WO2009120018A2 - Ubiquitous network system enabling life-saving and emergency reporting services based on lighting supervisory system - Google Patents

Ubiquitous network system enabling life-saving and emergency reporting services based on lighting supervisory system Download PDF

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Publication number
WO2009120018A2
WO2009120018A2 PCT/KR2009/001521 KR2009001521W WO2009120018A2 WO 2009120018 A2 WO2009120018 A2 WO 2009120018A2 KR 2009001521 W KR2009001521 W KR 2009001521W WO 2009120018 A2 WO2009120018 A2 WO 2009120018A2
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WIPO (PCT)
Prior art keywords
data
module
lighting
control
terminal
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PCT/KR2009/001521
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French (fr)
Korean (ko)
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WO2009120018A3 (en
Inventor
장용학
안영숙
Original Assignee
제천시
(주)길뱅크
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Priority to KR1020080027442A priority Critical patent/KR100874839B1/en
Priority to KR10-2008-0027442 priority
Application filed by 제천시, (주)길뱅크 filed Critical 제천시
Publication of WO2009120018A2 publication Critical patent/WO2009120018A2/en
Publication of WO2009120018A3 publication Critical patent/WO2009120018A3/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q9/00Arrangements in telecontrol or telemetry systems for selectively calling a substation from a main station, in which substation desired apparatus is selected for applying a control signal thereto or for obtaining measured values therefrom
    • H04Q9/02Automatically-operated arrangements
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/01Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
    • G08B25/016Personal emergency signalling and security systems

Abstract

The invention is a network system for emergency reporting services that enables remote checking of ON/OFF states in lighting installations, comprising: a terminal with a communication module for transmitting radio frequency signals; a lighting supervisory terminal including a light emitting device; a module for controlling the light emitting device; a module for transmission/receipt of control signals; and a control/supervision server including a transmission/receiving module for receiving lighting information data and signal strength data; a location tracking module for tracking location of the portable terminal by using the lighting information data and the received signal strength data, a lighting supervisory module for controlling/supervising the lighting supervisory terminal, and a lighting location information DB for storing data about lighting locations. In one embodiment, the portable terminal comprises a detecting sensor for measuring and detecting a vital sign of a target person and a control module that combines data about the transmitted vital signal from the detecting sensor with an input ID to the portable terminal, thereby generating result data and sending the result data to the communication module to be sent; and the control and supervisory server further includes a user information DB.

Description

Ubiquitous network system capable of lifesaving and emergency report based on city lighting management system

The present invention remotely manages the confirmation of ON / OFF and failure of the city lighting facilities through the central control system, while efficiently reporting the emergency rescue and emergency activities for the residents who are in need of emergency and emergency. The present invention relates to a ubiquitous network system capable of lifesaving and first aid reporting based on an urban lighting management system that establishes an environment.

In general, in the case of central control or control systems for city lighting facilities such as street lamps, security lights, and traffic lights operated by local governments, the control equipment generated at the central control or control system is initially sent out to collectively control the lighting facilities located in remote areas. One-way wireless remote control control method is applied.

Recently, however, a monitoring terminal using a VHF radio frequency and a main communication network is installed in a remote lighting facility to develop and spread a system capable of bidirectionally monitoring the operation and failure status of the lighting facility.

This is in line with the ever-increasing changes in the social environment and the quality of citizens' awareness, and the expansion of SOC (social infrastructure) facilities in government offices and the management of urban lighting facilities in line with the demands for public administrative services and social welfare services. Even in the concept of simple control to supervisory control.

On the other hand, along with frequent vehicle theft and loss of goods, the number of accidents such as dementia elderly, mentally retarded children, and infants who are in desperate need of caregivers are increasing due to the aging of the population. Doing. In addition, even if a normal person is in an emergency situation or becomes a victim of a violent crime, there is a limit to self-relief, and especially when such an emergency situation occurs alone, the victim can be harmed without any help. For those agencies that are obliged to undertake services to improve service and social welfare, these issues have to be addressed quickly.

In order to solve these problems, conventionally, a network technology has been developed that can economically and efficiently perform quick positioning of a specific subject in preparation for various accidents.

Based on the city lighting management system, the present applicant has developed the network technology for quickly identifying the location of a specific subject such as a person or an article and notifying the guardian or a related organization to the applicant. Registration No. 10-0725262).

On the other hand, victims of accidents should be able to promptly inform others of their emergency situation and be able to get help from related agencies or guardians. However, if the victim's own power cannot escape the current emergency situation and can not notify someone of his or her emergency situation, the damage will be taken as it is. The application of the patented technology to the residents can feel the community service and life-oriented social welfare services, and the technology that can be carried out economically and efficiently such services and services were required.

Therefore, the present invention has been made to solve the above problems, by applying the location tracking technology of the target of the city lighting management system can efficiently perform public service and life-oriented social welfare services of public offices, It is a technical task to provide a ubiquitous network system that can save lives and first aid reports based on the city lighting management system, which enables the beneficiaries to receive benefits for proper rescue and first aid in response to various incidents and accidents. Shall be.

