KR102262325B1 - System of safety control service using wearable communication device - Google Patents

Abstract

A control service system according to an embodiment of the present invention includes: a wearable communication device for photographing a front and rear image of a user through a front and rear camera; and a control system server for receiving the front and rear images from the wearable communication device and monitoring a situation of a user wearing the wearable communication device.
The wearable communication device receives, from a GPS satellite, the user's Global Positioning System (GPS) information, which encrypts the image captured by the front and rear cameras so that the user cannot see it, and receives the encrypted image and the GPS information Receives user location information from the GPS satellite, which automatically provides an emergency signal by detecting the user's unique voice input through a microphone or notifies an emergency state through a speaker, and the user is in a privacy place In this case, the projected image may be invalidated or the image may be prohibited from being transmitted, and the user's location may be displayed in a pre-stored drawing of the blind area when the user is in the blind area.

Description

Control service system using wearable communication device {SYSTEM OF SAFETY CONTROL SERVICE USING WEARABLE COMMUNICATION DEVICE}

The present invention relates to a wearable communication device, and more particularly, to a control service system using a wearable communication device that can be worn on a user's body.

Communication devices are widely used in various mobile devices such as smart phones, black boxes, and navigation devices. In addition, the communication device is widely used in the form of a wearable that is attached to or worn on a user's body. Such a communication device includes a camera for capturing an image, a GPS device capable of identifying a user's location information, and a microphone or speaker capable of voice communication.
A user engages in outdoor activities such as a walk in a park, a river path, or a surrounding path while wearing the wearable communication device on the body. However, at a time when there are few people, such as late at night or early in the morning, crimes or accidents can occur in outdoor places such as these trails. In addition, even during times of high outdoor activity, crimes and accidents may occur in areas with sparsely populated areas. To prevent such accidents, CCTVs are installed throughout outdoor activities or security personnel are deployed.
However, there may still be blind spots in CCTVs operated by various public buildings and private security companies. In addition, since video recording devices such as CCTVs repeat recording and deletion for a long time, the video quality is inevitably deteriorated. Therefore, there is a need for a safety system that can effectively and immediately respond to safety accidents and crimes that occur during leisure activities or outdoor activities.

An object of the present invention is to provide a wearable communication device capable of photographing a user's surroundings and providing emergency situation information and a control service system using the same.

A control service system according to an embodiment of the present invention includes: a wearable communication device for photographing a front and rear image of a user through a front and rear camera; and a control system server for receiving the front and rear images from the wearable communication device and monitoring a situation of a user wearing the wearable communication device.
The wearable communication device receives, from a GPS satellite, the user's Global Positioning System (GPS) information, which encrypts the image captured by the front and rear cameras so that the user cannot see it, and receives the encrypted image and the GPS information Receives user location information from the GPS satellite, which automatically provides an emergency signal by detecting the user's unique voice input through a microphone or notifies an emergency state through a speaker, and the user is in a privacy place In this case, the projected image may be invalidated or the image may be prohibited from being transmitted, and the user's location may be displayed in a pre-stored drawing of the blind area when the user is in the blind area.
Another aspect of the control service system according to an embodiment of the present invention, a wearable communication device for photographing the front and rear images of the user through the front and rear cameras; a user electronic device connected to the wearable communication device through short-range communication; and control for being connected to the user electronic device through short-distance communication or long-distance communication, receiving the front and rear images from the wearable communication device through the user electronic device, and monitoring the situation of a user wearing the wearable communication device It may include a system server.
The wearable communication device receives, from a GPS satellite, the user's Global Positioning System (GPS) information, which encrypts the image captured by the front and rear cameras so that the user cannot see it, and receives the encrypted image and the GPS information Receives user location information from the GPS satellite, which automatically provides an emergency signal by detecting the user's unique voice input through a microphone or notifies an emergency state through a speaker, and the user is in a privacy place In this case, the projected image may be invalidated or the image may be prohibited from being transmitted, and the user's location may be displayed in a pre-stored drawing of the blind area when the user is in the blind area.
As an embodiment, the wearable communication device may include: an infrared LED device for photographing the front of the front camera even in the absence of light; and a biosensor for collecting biometric information including body temperature information and electrocardiogram information of the user. The user's emergency situation may be detected based on the encrypted image, the GPS information, and the biometric information, and the user's location may be tracked by the GPS information.
In an embodiment, the control service system may further include a storage device that automatically recognizes a user of the wearable communication device and automatically charges the wearable communication device when the wearable communication device is accommodated. The control system server may manage device information of the wearable communication device and state information of the user through the user's identity authentication.

The control service system using a wearable communication device according to an embodiment of the present invention captures the user's front-rear and left-right directions, and quickly provides emergency situation information, so that the user or surrounding emergency situation can be quickly identified.

1 is a block diagram showing a control service system using a wearable communication device according to an embodiment of the present invention.
2A and 2B are diagrams exemplarily illustrating the wearable communication device illustrated in FIG. 1 .
FIG. 3 is a diagram illustrating another embodiment of the wearable communication device illustrated in FIG. 1 .
4 is a block diagram illustrating an internal configuration of the wearable communication device illustrated in FIGS. 2A and 2B .
FIG. 5 is a flowchart illustrating an operation method of the emergency control service system shown in FIG. 1 .
6 to 8 exemplarily show a state in which the wearable communication device shown in FIGS. 2A and 2B is worn.
9 is a block diagram illustrating another embodiment of a control service system including the wearable communication device shown in FIG. 1 .
FIG. 10 is a block diagram exemplarily illustrating the user electronic device shown in FIG. 9 .
