WO2016111547A1 - Système et procédé d'identification d'emplacement de stationnement utilisant le nom d'un dispositif de communication sans fil à courte portée, et support d'enregistrement dans lequel est stocké un programme lisible par ordinateur pour exécuter ledit procédé - Google Patents

Système et procédé d'identification d'emplacement de stationnement utilisant le nom d'un dispositif de communication sans fil à courte portée, et support d'enregistrement dans lequel est stocké un programme lisible par ordinateur pour exécuter ledit procédé Download PDF

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Publication number
WO2016111547A1
WO2016111547A1 PCT/KR2016/000103 KR2016000103W WO2016111547A1 WO 2016111547 A1 WO2016111547 A1 WO 2016111547A1 KR 2016000103 W KR2016000103 W KR 2016000103W WO 2016111547 A1 WO2016111547 A1 WO 2016111547A1
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name
wireless communication
range wireless
short
device name
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PCT/KR2016/000103
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English (en)
Korean (ko)
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윤한기
장세권
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주식회사 리더라이텍
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    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/14Traffic control systems for road vehicles indicating individual free spaces in parking areas
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/14Traffic control systems for road vehicles indicating individual free spaces in parking areas
    • G08G1/141Traffic control systems for road vehicles indicating individual free spaces in parking areas with means giving the indication of available parking spaces
    • G08G1/144Traffic control systems for road vehicles indicating individual free spaces in parking areas with means giving the indication of available parking spaces on portable or mobile units, e.g. personal digital assistant [PDA]

Definitions

  • the present invention relates to a parking position checking system and method, and more particularly, to obtain a device name of a short-range wireless communication device installed in a parking lot, determine a parking position, and output the same to a user device such as a smartphone. It's about technology that makes it easy to see where you are.
  • the parking lot displays the name of each zone so that the owner can remember the parking location.
  • column numbers such as B2-A11 and B3-C32 are described for each column installed in a parking lot.
  • the owner must memorize the pillar number or take a note in order to find the parking position.
  • GPS location information such as Korean Patent Publication No. 10-2014-0120489 (2014.10.14. 'Parking management system using a mobile terminal').
  • the technology provided by the terminal has been presented.
  • the present invention has been made to solve the problems of the prior art as described above, and after installing a short-range wireless communication device set the device name corresponding to the pillar number for each predetermined area of the parking lot, the user device searches for a short-range wireless communication device By obtaining the device name, by automatically storing it so that it can be used as parking location information, the purpose is to provide a technology that allows the owner to accurately and conveniently check the parking location.
  • Parking position identification system using a short-range wireless communication device name for achieving the above object, a plurality of short-range wireless communication device is installed at each predetermined point of the parking lot and set a unique device name; And a user device searching for the short range wireless communication device and determining the searched device name as a parking position and outputting the screen.
  • the device name of the short-range wireless communication device may be set in a text form including the name of the area described for each point of the parking lot.
  • the user device may also include: a search unit for searching for adjacent short-range wireless communication devices to obtain a device name; An analysis unit for parsing a device name obtained from the search unit and extracting a meaningful character string; A parking position determining unit which determines a parking position according to a preset criterion based on the character string obtained by the search unit and extracted by the analysis unit; And an output processing unit for processing to output the parking position determined by the parking positioning unit.
  • a search unit for searching for adjacent short-range wireless communication devices to obtain a device name
  • An analysis unit for parsing a device name obtained from the search unit and extracting a meaningful character string
  • a parking position determining unit which determines a parking position according to a preset criterion based on the character string obtained by the search unit and extracted by the analysis unit
  • an output processing unit for processing to output the parking position determined by the parking positioning unit.
  • the parking location determining unit of the user device may determine the parking location of the device name obtained as the highest priority among the device names of the short range wireless communication device obtained by the search unit.
  • the device name of the short-range wireless communication device is set to a text form further including a predetermined identifier in addition to the area name, the parking positioning unit of the user device, the device of the short-range wireless communication device obtained from the search unit; Device names that do not contain a specified identifier may be excluded from the parking position determination.
  • the user device may further include a device monitoring unit configured to monitor whether the preset short-range wireless communication device to which the communication channel is connected is released, wherein the search unit is connected to the communication channel through the device monitoring unit.
  • the process of searching for the adjacent short range wireless communication device may be automatically performed.
  • the device name of the short-range wireless communication device is set to a text form that further includes a predetermined identifier in addition to the area name, the driving time confirmation device for outputting a unique device name for confirmation of power supplied from the vehicle;
  • the user device may further include a device monitoring unit configured to check whether a predetermined unique identification device name is searched, and the search unit of the user device searches for an adjacent short range wireless communication device to obtain a device name. The unit checks whether a predetermined unique identification device name is searched, and when the power supply of the driving time confirmation device is cut off and the device monitoring unit confirms that the identification device name is not searched, the parking positioning unit is The predetermined identifier is included in the device name of the short-range wireless communication device obtained by the search unit. Group targeting the device name may determine the parking position according to the set criteria.
  • the device name of the short-range wireless communication device is set to a text form that further includes a predetermined identifier in addition to the area name, charge the auxiliary battery when the power is supplied from the vehicle, and if the power supply from the vehicle is cut off the auxiliary battery
  • the apparatus further includes a driving time checking device for outputting a unique identification device name through a power charged in the user device, wherein the user device further comprises: a device monitoring unit for confirming whether a predetermined unique identification device name is searched; The search unit of the user device searches for an adjacent short-range wireless communication device to obtain a device name, but the device monitoring unit checks whether a predetermined unique identification device name is searched and the power supply of the driving time confirmation device is cut off.