The present invention to achieve the above technical problem,

A mobile terminal having a communication module for transmitting a wireless signal; It includes a light emitting device, a control module for controlling the flashing of the light emitting device, and a sending and receiving module for sending and receiving a control signal of the control module, wherein the receiving module is a signal sent from the following control management server and sent from the mobile terminal. A light management terminal including a hand signal selecting means for selecting a wireless signal and a hand signal strength detecting means for detecting the strength of a wireless signal, each of which is installed in a lamp; A water receiving module that receives information data and signal strength data of the lamp while communicating with a lamp management terminal, a location tracking module for tracking the location of the portable terminal using the information data and signal strength data of the lamp, and controls the lamp management terminal. In a network system including a control management server having a lighting management module for managing and a lighting location information DB for storing data on the location of the lighting,

The portable terminal merges the data of the vital sign of the subject carried by the portable sensor and the vital sign transmitted from the sensor to the ID input to the portable terminal to generate the result data and transmits the result data to the communication module. A control module for controlling to make a call;

The control management server, a user information DB for registering and storing the target person's information and the ID of the mobile terminal, a user information search module for checking the ID sent from the mobile terminal to retrieve the target person's information in the user information DB, and related organizations. It is a ubiquitous network system capable of lifesaving and first aid reporting based on a city lighting management system further including a notification module for transmitting a tracked location and information of a subject while connecting to a communication network.

According to the present invention, the situation of the subject carrying the transmitter having a sensing function is identified and promptly notified to the relevant authorities, and the location of the subject is also appropriate for emergency rescue, emergency treatment and various first aid according to the situation. It is possible to maximize the efficiency of public service and community-based social welfare city buses performed by public offices or local governments.

1 is a diagram showing the configuration of a network system according to the present invention,

2 is a block diagram showing a detailed configuration of a network system according to the present invention;

3 is a block diagram showing the configuration of a mobile terminal according to the present invention;

4 is an exploded perspective view showing a first embodiment of a mobile terminal according to the present invention;

5 is an exploded perspective view showing a second embodiment of a mobile terminal according to the present invention;

6 is a flowchart sequentially illustrating an operation process of a network system according to the present invention;

7 is a schematic diagram showing an example of the operation of the monitoring control system according to the present invention.

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

1 is a view showing the configuration of a network system according to the present invention, Figure 2 is a block diagram showing a detailed configuration of the network system according to the present invention, will be described with reference to this.

The network system according to the present invention is a two-way communication control system that can centrally manage and manage the blinking and failure status of street lamps or security lamps (hereinafter collectively referred to as lighting) already established for each municipality without additional communication network or communication equipment. It is installed based on. Therefore, while having the characteristics of minimizing the initial input cost for building the city lighting management system, the construction of an urban lighting management system that can increase the efficiency for the public service and social welfare services, which is a technical problem to be achieved by the present invention And the cost for operation can be reduced.

As shown in FIG. 1, the network system includes a lamp management terminal 100 that detects a failure of a corresponding lamp as well as blinking of a plurality of lamps 10 installed in a predetermined area, and the lamp management terminal 100. And a control management server (200) for receiving and processing signals transmitted from the lamp management terminal (100) while communicating in both directions, and transmitting a command signal for controlling the lamp management terminal (100). And output means 300 for outputting data processed by the server 200.

The communication between the lamp management terminal 100 and the control management server 200 can be both wired and wireless communication, generally wired communication using a cable and a wireless communication using a VHF radio frequency or a main communication network. However, the technical idea of the city lighting management system according to the present invention does not limit the communication method between the lighting management terminal 100 and the control management server 200, various examples can be carried out without departing from the scope of the claims below. have. For reference, in the case of a main communication network, the CDMA method used as a mobile communication medium may be applied, and in the case of wired communication, an optical cable may be used as a communication medium.

On the other hand, the control management server 200 may be in direct communication with a plurality of lamp management terminals 100, while sending and receiving signals, depending on the local government between the control management server 200 and the lamp management terminal 100 A repeater may be provided to transmit and receive a corresponding signal through the repeater. In addition, the repeater processes the signal of the mobile terminal 400 transmitted from the lamp management terminal 100, to identify the location and the user of the mobile terminal 400, only the result of the control management server 200 May be sent as Here, the portable terminal 400 is carried by the person to be protected, which will be described in detail below.

The lamp management terminal 100 may receive a signal transmitted from the mobile terminal 400 in case of emergency, while controlling the blinking of the lamp 10 which is a unique function.

The portable terminal 400 is a device that continuously transmits a signal of a predetermined frequency band at a constant intensity, and is carried by a target person. In this case, the mobile terminal 400 includes a function of measuring various vital signs of a subject and a function of actively transmitting a signal including the measured data, and for this purpose, the mobile terminal 400 has the following configuration.

* Figure 3 is a block diagram showing the configuration of a mobile terminal according to the present invention, will be described with reference to this.

As described above, the mobile terminal 400 has a function of measuring various vital signs of a subject and a function of transmitting measured data. For this purpose, the portable terminal 400 includes a sensor 410 and a sensor 410. And a control module 420 for merging the data identified by the ID with the ID of the corresponding mobile terminal 400 and converting the data into result data, and a communication module 430 for transmitting the result data.