11 is a block diagram exemplarily showing the control system server shown in FIG. 9 .
12 is a flowchart for exemplarily explaining a member registration and authentication method among operations of the member information management unit shown in FIG. 11 .
13 is a flowchart for exemplarily explaining an operation method of the application management unit shown in FIG. 11 .

Hereinafter, embodiments of the present invention will be described clearly and in detail to the extent that those skilled in the art can easily practice the present invention.
1 is a block diagram showing a control service system using a wearable communication device according to an embodiment of the present invention. Referring to FIG. 1 , the control service system 100 includes a wearable communication device 110 , a control system 120 , and a situation response system 130 .
The wearable communication device 110 may be implemented in various forms. For example, the wearable communication device 110 may be in the form of a neckband worn on the neck, a headband worn on the head, or an earring type worn on one or both ears so that the user can freely use both hands when performing sports or leisure activities. , it can be implemented in various ways, such as a form of mounting to a device such as a helmet.
The wearable communication device 110 may capture an image (eg, an image in all directions, such as front, rear, left, and right) of the user, compress it, and transmit it to the control system 120 . In addition, the wearable communication device 110 may collect various kinds of situation information (eg, image information, sound information, location information, etc.) of the user and transmit it to the control system 120 . To this end, the wearable communication device 110 may include hardware or software capable of implementing the same.
The wearable communication device 110 is a mobile device or handheld device such as a mobile phone, a satellite phone, a wireless phone, a Session Initiation Protocol (SIP), a Wireless Local Loop (WLL) station, a smart phone, a tablet PC, a PDA (Personal Digital Assistant), etc. It may be a device. The wearable communication device 110 may transmit/receive signals or information data using various wireless communication methods. For example, the wearable communication device 110 may transmit and receive data using short-distance communication such as Wi-Fi, Bluetooth, NFC (Near Field Communication), beacon, etc., or long-distance communication such as LTE. have.
The control system 120 may manage or control an emergency situation by using various types of situation information of the user transmitted from the wearable communication device 110 . Upon receiving emergency situation information from the wearable communication device 110 , a pop-up window may be displayed on the monitor of the control system 120 . Also, when a pop-up window appears on the monitor of the control system 120 , location information of the wearable communication device 110 may also be displayed. The control system 120 may be installed in a management center for the visually impaired or a 119 general situation room. The control system 120 may provide situation information to the situation response system 130 in order to protect the user or surrounding people in an emergency situation.
The situation response system 130 may take necessary measures to protect the user or surrounding people. The situation response system 130 may be connected to a communication terminal device possessed by the user's guardian through wired or wireless communication. The situation response system 130 may provide crisis situation information to the communication terminal device of the guardian. Meanwhile, the situation response system 130 may control to transmit various types of situation information of the user to a rescue or safety center such as 119 when there is a request from the guardian's communication terminal device.
When the user is in an emergency situation, the situation response system 130 may issue a dispatch command to an appropriate situation response organization. For example, in the event of an emergency for the user or people nearby, the emergency situation may be notified to security personnel or the police, or a location tracking drone may be sent to control automatic tracking. In addition, the situation response system 130 may directly command or control an emergency situation using an indoor positioning technology and a two-way communication technology.
2A and 2B are diagrams exemplarily illustrating the wearable communication device illustrated in FIG. 1 . The wearable communication device 110 shown in FIGS. 2A and 2B is implemented in the form of a neckband. The neckband-type wearable communication device 110 may be designed to be lightweight and made of a light material so that it does not cause discomfort or hindrance to outdoor activities for a long time. The user may use the wearable communication device 110 while hanging from the neck.
Meanwhile, the wearable communication device 110 illustrated in FIG. 1 may be used in the form of a headband. Since the wearable communication device 110 according to an embodiment of the present invention is hung on the neck or head, the user can freely use both hands. The wearable communication device 110 according to an embodiment of the present invention can be conveniently used for outdoor and leisure life such as mountain climbing, walking around the circumference, and riding a bicycle.
Referring to FIG. 2A , the wearable communication device 110 includes a Light Emitting Diode (LED) device 111 , a front camera 112 , a connector 113 , an emergency button 114 , a microphone 115 , and a speaker 116 . , a rear camera 117 , a volume control button 118 , may include a battery display unit 119 .
The LED device 111 may be an infrared LED device capable of viewing or photographing the situation in front even at night. The LED device 111 has a low power loss and a long lifespan. The LED device 111 allows a high-quality image with low noise to be captured when the surrounding environment is dark. The LED device 111 may be connected to the body of the wearable communication device 110 through the connection part 113 . The LED device 111 may illuminate the front and left and right views. The LED device 111 may enable image capture by the front camera 112 even in a place or time zone where light is not sufficient.
The front camera 112 may be connected to the body through the connection part 113 . The front camera 112 may photograph the front or left and right images of the user. The front camera 112 may be an infrared camera, a thermal imaging camera, a depth measurement camera, or a high resolution camera. In FIG. 2A , the front camera 112 and the LED device 111 may change positions. That is, the LED device 111 may be located at the position of the front camera 112 of FIG. 2A , and conversely, the front camera 112 may be located at the position of the LED unit 111 of FIG. 2A .
In addition, as shown in FIG. 2B , the LED device 111 and the front camera 112 may be positioned in pairs on the front portion of the wearable communication device 110 . That is, the LED device 111 and the front camera 112 are together at the position of the front camera 112 of FIG. 2A , and the LED device 111 and the front camera 112 are also located at the position of the LED device 111 of FIG. 2A . can be together
As described above, the wearable communication device 110 shown in FIGS. 2A and 2B may be used in the form of a neckband hung around the neck or a headband type worn on the head, depending on the wearing form. The wearable communication device 110 may adjust the rotation direction and angle of the LED device 111 and the front camera 112 so that images of the front or left and right sides can be captured regardless of the wearable form.
