WO2011037320A1

WO2011037320A1 - Ubiquitous space monitor and monitoring method using thereof

Info

Publication number: WO2011037320A1
Application number: PCT/KR2010/005272
Authority: WO
Inventors: Jai Hoon Kim; We Duke Cho; Sang Yoon Oh
Original assignee: Ajou University Industry Academic Cooperation Foundation
Current assignee: Ajou University Industry Academic Cooperation Foundation
Priority date: 2009-09-25
Filing date: 2010-08-11
Publication date: 2011-03-31
Anticipated expiration: 2012-03-25
Also published as: KR20110033423A

Abstract

A ubiquitous space monitor and a ubiquitous space monitoring method, and more particularly, a ubiquitous space monitor and a ubiquitous space monitoring method for simultaneously providing an image of a subject captured by a camera and detailed information about the subject without having to attaching radio-frequency identification (RFID) to the subject. A ubiquitous space monitor and a ubiquitous space monitoring method according to the present invention can advantageously provide information desired by a user regarding a captured subject without having to attaching RFID to the subject. Further, the ubiquitous space monitor simultaneously displays an image of the subject and additional information about the subject, thereby greatly increasing the convenience of monitoring.

Description

UBIQUITOUS SPACE MONITOR AND MONITORING METHOD USING THEREOF

The present invention relates to a ubiquitous space monitor and a ubiquitous space monitoring method, and more particularly to, a ubiquitous space monitor and a ubiquitous space monitoring method for simultaneously providing an image of a subject captured by a camera and detailed information about the subject without having to attaching radio-frequency identification (RFID) to the subject.

Users have personally checked status of fields using monitoring cameras according to conventional monitoring technologies.

However, since it is actually impossible to continuously monitor images received from many cameras, methods of storing the received images, reproducing the stored images when a specific event occurs, and checking status of the event has been used.

Further, image recognition methods have been used to catch parking violation, speeding, and lane violation cars.

Image processing technologies have been recently used to conduct researches into status recognition.

For example, when an abnormality is captured by a monitoring camera for the purpose of a public security, technologies of automatically giving an alarm or automatically chasing a suspected terrorist at an airport have been developed.

Information relating to subjects to which radio-frequency identification (RFID) is attached is provided, or a variety of services relating to the subjects is used.

Although it is possible to obtain information relating to subjects through an RFID application, it is disadvantageous that users must see subjects with the naked eyes and individually catch information relating to subjects recognized by RFID readers via monitors.

Although given RFID applications can provide ubiquitous monitors, it necessarily requires all subjects to which RFID is attached and guarantees the reliability in a recognition rate of RFID readers.

Conventional monitors need subjects to which RFID is attached and are unable to obtain necessary information when the recognition rate of RFID readers is low.

To solve problems of conventional space monitoring, the present invention provides a ubiquitous space monitor and a ubiquitous space monitoring method for simultaneously providing an image of a subject captured by a camera and detailed information about the subject without having to attaching radio-frequency identification (RFID) to the subject.

According to an aspect of the present invention, there is provided a ubiquitous space monitor including: an image camera for acquiring an image of a subject; a position recognition unit for recognizing a position of the subject; a database for storing and providing information about the subject; an application processor for automatically recognizing the subject based on the position of the subject, receiving request information about the subject from a user, and searching for a response to the request information in the database; and a display unit for automatically displaying the image of the subject and the response to the request information of the user.

The position recognition unit may be a global positioning system (GPS) receiver.

The application processor may simultaneously receive the response to the request information via an Internet search engine.

The subject may be at least one of a vehicle, a building, and an area.

When the subject is the vehicle, the application processor unit may search for lane information about an area in which the vehicle is located, traffic status of the area, and a traveling path from a current location of the vehicle to a destination thereof, and the display unit may further display the lane information, the traffic status, and the traveling path.

The application processor may simultaneously search for and provides weather information about an area in which the subject is located.

The user may input the request information about the subject though a wired or wireless terminal.

The ubiquitous space monitor may further include: a direction recognition unit for, when the subject moves, detecting a movement direction of the subject.

