KR100963230B1 - Personal emergency locator transmitter - Google Patents

Abstract

The present invention relates to a personal emergency position transmitter (ELT), a user who is in need of a rescue request due to an unexpected accident such as an aircraft crash, traffic accident, falling, hijacking, confinement, etc. When the sensor outputs a shock detection signal, it transmits an emergency location signal for notifying the user's rescue request situation and the location information obtained from the GPS signal provided by the internal GPS receiver.

Personal Emergency Location Transmitter (ELT) according to the present invention can be operated easily and conveniently carried by a user who needs rescue requests due to unforeseen accidents such as aircraft crash, traffic accident, fall during hike, abduction, confinement, etc. anywhere in the world. In particular, even if the user moves for a rescue request, not only can transmit an emergency position signal informing accurate position information, but also the user can not turn on the emergency switch (SW) by himself or herself due to an accident. Even in the situation, when an external shock is detected, an emergency location signal indicating accurate location information can be sent.

Rescue, Emergency Position Transmitter, ELT

Description

Personal Emergency Location Transmitter {PERSONAL EMERGENCY LOCATOR TRANSMITTER}

The present invention relates to an Emergency Locator Transmitter (ELT), and more particularly applicable to an international distress rescue system using satellites (COSPAS-SARSAT; Cosmicheskaya Sistyema Poiska Avariynich Sudov-Search and Rescue Satellite-Aided Tracking System). A personal emergency position transmitter.

It is a conventional technology that a person who needs a rescue request and informs his or her rescue status and location information due to an unexpected accident such as an aircraft crash, a traffic accident, a fall, hijacking or confinement during climbing, and is a mobile communication terminal connected to a mobile communication network ( For example, a location information providing technology using a mobile phone, a PDA, etc. has been developed.

For example, the Republic of Korea Patent Registration No. 10-0606783 (registration date; July 24, 2006) relates to a rescue service providing system using a mobile phone, the mobile phone including the emergency button for rescue requests, and the mobile communication network When a rescue request signal and location information are received from a mobile phone, a mobile phone in proximity to the mobile phone requesting the rescue is detected by any base station providing a communication service to the mobile phone requesting the rescue. It includes a rescue system that tracks the current location and moving location and at the same time periodically provides the mobile phone number, current location and mobile location information of the mobile phone and the mobile phone in close proximity to the rescue center with the rescue request message, To track the location of a mobile phone user in an emergency By tracking the location of the mobile phone around the mobile phone in which the emergency occurred, emergency phone users can be rescued.

In addition, the Republic of Korea Patent Registration No. 10-0586413 (registration date; May 26, 2006) relates to a location information service method using a mobile communication terminal, the ARSARS (Automatic Response System) server emergency call signal from the protected mobile communication terminal Receiving a request for location information from an LBS (Location Based Service) server and receiving the location information; A second step of transmitting, by the ARS server, text-to-speech location information received through the LBS server to a mobile communication terminal of all guardians; A third step of guiding the location information of the mobile communication terminal of the guardian to a text-to-speech message and transmitting an SMS callback URL having location information to all mobile communication terminals of the guardian through an SMS server; And a fourth step of transmitting map location information when the guardian mobile communication terminal accesses the SMS callback URL. In particular, when the guardian makes an emergency call to a mobile communication terminal incorporating a GPS (Global Positioning System), The location information is transmitted to all registered guardians at the same time so that they can identify the emergency guardian's location and respond quickly.

However, as described above, the location information providing technology using a mobile communication terminal (for example, a mobile phone or a PDA) connected to the mobile communication network is an emergency situation or only in a situation where the mobile communication terminal can access the mobile communication network in the service area of the service provider. Location information service area is limited because it provides location information of users in emergency situations, and users who need rescue requests due to unforeseen accidents such as aircraft crash, traffic accident, fall while climbing, hijacking, etc. Not all apply

Indeed, a user who uses a mobile terminal capable of accessing a mobile communication network within a service area of a particular carrier may not use the location information providing service through his mobile terminal in a foreign country, and may apply for an international roaming service separately. The location information providing service area is limited because the mobile communication terminal provides the location information of the user in an emergency or emergency situation only when the mobile communication terminal is accessible to the mobile communication network in another service provider of a foreign country.

