KR20060081432A - Wpan-based parking information service method and system thereof - Google Patents

Abstract

Disclosed are a WPAN-based parking location information service method and system for automatically storing a location parked by a vehicle and providing the parking location information of the vehicle to a user at the driver's request. The method comprises the steps of: a) receiving an identifier (ID) corresponding to the number of the vehicle from the Zigbee terminal at the Zigbee router; b) determining that the vehicle is parked when the same ID is received more than a predetermined time; And c) storing the identifier determined to be parking in step b) in a database corresponding to the Zigbee router.

Description

WPAN-based parking location information service method and system thereof {WPAN-BASED PARKING INFORMATION SERVICE METHOD AND SYSTEM THEREOF}

1 is a block diagram showing a WPAN-based parking location information service system according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating an operation of the WPAN-based parking location information service system illustrated in FIG. 1.

<Description of Signs for Main Parts of Drawings>

100: Zigbee module 201, 203, 205: Zigbee router

300: Zigbee Coordinator 400: premises management server

500: database 600: premises inquiry terminal

700, 800: user terminal

The present invention relates to a WPAN-based parking location information service method and system thereof, and more particularly, to a WPAN-based parking location information service that automatically stores a location parked by a vehicle and provides parking location information of the corresponding vehicle to a user upon request of a driver. It relates to a method and a system thereof.

The wireless communication technologies developed to date are widely used by the public for 2.5 / 3G cellular wireless WAN technology, the wireless MAN technology (mobile Internet), also called wireless DSL, and the local area wireless communication network. Technology, and wireless PAN technology, which is a short-range personal wireless communication technology, can be classified into four types.

Wireless PAN technologies include Bluetooth, UWB, and ZigBee. While currently receiving less attention than Bluetooth and UWB, ZigBee is expected to be a competitive short-range wireless communication technology in areas of vertical applications such as sensor networks. ZigBee is a technology that combines low-power ZigBee transceivers with sensors (motion, light, pressure, temperature, and humidity) to form a large sensor network. For example, building managers can use ZigBee for lighting, fire detection, and heating and cooling systems in buildings to perform building system management and control remotely from a portable device rather than from a management room. In addition, the patient in the hospital can be equipped with a ZigBee device on their body, the sensor periodically measures the physical condition and health and can transmit the diagnostic information to the server wirelessly. As such, ZigBee will be used to create automated sensor networks for a variety of applications, including industrial, home, medical and military.

The IEEE released the 802.15.4 specification (which cooperates with the present invention) that defines low-cost, low-power wireless PAN technology in May 2003.The ZigBee Alliance, established to promote industry such as marketing and product certification, is a PHY defined by IEEE. We are in the process of defining network / security layer in addition to MAC. In the IEEE 802.15.4 standard, 868 MHz (BPSK / 1 channel / Europe), 902 to 928 MHz (BPSK / 10 channel / US). Three frequency bands including 2.4GHz (OQPSK / 16 channels / world) are defined to support transmission rates of 20 to 250 Kbps up to 100 m with DSSS modulation. By assigning 64-bits to the address, up to 65,000 nodes can be used. CSMA-CA, which is similar to wireless LAN as an access method, uses the GTS mechanism for QoS. ZigBee, which extends the network / security layer and topology to IEEE 802.15.4, allows repeaters to extend their networks beyond a few kilometers, as well as to form networks in a variety of topologies, including ad hoc, star, and mesh. First and foremost, Zigbee / 802.15.4 is characterized by its ultra-low power consumption. ZigBee's average power consumption during transmission and reception is about 50mW, which is much lower than UWB (200mW) / wireless LAN (1W). In addition, the ZigBee slave device uses power only when a call comes from the master device, which means that a battery can be used for up to two to three years. Therefore, efforts have been made to apply Zigbee having such advantages to various uses.

Accordingly, the present invention was created in view of the above circumstances, and an object of the present invention is to automatically store a location where a vehicle is parked by using Zigbee, and provide the parking position information of the vehicle to a user at the driver's request. It is to provide a WPAN-based parking location information service method and a system thereof.

In order to achieve the above object, the WPAN-based parking location information service method according to the first aspect of the present invention comprises the steps of: a) receiving an identifier (ID) corresponding to the number of the vehicle from the Zigbee terminal in the Zigbee router; b) determining that the vehicle is parked when the same ID is received more than a predetermined time; And c) storing the identifier determined to be parking in step b) in a database corresponding to the Zigbee router.