  • the Car position determining unit may determine the parking position according to predetermined criteria to the target device name that contains the group identifier of the specified equipment name of a short-range wireless communication device obtained by the search section.
  • the device name of the short-range wireless communication device is set to a text form that further includes a predetermined identifier in addition to the area name, charge the auxiliary battery when the power is supplied from the vehicle, and if the power supply from the vehicle is cut off the auxiliary battery
  • the apparatus may further include a driving time checking device for outputting a changed device name obtained by merging the device names of the short-range wireless communication device adjacent to the default confirmation device name through the power charged in the device.
  • the user device may further include a predetermined identifier or a preset device.
  • a device monitoring unit which checks whether a unique identification device name is searched, wherein the search unit of the user device searches for an adjacent short range wireless communication device to obtain a device name, and the device monitoring unit checks whether the changed device name is searched The power supply of the device for checking the driving time is cut off
  • the parking location determiner may determine a parking location based on the changed device name.
  • the short-range wireless communication device is preferably a Bluetooth device.
  • the parking position confirmation method using the short-range wireless communication device name for achieving the above object, to obtain a device name by searching a plurality of short-range wireless communication devices installed at a certain point of the parking lot in the user device (a )step; (B) extracting a meaningful character string by parsing the obtained device name; (C) determining a parking position according to a preset criterion based on the extracted character string; And (d) processing the screen to output the determined parking position.
  • the device name of the short-range wireless communication device may be set in a text form including the name of the area described for each point of the parking lot.
  • the device name obtained as the highest priority among the acquired device name of the short-range wireless communication device may be determined as the parking position.
  • the device name of the short-range wireless communication device is set to a text form further including a predetermined identifier in addition to the area name, and when determining the parking position in the step (c), the device name of the acquired short-range wireless communication device Device names that do not include a predetermined identifier may be excluded from parking location determination.
  • steps (a) to (d) may be automatically performed by a one-touch command input from the user device.
  • the method may further include (e) monitoring whether the predetermined short range wireless communication device to which the communication channel is connected is released from the user device, and further comprising the step of (e): If it is confirmed that the established short-range wireless communication device is disconnected, steps (a) to (d) may be automatically performed in the user device.
  • the parking location confirmation method using the short-range wireless communication device name for achieving the above object, the step of (a) obtaining the device name of the adjacent short-range wireless communication device from the user equipment; (B) checking whether a predetermined confirmation device name is searched among the acquired device names; (C) determining a parking position according to a predetermined criterion by extracting a string of a device name including the predetermined identifier from the acquired device names when the predetermined confirmation device name is not searched; And (d) storing the determined parking position.
  • the parking position confirmation method using the short-range wireless communication device name for achieving the above object, the step of (a) obtaining the device name of the adjacent short-range wireless communication device from the user equipment; (B) checking whether a predetermined confirmation device name is searched among the acquired device names; (C) determining a parking position according to a predetermined criterion by extracting a string of device names including the predetermined identifier from the acquired device names when the predetermined confirmation device name is searched; And (d) storing the determined parking position.
  • the parking position confirmation method using the short-range wireless communication device name for achieving the above object, (a) obtaining a device name of the adjacent short-range wireless communication device from the user equipment; (B) checking whether a predetermined device name for confirmation and a changed device name including all of the predetermined identifiers are searched among the acquired device names; (C) determining a parking position according to a preset criterion by extracting the obtained changed device name string when the changed device name is searched; And (d) storing the determined parking position.
  • the present invention includes a recording medium storing a computer-readable program for executing the method.
  • the owner of the car parks and runs a dedicated application on the user's device such as a smartphone
  • the user searches for a short-range wireless communication device (Bluetooth device) installed near the owner's location (ie, parking location).
  • Bluetooth device Bluetooth device
  • the parking location can be conveniently checked by automatically storing and outputting the parking location information.
  • the device name of the short-range wireless communication device installed at a certain point of the parking lot is matched with the area name (column number) written on the wall or pillar of the existing parking lot. It is easy to find the area name (pillar number) through the parking location information.
  • the present invention is not a method of transmitting data of parking location information to a user device in a short range wireless communication device, but only by using a device name acquired while searching for a short range wireless communication device from a user device. It is not necessary. Therefore, the button operation for pairing is omitted, and the time for pairing completion and data transfer time are not necessary, so that the parking position storage and output time can be greatly shortened.
  • the device name of the short-range wireless communication device when setting the device name of the short-range wireless communication device, if it is set to include a separate identifier in addition to the zone name (pillar number), other devices (for example, the audio system or Bluetooth headset of the vehicle) in addition to the device installed in the parking lot to check the parking position Even if it is searched first, it can be excluded from the parking positioning, so that the wrong device name is stored in the parking position.
  • a separate identifier in addition to the zone name (pillar number)
  • other devices for example, the audio system or Bluetooth headset of the vehicle
  • the device may be designed to monitor whether the device paired with the user device is released, and if a pairing with the preset device (for example, the owner's vehicle's audio system) is confirmed to be unpaired, a dedicated application may be automatically started on the user device. .
  • the owner of the vehicle can turn off the vehicle after completing parking as usual, and as the user device confirms that the pairing connection with the audio system of the vehicle has been disconnected, it automatically runs a dedicated application to operate a nearby device. Search and parking location information can be secured, there is an advantage that even the button operation for the user equipment can be omitted.
  • the dedicated application installed on the user device can store the recent parking history information and provide it according to the user's command, and if necessary, the parking location information can be transmitted to others in the form of a text message. Area name, column number).