The connector 113 connecting the LED device 111 and the body allows to adjust the direction of light output from the LED device 111 . In addition, the connector 113 connecting the front camera 112 and the body allows the front camera 112 to adjust the shooting direction and angle of the image captured by the front camera 112 . The connection unit 113 adjusts the directions of the LED device 111 and the front camera 112, so that the wearable communication device 110 can be worn in any shape, and images of the front or left and right can be captured.
In addition, the connection unit 113 controls the direction of the LED device 111 and the front camera 112, so that all images in the front and left and right can be photographed without a blind spot of the photographed image. That is, the wearable communication device 111 according to an embodiment of the present invention uses the connection unit 113 to adjust the direction and angle of the LED device 111 and the front camera 112, so that the direction of light or the image is taken. The scope is free.
The emergency button 114 may be used in an emergency situation or when an emergency situation occurs. When the user presses the emergency button 114 in an emergency situation, emergency situation information may be transmitted to the control system (see FIG. 1 , 120 ). Here, the emergency situation information may be an image captured by the front camera 112 or the rear camera 117 . In this case, the user may perform voice communication through the microphone 115 and the speaker 116 . The user's voice communication content may be stored in an internal memory of the wearable communication device 110 or a storage medium of the control system 120 .
On the other hand, when the user presses the emergency button 114 in an emergency situation, a warning sound informing an emergency situation may be generated. The warning sound can be set in advance by the user. The user can select and set alert sounds that can evoke the surroundings, such as a siren sound, a whistle sound, or a voice such as 'Help'. The user may inform the surroundings of an emergency situation or an emergency situation through the emergency button 114 and receive prompt assistance.
The microphone 115 and the speaker 116 may be turned on/off through the emergency button 114 . That is, when the user presses the emergency button 114 , the microphone 115 and the speaker 116 are operated, and the user can perform voice communication with the control system 120 . Meanwhile, the microphone 115 and the speaker 116 may automatically operate in an emergency situation. The microphone 115 may detect a unique scream sound or a user's sound wave band and automatically transmit emergency situation information to the control system 120 or notify the surroundings through the speaker 116 . In addition, the microphone 115 may detect a word set in advance by the user (eg, 'help me') and notify the emergency situation information to the control system 120 or the surrounding area.
The rear camera 117 may take a rear image of the user. The rear camera 117 may be an infrared camera, a thermal imaging camera, or a high-resolution camera. The rear camera 117, like the front camera 112, can adjust the shooting direction and angle. On the other hand, the LED device 111 may be added to the position of the rear camera 117 like the front camera 112 .
The volume control button 118 may adjust the volume of the sound output through the speaker 116 . Pressing one end of the volume control button 118 may increase the sound, and pressing the other end may decrease the sound. Meanwhile, the volume control button 118 may adjust the volume through the number of times it is pressed. For example, if the volume control button 118 is 1 when the volume control button 118 is pressed once, the volume can be doubled when pressed twice, and tripled when the volume control button 118 is pressed three times. And when the volume control button 118 is long pressed, the speaker 116 may be turned off or the speaker 116 may be muted.
The battery display unit 119 may display battery usage or usage time of the wearable communication device 110 . The wearable communication device 110 according to an embodiment of the present invention may include a rechargeable battery (not shown) therein. The rechargeable battery may be charged via a charging power supply. The battery display unit 119 may inform the user of the battery charge state.
As described above, the wearable communication device 110 according to an embodiment of the present invention captures the user's front-rear and left-right directions, and quickly provides emergency situation information, so that the user or surrounding emergency situation can be quickly identified. makes it possible In addition, the user of the wearable communication device 110 of the present invention is worn on the body in the form of a neckband or a headband, so that when performing leisure activities such as walking or exercising, the user can freely use both hands.
In addition, the wearable communication device 110 according to an embodiment of the present invention periodically or aperiodically or periodically or aperiodically monitors the image captured by the front camera 112 and the rear camera 117 and the user's GPS information. can be sent to The image and GPS information provided to the control system 120 through the wearable communication device 110 of the present invention can ensure security stability that can be used for court documents.
In addition, the user of the wearable communication device 110 may perform two-way communication with the control system 120 or the situation response system 130 through the microphone 115 and the speaker 116 . The wearable communication device 110 may perform a mobile communication function through a communication method such as 3G, 4G, 5G, or LTE. In addition, the wearable communication device 110 according to an embodiment of the present invention may be waterproofed to protect an internal circuit in case of falling into water or to be used in water.
3 shows an example in which a wearable communication device according to an embodiment of the present invention is used in the form of an earring. Referring to FIG. 3 , the wearable communication device 110a may include an LED device 111a , a front camera 112a , an earring 113a , a body 114a , and a rear camera 117a . The main body 114a may include the emergency button described with reference to FIGS. 2A and 2B , a microphone, a speaker, a volume control button, and a battery display unit. In addition, the ear-type wearable communication device 110a may include a biosensor in the main body 114a to check the wearer's physical condition or health condition.
4 is a block diagram illustrating an internal configuration of the wearable communication device shown in FIGS. 2A and 2B . The wearable communication device 110 includes a communication circuit 210 , a camera module 220 , an image processing circuit 230 , a GPS device 240 , a biosensor 250 , a storage device 260 , and a battery 270 . may include The internal configuration of the wearable communication device 110 may be water- and dust-proof.