The sensor 410 may measure various vital signs of the human body, and may include pulse, body temperature, respiration, blood pressure, electrocardiogram, and exercise amount as the target of the vital signs.

When a person is subjected to various crimes such as kidnapping and robbery, or in an unexpected and urgent situation such as a traffic accident or various safety accidents, a sudden change in vital signs occurs. For example, if you are in a fearful situation, your pulse and breathing rate will increase dramatically, and your body temperature and blood pressure will rise. In addition, in the case of a person suffering from various diseases such as heart disease, asthma, seizures, even if not in the above-described situation may cause a change in vital signs due to physical changes.

In other words, when a person falls into an emergency or crisis state, a sudden change of the body is caused by psychological factors.

By using these biological characteristics, the present invention is to identify the rapid physical changes of the subject, and to estimate the factors of these changes, so that the subject can be provided with the necessary help quickly.

A pulse is a periodic pulsation that occurs when the heart beats on the walls of arteries where the blood from the heart is distributed in thin skin and can be easily detected in the neck and wrist. It is widely known to have a portable pulse meter which can easily self-measure one's own pulse using these characteristics.

The sensor 410 according to the present invention can be applied to a well-known portable pulse meter, the portable terminal 400 having a sensor 410 applied to such a pulse meter has a structure that can be worn on the wrist, such as a bracelet You can do it.

Accordingly, the portable terminal 400 capable of measuring a pulse includes a main body 401 (see FIG. 4) surrounding and protecting the sensing sensor 410, the control module 420, and the communication module 430, and the main body 401. It may include a belt 404 (see Fig. 4) connected to the body while surrounding the wrist to be fixed to wear. However, the main body 401 may be carried in a belt or a pocket worn on the waist without a separate belt 404, and the sensor may be attached to a part of the body whose pulse is checked through an adhesive member (not shown). Since it may be configured to transmit to the control module 420 by wired or wireless, the portable terminal 400 according to the present invention is not limited to the shape of the bracelet. Here, the first embodiment in the form of a bracelet is referred to again below with reference to the drawings.

On the other hand, the pulse measurement of the detection sensor 410 may be directly operated by the subject, or may be automatically executed by the detection sensor 410 at a cycle input to the control module 420.

Body temperature is the temperature of an animal body, which is the result of oxidation of metabolism in the body and is released to the surface of the body. At this time, the rapid change in metabolism causes a change in body temperature, so it is possible to estimate the state of the subject by checking the temperature change.

Body temperature is measured at points surrounded by the body, such as underarms and mouth. Therefore, if the sensor 410 of the portable terminal 400 according to the present invention is to measure the body temperature, it should be a form that can be attached to the armpit or mouth part. However, since the portable terminal 400 according to the present invention is a device that can be easily carried, it would not be suitable if it involves an excessive procedure for implanting or wearing the body. In addition, since the body temperature can be taken from the skin surface of the part covered by the clothes, the body temperature need not be limited to a form that can be attached to a specific point of the body.

Respiration is the process by which organisms absorb oxygen from the outside world and release carbon dioxide out of the body, which is one of the vital signs that are sensitive to changes in the body. Therefore, by counting the number of breaths it is possible to estimate the psychological state of the subject.

Blood pressure is the pressure in your blood vessels when you push blood out of your heart.If your heart rate increases or decreases significantly due to psychological or physical causes, your blood pressure will cause a drastic change in your blood pressure, Change occurs. Since the blood pressure change is an important factor for estimating the psychological and physical changes of the subject, the detection sensor 410 may detect the subject's blood pressure to check the subject's condition.

In general, the blood pressure is a compression band (413 (see FIG. 5)) forcibly introducing air into the body while surrounding the arm of the human body, and when the brachial artery is compressed by the compression band 413, the blood flow is changed or stopped. It consists of a barometer 416 (see Fig. 5) that reads the pressure of the pressure bar. Therefore, the sensor 410 according to the present invention that can measure the blood pressure of the subject is confirmed that the blood pressure is blocked at the end of the body by the pressure of the belt and the belt-shaped compression band is fixed to surround the subject's arm It includes a barometer to measure the barometric pressure of. On the other hand, such a blood pressure measurement may be performed by the subject itself, the sensor 410 may be automatically performed while periodically measuring the blood pressure. Detailed description of the sensor 410 related to blood pressure measurement will be made later.

If the sensor 410 is a device capable of measuring blood pressure in the mobile terminal 400 according to the present invention, the control module 420 periodically operates the sensor 410, and checks the barometric pressure data confirmed by the barometer. To send the result data through the communication module 430.

In addition, the sensor 410 detects and measures various vital signs to observe the physical abnormality of the subject, and by estimating psychological and physical changes according to these observations, whether the subject is in urgent need and emergency. Make sure to check.

On the other hand, in addition to detecting the physical change of the subject, the sensor 410 detects the air composition of the place where the subject is currently located, and enables estimation of fire and various pollutions of the place.