  • FIG. 1 is a view showing an example of a parking lot for explaining the parking position identifying system using a short-range wireless communication device name according to an embodiment of the present invention.
  • Figure 2 is a view for explaining the configuration of a smart phone as a user device in the parking position confirmation system according to an embodiment of the present invention.
  • FIG. 3 is a flowchart for explaining a parking position checking method according to the first embodiment of the present invention.
  • FIG. 4 is a diagram showing an example of log recording according to a Bluetooth device search
  • 5 is a view showing an example of the parking position information output in the widget mode from the user device.
  • FIG. 6 is a diagram illustrating an example in which parking location information is output on a main screen in a dedicated application driven by a user device.
  • FIG. 7 is a view showing an example of the parking history information confirmation screen in a dedicated application driven on the user device.
  • FIG. 8 is a diagram illustrating an example of a screen for transmitting parking location information as a text message in a dedicated application driven by a user device.
  • FIG. 10 is a flowchart for explaining a parking position checking method according to a second embodiment of the present invention.
  • Fig. 11 shows another example of log recording according to the Bluetooth device search.
  • FIG. 12 is a flowchart for explaining a parking position checking method according to a third embodiment of the present invention.
  • FIG. 13 is a block diagram illustrating a parking position determining system using a short range wireless communication device name according to another embodiment of the present invention.
  • FIG. 14 is a flowchart for explaining a parking position checking method according to a fourth embodiment of the present invention.
  • 15 is a block diagram illustrating a parking position determining system using a short range wireless communication device name according to another embodiment of the present invention.
  • 16 is a flowchart for explaining a parking position checking method according to a fifth embodiment of the present invention.
  • 17 is a block diagram illustrating a parking position identifying system using a short range wireless communication device name according to another embodiment of the present invention.
  • each component, server, and system described below are not necessarily composed of independent components or servers that perform their respective functions, and may be implemented as a set of one or more programs, one or more servers, or one or more systems. It may be shared.
  • FIG. 1 is a view showing an example of a parking lot for explaining a parking position identifying system (hereinafter referred to as 'parking position identifying system') using a short-range wireless communication device name according to an embodiment of the present invention.
  • the parking lot is marked with a parking line 10 partitioning the parking space on the ground (sometimes there is no parking line 10), and pillars are provided at regular intervals.
  • the pillars are usually installed in underground parking lots, and the pillars are marked with the name of the zone, ie the column number, to indicate that it is a specific area.
  • Pillar numbers are arranged in a certain order and listed sequentially.
  • the column number 'B2-A11' means the 11th section of column A of the basement 2 floor. Therefore, the borrower can determine the parking position through the pillar number.
  • the name of the area to indicate that it is a specific area may be written on the wall, telephone pole or ground other than the column.
  • the present invention relates to a technology for assisting the user to check the parking position conveniently so that the zone name (pillar number) displayed in the parking lot is automatically displayed on the user device 40.
  • Parking confirmation system includes a plurality of short-range wireless communication devices (81, 82, 83, 84) and the user device (40).
  • the near field communication devices 81, 82, 83, and 84 are installed at predetermined points in the parking lot. Specifically, short-range wireless communication devices (81, 82, 83, 84) is preferably provided for each column is described column number (area name). Of course, if the name of the zone is described on the wall or telephone pole, the near field communication device (81, 82, 83, 84) may also be installed on the wall or telephone pole.
  • unique device names are set in the plurality of short range wireless communication devices 81, 82, 83, and 84, respectively.
  • the device name is set to match the zone name described above or in a text form including the zone name.
  • a device name of 'B2-A11' is set in a first device 81 installed on a column on which a pillar number of 'B2-A11' is described, or a device name of a specific text form including a pillar number of 'B2-A11' is used. It is set.
  • the second device (82) and the third device (83) in which the device name in text form including the corresponding column number are set. And the fourth device 84 are installed.
  • the device name of the short range wireless communication device (81,82,83,84) may be a fixed value when the product is shipped from the factory through order production, but it may be connected to an administrator's terminal (not shown) according to the command input of the administrator. It may be reset.
  • short-range wireless communication devices (81, 82, 83, 84) are not provided for each column with a column number, but installed one per two or three pillars, or the zone name is written on the wall or ground, and the short-range wireless communication device ( 81, 82, 83, and 84 may be set to the device name when the zone name at the nearest position is installed at a position slightly away from the position where the zone name is described.
  • the user device 40 receives the device name from the short range wireless communication devices 81, 82, 83, and 84 installed in the parking lot, stores and outputs the device name to inform the user of the parking location.
  • the user device 40 is a smart phone 40 installed with a dedicated application for performing a series of processes to search for the short-range wireless communication devices (81, 82, 83, 84), obtain and store the device name, and output if necessary It is preferably a smart device such as a tablet PC, and may be a wearable device such as a smart watch depending on the implementation.
  • the short range wireless communication device (81, 82, 83, 84) and the user device 40 can transmit and receive signals in RF or NFC, Bluetooth, infrared or Wi-Fi.
  • RF or NFC wireless fidelity
  • Wi-Fi wireless fidelity
  • the Bluetooth devices 81, 82, 83, and 84 are used as short-range wireless communication devices, and the user device will be described after assuming that the smart phone 40 is in use.
  • the Bluetooth devices 81, 82, 83, and 84 are installed on pillars in which the zone names B2-A11, B2-A12, B2-B11, and B2-B12 are installed for convenience of explanation. 4. Name the unit (81, 82, 83, 84).