According to an aspect of the present invention, there is provided a ubiquitous space monitoring method including: acquiring an image of a subject using an image camera; recognizing a position of the subject using a position recognition unit; storing and providing information about the subject using a database; automatically recognizing the subject based on the position of the subject, receiving request information about the subject from a user, and searching for a response to the request information in the database using an application processor; and automatically displaying the image of the subject and the response to the request information of the user using a display unit.

The position recognition unit may be a GPS receiver.

The subject may be at least one of a vehicle, a building, and an area.

When the subject is the vehicle, the application processor unit my search for lane information about an area in which the vehicle is located, traffic status of the area, and a traveling path from a current location of the vehicle to a destination thereof, and the display unit may further display the lane information, the traffic status, and the traveling path.

The ubiquitous space monitoring method may further include:, when the subject moves, detecting a movement direction of the subject using a direction recognition unit.

A ubiquitous space monitor and a ubiquitous space monitoring method according to the present invention can advantageously provide information desired by a user regarding a captured subject without having to attaching radio-frequency identification (RFID) to the subject.

Further, the ubiquitous space monitor simultaneously displays an image of the subject and additional information about the subject, thereby greatly increasing the convenience of monitoring.

FIG. 1 is a schematic diagram of a ubiquitous space monitor according to an embodiment of the present invention; and

FIG. 2 is a flowchart illustrating a ubiquitous space monitoring method according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail by explaining exemplary embodiments of the invention with reference to the attached drawings.

It is an objective of the present invention to provide a user with an image captured by a camera and additional information about a subject, which is an opposite concept to an image recognition that obtains information using the image, thereby providing the user with a convenient and useful value.

A general monitor can display information captured by a camera as it is, whereas a ubiquitous space monitor of the present embodiment can further display various types of additional information desired by the user.

For example, if an area is seen by a camera, a position recognition unit detects the area, and a monitor further displays information about the area.

In this regard, subjects to be monitored include areas, objects, facilities, distances, and the like.

A ubiquitous space monitor of the present embodiment can determine a subject to be captured using the position recognition unit without having to attaching radio-frequency identification (RFID) to the subject.

The ubiquitous space monitor of the present embodiment displays a subject and additionally necessary information about the subject, thereby greatly increasing the convenience of monitoring.

FIG. 1 is a schematic diagram of a ubiquitous space monitor according to an embodiment of the present invention.

The ubiquitous space monitor of the present embodiment includes an image camera 100, a position recognition unit 110, a database 120, an application processor 130, and a display unit 140.

The image camera 100 obtains an image of a subject.

In the present embodiment, the subject may be at least one of an area, an object, a facility, and a distance.

The image camera 100 may include a zoom recognition unit to magnify the image of the subject and obtain the magnified image.

The position recognition unit 110 recognizes a position of the subject.

The position recognition unit 110 may be a global positioning system (GPS) receiver.

The database 120 stores and provides information about the subject.

The database 120 stores and provides necessary information about the subject when a user requests request information about the subject.

The application processor 130 automatically recognizes the subject based on the position of the subject.

Unlike conventionally having recognized a subject based on information about the subject read by a RFID reader attached to the subject, the subject is recognized based on the position of the subject provided by the position recognition unit 110 in the present embodiment.

Thus, the ubiquitous space monitor of the present embodiment does not need to attach RFID to the subject.

The application processor 130 receives the request information about the subject from the user. The database 120 searches for a response to the request information.

The user inputs the request information about the subject through a wireless or wired terminal.

The application processor 130 may simultaneously receive the response to the request information via an Internet search engine.

When the image camera 100 captures a vehicle, the application processor 130 may search for lane information about an area in which the vehicle is located, traffic status of the area, and a traveling path from a current location of the vehicle to a destination thereof and provide the lane information, the traffic status, and the traveling path.

That is, when the user requests the lane information about the area in which the vehicle is located as the request information, the application processor 130 searches for and provide the information stored in the database 120 or the response of the lane information requested by the user via the Internet search engine.

The display unit 140 displays the lane information, the traffic status, and the traveling path provided by the application processor 130 and an image of the area in which the vehicle captured by the image camera 100 is located.

The application processor 130 may provide weather information about an area in which the subject is located, air contamination of the area, and the like.

