KR100432343B1 - navigation system guiding shot-way and shot-time course for target point - Google Patents

Abstract

The present invention relates to a map data providing system for guiding a shortest distance and a shortest time of a destination, wherein a user selects a specific destination to go from the current location, requests route information of the shortest time and the shortest distance, and receives the received information. An IMT-2000 terminal for visually guiding a current location and a moving direction to a user; A satellite tracking a current position of the IMT-2000 terminal; A GPS receiver for receiving current location information of the IMT-2000 terminal tracked from the satellite; A traffic information providing center providing a current traffic jam in real time; A map information DB storing road map data; The route information request signal of the shortest time and the shortest distance of the specific destination selected from the IMT-2000 terminal is received through the wireless transmitter / receiver, the current position of the user is determined by the GPS receiver, and the information is extracted from the map information DB. The route of the shortest distance to the destination on the road map is calculated as a plurality of routes including a detour road and the like, and the current traffic jam provided by the traffic information providing center in real time is calculated on the route of the shortest distance calculated above. By linking, it consists of an internet server that calculates the shortest distance path that actually takes the shortest time.

Description

Map data providing system for guiding the shortest distance and shortest time of the destination {navigation system guiding shot-way and shot-time course for target point}

The present invention relates to a map data providing system for guiding a destination. More particularly, the present invention relates to a shortest distance and a shortest time of a destination through an up-to-date digital map, a user's location, and current real-time road situation information using the Internet. It relates to a map data providing system.

1 is a map data providing system of a vehicle navigation apparatus disclosed in the patent publication of Korea Patent No. 0184810 (December 21, 1998).

As shown in the drawing, the conventional map data providing system includes a GPS receiver 13 which receives radio waves simultaneously from three different global positioning system (GPS) satellites 15 and calculates the longitude and latitude of the point, and a road map. The map data storage unit 12 storing the data, and the longitude and latitude data received by the GPS receiver 13 to process the current position of the vehicle on the map data provided from the map data storage unit 12. Compute the correlation between the vehicle navigation control unit 10 and the driving trajectory of the vehicle tracked from the GPS satellites 15 and the road map data provided from the map data storage unit 12, and the road having the highest correlation. Indicator for visually displaying the optimal road map to the current location and destination of the own vehicle and the map storage control unit 11 for correcting and calculating the position of the vehicle and providing the vehicle navigation control unit 10 to the vehicle navigation control unit 10. (19), an indicator controller 18 for controlling the driving of the indicator 19 according to the control of the vehicle navigation controller 10, and an initial position of selecting the map of the desired portion and the current vehicle on the displayed map. A key input unit 16 for setting a point and a direction to be moved is provided. In addition, the map data in the vehicle navigation system is stored in a map data storage unit 12 which is preferably implemented as a compact disk ROM (CD-ROM), which is based on a predetermined accumulation of topographic maps based on aerial photographs. Geographic information required for road driving and road management is numerically stored (digitized) as a two-dimensional coordinate value of (x, y).

However, since the conventional map data providing system cannot refer to the current real-time road situation information, even if searching the shortest distance on the street, it takes more time than the calculated distance on the map in the severe traffic region. There was a problem.

In addition, the conventional vehicle navigation apparatus has to be provided with a number of accessory means such as a compact disc ROM, so that the volume is increased, so that it is inconvenient to carry separately in addition to the vehicle.

Accordingly, the present invention is to solve the above-mentioned general problems, the object of the present invention is to use the Internet to refer to the latest digital map, the user's location and the current real-time road situation information to determine the shortest distance and the shortest time of the destination In addition to providing comprehensively, the present invention provides a map data providing system that guides the shortest distance and the shortest time to a destination for easy portability using a small terminal using IMT-2000 technology.

1 is a block diagram showing a map data providing system of a conventional vehicle navigation apparatus.

Figure 2 is a block diagram showing a map data providing system for guiding the shortest distance and the shortest time of the destination according to the present invention.