  • FIG. 2 is a view for explaining the configuration of the smart phone 40 that is a user device.
  • the parking position confirmation process which is the ultimate object of the present invention, is driven by a dedicated application installed in the owner's smartphone 40, and each of the components of the smartphone 40 shown in FIG. It is a visualization of the actor. That is, some components may be implemented in hardware, and some components may be implemented in software.
  • the smartphone 40 further includes a number of components in addition to the configuration shown in Figure 2, Figure 2 shows only the components required for the parking position confirmation process according to an embodiment of the present invention.
  • the smartphone 40 includes a Bluetooth module 41, a device monitoring unit 42, a search unit 43, an analysis unit 44, a parking positioning unit 45, and an output processing unit 46. ), A history recording unit 47, a text message processing unit 48, a display 49 and a key input unit 50.
  • the Bluetooth module 41 detects signals of the Bluetooth devices 81, 82, 83, 84 near the smartphone 40, and if necessary, transmits and receives data to and from the Bluetooth devices 81, 82, 83, 84 nearby. Connect (pair) a communication channel. That is, pairing connection is performed according to a preset setting or a user's command input.
  • the device monitoring unit 42 is provided to monitor a connection state of the paired Bluetooth devices 81, 82, 83, and 84. The function of the device monitoring unit 42 will be described later with reference to FIG.
  • the search unit 43 searches whether there is a Bluetooth device (81, 82, 83, 84) in which a signal is located at an adjacent position in association with the Bluetooth module 41 according to a user's command or as set in advance. It is provided to obtain a device name from the devices 81, 82, 83, and 84.
  • the analyzer 44 is provided to extract a meaningful character string by parsing a device name in a text form obtained by the searcher 43.
  • the parking positioning unit 45 is provided to determine the parking position according to a predetermined criterion based on the character string obtained by the search unit 43 and extracted by the analysis unit 44. Criteria for determining the parking position in the parking positioning unit 45 will be described in detail with reference to FIGS. 3 to 12.
  • the output processor 46 processes to output the parking position determined by the parking positioning unit 45 to the screen.
  • the output processor 46 outputs the parking position through the widget mode of the smartphone 40 or processes the parking position to be output on the main screen when the dedicated application is driven.
  • the history recording unit 47 is provided to store the parking position information determined by the parking position determining unit 45, and to later organize and output them according to a user's request.
  • the text message processing unit 48 is provided to transmit and process parking location information as a text message to others requested by the user according to the driving of the dedicated application.
  • the display 49 displays a driving screen or parking location information of a dedicated application
  • the key input unit 50 is configured to receive a user command.
  • the display 49 and the key input unit 50 may be integrally manufactured in the form of a touch screen.
  • Configurations of the smartphone 40 described above will be further embodied through the description of the parking position checking method using the short-range wireless communication device name according to an embodiment of the present invention.
  • FIG. 3 is a flowchart illustrating a parking position checking method according to a first embodiment of the present invention. That is, after the user A 30 parks the vehicle A 20 next to the pillar “B2-A11” in which the first device 81 is installed in the parking lot illustrated in FIG. 1, the user A 30 holds the smartphone 40. It is considered a state.
  • the search unit 43 is connected to the Bluetooth module 41 to receive a signal from the Bluetooth devices 81, 82, 83, 84) is searched for, and the device name of the searched device is acquired.
  • An example of log recording of device names acquired according to the search process of the search unit 43 is shown in FIG.
  • Bluetooth devices (81,82,83,84) having the device names AMART B2-A11, AMART B2-B11, AMART B2-A12, and AMART B2-B12 in the order of the strongest signals located closest to the smartphone 40. ) Will be searched.
  • the name of the shopping mall (AMART) is set together with the column number as the device name of the Bluetooth devices 81, 82, 83, and 84.
  • the time at which the corresponding device name was obtained is also recorded.
  • the analyzer 44 parses the acquired device name and extracts a meaningful character string. For example, the time obtained by the device name is separated from the log record of FIG. 4, and the building name and the column number are also extracted from the device name.
  • the parking positioning unit 45 determines the first searched device name as the parking position, and the history recording unit 47 stores the determined parking position.
  • the output processor 46 outputs the parking position determined by the parking positioning unit 45 through the display 49 (S320).
  • the parking location information is output in the widget mode in the smartphone 40. That is, even if the smartphone 40 does not drive a dedicated application, the most recent parking position information is always output in the widget mode, so that the user can conveniently check the parking position through the smartphone 40.
  • the parking location information includes the parking time (that is, the time when the device name was obtained) and the building name (in addition to the column number in the device name together with the column number, and then separated from the analysis unit 44. (Name) is displayed in a organized manner.
  • parking history information is output as shown in FIG. 7.
  • another button is selected, as shown in FIG. 8, a screen for transmitting the parking location information that has been recently parked and outputted on the screen to another is displayed. Therefore, even if you do not have to explain the complicated parking location to others or enter the parking location information, you can accurately convey the location of your vehicle to others.
  • it may be implemented to transmit the parking location information in conjunction with the mobile messenger service, rather than sending a text message.
  • the Bluetooth devices 81, 82, 83, and 84 installed near the car owner's location (that is, the parking location). If the search is located close to obtain the device name of the device with the strongest signal, the parking location information is automatically stored and output it can be conveniently confirmed.
  • the device name of the Bluetooth devices (81, 82, 83, 84) installed at certain points of the parking lot is matched with the area name (column number) written on the wall or the pillar of the existing parking lot. After the parking position information stored in the smart phone 40 is output in the widget mode will be easy to find the zone name (pillar number).