In order to solve the above-mentioned problems, the present inventors have linked the GPS technology to an international distress rescue system (COSPAS) using a satellite to rescue a distress person (eg, a pilot, a crew member, a passenger, etc.) in the event of a crash of an aircraft. -SARSAT) is a new location information providing technology that can be applied to all users who need rescue requests due to unforeseen accidents such as aircraft crash, traffic accident, fall while climbing, hijacking and confinement anywhere in the world. Developed.

For reference, an international distress rescue system (COSPAS-SARSAT) using the satellite is provided on earth orbit such as a low earth orbit (LEO), a medium earth orbit (MEO), and a geostationary earth orbit (GEO). Aircraft equipped with a satellite, an emergency position transmitter (ELT) for transmitting an emergency position signal to the satellite in case of an aircraft crash, and a ground search and rescue center (SARC) for receiving distress occurrence and position information of the aircraft from the satellite. And Rescue Center). In addition, when there is a crash of an aircraft anywhere in the world, the emergency position transmitter (ELT) installed in the aircraft sends an emergency position signal (for example, 406Mhz) of a specific frequency to inform the distress situation and position information of the aircraft. The satellite receives an emergency position signal, reads position information (eg, GPS coordinates) of the distressed aircraft, and transmits the distress occurrence situation and position information of the aircraft to the search and rescue center (SARC) constructed on the ground. Therefore, rescue operations are performed to rescue the distress in the distress area.

It is an object of the present invention that a user who is in need of a rescue request due to an unexpected accident such as an aircraft crash or traffic accident, a fall, hijacking or confinement during climbing, turns on the emergency switch or the internal shock sensor outputs a shock detection signal. It is to provide a personal emergency location transmitter for transmitting an emergency location signal to inform the rescue request situation and the location information obtained from the GPS signal provided by the internal GPS receiver.

In order to achieve the object of the present invention as described above, a personal emergency position transmitter according to the present invention, a regulator for converting a battery power source to a specific DC power source; A battery discharge display unit which turns on a discharge check switching element to light a discharge lamp when the battery power supplied to the regulator falls below a specific value; An emergency switch which outputs an operation start signal and supplies the battery power to the regulator when the switch is on or the standby mode is selected; A standby notification unit configured to output a standby signal by turning on a standby switching element when the standby mode of the emergency switch is selected; A shock sensor which is operated by a power supply of the regulator and outputs a shock detection signal when an external shock of a predetermined value or more is detected; An emergency discriminator which outputs a transmission start signal when the operation start signal or the shock detection signal is input; A GPS receiver for receiving a GPS signal transmitted from the satellite; A CPU for outputting an emergency position signal transmission command for notifying a user's rescue request situation and position information when the emergency switch is turned on or the shock sensor outputs a shock detection signal; And an RF transmitter for transmitting an emergency position signal when the emergency position signal transmission command is input.

Personal emergency location transmitter according to the present invention as described above can be operated easily and conveniently carried by the user who needs rescue request in case of unexpected accidents such as aircraft crash, traffic accident, fall during hike, abduction, confinement, etc. anywhere in the world. In particular, even if the user moves for a rescue request, not only can transmit an emergency location signal informing accurate location information, but also the user can not turn on the emergency switch (SW) directly due to an accident. Even in the event of a failure, if an external shock is detected, an emergency location signal informing accurate location information can be sent.

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

Referring to Figure 1, the personal emergency position transmitter (ELT) according to the present invention uses an internal battery (BT) power source.

The regulator 10 converts the battery BT power into a specific DC power and supplies the same.

The battery discharge display unit 20 turns on the discharge check switching element Q1 when the battery BT power supplied to the regulator 10 falls below a specific value or when the battery BT discharge check signal LOWBAT is applied. To light the discharge lamp (LED).

R3, R4, and R5 of the battery discharge display unit 20 are voltage decomposition resistors, discharge lamp (LED) protection resistors of R6, and D4 is an input stabilization diode.