※ Explanation of code for main part of drawing

10: satellite 20: GPS receiver

30: Traffic information center 40: Internet server

50: map information DB 60: wireless transmitter / receiver

70: IMT-2000 terminal

A feature of the present invention for achieving the above object is a map data providing system for providing information of the shortest distance of a destination with reference to a coordinate value for a current location and stored road map data, wherein a user wants to go from the current location. IMT-2000 selects a specific destination and selectively requests each route information of the shortest, shortest, or shortest distance, and visually informs the user of the current location and direction through the received information. terminal; A plurality of satellites for receiving position signals of the IMT-2000 terminal; A GPS receiver which collects position signals received from the satellites and determines a current position of the IMT-2000 terminal; A traffic information providing center providing a current traffic jam in real time; A map information DB for storing road map data by updating data necessary for traffic information and map information in real time and periodically; On the road map received from the map information DB, the request signal of the route information of the shortest distance, the shortest distance, or the shortest distance required for the specific destination requested from the IMT-2000 terminal is received through a wireless transmitter / receiver. The current location of the user identified by the GPS receiver and the path of the shortest distance to the specific destination designated by the user are calculated as a plurality of paths including a detour road, and are provided in real time by the traffic information providing center. By referring to the traffic jam situation of a specific road section, the shortest route is calculated as a plurality of routes, and the shortest route is calculated by combining the shortest route and the shortest route. An Internet server which calculates and transmits the route information to the IMT-2000 terminal through the radio transmitter / receiver. Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 2 is a block diagram showing a map data providing system for guiding a shortest distance and a shortest time of a destination according to the present invention. As illustrated, the IMT-2000 terminal 70 includes at least three satellites 10, at least three satellites 10, a GPS receiver 20, and an Internet server 40. Select a specific destination to go from the location to selectively request each route information of the shortest, shortest, or shortest distance, and visually inform the user of the current location and direction through the received information. A plurality of satellites 10 receives the position signals of the IMT-2000 terminal 70, the GPS receiver 20 collects the position signals received from the satellite 10 to the IMT-2000 stage. The traffic information providing center 30 provides the current traffic jam in real time, and the map information DB 50 provides the traffic information and data necessary for the map information in real time and periodically. The Internet server 40 updates and stores road map data. The Internet server 40 takes the shortest time, shortest distance, or shortest time of a specific destination requested from the IMT-2000 terminal 70 through the wireless transmitter / receiver 60. Receives the request signal of the shortest distance route information, the user's current location identified by the GPS receiver 20 on the road map drawn from the map information DB 50 and the shortest to the specific destination designated by the user. The route of the distance is calculated as a plurality of routes including a detour road, and the shortest time is referred to by referring to the traffic jam situation of a specific road section currently provided in real time from the traffic information providing center 30. The path is calculated by a plurality of paths, the paths of the shortest distance and the paths of the shortest time are calculated, and the shortest distance which is actually the shortest time is calculated, and the path information is converted into the wireless transmitter / receiver ( 60 is transmitted to the IMT-2000 terminal 70. The operation of the present invention having such a configuration will be described in more detail as follows. The terminal 70 of the present invention is moving on a foot or through a vehicle. Although all may be used, a description will be given here for a typical vehicle operation. As is well known, the international mobile telecommunication-2000 (IMT-2000) technology applied to the present invention is used for voice and high speed in land and satellite environments. It is a wired / wireless integrated next generation communication service that provides multimedia services such as data and video and global roaming. This is a mobile communication system that allows users to connect to a fixed telecommunication network service such as an existing telephone or ISDN using one or more wireless links, and overcomes the limitations of the mobility and transmission speed of the terminal, the biggest problem of the existing communication system. In other words, it is a communication system that allows a variety of information to be sent and received at high speed even in the middle of a desert or the sea. The frequency band used is a next-generation mobile communication system that can provide not only the service provided by the existing communication system from 1885 MHz to 2200 MHz but also a high level service by advanced technology. It can also be used as a mobile phone that can be connected to a terrestrial or satellite network. In addition, it is compatible with various systems, so it can be built as a global single communication network, and it has the feature of using a compact and lightweight phone with high quality. In Korea, the synchronous IMT-2000 system was developed in 1998, and asynchronous development was succeeded in 1999. The IMT-2000 terminal technology can be classified into two types, W-CDMA and CDMA 2000. CDMA 2000 is led by North Americans such as Qualcomm, while W-CDMA is led by European companies such as Ericsson Nokia. The biggest difference between the two methods is whether or not they use low orbit satellites (GPS). Synchronous CDMA 2000 uses GPS satellites to transmit voice or data, while asynchronous W-CDMA provides services through a base station or relay station. The reason why it is called synchronous and asynchronous is to make the difference between uniformly or not matching data transmission time through GPS satellites. Korea is promoting IMT 2000 services in both ways. For example, KT ICOM and SK IMT are W-CDMA technologies, and LG Telecom is CDMA 2000 system. Thus, the mobile terminal of the present invention, IMT-2000 terminal 70, selects a specific destination to go from the current location and the shortest time and When requesting the route information of the shortest distance, this request signal is received by the radio transmitter / receiver 60 of the Internet server 40 via a normal radio repeater (not shown) and a base station (not shown). It has a user interface for requesting route information, and selects a specific destination (for example, Gangnam Station) using this, and selectively requests a path of the shortest distance or the shortest time to the destination. Alternatively, the shortest time may be requested for the shortest comprehensive route. The Internet server 40 may first request a current location of the IMT-2000 terminal 70 according to a request signal received by the wireless transmitter / receiver 60. On the other hand, the current position of the IMT-2000 terminal 70 is tracked through the satellite 10 and the GPS receiver 20, for example, three different satellites 10 in the IMT-2000 terminal ( Receives the position signal output from the 70) and sends it to the GPS receiver 20, the GPS receiver 20 collects it to determine the current position of the IMT-2000 terminal 70 and informs it to the Internet server 40 Therefore, the Internet server 40 calculates the route of the shortest distance to the current location of the IMT-2000 terminal 70 and the specific destination on the road map drawn from the map information DB 50 storing the road map data. In this case, the shortest route is a detour road, etc. The first traffic, the second traffic, the third traffic, and the third traffic are calculated and stored temporarily. In addition, the Internet server 40 provides the current traffic jam situation provided by the traffic information providing center 30 in real time (specific roads). The driving time of the section, etc.) is received and the shortest time path is calculated accordingly, and as described above, the first path, the second path, and the third path are calculated and stored temporarily. Here, the shortest time path is, for example, if the physical distance is far, but the traffic state of the corresponding section is very smooth and the arrival time is shorter, the path is determined to be the shortest time path. By combining the path of the distance and the path of the shortest time to calculate the actual path of the shortest distance that actually takes the shortest time. The calculated route information is selectively from the radio transmitter / receiver 60 according to the user's request signal. It is output and provided to a user terminal 70 via a normal wireless repeater (not shown) and a base station (not shown). Accordingly, the IMT-2000 terminal 70 outputs the provided route information in the form of a map, and visually guides the user of the current location and traveling direction of the vehicle. In the present invention, all necessary information for the traffic information and the map information are provided. Since data is stored and updated in the Internet server 40, the terminal 70 of the user can be made extremely small by incorporating only essential functions such as a user interface and a transmission / reception function. By using the path information desired by the user, for example, the user can selectively select the shortest distance, the shortest time, or the shortest distance that takes the shortest time. The above-described preferred embodiment of the present invention has been described and described. The present invention is not limited to the above-described embodiments, but departs from the spirit of the invention as claimed in the claims. Without departing from the scope of the present invention, various modifications may be made by those skilled in the art without departing from the scope of the present invention.

