KR100449124B1 - The method of massive real-time location information process using main memory dbms and spatial index - Google Patents

Abstract

The present invention relates to a large-scale real-time location information processing method using a main memory database system and a spatial indexing technique, the main memory database system that supports the spatial indexing technique of the R-tree type in processing a large amount of real-time location information By using this, there is an advantage of improving the performance speed.

Description

Large-scale real-time location information processing method using main memory database system and spatial indexing technique {THE METHOD OF MASSIVE REAL-TIME LOCATION INFORMATION PROCESS USING MAIN MEMORY DBMS AND SPATIAL INDEX}

The present invention relates to a retrieval and efficient processing method for a client's location information request when location determination using a mobile communication switching terminal is required. More particularly, the present invention provides a method for efficiently real-time location information of a client identified through a mobile communication switching terminal. The present invention relates to a system that stores, manages, and processes retrieval requests. Currently, the real-time location information processing method uses a disk-based general relational database system to process tens or millions of transactions. It is falling considerably.

The present invention improves the search time by several times by using the main memory database system instead of the disk based database system to solve the conventional problems as described above, and the R-tree based spatial index in the main memory database system. The present invention proposes a system that provides performance enhancement and various additional functions for real-time location information retrieval by applying the technique. It is to reduce the hardware cost by improving performance and processing more real-time location information in one server.

1 is a block diagram of a large-scale real-time location information processing system according to the present invention, Figure 2 is a flowchart illustrating a real-time location information processing process according to the present invention, Figure 3 is a peripheral user search according to a preferred embodiment of the present invention <Description of symbols for the main parts of the drawings> 10: Mobile client 20: Wireless network including base station 30: Location tracking system group group 31: Location acquisition gateway 32: Location processing server 33: Location Search service server 34: Main memory database system 40: Internet 50: User

There may be a plurality of embodiments of the present invention. Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings. Through this embodiment, it is possible to better understand the objects, features and advantages of the present invention. Fig. 1 is a block diagram of a large-scale real-time location information processing system according to the present invention. The location information processing system includes a location retrieval service server 33 and a location retrieval service where users 50 access through the Internet 40 for location tracking of specific mobile clients 10 (10/1 to 10 / n). Location Acquisition Gateway 31 and user 50 authentication and location including an interface for acquiring a current location through communication between location processing server 32 and wireless network 20 that actually processes the server's location tracking request It consists of a main memory database system 34 storing and storing the tracking results. Through the large capacity real-time location processing system according to the present invention configured as described above. The location processing performed will be described in more detail with reference to the flowchart of FIG. 2. First, a user 50 who wants to track the location of a specific client 10 needs to perform a location search service server 33 through the Internet 40. (S101) When receiving the location tracking request of the user 50, the location search service server 33 grasps the information of the tracee, the information of the tracker (user), and the QoS information. Forwards the request to the location processing server. In this case, the QoS of the service refers to the accuracy level of the location and the latest time measured. (S102) The location processing server authenticates the user 50 through the main memory database system. In this case, the user authentication confirms whether or not the user subscribes to a specific service for location tracking (S103). After the user authentication is completed, the location processing server 32 determines whether the user 50 (the tracee) has the tracking authority for the tracee. The main memory database system 34 checks the location of the tracee. (S104) The location processing server 32 stores the tracee's location information from a table of the main memory database system 34 that stores and stores the location information. (S105) The location processing server 32 checks whether the location information obtained from the main memory database system 34 satisfies the QoS required by the user 50 (S106). If not satisfied, the location processing server 32 obtains current location information through communication with the wireless network 20 including the base station through the location acquisition gateway 31 (S107). The server 32 updates the location information of the main memory database system 34 using the location information of the tracee obtained in S107. At this time, the update of the location information is to perform the update using the R-tree in order to provide the efficiency for the service requiring the spatial search. (S108) The location processing server 32 receives the location information that satisfies the QoS location acquisition gate When obtained from the way 31 or the main memory database system 34, the result is transmitted to the location search service server. (S109) The location search service server 33 receives the location information received from the location processing server 32. The result is transmitted to the user 50 through the Internet 40. (S110) Referring to the above-described bar of FIG. 2, an access process to the database system is required in S103, S104, S105, and S108. By applying the main memory database system 34 to the processing, the processes of S103, S104, S105, and S108 can be processed more efficiently and quickly. In order to illustrate the benefits of applying R-tree, a spatial indexing technique to the base system, a flow chart showing the search of surrounding users around a specific location. Referring to FIG. The user accesses the location search service server 33 through 40 to request a search for user information of a specific area. (S201) The location search service server 33 provides a center coordinate value and a search radius (unit) for a specific area. m) is extracted from the user's request and transmitted to the location processing server. (S202) The location processing server 32 uses the center coordinate value and the search radius (unit m) to implement the R-tree implemented in the main memory database system. The user information is extracted using the search technique. (S203) The location processing server 32 transfers the search result to the location search service server 33. (S204) The location search service server 33 sends the search result. It is transmitted to the user 50 through the Internet 40. (S205) Looking at the description of Figure 3, by applying the R-tree-based spatial index technique to the main memory database system, and using it for location tracking Excellent for searching for nearby users.

As described above, the present invention has an effect of maximizing execution speed by using a main memory database system in managing real-time location information in which an update occurs in real time. In addition, by applying the R-tree-based spatial indexing technique, functions related to spatial search can be provided.

Claims (5)

In the method for storing and managing a large amount of real-time location information through a location processing server, A first step of requesting location information by accessing a location search service server through the Internet; In response to the location information request, a location retrieval service server delivering location information to a location processing server; A third step of the location processing server performing authentication through the main memory database system; A fourth step of the location processing server confirming the tracker's authority to track the tracker's location through the main memory database system; A fifth step of the location processing server searching for location information through the main memory database system; A sixth step of the location processing server checking whether the location information retrieved through the main memory database system satisfies the QoS; A seventh step of acquiring the current location through the location acquisition gateway; Updating the location information acquired through the location acquisition gateway to the main memory database system; A ninth step of delivering, by the location processing server, the search result to the location search service server; And a tenth step of the location retrieval service server delivering the result location information to the user via the Internet. 1. A search for surrounding users of a specific location through a location processing server, comprising: a first step of requesting a surrounding user search by accessing a location search service server through the Internet; In response to the location search request, delivering specific location information and search radius information to a location processing server; A third step of the location processing server searching for a peripheral user through the main memory database system to process the request; A fourth step of delivering, by the location processing server, a search result to a location search service server; And a fifth step of transmitting the search result to the user through the Internet by the location retrieval service server. delete delete delete