  • the present invention is not a method of transmitting data of the parking position information from the Bluetooth devices 81, 82, 83, 84 to the smartphone 40, but from the smartphone 40, the Bluetooth devices 81, 82, 83, 84. Since only the device name acquired while searching for is used, a communication channel connection procedure such as pairing is not necessary. Therefore, the button operation for pairing is omitted, and the time for pairing completion and data transfer time are not necessary, so that the parking position storage and output time can be greatly shortened.
  • the recent parking history information may be stored and provided according to a user's command, and if necessary, the parking location information may be transmitted to another person in the form of a text message, so that the user can easily and precisely avoid complicated explanations. Parking location (area name, column number) can be delivered.
  • the user only needs to touch the icon or widget screen only once to drive a dedicated application in the smartphone 40, and the process of acquiring the device name by searching the Bluetooth device by such one-touch input-parking position determination- Parking location information storage-Parking location information output-A series of processes until the end of the search (that is, the operation of the Bluetooth module 41) is all done automatically.
  • a user in order to link a Bluetooth device in a smartphone, a user must manually enter a device search command in the 'Settings' screen, and when a specific device is searched, a pairing device must be selected and paired. I had to type in the commands myself.
  • FIG. 9 is a view showing another situation of the parking lot. That is, the user A 30 parks the vehicle A 20 and gets off to drive a dedicated application, but the user C 70 wears it more than the distance of the first to fourth devices 81, 82, 83, and 84. It is assumed that other Bluetooth devices such as the Bluetooth headset 71 or the audio system of the vehicle B 60 may be searched first. In this case, the process of confirming the parking position is shown in the flowchart according to the second embodiment of FIG.
  • the unit 43 searches for peripheral Bluetooth devices 60, 71, 81, 82, 83, and 84 in association with the Bluetooth module 41.
  • the search unit 43 may be located near the first to search for a strong signal (60, 71, 81, 82, 83, 84). That is, the Bluetooth headset 71 (device name: EARMIC) worn by the audio system (device name: SONATA) of the vehicle B 60 or the user C 70, which is turned on as shown in the example of the log record shown in FIG. This may be searched first. In this case, as shown in the process of FIG. 3, if the first searched device name is determined as the parking position, a loss may be seen.
  • the second embodiment is to solve the problem that may occur due to the search of the wrong Bluetooth device (60, 71), the first to fourth devices (81, 82) for providing a service for checking the parking location (83,84) is set to include a predetermined identifier in addition to the pillar number. That is, as shown in the log recording example of FIG. 11, the device names of the first to fourth devices 81, 82, 83, and 84 are referred to as 'LLT-AMART B2-A11', 'LLT-AMART B2-A12', and 'LLT', respectively. -AMART B2-B11 'and' LLT-AMART B2-B12 'are set.
  • the parking positioning unit ( 45) determines the parking position of the device name for the first device 81 searched for the highest priority after excluding the preset identifier, that is, the device that does not include the LLT (SONATA and EARMIC), and stores it in the history recording unit 47 ⁇ S1015.
  • the parking position information thus determined is output to the display 49 by the output processor 46 ⁇ S1020>.
  • the first to fourth devices (81, 82, 83, 84) when setting the device name of the first to fourth devices (81, 82, 83, 84) installed to provide the parking position confirmation service, in addition to the zone name (column number)
  • the first to fourth devices (81, 82, 83, 84) installed in the parking lot to determine the parking position other devices (e.g., the audio system of the vehicle B or Bluetooth headset) first search Even if it is, it can be excluded from the parking positioning, so that the wrong device name is stored in the parking position.
  • FIG. 12 is a flowchart for explaining a parking position checking method according to a third embodiment of the present invention. That is, in the process illustrated in FIG. 3 or FIG. 10, the search process is performed when the user A 30 finishes parking and runs the dedicated application of the smartphone 40. In FIG. 12, the user for driving the dedicated application is performed. It even increases the convenience by omitting the command input process (for example, icon touch or widget screen touch).
  • the command input process for example, icon touch or widget screen touch.
  • the pairing connection between the smartphone 40 and the audio system of the vehicle A 20 is automatically released. That is, the device monitoring unit 42 of the smartphone 40 frequently checks whether a pairing connection with a preset Bluetooth device, that is, the audio system of the vehicle A 20, is released in association with the Bluetooth module 41. If it is confirmed that the pairing connection with the audio system is released (S1210), the dedicated application of the smartphone 40 is automatically started so that the search unit 43 starts the search of the Bluetooth devices 81, 82, 83, and 84. ⁇ S1220>.
  • the analysis unit 44 parses and extracts the device name of the device searched by the search unit 43 into a meaningful string, and the parking positioning unit 45 is parked in the manner described in FIG. 3 or the method described in FIG. 10.
  • the location is determined, and the history recorder 47 stores the determined parking location ⁇ S1225>.
  • the determined parking location information may be displayed on the display 49 of the smartphone 40 in the widget mode or on the main screen of the dedicated application according to a user's command input.
  • the smart phone 40 monitors whether the paired device is released, and if it is designed to automatically run a dedicated application at the time when the unpairing with the preset device (for example, the vehicle owner's audio system) is confirmed, In the usual parking as usual, there is a convenient parking location is recorded even if there is no button operation for the smartphone (40).
  • the preset device for example, the vehicle owner's audio system
  • FIG. 13 is a block diagram illustrating a parking position determining system using a short range wireless communication device name according to another embodiment of the present invention. That is, in addition to the short-range wireless communication devices (81, 82, 83, 84) installed in the smart phone 40 and the parking lot described in the previous example, a driving time confirmation device that receives power from the vehicle A (20) and outputs a confirmation device name. By further using the 90, the parking position is automatically recorded even if the user A 30 does not manually operate the dedicated application through the smart phone 40.