The communication circuit 210 allows the wearable communication device 110 to communicate with the control system (see FIG. 1 , 120 ). The wearable communication device 110 uses the communication circuit 210 to periodically or non-periodically control an image captured through the front camera 112 or the rear camera 117, user GPS information, user bio information, and the like. can be transmitted to the system 120 . Also, the wearable communication device 110 may perform voice communication with the control system 120 or another communication device through the communication circuit 210 . The communication circuit 210 may perform a communication function using methods such as 3G, 4G, 5G, LTE, Wi-Fi, Bluetooth, and a beacon. The communication circuit 210 may include components (eg, a transmission/reception circuit, an antenna, etc.) for performing such a communication function.
The number of camera modules 220 may vary according to the number of the front camera 112 and the rear camera 117 . The camera module 220 may provide an image captured by the front camera 112 and the rear camera 117 to the image processing circuit 230 . The image processing circuit 230 may convert an image input through the camera module 220 into an electrical image signal. The wearable communication device 110 may store the image signal converted through the image processing circuit 230 in the storage device 260 or transmit it to the control system 120 according to the operation of the emergency button 114 .
The image processing circuit 230 may process image data provided through the camera module 220 in various ways. For example, the image processing circuit 230 may remove noise from image data. An image input through the camera module 220 may include unwanted noise caused by a user's movement or shaking. The image processing circuit 230 may correct the shaking by using an optical stabilizer, an image sensor, or application software (eg, Hyperlapse).
Meanwhile, the image processing circuit 230 may protect the privacy of the user or surrounding people in various ways. For example, the image processing circuit 230 may encrypt the provided image data. The encrypted image data may be stored in the storage device 260 or provided to the control system 120 . In this case, the image processing circuit 230 may double-encrypt the image data. Because the image is encrypted, the user cannot view the captured image. The image processing circuit 230 may or may not encrypt the captured image according to the user's intention or approval. Also, the image processing circuit 230 may set to delete the captured image according to the user's intention or approval.
In addition, the image processing circuit 230 may automatically invalidate the captured image or prevent the image from being transmitted so that not only the user but also other people can view the image in a privacy protection place such as a toilet, a shower room, or a changing room. The image processing circuit 230 may receive user location information from the GPS device 240 and determine whether the user moves to a privacy protection location. The image processing circuit 230 may safely protect people's privacy in a privacy protection place by using user location information.
Also, the image processing circuit 230 may track only a specific person and make other people invisible. The image processing circuit 230 may 3D scan only a specific person designated by the user and then track only that person. The wearable communication device 110 according to an embodiment of the present invention may protect the privacy of surrounding people by tracking and observing a specific person. Through this, the present invention can reduce the size of image data and reduce the amount of data transmission.
The image processing circuit 230 may compress image data. The wearable communication device 110 according to an embodiment of the present invention can reduce the size of data through image data compression, and can reduce the amount of data stored in the storage device 260 or data transmitted to the control system 120 . have.
The image processing circuit 230 analyzes the provided image data, and when there is a blind area (eg, the image is obscured by the user's clothing, hat, or backpack for a certain period of time or the like, or is blind due to incorrect wearing of the neckband) area), the user may be informed that the image is not being taken properly by means of an alarm sound or vibration. Also, when the user enters the room or is in the blind area, the image processing circuit 230 may display the user's location on a pre-stored 3D drawing of the room or the blind area. Through this, the present invention can provide accurate location information no matter where the user is located.
The GPS device 240 may receive the user's location information (or GPS information) from a GPS satellite in real time. For example, the GPS information may include coordinates such as latitude, longitude, and altitude of the user. The GPS information may be provided to the control system 120 through the communication circuit 210 . The GPS information may be provided in synchronization with the image, or the image provided by the control system 120 may be synchronized with the GPS information. Through this, the control system 120 can easily grasp the provided image and the user's location information when an emergency situation occurs. The wearable communication device 110 may provide voice guidance to a facility using short-distance communication such as the GPS device 240 or a beacon.
The biosensor 250 may measure biometric information such as a user's body temperature, sweat, pulse, or electrocardiogram information. The measured user's biometric information may be provided to the control system 120 . The control system 120 may analyze the provided biometric information to know the user's health state or emergency situation, and may transmit an alarm sound to the user in an emergency or notify the situation response system (see FIG. 1 , 130). .
The wearable communication device 110 according to an embodiment of the present invention may include other sensors in addition to the biosensor 250 . For example, the wearable communication device 110 may include a location detection sensor capable of tracking the location of the user. The position detection sensor may include an acceleration sensor capable of detecting the user's acceleration, a gyro sensor capable of detecting the user's angular velocity, and the like. Data sensed by the accelerometer or gyro sensor may be changed by changes in ambient temperature. The wearable communication device 110 may further include a temperature sensor for compensating for a value changed by the ambient temperature. In addition, the wearable communication device 110 may recognize a surrounding situation by embedding a low-resolution thermal sensor. The control system (see FIG. 1 , 120 ) or the situation response system (see FIG. 1 , 130 ) may receive surrounding context information from the wearable communication device 110 , and may take a response action appropriate to the situation.
The data sensed by the position detection sensor may be provided to the control system 120 through the communication circuit 210 . The location sensor can be effectively used when the user is in an area where the GPS signal is weak, such as a cave or deep forest. Based on the last received GPS information and information such as the user's acceleration and angular velocity, the control system 120 may track the user's location. Alternatively, the control system 120 may detect an emergency situation such as a sudden fall of the user based on the user's acceleration and angular velocity information. Also, the wearable communication device 110 may include a voice recognition sensor. The voice recognition sensor may recognize a specific word. For example, the voice recognition sensor may recognize a specific voice notifying an emergency situation, such as 'help' or 'save me', and provide a voice signal to the control system 120 . The control system 120 may know the user's emergency situation, etc. through the provided voice signal, and may allow the emergency situation to be taken by the emergency response system (see FIG. 1 , 130 ).