As described above, the present invention provides the shortest distance and the shortest time of the destination by referring to the latest digital map, the user's location, and the current real-time road information by using the Internet. By using the small terminal using the guide to guide the shortest distance and the shortest time to the destination, it provides a route that can actually arrive in the shortest time by bypassing the heavy traffic area, traffic information and maps Since all data necessary for information is stored and updated on the Internet server, the user's terminal is built in only essential functions such as a transmission / reception function, so that it can be made extremely small, so that it is very easy to carry and store.

Claims (2)

In the map data providing system for providing information of the shortest distance of the destination by referring to the coordinate value of the current location and the stored road map data, The user selects a specific destination that he / she wants to go from the current location and selectively requests each route information of the shortest, shortest, or shortest distance, and the user receives the current location and direction through the received information. An IMT-2000 terminal 70 for visually guiding; A plurality of satellites 10 for receiving a position signal of the IMT-2000 terminal 70; A GPS receiver 20 for collecting a position signal received from the satellite 10 to determine a current position of the IMT-2000 terminal 70; A traffic information providing center 30 providing a current traffic jam situation in real time; A map information DB (50) for storing road map data by updating data necessary for traffic information and map information in real time and periodically; Receives the request signal of the route information of the shortest distance, the shortest distance, or the shortest distance of the specific destination requested from the IMT-2000 terminal 70 through the wireless transmitter / receiver 60, and the map information DB. Calculating the current location of the user identified by the GPS receiver 20 on the road map drawn from 50 and the path of the shortest distance to a specific destination designated by the user as a plurality of paths including a detour road and the like; By referring to the traffic jam situation of the current specific road section provided in real time from the traffic information providing center 30, the route of the shortest time is calculated as a plurality of routes, and the route of the shortest distance and the route of the shortest time calculated above. To calculate the shortest distance that actually takes the shortest time, and transmit the path information to the IMT-2000 terminal 70 through the radio transmitter / receiver 60. Net server 40; Map data providing system for guiding the shortest distance and the shortest time of the destination, characterized in that consisting of. delete