  • the smart phone 40 or the short-range wireless communication devices 81, 82, 83, and 84 will be replaced with the above description, and only the driving point checking device 90 will be further explained.
  • the driving time confirmation device 90 includes a confirmation Bluetooth module 91 and a power supply unit 92.
  • the confirmation Bluetooth module 91 receives power from the power supply unit 92 and emits a Bluetooth signal including a unique confirmation device name (eg, 'CJ').
  • the Bluetooth signal output from the device 90 for confirming driving time is not used to transmit and receive information in connection with other devices, and is exclusively an application of the smartphone 40 depending on whether the device name for checking is searched. Is to make it work.
  • the driving point confirming device 90 in Figure 13 is shown that the power is supplied through the cigar jack socket of the vehicle A (20), according to the implementation to receive the power through the USB or AUX terminal It may be in the form of, or may be manufactured in the form of a navigation or a black box. That is, while emitting a Bluetooth signal including a unique identification device name (CJ), the power supply is also cut off when the start of the vehicle A (20) may be produced in any way.
  • CJ unique identification device name
  • the parking position checking method according to the fourth embodiment of the present invention using the driving time confirmation device 90 shown in FIG. 13 is shown in the flowchart of FIG.
  • the user A 30 drives the vehicle A 20 while plugging the device 90 for driving time confirmation into the cigar jack socket to enable power supply.
  • the confirmation Bluetooth module 91 of the driving time confirmation device 90 receives power through the power supply unit 92 and emits a Bluetooth signal including a unique confirmation device name CJ.
  • the search unit 43 of the smart phone 40 possessed by the user A 30 automatically searches for the Bluetooth device at intervals ⁇ S1405>.
  • the intermediate cycle interval is preferably about 1 minute to 5 minutes. The reason for this will be described later.
  • the device name of the nearby Bluetooth device may be acquired.
  • the device name CJ for checking the driving time confirmation device 90 is also searched together.
  • the search unit 43 of the smart phone 40 searches for the Bluetooth device at intervals during the periodic period does not matter whether the search device name (CJ) is searched for, and the device name includes 'LLT', which is a predetermined identifier. It is more important whether it is searched.
  • the device monitoring unit 42 of the smartphone 40 checks whether a device name including 'LLT', which is a predetermined identifier, is searched among the device names acquired through the search unit 43. If the device name including the identifier 'LLT' is searched for (S1415), since it is clear that the parking lot has been entered, the search unit 43 searches for the Bluetooth device at short intervals (S1420).
  • the reason why the search unit 43 switches from the medium cycle interval to the search of the short cycle interval is that it is possible to secure an accurate parking position only after determining the parking time as soon as possible after it is confirmed that the parking lot has been entered. Therefore, even if the user turns off the starting after parking and the user A 30 immediately moves away from the vehicle A 20, it is preferable to search at short intervals of 2 seconds to 10 seconds in order to obtain the nearest local wireless communication device name as much as possible. .
  • the search of the Bluetooth device of the search unit 43 may always be made at a short time interval of about 10 seconds, in consideration of the battery consumption of the smart phone 40, when the search does not enter the parking lot, To save battery life.
  • the intermediate period interval is set in consideration of the time taken to enter and exit the parking lot on average. In fact, it is not necessary to confirm the parking position in the small parking lot, and only in the large parking lot, so it is sufficient to set the intermediate cycle interval of about 2 to 5 minutes. That is, the dedicated application according to the present embodiment may drive the Bluetooth module 41 frequently so that the battery may not be greatly consumed.
  • the search unit 43 of the smart phone 40 switches to a search in a short cycle interval, whether or not the search for the device name CJ emitted from the driving point checking device 90 serves as an important factor. That is, even after entering the parking lot, if the vehicle A 20 continues to move to find a parking space, the driving time checking device 90 will still emit the checking device name CJ. If you turn off the start after the power supply through the power supply unit 92 is cut off, Bluetooth module 91 for confirmation is also deactivated.
  • the device monitoring unit 42 of the smart phone 40 monitors whether or not the device name (CJ) for checking is searched among the device names acquired at short intervals through the search unit 43 ⁇ S1425>, If it is confirmed that the device name CJ is no longer searched (S1430), it is determined that parking is completed.
  • CJ device name
  • the analysis unit 44 parses and extracts the device name of the device searched by the search unit 43 into a meaningful string, and the parking positioning unit 45 is parked in the manner described in FIG. 3 or the method described in FIG. 10.
  • the history recording unit 47 stores the determined parking location ⁇ S1435>.
  • the determined parking location information may be displayed on the display 49 of the smartphone 40 in the widget mode or outputted on the main screen of the dedicated application according to a user's command input ⁇ S1440>.
  • FIG. 15 is a block diagram illustrating a parking position determining system using a short range wireless communication device name according to another embodiment of the present invention. That is, similar to the system shown in Fig. 13, but there is a difference in the configuration of the device 100 for driving time confirmation.
  • the driving time confirmation device 100 shown in FIG. 15 includes a confirmation Bluetooth module 101, a power supply unit 102, a charging module 103, a discharge module 104, and an auxiliary battery 105.
  • the confirmation Bluetooth module 101 is provided to emit a Bluetooth signal including a predetermined identification device name (CJ).
  • the confirmation Bluetooth module 101 according to the present embodiment is not activated by receiving power through the power supply unit 102, but is activated by receiving power from the auxiliary battery 105.