In the event of a fire, carbon dioxide in the air rises rapidly and foreign substances, including other hydrocarbons, are detected. By using this phenomenon, the sensor 410 checks the composition change of air, and if the above-mentioned foreign matter is detected above a certain threshold value, it is regarded as a fire so that it can be notified to the fire department or a related agency.

Figure 4 is an exploded perspective view showing a first embodiment of a mobile terminal according to the present invention, will be described with reference to this.

The portable terminal 400 ′ according to the present invention includes a main body 401 and a belt 404, and the main body 401 further includes an output means 402 and an input means 403. Therefore, the outer shape forms the shape of a general bracelet (watch), through which the target person can easily wear the mobile terminal 400 'according to the present invention.

On the other hand, the sensor 410 ′ includes a counter 412 that checks the pulse detector 411 and the detected pulse to count the confirmed pulse rate within a predetermined time. The counter 412 transmits the counted data to the control module 420, and the control module 420 checks the data and transmits the data to the communication module 430 as result data.

As described above, the control module 420 merges the corresponding data with the ID when the data is transmitted from the sensor 410 'while storing the ID of the mobile terminal 400', and the result data is the communication module. 430 is sent to. However, the control module 420 not only controls whether the sensing sensor 410 'is driven, but also includes a function of determining whether to generate the result data by comparing the data checked by the sensing sensor 410 with a reference value. can do.

To explain this in detail, the pulse frequency is determined by the appropriate reference number according to the age in the case of a normal adult. Of course, the reference frequency is not absolute, but it is possible to estimate whether the vital sign of the subject is normal or abnormal.

Accordingly, the subject inputs information about his age group and the usual pulse frequency using the input means 403, and the control module 420 records and stores the reference frequency of the subject's normal pulse based on the input information. Therefore, if the subject falls out of the reference frequency for some reason, the control module 420 merges the ID with the corresponding data to complete the result data and transmits the result data to the communication module 430, whereby the communication module 430 The result data can be sent.

5 is an exploded perspective view illustrating a second embodiment of a mobile terminal according to the present invention, which will be described with reference to the drawing.

The portable terminal 400 "according to the present invention includes a sensor 410" for measuring and detecting blood pressure.

The sensor 410 ″ comprises a gas inlet 414 for forming a loop shape having a hollow and forcibly introducing air into the hollow, and a pulse detector 415 for detecting a pulse at a distal end of the body and compressing the arm. It includes a pressure bar 413, and a barometer 416 for measuring the air pressure in the hollow of the pressure table 413 when the pulse detector is confirmed that the pulse is stopped.

Here, the gas inlet 414 forms a structure in which compressed air is filled so that air can be forced into the hollow of the pressing table 413 periodically, and exhausted compressed air should be refilled and used. However, the gas inlet 414 is not limited to the above-described embodiment, since the subject may directly introduce air into the hollow through the pumping.

The pulse detector 415 detects that the pulse is remarkably lowered at the distal end of the body wrapped by the pressure band 413 while the blood flow is blocked by the pressure applied by the pressure band 413, and the decrease in the pulse blocks the blood flow. The signal is transmitted to the barometer 416. Of course, the barometer 416 receives the signal to measure the current air pressure of the hollow.

On the other hand, the barometer 416 transmits the measured air pressure to the control module 420, in this case, the control module 420 and the communication module 430 in this embodiment is a separate body independent of the sensor 410 " The main body 401 is built in the 401, and the main body 401 can be worn by hanging on the waist or the waistband of the subject through the hanger 405. Of course, the main body 401 may be carried in the pocket of the subject. .

Therefore, communication between the barometer 416 and the control module 420 may be performed wirelessly.

In addition to checking the pulse, the sensor may detect a subject's body temperature, respiratory frequency or blood pressure, and the like. The control module 420 may transmit the detected data as it is without filtration or only check data outside the reference value and transmit the detected data. .

On the other hand, the type of vital signs can be varied, such as electrocardiogram, muscle exercise, etc. If the vital sign measuring instrument is portable, since it can be mounted on the portable terminal 400 according to the present invention, it is not limited to the type of specific vital signs Will not. In addition, by checking the air composition of the place where the subject is located, it may include a function of detecting a change in the surrounding environment rather than a physical change of the subject, through which to recognize and report the risk of fire and various gas leakage.

2, the mobile terminal 400 according to the present invention may further include an emergency call module 440. The emergency call module 440 forcibly executes a result data transmission function of the control module 420 by an operation by the input means 403, and the control module 420 generates an ID according to the command of the emergency call module 440. By transmitting the result data including the communication module 430, it can be notified to the relevant authorities such as the guardian or police station of the target person. For reference, the communication module 430 repeatedly sends the result data periodically, so that the confirmation of the guardian or the related organization is effectively performed.

When the communication module 430 receives the result data from the control module 420, it transmits a signal according to the general data transmission process.

In the embodiment of the mobile terminal 400 ′ according to the present invention described above, the shape of the mobile terminal 400 ′ is shaped like a bracelet (watch), but the present invention is not limited thereto. However, it may be variously shaped in the form of a watch, mobile or jewelry to impart a will to be carried at all times.

6 is a flowchart illustrating the operation process of the network system according to the present invention, with reference to this will be described the operation of the network system according to the present invention.