The storage device 260 may store an image captured by the front camera 112 or the rear camera 117 , image-processed data, or encrypted or compressed data. The storage device 260 may be implemented as a non-volatile memory such as a flash memory or a volatile memory for temporarily storing data. The storage device 260 may also store the user's biometric information or location information. In addition, the storage device 260 may store an alarm sound for notifying the user of an emergency situation, an emergency situation voice preset by the user, and the like.
The wearable communication device 110 may have a built-in battery 270 . The battery 270 may be charged by receiving external power. The battery 270 may receive a charging voltage from an external electronic device through a household voltage or a USB terminal. In addition, the battery 270 may be charged without a wire using a wireless charging method or may be charged by itself using sunlight or the like. The battery 270 may be designed to be lightweight to be suitable for the wearable communication device 110 .
The battery 270 may be automatically charged by a means capable of accommodating the wearable communication device 110 . For example, the wearable communication device 110 may be borrowed from an institution that manages a park or a walking trail, and may be returned to the management institution after a certain period of time has elapsed. The management organization may receive the wearable communication device 110 back by using the unmanned receiver. The unmanned receiver may perform personal recognition through the MAC address of the wearable communication device 110 . In addition, the unmanned receiver may automatically charge the battery 270 of the wearable communication device 110 using a charging device installed in the storage device.
Meanwhile, the battery 270 may enter a low power mode according to usage. By adjusting the battery power mode, the wearable communication device 110 may effectively increase the battery usage time. For example, when the usable amount of the battery 270 reaches 10% of the total, the battery 270 may enter a low power mode. In the low power mode, only essential operations capable of minimizing power consumption of the battery are performed. In addition, the wearable communication device 110 according to an embodiment of the present invention has a communication circuit 210 and a camera module 220 inside the front side of one of the left and right sides of the wearable communication device 110 in order to balance the design and weight. built-in, and the battery 270 may be built-in inside the front surface of the other side.
The wearable communication device 110 may include a self-diagnosis function. When the wearable communication device 110 malfunctions, the cause of the malfunction may be analyzed through an internally installed self-diagnostic program, and the analysis result may be provided to the control system 120 . The control system 120 may provide a malfunction situation to the situation response system 130 or may provide device failure information to a company operating the emergency control service system 100 .
FIG. 5 is a flowchart illustrating an operation method of the emergency control service system shown in FIG. 1 . The emergency control service system 100 according to an embodiment of the present invention includes a wearable communication device 110 , a control system 120 , and a situation response system 130 .
In step S110 , user information may be collected in real time and transmitted to the control system 120 periodically or aperiodically. Here, the user information includes an image captured by the front camera 112 or the rear camera 117 , the user's GPS information, and biometric information collected through the biosensor 250 or location information collected through the position detection sensor. etc. may be included.
In step S120 , the control system (see FIG. 1 , 120 ) determines whether an emergency has occurred to the user. The control system 120 may determine whether an emergency situation has occurred based on user information provided from the wearable communication device 110 . Alternatively, the control system 120 may determine that an emergency situation has occurred when the user presses the emergency button 114 or the microphone 115 detects an emergency situation by itself and sends an emergency signal. When an emergency situation occurs, a pop-up window may appear on the monitor of the control system 120 , and user location information or biometric information may be displayed. The control system 120 may determine an emergency situation through a pop-up window or a warning sound. In step S120, if the emergency situation does not occur, step S110 is repeated. That is, the wearable communication device 110 provides user information to the control system 120 , and the control system 120 monitors whether an emergency situation occurs based on the user information. When an emergency situation occurs, step S130 is performed.
In step S130 , the control system 120 notifies that an emergency situation has occurred. When an emergency situation occurs, the control system 120 may manage the emergency situation using user information transmitted from the wearable communication device 110 . The control system 120 may provide emergency situation information to the situation response system 130 to protect a user in an emergency situation or people around him or her.
In step S140, the situation response system 130 may take necessary measures to protect the user. For example, the situation response system 130 may transmit a warning sound to the user or send a warning sound through an external speaker in the vicinity of the user to protect the user or people around the user. In addition, the situation response system 130 may contact the user's guardian to take necessary measures. Additionally, the situation response system 130 may transmit user information to a rescue or safety center such as 119 or the like. In addition, when the user is in an emergency situation, the situation response system 130 may issue a dispatch command to an appropriate situation response organization.
6 to 8 exemplarily show a state in which the wearable communication device shown in FIGS. 2A and 2B is worn. 6 is a state wearing in the form of a neckband, FIG. 7 is a state wearing in the form of a headband, and FIG. 8 is a state wearing it in a helmet.
Referring to FIG. 6 , the user may wear the wearable communication device 110 in the form of a neckband hanging from the neck. The user may adjust the shooting direction and angle of the LED device 111 and the front camera 112 by adjusting the connection part (refer to FIG. 1 , 113 ). In addition, the user may adjust the shooting direction and angle of the rear camera 117 .
Referring to FIG. 7 , the user may wear the wearable communication device 110 in the form of a headband. 6 , the user may adjust the shooting direction and angle of the LED device 111 , the front camera 112 , and the rear camera 117 . The wearable communication device 110 according to an embodiment of the present invention may photograph the user's front, back, left, and right images regardless of the wearing shape. 6 and 7 , the front camera 112 may photograph the user's front A and B directions, and the rear camera 117 may photograph the user's rearward C direction.