Preferably, the Zigbee router is one or more, and the ID is stored corresponding to the location information in which the Zigbee router is installed. Also preferably, step b) is performed in a Zigbee router.

More preferably, the method further comprises the steps of d) receiving a request for location information of the vehicle comprising the identifier; And e) retrieving the location information of the Zigbee router that has received the identifier according to the location information request of the vehicle, and outputting the retrieved location information of the Zigbee router as the location information of the vehicle.

WPAN-based parking location information service system according to the second aspect of the present invention, each of which is installed in the parking area, receives an identifier (ID) corresponding to the number of the vehicle generated from the Zigbee terminal entering the parking area, At least one Zigbee router for determining that the vehicle is parked when the same ID is received more than a predetermined number of times, and for transmitting the determination result including the identifier to the premises management server when the vehicle is parked; A Zigbee coordinator for assigning an address to each of the Zigbee routers, unified management of the Zigbee routers, and enabling the Zigbee routers to access the premises management server; And storing, in the database corresponding to each of the Zigbee routers, the identifiers determined to be parking from each of the Zigbee routers through the Zigbee Coordinator, and receiving a location information request of the vehicle including the identifier. And the premises management server for querying the database for the location information of the Zigbee router which has received the identifier according to the location information request, and for providing the location information of the requested Zigbee router to the information requester as the location information of the vehicle. .

Preferably, the information requestor may be an premises inquiry terminal communicatively connected to the premises management server, or may be a mobile terminal or a personal computer that requests parking location information from the premises management server through a wired or wireless internet.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a WPAN-based parking location information service system according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating an operation of the WPAN-based parking location information service system illustrated in FIG. 1.

First, referring to FIG. 1, a WPAN-based parking location information service system according to an embodiment of the present invention includes a ZigBee module 100, a ZigBee Router 201, 203, and 205 and a ZigBee Coordinator 300. , A database 500, and an on-premises management server 400.

The Zigbee module 100 is mounted on a vehicle. The Zigbee module 100 stores a vehicle identifier (ID) corresponding to the vehicle number of the mounted vehicle, and receives the beacon when receiving the beacons from the Zigbee routers 201, 203, and 205. The vehicle ID (or vehicle number) is provided to the originating Zigbee routers 201, 203, and 205.

The system includes one or more ZigBee routers 201, 203, 205. The Zigbee routers 201, 203, and 205 are respectively installed in a parking area (or area) (or service zone) and have a zone ID for identifying the service zone. In the following description, the present embodiment will be described with one ZigBee router 201, 203, and 205 for easier understanding. However, the present invention is not limited by the number of Zigbee routers. The ZigBee Router The ZigBee routers 201, 203, and 205 transmit the beacons to detect vehicle information entering or parked in the service zone at predetermined intervals. The Zigbee routers 201, 203, and 205 receive the information generated from the Zigbee module 100 in response to the beacons in the service zone. Preferably, each of the Zigbee routers 201, 203, and 205 receives a vehicle ID corresponding to the number of the vehicle generated from the Zigbee terminal 100 entering or parking in the corresponding parking area, and the same ID. Is received more than a predetermined number of times, it is determined that the vehicle having the vehicle ID is parked. When the ZigBee routers 201, 203, and 205 determine that the vehicle is parked, the ZigBee router 201 determines the determination result including the vehicle ID (preferably with the zone ID) through the ZigBee coordinator 300. Send to the management server 400.

The Zigbee coordinator 300 assigns an address to each of the Zigbee routers 201, 203, and 205 according to the IEEE 802.15.4 protocol, which cooperates with the present invention. The zigbee coordinator 300 is at least one. Although the present embodiment is described with one ZigBee router 201, 203, and 205, those skilled in the art will understand that the present invention is not limited to the ZigBee router. The ZigBee coordinator 300 collectively manages the ZigBee routers 201, 203, and 205, and enables the ZigBee routers 201, 203, and 205 to access the premises management server 400.

The premises management server 400 corresponds to each of the ZigBee routers 201, 203, and 205 with identifiers determined to be parking from each of the ZigBee routers 201, 203, and 205 through the ZigBee Coordinator 300. To the database 500. When the premises management server 400 receives a location information request of a vehicle including a vehicle ID to be queried, the ZigBee routers 201, 203, and 205 of the Zigbee router 201, 203 and 205 that receive the vehicle ID according to the location information request of the vehicle are received. The location information is inquired into the database 500, and the location information of the inquired Zigbee routers 201, 203, and 205 is provided to the information requestor 600, 700, and 800 as the location information of the vehicle.