S10; Outgoing signal detection step of the mobile terminal 400

As described above, when a signal including the result data is transmitted from the portable terminal 400, the reception module 150 of the lamp management terminal 100 adjacent to the portable terminal 400 receives and detects it. In general, the communication module 430 of the mobile terminal 400 continuously transmits the signal at a predetermined interval over a plurality of times, and the receiving module 150 continuously receives the corresponding signal and checks whether the target is moving in real time. Proceed to

The signal transmitted by the mobile terminal 400 may be an analog signal or a digital signal having a specific frequency band, and when the analog signal is utilized, the mobile terminal 400 monopolizes the corresponding frequency to the owner of the mobile terminal 400. It can also be used to check. However, in the network system according to the present invention, since the signal transmitted by the mobile terminal 400 includes the result data and the result data includes the unique ID information of the mobile terminal 400, the corresponding signal is the control management server 200. When received by the control management server 200 will be able to quickly identify the identity of the sender.

That is, a guardian who has a subject of protection, such as an infant, an elderly person, or a mentally retarded child, may register whether to apply the system according to the present invention after registering the subject of a subject corresponding to a local government and a related authority. Therefore, if the application is made normally, the ID for the protection of the person to be protected is given, and the person inputs the ID to the mobile terminal 400 and uses the received ID. On the other hand, the control management server 200 inputs and manages the information on the personal information and contact information of the target person or guardian to whom the ID has been assigned.

Since the network system according to the present invention is installed based on two-way communication between the lamp management terminal 100 and the control management server 200, the lamp management terminal 100 is for receiving and receiving signals with the control management server 200. It includes a sending module 140 and a receiving module 150. Therefore, after the reception module 150 receives the control signal transmitted from the control management server 200, the light emitting device 110 is operated by operating the control module 130 for blinking and controlling the light emitting device 110. To control. On the other hand, the check module 120 to check whether the failure of the light emitting device 110 and checks it further includes, it is possible to transmit the corresponding information to the control management server 200 through the outgoing module 140.

As described above, the lamp management terminal 100 is provided with a communication device capable of receiving and receiving, receiving a signal transmitted from the control management server 200 through the receiving module 150, or the portable terminal ( A signal transmitted from 400 may be received.

On the other hand, since the output of the signal transmitted from the outgoing module 140 of the lamp management terminal 100 is a small output, it can not transmit the signal to the control management server 200 located in a relatively remote place. Of course, in the case of a specific lighting management terminal 100 may be to communicate directly with the control management server 200, the communication between the lighting management terminal 100 and the control management server 200 is a separate signal collector 600 It is usually done by means of mediation.

The signal collector 600 receives a corresponding signal while communicating with a plurality of lamp management terminals 100, amplifies the signal, and transmits the signal to the control management server 200 through a communication mediator such as VHF or CDMA. Of course, the signal sent from the control management server 200 will be confirmed by the signal collector 600, the lamp will be sent to the management terminal 100.

In addition, even without a separate signal collector 600, the lighting management terminal 100 may transmit the signal to the control management server 200 in a manner that communicates with each other. That is, the lighting management terminal 100 adjacent to the arbitrary portable terminal 400 first receives a signal transmitted from the portable terminal 400, and finally transmits the received signal to a neighboring lighting management terminal in a relay manner. It is to be delivered to the control management server (200).

As illustrated above, the communication method between the lamp management terminal 100 and the control management server 200 may vary. Therefore, if the lighting management terminal 100 and the control management server 200 can communicate with each other, the communication method between the lighting management terminal 100 and the control management server 200 may be varied within the scope of the following claims. It may be modified to make.

S20; Hand signal selection stage

The receiving module 150 includes a hand signal selection means 152. The hand signal selection means 152 is to separate the radio signal transmitted from the control management server 200 and the radio signal transmitted from the mobile terminal 400 to be separately processed, the control management server 200 and When the lighting management terminal 100 performs wired communication, since the signal of the portable terminal 400 and the signal of the control management server 200 are automatically distinguished, the signal transmitted from the portable terminal 400 is received. One configuration of the receiving module will be achieved.

That is, the hand signal selection means 152 may have a function of receiving and processing the signal of the portable terminal 400 by distinguishing it from the signal of the control management server 200.

S25; ID verification step of the mobile terminal

The receiving module 150 further includes an ID checking means 153. Therefore, the ID included in the outgoing signal of the mobile terminal 100 is extracted through the ID checking means 153 and transmitted to the control management server 200. On the other hand, the ID is for identifying the target person of the mobile terminal 400, can be issued by applying to the local government and the relevant authorities, etc., and if the ID and the user information is linked to the user of the mobile terminal 400 Can be searched quickly.

On the other hand, the identification of the signal transmitted from the mobile terminal 400 may be performed in the control management server 200 in addition to the lamp management terminal 100.

S30; Hand signal strength detection

As the distance between the portable terminal 400 and the lamp management terminal 100 increases, the strength of the corresponding signal received by the lamp management terminal 100 becomes weaker. Therefore, the lamp management terminal 100 may track the position of the portable terminal 400 by sensing the strength of the hand signal.