The wearable communication device 110 may be worn in various ways other than a neckband shape or a headband shape. Referring to FIG. 8 , the wearable communication device 110 may be mounted on a helmet or embedded in the helmet. A helmet is used for safety accidents at a construction site, and by mounting or embedding the wearable communication device 110 in the helmet, it is possible to quickly cope with an emergency accident. In the control system 120 , it is possible to know whether the construction is being performed properly or the like.
In addition, in the field of firefighting, since the firefighter wears the wearable communication device 110 on a helmet, the location of the firefighter can be displayed on a map linked to the map in case of a fire, or the fire can be extinguished by identifying the location of a colleague. It is possible to effectively perform firefighting work under the command of the control system 120 . In the field of defense, by wearing the wearable communication device 110 on a helmet during training or in a wartime situation, it is possible to prepare for a safety accident of a soldier and perform military actions safely and effectively.
The wearable communication device 110 according to an embodiment of the present invention may be used in various fields other than construction, firefighting, or national defense. For example, in a delivery field such as a post office or courier service, the wearable communication device 110 may be used to solve the problem of burden of proof, which often occurs after delivery. In the security field, the wearable communication device 110 may be used for security or criminal search using a face recognition function.
9 is a block diagram illustrating another embodiment of a control service system including the wearable communication device shown in FIG. 1 . The control service system 1000 may include a wearable communication device 110 , a user electronic device 1100 , and a control system server 2000 . Referring to FIG. 9 , the wearable communication device 110 may communicate with the user electronic device 1100 . Here, the user electronic device 1100 may be a portable electronic device that the user can carry, such as a smart phone or a tablet PC.
The wearable communication device 110 may communicate with the user electronic device 1100 through a communication circuit (refer to FIG. 4 , 210 ). The wearable communication device 110 captures images around the user (eg, images in all directions, such as front, rear, left, right, etc.), and transmits the image data to the user electronic device 1100 through short-range communication such as Bluetooth. can provide The user electronic device 1100 may transmit image data to the control system server 2000 through long-range wireless communication such as LTE. In addition, the wearable communication device 110 may collect various kinds of situation information (eg, image information, sound information, location information, etc.) of the user and transmit it to the control system server 2000 through the user electronic device 1100 . have. To this end, the user electronic device 1100 may include hardware or software capable of implementing the same.
FIG. 10 is a block diagram exemplarily illustrating the user electronic device shown in FIG. 9 . The user electronic device 1100 may be implemented as a mobile communication device such as a tablet PC or a smart phone. 10 , a smart phone is illustrated as an example. Referring to FIG. 10 , the user electronic device 1100 may include a camera unit 1105 and a screen unit 1110 . Also, the user electronic device 1100 may include various hardware or software for internal operation. For example, the user electronic device 1100 may include a wireless communication unit 1111 , an input/output interface unit 1112 , an operating system 1113 , a user application 1114 , and a memory 1315 .
The wireless communication unit 1111 may allow the user electronic device 1100 to perform wireless communication through a network. The user electronic device 1100 may exchange data with another user device or an external device such as a server of the control system server 2000 through the wireless communication unit 1111 . The wireless Internet unit 1111 may include a wireless Internet module such as a 3G to 5G module, an LTE module, an LTE-A module, a Wi-Fi module, and a Bluetooth module.
The input/output interface 1112 may be used to input letters or numbers to the user electronic device 1100 or to provide content to a user. The input/output interface unit 1112 may be connected to an internal input device such as an on-screen keyboard or an external input device (eg, a keyboard or an electronic pen) using wired or Bluetooth. In addition, the input/output interface unit 1112 may be connected to an internal output device such as the display 1110 or an external output device such as a monitor or printer using wired or Bluetooth. The user may input user information or a password by using the input/output interface 1112 when installing the user application 1114 or registering or logging in as a member.
The operating system 1113 may provide an execution environment for the user application 1114 . The user application 1114 may be installed and executed in the user electronic device 1100 through an Internet network or a storage medium. The user application 1114 may be installed and operated on the operating system 1113 . The user application 1114 may provide a user interface for setting and managing service use through a user's membership registration or login. The user application 1114 may transmit/receive data through the operating system 1113 and the input/output interface unit 1112 .
The memory unit 1115 may provide a storage space for driving the operating system 1113 . The memory unit 1115 may operate as a driving memory required to download and install the user application 1114 . The memory unit 1115 may store external data input through the wireless communication unit 1111 or internal data to be provided externally. Also, the memory 1115 may store user information (eg, a user ID or password) using the user application 1114 . The memory unit 1115 may include a nonvolatile memory that retains data even when power is turned off. The memory unit 1115 may store not only a password, but also a program such as a user application 1134 or an operating system 1133 .
The user electronic device 1100 shown in FIG. 10 downloads the user application 1114 from the control system server 2000 shown in FIG. 9 or a program to be executed through the user application 1114 through a storage medium (hereinafter, a control service). program) can be provided. The user electronic device 1100 may control the operation of the wearable communication device 110 by using the user application 1114 . For example, the user electronic device 1100 may input user information through a control service program. In addition, when the user electronic device 1100 receives a notification signal from the control system server 2000 , the user electronic device 1100 displays a message to the user through the screen unit 1110 using vibration, alarm, or text, or the wearable communication device 110 . ) to provide a message.
