameter management function which calculates a parameter required for calculating the label; and each of the mobile nodes calculates the label by receiving the parameter from the mobile management server. 6. The mobile management system as claimed in claim 1 , wherein the status information includes at least positional information of the mobile node. 7. The mobile management system as claimed in claim 1 , wherein: information regarding the characteristic part is output to the mobile node; and the mobile node displays the received information regarding the characteristic part. 8. A mobile management server connected mutually to a plurality of mobile nodes that each acquire status information, mobile management server comprising: a processor; and memory storing computer-executable code that the processor executes to; receive the status information from the mobile nodes; analyze the changes in the distribution of the status information; calculate a part with a particularly high distribution density in the distribution as a characteristic part; and output information regarding the calculated characteristic part, wherein: as part of analysis of the changes in the distribution, a node data registering function is performed which stores the status information along with identifiers of each of the mobile nodes; as part of the analysis of the changes in the distribution, a label calculating function which calculates a label in which the status information is bundled; as part of the analysis of the changes in the distribution, a characteristic part extracting function which extracts characteristic parts showing high distribution density of the label in order from the part with the higher distribution density; the label calculating function calculates a label which has the same value with higher probability when the status information of the mobile nodes are closer with respect to distance relation defined among the status information of the plurality of mobile nodes; the label in which the status information is bundled is the label bundled by putting together the labels calculated by the plurality of label calculating functions which are formed using an outcome of a random variable generated according to a probability distribution; the characteristic part extracting function stores a characteristic information set in which the characteristic parts showing the parts with high distribution density of the status information of the mobile nodes are clustered by using the label in which the status information is bundled; and the characteristic parts extracted by the characteristic part extracting function are output, wherein the analysis of the changes in the distribution, and calculation of the part with the particularly high distribution density are performed sufficient to provide output of the outputs information in real-time, where the output of the information is positional information regarding the mobile nodes and displayed on the mobile node, wherein the mobile node comprises a motor vehicle having a navigation system, wherein the navigation system displays the received positional information regarding the mobile nodes in real-time such that capabilities of the navigation system are improved, and wherein the navigation system performs functionality that receiving the position information in real-time permits such that the capabilities of the navigation system are improved. 9. A mobile management method used in a mobile manage