The battery discharge display unit 20 turns on the discharge lamp LED when the discharge check switching element Q1 is turned on when the connection point voltage between R4 and R5 falls below a specific value. In the embodiment according to the present invention, since the voltage of the battery BT is 7.6V, when the connection point voltage between R4 and R5 falls below 2V, the resistance values of R3, R4, and R5 are turned on so that the discharge check switching element Q1 is turned on. It is preferable to set.

The emergency switch SW outputs an operation start signal START and supplies the battery BT power to the regulator 10 when the switch is ON or an idle mode is selected.

When the standby mode IDLE MODE of the emergency switch SW is selected, the standby notification unit 30 turns on the standby switching element Q2 to output the standby signal IDLE.

R1 and R2 of the standby notification unit 30 are voltage distribution resistors, and in the embodiment according to the present invention, since the battery BT voltage is 7.6 V, the standby mode IDLE MODE of the emergency switch SW2 of the transmitter is set. When the connection point voltage between R1 and R2 falls below 3.6V when selected, it is preferable to set the resistance values of R1 and R2 so that the standby switching element Q2 is turned on to output the standby signal IDLE.

The shock sensor 40 is operated by the power supply of the regulator 10, and outputs a shock detection signal when an external shock of a predetermined value or more is detected.

The emergency discriminator 50 outputs the transmission start signal TK_OK when the operation start signal START or the shock detection signal is input.

The GPS receiver 60 receives a GPS signal transmitted from a satellite included in the satellite distress rescue system COSPAS-SARSAT using the satellite through the reception antenna RX_ANT.

When the emergency switch SW is turned on or the shock sensor 40 outputs a shock detection signal, the CPU 70 outputs an emergency position signal transmission command RF_ON for notifying the user of the rescue request situation and the location information. .

When the CPU 70 is initially operated by the supply power of the regulator 10, as shown in FIG. 1, the battery 70 outputs a battery BT discharge check signal LOWBAT to discharge the discharge of the battery discharge display unit 20. The discharge lamp LED is turned on by turning on the check switching element Q1.

When the transmission start signal TK_OK is input as the emergency switch SW is turned on, the CPU 70 obtains a user's rescue request situation and the GPS signal INT._GPS provided by the GPS receiver 60. Outputs an emergency position signal sending command (RF_ON) to inform a user of location information.

After the transmission start signal TK_OK and the standby signal IDLE are input as the emergency switch SW operates in the idle mode, the CPU 70 may then detect the impact sensor 40. Notifies the user's rescue request situation and the user's location information acquired from the GPS signal INT._GPS provided by the GPS receiver 60 when the transmission start signal TK_OK is input as the shock detection signal is output. Outputs the emergency position signal sending command (RF_ON).

The RF transmitter 80 transmits the emergency position signal through the transmission antenna TX_ANT when the emergency position signal transmission command RF_ON is input.

In FIG. 1, D1, D2, and D3 are input stabilization diodes of the regulator 10 and the emergency discriminator 50. As shown in FIG.

Personal emergency position transmitter (ELT) according to the present invention configured as described above operates as follows.

When the user who is in need of a rescue request due to an unexpected accident such as an aircraft crash, a traffic accident, a fall, hijacking or confinement during climbing, turns on the emergency switch SW, as shown in FIG. 1, the operation start signal START Is input to the emergency discriminator 50 via D3. Accordingly, the emergency discriminator 50 outputs a transmission start signal TK_OK and applies it to the CPU 70.

As described above, when the user who needs a rescue request turns on the emergency switch SW, when the transmission start signal TK_OK is input to the CPU 70, the CPU 70 may request a rescue status of the user and the GPS receiver. Outputs an emergency position signal sending command RF_ON for notifying the user's location information acquired from the GPS signal INT._GPS provided by 60, and then the RF sending unit 80 sends the emergency position signal sending command. The emergency position signal is transmitted through the transmitting antenna TX_ANT according to RF_ON.

The emergency location signal is transmitted to the Search and Rescue Center (SARC) on the ground through the satellites included in the COSPAS-SARSAT. Rescue work is done to rescue.

In case of an accident such as an aircraft crash, traffic accident, fall during hike, abduction or confinement, the emergency switch SW cannot be turned on or in case of emergency. When operating in (IDLE MODE), as shown in Fig. 1, the operation start signal START is input to the emergency discriminator 50 via D2 and D3, and accordingly the emergency discriminator 50 is sent out. The start signal TK_OK is output and applied to the CPU 70.