11 is a block diagram exemplarily showing the control system server shown in FIG. 9 . Referring to FIG. 11 , the control system server 2000 may include a communication unit 2100 , a storage unit 2200 , and a control unit 2300 . The control system server 2000 may provide a user application to the user electronic device 1100 to manage members or allow a customer to execute a control service program. Also, the control system server 2000 may receive user information from the user electronic device 1100 and manage the information input from the wearable communication device 110 . In addition, the control system server 2000 may manage a user's emergency situation, etc., and may provide services such as safety measures when a user requests it.
The communication unit 2100 enables communication with the user electronic device 1100 . Communication unit 2100 is CDMA (code division multiple access), GSM (global system for mobile communication), WCDMA (wideband CDMA), CDMA-2000, TDMA (time division multiple access), LTE (long term evolution), Wimax (worldwide) Wired/wireless communication such as interoperability for microwave access), wireless LAN (WLAN), ultrawide band (UWB), Bluetooth, wireless display (WI-DI), the Internet, and LAN may be supported.
The communication unit 2100 may include an input unit 2110 and an output unit 2120 . The input unit 2110 may receive user information, device information of the wearable communication device, user status information, and the like from the user electronic device 1100 . The input unit 2110 may provide user information, device information, status information, and the like to the storage unit 2200 or the control unit 2300 . The output unit 2120 may provide a user application to the user electronic device 1100 , and may provide user status information or safety information when there is a user request.
The storage unit 2200 may store information received through the communication unit 2100 . The storage unit 2200 may include a member DB 2210 , a device DB 2220 , and a status DB 2230 . The member DB 2210 may store user information input from the user electronic device 1100 , and may store member ID, name, resident registration number, user electronic device ID, contact information, and the like. In addition, the member DB 2210 may store basic information such as the user's age, gender, region, and country, and body information such as weight, height, and waist circumference.
The device DB 2220 may store information about a manufacturer, a manufacturing date, a manufacturing number, a device number, etc. of the wearable communication device 110 . Also, the device DB 2220 may store a borrower, a rental location, a rental date, a return date, and the like. The status DB 2230 may store health information such as a pulse or body temperature provided by the user, or user status information such as location information of the user.
The controller 2300 may include a processor 2310 , an application management unit 2320 , a member information management unit 2330 , a wearable communication device management unit 2340 , and a user state information management unit 2350 . The controller 2300 may be implemented as hardware or software. For example, the processor 2310 is implemented in hardware, and the application management unit 2320 , the member information management unit 2330 , the wearable communication device management unit 2340 , and the user state information management unit 2350 are algorithms or It can be implemented in software.
The processor 2310 may control the overall operation of the control system server 2000 . For example, the processor 2310 accesses the member DB 2210 , the device DB 2220 , and the status DB 2230 of the storage 2200 , the member information management unit 2330 , and wearable communication. By executing an algorithm or program command constituting the device management unit 2340 and the user state information management unit 2350 , the controller 2300 may be driven. In addition, the processor 2310 may include controllers, interfaces, graphic engines, and the like for controlling various components of the control system server 2000 . The processor 2310 may be provided in the form of a system-on-chip (SoC), an application specific integrated circuit (ASIC), a field programmable gate array (FPGA), or the like.
The application management unit 2320 may support to provide or install a user application to the user electronic device 1100 . The application management unit 2320 may execute a control service program through the user electronic device 1100 in which the user application is installed. For example, the application management unit 2320 may execute the control service program described with reference to FIGS. 2 to 8 through the user electronic device 1100 .
The member information management unit 2330 may access the member DB 2210 of the storage 2200 to manage user information. When a new member is registered through the user electronic device 1100 , the member information management unit 2330 may assign an ID of the new member and store the new member ID and name in the member DB 2210 . When user information of an existing member is changed, the member information management unit 2330 may update user information stored in the member DB 2210 .
The wearable communication device management unit 2340 may access the device DB 2220 of the storage 2200 to manage device information on the wearable communication device 110 . The wearable communication device management unit 2340 is configured to enter the device DB 2220 when information about a usage history such as a rental date, a return date, and a rental location of the wearable communication device 110 is input through the user electronic device 1100 . Device information can be saved by date. The wearable communication device management unit 2340 may update device information stored in the device DB 2220 when existing information is changed.
The user state information management unit 2350 may access the state DB 2230 of the storage 2200 to manage the user's health state, location state, and the like. When user status information is provided through the user electronic device 1100 , the user status information management unit 2350 may store the user status information in the status DB 2230 and manage status details of the corresponding user. The user state information management unit 2350 may provide the state information stored in the state DB 2230 to the user electronic device 1100 when there is a request from the user.
12 is a flowchart for exemplarily explaining a member registration and authentication method among operations of the member information management unit shown in FIG. 11 . The member information management unit 2330 of the control system server 2000 may manage to register as a member through a self-authentication procedure.
In step S110 , the user may register as a member using the user electronic device 1100 . A user may access the control system server 2000 or register as a member through a user application. The member information management unit 2330 may request personal information such as the user's name, date of birth, resident number, phone number, e-mail address, and the like, when registering for membership. The user may sign up for membership in a manner in response to a request provided by the member information management unit 2330 .
In step S120 , the user may perform a user authentication procedure using the user electronic device 1100 . Identity authentication may be simply performed by a mechanical method of inputting personal information such as a user name, social security number, phone number, or the like, or may be performed through an official authentication method used in a bank or the like. In addition, user authentication may be performed through biometric authentication such as iris or fingerprint or electronic authentication such as mobile phone authentication.
In step S130, based on the authentication information input by the user, it may be determined whether the authentication is successful. The member information management unit 2330 may determine whether authentication succeeds by comparing the authentication information input by the user with the authentication information stored in the member DB 2210 (eg, public authentication). If the identity authentication is successful, step S140 may be performed, and if it fails, step S132 may be performed.