That is, when the user requests weather information about an area in which a building is located through a wired or wireless terminal, the image camera 100 acquires and provides an image of the building, and the application processor 130 searches for and provides a response to the weather information from the database 120 or via the Internet search engine.

The display unit 140 simultaneously displays the image of the building and the weather information requested by the user.

The display unit 140 simultaneously displays the image of the subject and the response to the request information of the user.

The ubiquitous space monitor of the present embodiment further comprises a direction recognition unit for detecting a movement direction of the subject when the subject moves and displays an image of a direction to which the subject is to move on the display unit 140.

An image camera obtains an image of a subject (operation S210).

The image camera may include a zoom recognition unit to magnify the image of the subject and obtain the magnified image.

A position recognition unit recognizes a position of the subject (operation S220).

The position recognition unit may be a GPS receiver.

A database stores and provides information about the subject (operation S230).

An application processor automatically recognizes the subject based on the position of the subject, receives request information about the subject from a wired or wireless terminal, and searches for a response to the request information from the database (operation S240).

The application processor automatically recognizes the subject based on the position of the subject.

The application processor may provide weather information about an area in which the subject is located, air contamination of the area, and the like.

A display unit simultaneously displays an image of the subject and the response to the request information of the user (operation S250).

A ubiquitous space monitor of the present embodiment further comprises a direction recognition unit for detecting a movement direction of the subject when the subject moves and displays an image of a direction to which the subject is to move on the display unit.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by one of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims.

The present invention can be used for a space monitoring system.

Claims

A ubiquitous space monitor comprising:

an image camera for acquiring an image of a subject;

a position recognition unit for recognizing a position of the subject;

a database for storing and providing information about the subject;

an application processor for automatically recognizing the subject based on the position of the subject, receiving request information about the subject from a user, and searching for a response to the request information in the database; and

a display unit for automatically displaying the image of the subject and the response to the request information of the user.
The ubiquitous space monitor of claim 1, wherein the position recognition unit is a global positioning system (GPS) receiver.
The ubiquitous space monitor of claim 1, wherein the application processor simultaneously receives the response to the request information via an Internet search engine.
The ubiquitous space monitor of claim 1, wherein the subject is at least one of a vehicle, a building, and an area.
The ubiquitous space monitor of claim 1, wherein the user inputs the request information about the subject though a wired or wireless terminal.
The ubiquitous space monitor of claim 1, further comprising: a direction recognition unit for, when the subject moves, detecting a movement direction of the subject.
The ubiquitous space monitor of claim 3, wherein the application processor simultaneously searches for and provides weather information about an area in which the subject is located.
The ubiquitous space monitor of claim 4, wherein, when the subject is the vehicle, the application processor unit searches for lane information about an area in which the vehicle is located, traffic status of the area, and a traveling path from a current location of the vehicle to a destination thereof, and the display unit further displays the lane information, the traffic status, and the traveling path.
A ubiquitous space monitoring method comprising:

acquiring an image of a subject using an image camera;

recognizing a position of the subject using a position recognition unit;

storing and providing information about the subject using a database;

automatically recognizing the subject based on the position of the subject, receiving request information about the subject from a user, and searching for a response to the request information in the database using an application processor; and

automatically displaying the image of the subject and the response to the request information of the user using a display unit.
The ubiquitous space monitoring method of claim 9, wherein the position recognition unit is a GPS receiver.
The ubiquitous space monitoring method of claim 9, wherein the application processor simultaneously receives the response to the request information via an Internet search engine.
The ubiquitous space monitoring method of claim 9, wherein the subject is at least one of a vehicle, a building, and an area.
The ubiquitous space monitoring method of claim 9, further comprising:, when the subject moves, detecting a movement direction of the subject using a direction recognition unit.
The ubiquitous space monitoring method of claim 11, wherein the application processor simultaneously searches for and provides weather information about an area in which the subject is located.
The ubiquitous space monitoring method of claim 12, wherein, when the subject is the vehicle, the application processor unit searches for lane information about an area in which the vehicle is located, traffic status of the area, and a traveling path from a current location of the vehicle to a destination thereof, and the display unit further displays the lane information, the traffic status, and the traveling path.