At the same time, the standby signal IDLE is applied to the CPU 70 as the standby switching element Q2 of the standby notification unit 30 is turned on.

As described above, when the user starts the emergency switch SW in the idle mode, when the transmission start signal TK_OK and the standby signal IDLE are input to the CPU 70, the CPU 70 The standby state IDLE is maintained until the emergency switch SW is turned off.

While the CPU 70 maintains the standby state IDLE as described above, if the shock detection signal output from the shock sensor 40 is input to the emergency discriminator 50 due to an external shock, The emergency discriminator 50 outputs the transmission start signal TK_OK to the CPU 70.

As described above, after the transmission start signal TK_OK and the standby signal IDLE are input to the CPU 70, the transmission start signal TK_OK is output as the shock detection sensor 40 outputs a shock detection signal. When input to the CPU 70 again, the CPU 70 provides an emergency for notifying the user's rescue request situation and the user's location information obtained from the GPS signal INT._GPS provided by the GPS receiver 60. After outputting the position signal transmission command RF_ON, the RF transmitter 80 transmits the emergency position signal through the transmission antenna TX_ANT according to the emergency position signal transmission command RF_ON.

The emergency location signal is transmitted to the Search and Rescue Center (SARC) constructed on the ground through the satellites included in the COSPAS-SARSAT. Rescue work is performed to rescue the system.

The personal emergency position transmitter (ELT) according to the present invention described above is not limited to the above-described embodiment, and the general knowledge in the field to which the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone who has it has the technical spirit to the extent that various changes can be made.

1 is an embodiment showing a personal emergency position transmitter in accordance with the present invention.

<Description of the symbols for the main parts of the drawings>

10: regulator 20: battery discharge display

30: standby notification unit 40: shock detection sensor

50: emergency discriminator 60: GPS receiver

70: CPU 80: RF transmitter

SW: Emergency switch Q1: Switching element for discharge check

Q2: standby switching element TX_ANT: transmit antenna

RX_ANT: Receive Antenna D1, D2, D3, D4: Diode

R1, R2, R3, R4, R5, R6: Resistance BT: Battery

Claims (4)

A regulator 10 for converting a battery BT power source into a specific DC power source; A battery discharge display unit 20 which turns on the discharge check switching element Q1 to light the discharge lamp LED when the battery BT supplied to the regulator 10 falls below a specific value; An emergency switch (SW) for outputting an operation start signal (START) and supplying the battery (BT) power to the regulator (10) when it is switched on or when a standby mode (IDLE MODE) is selected; A standby notification unit 30 for outputting a standby signal IDLE by turning on a standby switching element Q2 when a standby mode of the emergency switch SW is selected; A shock sensor 40 which is operated by the power supply of the regulator 10 and outputs a shock detection signal when an external shock of a predetermined value or more is detected; An emergency discriminator (50) which outputs a transmission start signal (TK_OK) when the operation start signal (START) or the shock detection signal is input; A GPS receiver 60 for receiving a GPS signal transmitted from a satellite; By discharging the battery BT discharge check signal LOWBAT at the first operation by the supply power of the regulator 10 to turn on the discharge check switching element Q1 of the battery discharge indicator 20, the discharge lamp ( LED) is turned on, and when the transmission start signal TK_OK is input as the emergency switch SW is turned on, it is obtained from a user's rescue request situation and the GPS signal INT._GPS provided by the GPS receiver 60. Outputs an emergency position signal transmission command RF_ON for notifying a user's location information, or as the emergency switch SW operates in an idle mode, the transmission start signal TK_OK and the standby signal ( After the IDLE) is input, when the transmission start signal TK_OK is input again as the shock detection sensor 40 outputs the shock detection signal, the rescue request situation of the user and the GPS receiver 60 A CPU 70 outputting an emergency position signal sending command RF_ON for notifying the user's position information acquired from the provided GPS signal INT._GPS; And An RF transmitter 80 for transmitting an emergency position signal when the emergency position signal transmission command RF_ON is input; Personal emergency position transmitter, characterized in that consisting of. delete delete delete

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