In step S132, when authentication is not successful in step S130 (NO), it is possible to determine the number of authentication failures. The member information management unit 2330 may determine whether the number of authentication failures of the user has been repeated N times. If the number of authentication failures is not repeated N times, step S120 is performed. That is, the member information management unit 2330 may guide the user to perform the identity authentication procedure again. However, if the number of authentication failures is repeated N times, step S134 is performed.
In step S134 , the member information management unit 2330 may guide authentication failure. When the user repeatedly fails to authenticate the user N times, the member information management unit 2330 may notify the user that authentication has failed and end the identity authentication procedure. In this case, the user may request the operator of the control system server 2000 to perform user authentication again.
In operation S140 , the member information management unit 2330 may provide a member ID to the user through the user electronic device 1100 . The member ID can be used when using the control service program. Member ID can be issued in the following order. Referring to the example of FIG. 11 , in step S141 , the user may access the control system server 2000 using the user electronic device 1100 . In step S142, the member information management unit 2330 may request user information. The user may input user information using the user electronic device 1100 . In step S143, the user may input a password. Here, the user information and the password may be the same information as the information input in the membership registration step (S110).
13 is a flowchart for exemplarily explaining an operation method of the application management unit shown in FIG. 11 . Referring to FIG. 13 , the application management unit 2320 may provide a user application or support installation of a control service program to the user electronic device 1100 .
In operation S210 , the application management unit 2320 may install an execution program (eg, a control service program) in the user electronic device 1100 . The execution program may be stored and installed in the memory unit 1115 of the user electronic device 1100 through a removable storage medium (eg, USB or memory card) or by downloading from the control system server 2000 . The execution program may include authentication data for self-authentication of the user electronic device 1100 described with reference to FIG. 12 .
In step S220 , the application management unit 2320 may determine whether the installation of the execution program is successful. If the installation of the execution program fails (NO), the application management unit 2320 may guide the program installation failure (S225). If the installation of the control service program is successful (YES), the application management unit 2320 may perform step S230.
In step S230 , the application management unit 2320 may check whether the communication unit 2100 , the storage unit 2200 , and the control unit 2300 of the control system server 2000 operate normally. The application management unit 2320 may check whether the customer can normally use a user application or a control service program provided by the control system server 2000 by using the user electronic device 1100 .
In step S231 , the application management unit 2320 may check the operation of the communication unit 2100 of the control system server 2000 . First, the application management unit 2320 may check whether the user electronic device 1100 is smoothly connected to the control system server 2000 through the operation of the communication unit 2100 . The communication unit 2100 may receive user information or device information from the user electronic device 1100 .
In step S232 , the application management unit 2320 may check the operation of the storage unit 2200 of the control system server 2000 . The application management unit 2320 may check whether the storage unit 2200 normally stores the information received from the communication unit 2100 in the member DB 2210 , the device DB 2220 , and the status DB 2230 . That is, user information input from the user electronic device 1100 is stored in the member DB 2210 , device information on the wearable communication device 110 of the user is stored in the device DB 2220 , and the status DB 2230 . It can be checked whether state information about the user's health state or location state is stored in the .
In step S233 , the application management unit 2320 may check the operation of the controller 2300 of the control system server 2000 . The application management unit 2320 determines whether the processor 2310 of the control unit 2300 operates normally, and determines whether the member information management unit 2330 , the wearable communication device management unit 2340 , and the user state information management unit 2350 operate. can confirm. The application management unit 2320 may check whether the control service program operates according to the program command.
The above are specific embodiments for carrying out the present invention. In addition to the above-described embodiments, the present invention will also include simple design changes or easily changeable embodiments. In addition, the present invention will include techniques that can be easily modified and implemented using the embodiments. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be defined by the claims described below as well as the claims and equivalents of the present invention.

Claims (6)

In the control system server for monitoring the situation of a user wearing a wearable communication device that shoots images of the front and rear of the user through the front and rear cameras,
Connected to a user electronic device through short-distance communication or long-distance communication, receiving user information, device information of the wearable communication device, and user state information from the user electronic device, and capturing the photographed by the wearable communication device through the user electronic device Communication unit for receiving the front and rear images;
The user information input from the user electronic device, the device information, and the user state information are stored, and the user information includes at least one information about a user ID, a name, a resident registration number, a user electronic device ID, and a contact information, and the The device information includes at least one information about a manufacturer, a manufacturing date, a manufacturing number, and a device number of the wearable communication device, and the user status information includes health information related to a pulse or body temperature provided by the user or location information of the user. a storage unit including at least one; and
When usage history information on a rental date, return date, and rental location of the wearable communication device is input through the user electronic device, the usage history information is stored in the device information of the storage unit by date, and the user electronic device a control unit configured to provide status information details to the user electronic device when the user status information is requested through
The wearable communication device,
Through a microphone, which receives the user's Global Positioning System (GPS) information from a GPS satellite and provides the encrypted image and the GPS information, which encrypts the image captured by the front and rear cameras so that the user cannot see it Detecting the user's unique voice input and automatically providing an emergency signal or notifying an emergency state through a speaker, receiving user location information from the GPS satellite, and displaying an image filmed when the user is in a privacy place A control system server that prohibits invalidation processing or image transmission, and causes the user's location to be displayed in a pre-stored drawing of the blind area when the user is in the blind area. delete The method of claim 1,
The wearable communication device control system server including an earring to be worn on the user's ear. delete The method of claim 1,
The wearable communication device includes a battery that is automatically charged by a storage device, and the storage device automatically recognizes a user of the wearable communication device. delete

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