  • the power supply unit 102 receives power through the cigar jack socket of the vehicle A 20 to charge the auxiliary battery 105 through the charging module 103.
  • design changes can also be powered via USB or AUX.
  • the discharge module 104 does not operate when power is supplied through the power supply unit 102, and operates when the power supply through the power supply unit 102 is cut off to check the power charged in the auxiliary battery 105. Supply to the Bluetooth module 101.
  • the principle of charging or discharging the auxiliary battery 105 depending on whether power is supplied through the power supply unit 102 may be implemented in a circuit or program.
  • the parking position checking method according to the fifth embodiment of the present invention using the driving point confirming device 100 shown in FIG. 15 is shown in the flowchart of FIG.
  • the user A 30 drives the vehicle A 20 while plugging the device 100 for driving time confirmation into the cigar jack socket to enable power supply.
  • the power supplied through the power supply unit 102 is charged in the auxiliary battery 105, the separate Bluetooth signal is not emitted.
  • the search unit 43 of the smart phone 40 possessed by the user A 30 automatically searches for the Bluetooth device at intervals ⁇ S1605>.
  • the search unit 43 of the smartphone 40 searches for the Bluetooth device
  • the device name of the nearby Bluetooth device may be acquired.
  • the confirmation Bluetooth module 101 of the driving time confirmation device 100 is in an inactive state while driving, the confirmation device name CJ is not searched.
  • the device monitoring unit 42 of the smartphone 40 checks whether a device name including 'LLT', which is a predetermined identifier, is searched among the device names acquired through the search unit 43. If the device name including the identifier 'LLT' is searched for (S1615), since the vehicle is entered, the search unit 43 searches for the Bluetooth device at short intervals (S1620).
  • the search unit 43 of the smartphone 40 switches to the search of the short period interval, whether or not the search for the device name CJ emitted from the device 100 for confirming driving time is an important factor. That is, if the vehicle continues to move to find the parking space even after entering the parking lot, the confirmation device name (CJ) will not be searched, and if the power is turned off after the parking is completed, the auxiliary battery 105 is not powered. The confirmation device name CJ is released by being supplied to the confirmation Bluetooth module 101.
  • the device monitoring unit 42 of the smart phone 40 monitors whether or not the device name (CJ) for checking is searched among the device names acquired at short intervals through the search unit 43 ⁇ S1625>, If the device name CJ is suddenly confirmed ⁇ S1630>, it is determined that parking is completed.
  • CJ device name
  • the analysis unit 44 parses and extracts the device name of the device searched by the search unit 43 into a meaningful string, and the parking positioning unit 45 is parked in the manner described in FIG. 3 or the method described in FIG. 10.
  • the history recording unit 47 stores the determined parking position ⁇ S1635>.
  • the determined parking location information may be displayed on the display 49 of the smart phone 40 in the widget mode or displayed on the main screen of the dedicated application according to the user's command input ⁇ S1640>.
  • the confirmation device name CJ is output according to whether the vehicle A 20 is started on or off, and when the confirmation device name CJ is lost or the confirmation device name CJ is If a dedicated application is automatically driven based on the time of search, the parking location can be recorded even if the owner completes parking as usual and no button operation is performed.
  • the Bluetooth module 41 of the smart phone 40 should be activated at regular time intervals to check the parking time point. The search is performed at short intervals only when entering the parking lot, and in other regions, the search is performed at medium cycle intervals. This can dramatically reduce battery consumption.
  • FIG. 17 is a block diagram illustrating a parking position identifying system using a short range wireless communication device name according to another embodiment of the present invention. That is, although similar to the system shown in Figs. 13 and 15, the configuration of the driving time confirmation device 110 is different.
  • the driving time confirmation device 110 shown in FIG. 17 includes a Bluetooth module 111 for confirmation, a device name storage unit 112, a search unit 113 for confirmation, a device name change unit 114, a power supply unit 115, The charging module 116, the discharge module 117, and the auxiliary battery 118 are included.
  • the confirmation Bluetooth module 111 is provided to emit a Bluetooth signal including the confirmation device name (which may be stored by default CJ) stored in the device name storage unit 112. In addition, the confirmation Bluetooth module 111 is not activated by receiving power through the power supply unit 115 and is activated by receiving power from the auxiliary battery 118.
  • the device name storage unit 112 stores the unique confirmation device name (CJ) initially set. If the device name is edited by the device name change unit 114, the changed device name is stored.
  • CJ unique confirmation device name
  • the identification search unit 113 searches for the presence of short-range wireless communication devices 81, 82, 83, and 84 in which a signal is located at an adjacent position in connection with the confirmation Bluetooth module 111, and the searched short-range wireless communication device ( 81, 82, 83, 84, to obtain the device name.
  • the check search unit 113 searches the short-range wireless communication devices 81, 82, 83, and 84 when the power supply through the power supply unit 115 is interrupted.
  • the device name changing unit 114 combines the device names of the short range wireless communication devices 81, 82, 83, and 84 obtained by the checking search unit 113 with the device names for confirmation set as default in the device name storage unit 112. After the editing, the device name for confirmation is changed by storing the changed device name in the device name storage unit 112 again.
  • the power supply unit 115 receives power from the cigar jack socket of the vehicle A 20 to charge the auxiliary battery 118 through the charging module 116.
  • the discharge module 117 does not operate when power is supplied through the power supply unit 115, and operates when the power supply through the power supply unit 115 is cut off to check the power charged in the auxiliary battery 118. It is supplied to the search unit 113, the device name change unit 114 and the confirmation Bluetooth module 111.