The information requestor 600, 700, 800 may be an premises inquiry terminal 600 connected to the premises management server 400 in a wired or wireless manner. Alternatively, the information requestor (600, 700, 800) may be a mobile terminal 700 that can request the parking location information to the premises management server 400 over the wireless Internet, or the premises management server ( 400 may be a user PC 800 requesting the parking location information.

Hereinafter, with reference to the accompanying drawings will be described in more detail the zone-based information service method and system according to the present invention.

First, referring to FIG. 2, the Zigbee routers 201, 203, and 205 are respectively installed in a parking area (or area) (or service zone) to detect vehicle information entering or parking in the service zone. Send the beacon (S1).

The Zigbee module 100 mounted on a vehicle entering or parked in the service zone responds to the beacon in the service zone, and transmits a vehicle ID corresponding to the number of the vehicle to the Zigbee routers 201, 203, and 205. send. The Zigbee routers 201, 203, and 205 receive the vehicle ID from the Zigbee module 100, and when the number of reception of the same ID is received more than a predetermined number of times, determines that the vehicle having the vehicle ID is parked. (S2, S3).

When the ZigBee routers 201, 203, and 205 determine that the vehicle is parked, the ZigBee router 201, 203, and 205 transmits a determination result including the vehicle ID to the premises management server 400 through the ZigBee coordinator 300 together with the zone ID. Transmit (S4).

Upon receiving the parking vehicle and the zone ID from the Zigbee routers 201, 203, and 205, the premises management server 400 upgrades the database 500 according to the received information (S5).

Meanwhile, when the premises management server 400 receives a location information request of a vehicle including a vehicle ID to be queried through a wired / wireless communication network, the Zigbee router receiving the vehicle ID according to the location information request of the vehicle ( Inquiry of the location information of 201, 203, and 205 to the database 500, and information requestor (600, 700, 800) as the location information of the vehicle using the inquired location information of the Zigbee routers (201, 203, 205) Provided to (S6, S7).

As described above, according to the present invention, when the driver of the vehicle forgets the location where the vehicle is parked after parking, the parking position information service can be easily obtained by inquiring to the present system.

In the above, the present invention has been described as a specific preferred embodiment, but the present invention is not limited to the above-described embodiment, and ordinary knowledge in the field to which the present invention pertains without departing from the gist of the present invention claimed in the claims. Anyone with a variety of variations will be possible.

Claims (7)

a) receiving an identifier (ID) corresponding to the number of the vehicle from the Zigbee terminal at the Zigbee router; b) determining that the vehicle is parked when the same ID is received more than a predetermined time; And c) storing the identifier determined as parking in step b) in a database corresponding to the Zigbee router. The method according to claim 1, wherein the Zigbee router is one or more, and the ID is stored corresponding to the location information of the Zigbee router. 3. The method of claim 1 or 2, wherein step b) is implemented in a Zigbee router. The method of claim 1 or 2, wherein the method d) receiving a location information request of the vehicle including the identifier; And e) retrieving the location information of the Zigbee router receiving the identifier according to the location information request of the vehicle, and outputting the location information of the retrieved Zigbee router as the location information of the vehicle. Based parking location information service method. Each of which is installed in the parking area, receives an identifier (ID) corresponding to the number of the vehicle generated from the Zigbee terminal entering the parking area, and if the same ID is received more than a predetermined time, the vehicle is parked. At least one ZigBee router for determining whether the vehicle is parked, and transmitting a determination result including the identifier to the premises management server; A Zigbee coordinator for assigning an address to each of the Zigbee routers, unified management of the Zigbee routers, and enabling the Zigbee routers to access the premises management server; And Storing the identifiers determined to be parking from each of the Zigbee routers in the database corresponding to each of the Zigbee routers through the Zigbee coordinator, and receiving a location information request of the vehicle including the identifiers; And the premises management server for querying the database for the location information of the Zigbee router which has received the identifier according to the information request, and for providing the requested information to the information requester as the location information of the vehicle. WPAN-based parking location information service system. The WPAN-based parking location information service system according to claim 5, wherein the information requester comprises an premises inquiry terminal communicably connected to the premises management server. The WPAN-based parking location of claim 5, wherein the information requester requests parking location information from the premises management server through a wired or wireless Internet, and the premises management server provides the parking location information through a wired or wireless internet. Information service system.

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