To this end, the receiving module 150 includes a hand signal strength detecting means 151 for measuring the strength of the signal transmitted from the mobile terminal 400.

The hand signal strength detecting means 151 may be applied with an absolute intensity sensing method and a relative intensity sensing method. This depends on how the control management server 200 interprets the information received through the signal strength detecting means 151, which will be described in more detail with reference to the control management server 200.

S40; The illumination light information data, hand signal strength data, ID transmission step

The outgoing signal of the mobile terminal 400 received through the receiving module 150 is the lighting management terminal 100 that receives the intensity data together with the data and ID of the intensity, that is, the intensity data control control server ( It is transmitted to the control management server 200 together with the information data such as the lighting transmitted to the 200.

Therefore, the control management server 200 may check the information of the lamp management terminal 100 and the hand signal strength data of the portable terminal 400 by receiving a signal transmitted from the lamp management terminal 100. Of course, as described above, the information data of the mobile terminal 400 is also confirmed through the ID.

1 and 2, a plurality of lamps 10 are managed for each municipality, and each lamp 10 is provided with lamp management terminals 100, 100 ', and 100 ". The call signal of the terminal 400 may be received by one or more lamp management terminals 100, 100 ′ and 100 ″ in an adjacent area. In addition, the control management server 200 receives signals from a plurality of lamp management terminals (100, 100 ', 100 "), respectively.

S45; User verification step of the mobile terminal

The control management server 200 further includes a user information search module 260, the user information search module 260 checks the ID transmitted from the lamp management terminal 100, the user information of the corresponding ID Check. At this time, the user information is stored in the user information DB (270).

For reference, the ID may be confirmed by the user information retrieval module 260 instead of the lighting management terminal 100, which is obtained by extracting the ID from the result data of the signal transmitted from the mobile terminal 400.

The user information data retrieved from the user information DB 270 is output through the output means 300, so that the user of the mobile terminal 100 that emits a current signal can be easily identified.

S50; Checking the number of lights that sent information data

The control management server 200 according to the present invention includes a light receiving module 210 for receiving and receiving a signal, and a lamp management module 240 for controlling the blinking and other operations of the lamp 10 and the lamp management terminal. And a location tracking module 230 that tracks the location of the mobile terminal 400 that transmits the signal using information data such as illumination transmitted from 100, 100 ', and 100 " and intensity data of the hand signal.

The position tracking module 230 checks the number of the lamps 10 currently transmitting the data while checking the lamp information data and the received signal intensity data received by the water receiving module 210.

In the monitoring control system according to the present invention, all the lamp management terminals 100, 100 ′ and 100 ″ receiving the outgoing signal of the portable terminal 400 transmit the signal to the control management server 200. The illumination lamp 10 installed within the limited range may not receive the outgoing signal of the portable terminal 400 when the portable terminal 400 is out of the range. In addition, only one illumination lamp may be used for the portable terminal 400. An outgoing signal of 400 may be received, or two or more lights may be received.

Accordingly, the position tracking module 230 tracks the position of the mobile terminal 400 only with data transmitted from the lamp management terminal 100, 100 ′, 100 ″. In the case where the number of the lamp management terminals 100 receiving the one is one, two or three or more, each proceeds in a different order.

The number of the lamp management terminal 100 receiving the outgoing signal of the portable terminal 400 is received through the water reception module 210 of the control management server 200 and transmitted to the position tracking module 230. Check through the lighting information data. (S60)

S61; Searching the actual location of the lamp using the lamp information data

Receives the lamp information data and the hand signal intensity data from one lamp management terminal 100, the location of the lamp through the lamp information data through the lamp position information DB (250) to check, and retrieved through the hand signal intensity data Track how far you are from the spotlight.

Figure 7 is a schematic diagram showing an operation of the monitoring control system according to the present invention, for example, will be described with reference to this.

As described above, the call signal of the first subject 21 is received only by one lamp 16, and the other lamps 13 and 14 adjacent to each other do not receive the call signal due to failure or the like. Accordingly, the lamp management terminal of the lamp 16 transmits the lamp information data and the hand signal intensity data of the first target person 21 to the control management server 200 after receiving the outgoing signal of the first target person 21. . Of course, the other lamps 13 and 14 do not transmit the lamp information data and the hand signal intensity data of the first subject 21.

As a result, the location tracking module 230 tracks the location of the portable terminal 400 using only the lamp information data and the hand signal intensity data transmitted by the lamp management terminal of the lamp 16.

Therefore, the location tracking module 230 confirms that the target person having the mobile terminal 400 is located in the adjacent area of the corresponding lamp 16.

The range of the adjacent area will be within a circle centered on the lamp 16 and having a radius of the distance identified through the hand signal intensity data.

S62; Step of calculating distance between handset and corresponding lamp from hand signal strength data

The outgoing signal strength of the mobile terminal 400 included in the received signal strength data may be measured by absolute strength and relative strength.

Here, the absolute strength detection method is to make the strength of the signal transmitted by the mobile terminal 400 constant, so that the hand signal strength detecting means 151 detects the strength of the corresponding hand signal based on the strength of the promised signal. Accordingly, by comparing the intensity of the currently received signal with the intensity of the promised signal, it is possible to predict how far the position of the portable terminal 400 is from the lamp management terminal 100.