  • the principle of charging or discharging the auxiliary battery 118 according to whether power is supplied through the power supply 115 may be implemented in a circuit or program.
  • a parking position checking method according to a sixth embodiment of the present invention using the driving time confirmation device 110 shown in FIG. 17 is shown in the flowchart of FIG.
  • the user A 30 drives the vehicle A 20 while plugging the device 110 for checking the driving time into the cigar jack socket to enable power supply. At this time, the power supplied through the power supply unit 115 is charged in the auxiliary battery 118, the separate Bluetooth signal is not emitted.
  • the check search unit 113 of the device 110 for checking the driving time checks whether the power supply through the power supply unit 115 is interrupted ⁇ S1830>, and if it is confirmed that the power supply is blocked due to the start-up ⁇ S1835 >,
  • the short range wireless communication devices 81, 82, 83, 84 are searched for to obtain the device name ⁇ S1840 >.
  • the device name changing unit 114 is a device name of the short-range wireless communication devices (81, 82, 83, 84) obtained from the confirmation search unit 113 and the device name for confirmation set as a default in the device name storage unit 112
  • the confirmation device name is changed by storing it again in the device name storage unit 112 (S1845). For example, if a device name for confirmation 'CJ' is basically stored in the device name storage unit 112, 'CJ' is merged with 'LLT-AMART B2-A11', which is the device name of the first device 81, and 'CJ- It stores the new device name 'LLT-AMART B2-A11'.
  • the search unit 43 of the smart phone 40 carried by the user A 30 automatically searches for the Bluetooth device at intervals ⁇ S1805>.
  • the device name of the nearby Bluetooth device may be acquired.
  • the confirmation Bluetooth module 111 of the driving time confirmation device 110 while driving is inactive the confirmation device name (CJ or changed device name) is not searched.
  • the device monitoring unit 42 of the smartphone 40 checks whether a device name including 'LLT', which is a predetermined identifier, is searched among the device names acquired through the search unit 43. If the device name including the identifier 'LLT' is searched for ( ⁇ S1815>), since the vehicle has entered the parking lot, the search unit 43 searches for the Bluetooth device at short intervals (S1820).
  • the search unit 43 of the smart phone 40 switches to the search of the short period interval, whether or not the search of the changed device name (CJ-LLT) emitted from the device 110 for checking the driving time acts as an important factor. That is, if the vehicle is still moving to find a parking space even after entering the parking lot, the confirmation device name or the changed device name will not be searched, and the power supply of the auxiliary battery 118 will not be turned off until after the parking is completed.
  • the confirmation device name is emitted by being supplied to the confirmation Bluetooth module 111. Of course, when the start-up is turned off, the device name is changed in the driving time confirmation device 110 itself and then output.
  • the device monitoring unit 42 of the smart phone 40 includes a device name (CJ) and a predetermined identifier (LLT) for both of the device name (CJ) and the predetermined identifier (LLT) among the device names obtained at intervals through the search unit 43
  • the analysis unit ( 44 parses the changed device name (CJ-LLT-AMART B2-A11) searched by the search unit 43, extracts it into a meaningful character string, and after the parking positioning unit 45 determines the parking position, the history recording unit 47 stores the determined parking position ⁇ S1860>.
  • the determined parking location information may be displayed on the display 49 of the smart phone 40 in the widget mode or displayed on the main screen of the dedicated application according to the user's command input ⁇ S1865
  • the structure of the driving time confirmation device 110 is somewhat complicated. However, compared with the previous embodiment, there is an advantage that the parking position can be stored very accurately.
  • the smartphone 40 directly obtains the device name from the short range wireless communication devices 81, 82, 83, and 84. That is to store the parking position based on the position of the smart phone 40, not the position of the vehicle A (20), when manually pressing the button to obtain the parking position (first and second embodiments)
  • the parking position information is stored based on the location of the user A 30 far from the position of the vehicle A 20.
  • the smart phone 40 does not acquire the device name of the short-range wireless communication devices 81, 82, 83, and 84, but obtains the device name after parking in the driving time confirmation device 110. After that, if the method of acquiring the changed device name (including CJ-LLT) of the device 110 for checking the driving time in the smart phone 40, the parking position is always obtained and stored based on the position of the vehicle A 20. Therefore, even if the user A 30 quickly turns off the vehicle and moves away from the vehicle A 20, accurate parking position storage is possible.

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Abstract

La présente invention concerne un système et un procédé d'identification d'un emplacement de stationnement. La présente invention peut acquérir le nom d'un dispositif de communication sans fil à courte portée installé dans un parc de stationnement, déterminer un emplacement de stationnement grâce au nom acquis, et fournir en sortie l'emplacement de stationnement déterminé à un équipement utilisateur tel qu'un smartphone, ce qui permet à un utilisateur d'identifier commodément un emplacement où un véhicule a été stationné.
PCT/KR2016/000103 2015-01-06 2016-01-06 Système et procédé d'identification d'emplacement de stationnement utilisant le nom d'un dispositif de communication sans fil à courte portée, et support d'enregistrement dans lequel est stocké un programme lisible par ordinateur pour exécuter ledit procédé WO2016111547A1 (fr)

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CN105931488A (zh) * 2016-06-23 2016-09-07 吕红芳 一种车库系统及相关设备、方法
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DE102020213060A1 (de) 2020-10-15 2022-04-21 Volkswagen Aktiengesellschaft Verfahren und Vorrichtung zur Bereitstellung von Parkdaten an einen Fahrzeugnutzer

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