In the relative strength detection method, the signal transmitted by the mobile terminal 400 is not constant, but the strength of the signal received by the at least two lamp management terminals 100 may be differently received according to the distance of the mobile terminal 400. . Therefore, even if the mobile terminal 400 transmits a signal having a different intensity each time, the two or more lamp management terminals 100 receiving the transmitted signal receive the corresponding outgoing signals, respectively, and compare the strengths of the received signals relatively. The position tracking module 230 to calculate the position of the mobile terminal 400.

In the network system according to the present invention, the signal transmitted from the mobile terminal 400 may be always constant or may be different each time.

Subsequently, S62 is a positioning step when two lamp information data and hand signal strength data are received by the control management server 200. That is, only the two lamps 11 and 16 receive the outgoing signal of the mobile terminal 400 carried by the second subject 22.

The location tracking module 230 calculates the separation distance between each lamp management terminal 100 and the portable terminal 400 through an absolute intensity detection method. That is, it can be seen that the mobile terminal 400 is positioned within a radius of the separation distance around the corresponding lamps 11 and 16.

On the other hand, when the relative intensity detection method is applied, the distance is compared by comparing the received signal intensity data received by the lamp 11 and the remaining lamp 16, respectively. At this time, since the portable terminal 400 has the maximum output, the range may be limited in checking the distance.

S63; Check point of coincidence of operation distance from lighting

When the distance calculation of the two places is completed, it is possible to check the coincidence point separated by the corresponding distance from each of the lamps 11 and 16. Of course, the coincidence point is assumed to be the second subject 22 carrying the mobile terminal 400.

S64; Next step to check whether the signal strength data exists

When the second target person 22 having the mobile terminal 400 is a driving vehicle or a moving person, the lighting information information and the hand signal intensity data transmitted from the lighting management terminal 100 are always changed.

At this time, the next lamp information data and the hand signal strength data by the same portable terminal 400 can be compared with the previous lamp information data and the hand signal strength data to track a more detailed position of the second subject 22.

In general, when a signal is received at two different locations, the signal origin can be tracked using the signal strength. However, if it is not received through an expensive steering antenna, more than two tracking positions of the origin are generated geometrically. Therefore, when there are only two lighting management terminals that receive a signal from the mobile terminal 400, tracking of the origin cannot be specified.

However, when the second subject 22 moves, the first lighting information data and the hand signal strength data and the second lighting information data and the hand signal strength data are compared with each other, and only the data coming from the two lighting management terminals can be tracked more specifically. Do. This is because the new lamp management terminal may receive a signal from the portable terminal 200 while the second target 22 moves. Of course, the third and fourth lighting lamp information data and the hand signal strength data may be further compared.

S65; Positioning step of mobile terminal considering new data and old data

If there is the hand signal strength data by checking the existence of the next hand signal strength data, the position of the second subject 22 may be more concretely compared with the previous data.

S66; Step of calculating distance between handset and corresponding lamp from hand signal strength data

In this step, when an outgoing signal of the portable terminal 400 possessed by the third subject 23 is received by three or more lamps 11, 12, and 16, the lamp management terminals of the respective lamps 11, 12, and 16 are sent. The distance between each of the lamps 11, 12, 16 and the third subject 23 is calculated using the lamp information data and the hand signal intensity data.

Since this has been described above, it will be omitted here.

S67; Check point of coincidence of operation distance from lighting

The positions of the lamps 11, 12 and 16 and the distances from the lamps 11, 12 and 16 are checked to find a point where the distances coincide.

S68; Location check step of mobile terminal

The one point is identified as the position of the third subject who carries the portable terminal.

S70; Mark the location of the lights on the map

After displaying the spot where the lamp is located on the jurisdiction map of the local government, the location of the subject tracked through the above-described process is also displayed. The control management server 200 outputs the above-described map and the location of the target person through the output means 300 while interlocking with the output means 300. At this time, the output means 300 may be a PDA, a mobile or a general monitor as shown.

When the output means 300 is a PDA or a mobile, the control management server 200 may further include a communication module (not shown) for communication between the PDA and the mobile.

S80; Notifying the relevant agency of the tracked location information

Communication network server 500 directly connected to a common communication network or related organizations such as the Internet so that the relevant data such as the guardian, police station, ward office, hospital and fire department in real time to check the location of the subject identified through the above process Upload to, or notify by telephone, for this purpose, the control management server 200 further includes a notification module 280. In this case, uploading refers to all operations for transmitting data of the control management server 200 via e-mail or real time.

Therefore, in case of emergency, the relevant agency can be cooperated without a separate application or report of the subject, so that the process of finding the subject can be proceeded quickly without delay.

On the other hand, the notification module 280 may analyze the result data transmitted to the mobile terminal 400 may determine whether to notify the relevant organization. As described above, although the control module 420 of the mobile terminal 400 may determine the transmission of the result data by itself, the control module 420 may unconditionally transmit the vital sign of the subject without this function. Therefore, in the latter case, the control management server 200 should determine whether to notify the related organization based on the contents of the result data, and for this purpose, the notification module 280 may be configured as a user of the relevant subject in the user information DB 270. The user information is checked to determine whether to notify.

That is, the user information DB 270 stores the normal value of the subject's vital signs, compares the received result data with the normal values, and if the vital sign of the received result data deviates from the normal value, the subject is in an urgent situation. It is estimated that the position of the person and the communication network server 500 of the relevant organization to notify the current position and information of the subject.

On the other hand, the control management server 200 according to the present invention further includes an image production module 220. The image production module 220 produces an image output through the output means 300, or produces an image in the form of a file uploaded to the Internet. That is, like the navigator, the image of the target is overlapped with the map to edit and produce necessary image information.

Claims (6)

  1. A mobile terminal having a communication module for transmitting a wireless signal; It includes a light emitting device, a control module for controlling the flashing of the light emitting device, and a sending and receiving module for sending and receiving a control signal of the control module, wherein the receiving module is a signal sent from the following control management server and sent from the mobile terminal. A light management terminal including a hand signal selecting means for selecting a wireless signal and a hand signal strength detecting means for detecting the strength of a wireless signal, each of which is installed in a lamp; A water receiving module that receives information data and signal strength data of the lamp while communicating with a lamp management terminal, a location tracking module for tracking the location of the portable terminal using the information data and signal strength data of the lamp, and controls the lamp management terminal. In a network system including a control management server having a lighting management module for managing and a lighting location information DB for storing data on the location of the lighting,
    The portable terminal merges the data of the vital sign of the subject carried by the portable sensor and the vital sign transmitted from the sensor to the ID input to the portable terminal to generate the result data and transmits the result data to the communication module. It includes a control module for controlling to send, wherein the sensor detects the composition ratio of the air and transmits the data to the control module, the control module stores the composition ratio information of the normal air while comparing the data with the composition ratio of the current air is normal Generating a result data of merging the data and the ID when out of the composition ratio of air;
    The control management server, a user information DB for registering and storing the target person's information and the ID of the mobile terminal, a user information search module for checking the ID sent from the mobile terminal to retrieve the target person's information in the user information DB, and related organizations A notification module for transmitting the location and information of the subject while communicating with a communication network of the subject;
    Ubiquitous network system capable of lifesaving and emergency report based on the city lighting management system characterized in that.
  2. The method of claim 1,
    The lamp position information DB stores map image data of a region where corresponding lamps are installed;
    The control management server, the lifesaving and first aid based on the city lighting management system further comprises an image production module for displaying the location of the mobile terminal tracked through the location tracking module on the map image data Ubiquitous network system that can be reported.
  3. The method of claim 1,
    The sensor is a ubiquitous network system capable of lifesaving and emergency report based on the city lighting management system, characterized in that for measuring one or more vital signs selected from the pulse, body temperature, respiration, blood pressure, electrocardiogram.
  4. According to claim 1, wherein the mobile terminal
    A main body including an input unit for covering the sensing sensor, the control module, and the communication module to protect the control module by inputting a reference value of an ID or a vital sign; A belt connected to the main body and wrapped around the wrist of the subject; wherein the detection sensor includes a pulse detector disposed on one surface of the main body in contact with the skin, and counts the number of pulses detected by the pulse detector to control the corresponding data. Ubiquitous network system capable of lifesaving and first aid report based on the city lighting management system, characterized in that the counter to transmit to.
  5. The method of claim 1, wherein the mobile terminal
    Covered with the control module and the communication module to protect the subject made of a main body including an input means that can be stored in the control module by inputting the reference value of the ID or vital sign, the sensor is formed in a loop shape having a hollow A pressure inlet for compressing the arm while including a gas inlet for forcibly introducing air into the hollow and a pulse detector for detecting a pulse at the end of the body; Based on the urban lighting management system, it is possible to measure the air pressure in the hollow of the pressure bar and transmit the data to the control module when it is confirmed that the pulse is stopped from the pulse detector. system.
  6. The method according to any one of claims 1, 4 or 5,
    The portable terminal generates data arbitrarily by manipulation of the subject, and the control module further includes an emergency call module for forcing the data to be merged with the ID to generate result data. Ubiquitous network system for lifesaving and emergency report.
PCT/KR2009/001521 2008-03-25 2009-03-25 Ubiquitous network system enabling life-saving and emergency reporting services based on lighting supervisory system WO2009120018A2 (en)

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KR100976150B1 (en) * 2009-09-07 2010-08-16 주식회사 알에프테크윈 Urgent rescue system using active network communication
KR101202292B1 (en) 2010-03-02 2012-11-19 강원식 System for security and preventing disatser based on space information using mobile terminal and method for providing the system

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KR20020094333A (en) * 2001-06-11 2002-12-18 주식회사 엘지이아이 An emergency call apparatus and emergency rescue service apparatus and method using the emergency call apparatus
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KR100787148B1 (en) * 2006-06-27 2007-12-21 이국진 System for unmanned send the body situation

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KR100787148B1 (en) * 2006-06-27 2007-12-21 이국진 System for unmanned send the body situation

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