JP2008250457A - Facility information guide system and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a facility information guide system for preventing an increase in communication costs. <P>SOLUTION: A location information guide device 2 prestores facility information, and when notified of retrieval conditions and location information from a terminal 1, extracts a use status monitoring device 3 satisfying the retrieval conditions, acquires a standby time from the extracted use circumstance monitoring device 3, calculates a moving time spent on movement from the location included in the location information to the facility, calculates a required time by adding the stand-by time to the moving time, selects the facility which is to be notified to the terminal 1 from among the extracted facilities based on the required time, and notifies the terminal about the facility information of the selected facility. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a position information guidance system for guiding facility information in response to a user request.

  Mobile terminals equipped with GPS (Global Positioning System) are becoming widespread. A portable terminal equipped with GPS can accurately detect its own position. In a location information guidance system that guides information on facilities such as restaurants and parking lots in response to user requests, if the location information of mobile terminals detected by GPS is used, the distance (movement distance) required for movement to the facility can be accurately determined. It can be calculated. Further, the travel time can be calculated by dividing the travel distance by the average travel speed. Thereby, the user can know the time taken to move to the surrounding facilities (see Patent Document 1).

  However, even if the user decides a facility from the surrounding facilities in consideration of the travel time, the position information guidance system including the portable terminal described in Patent Document 1 is crowded with the target facility. I could not know. For this reason, even if the user arrives at a facility with a short travel time, the facility itself may be congested. In this case, there is a problem that a long waiting time occurs.

  On the other hand, a position information guidance system that can consider the waiting time at the facility is disclosed (see Patent Document 2). In the position information guidance system described in Patent Document 2, the user can determine a facility in consideration of the waiting time at the facility in addition to the travel time to the facility.

  FIG. 11 is a block diagram showing a configuration of a position information guidance system in Patent Document 2. This location information guidance system includes a portable terminal 90, a location information guidance device 91, and usage status monitoring devices 92, 93, 94.

  The usage status monitoring devices 92, 93, and 94 are installed in different facilities, respectively, and detect that the standby time at the facility has changed. For example, a plurality of infrared sensors for checking the presence of a person near the entrance of a restaurant are installed at regular intervals. Depending on how far the infrared sensor senses a person, the usage status monitoring devices 92, 93, 94 detect the length of the queue waiting in order, and estimate the number of people waiting in turn based on the detected length of the queue. The usage monitoring devices 92, 93, and 94 store the average waiting time per person in advance, and calculate the waiting time by multiplying the estimated waiting time per person by the estimated waiting number. .

  In addition, the usage status monitoring devices 92, 93, and 94 are connected to the location information guide device 91 via the Internet. When a change in the standby time is detected, the detected standby time is sent to the location information guide device 91. Send.

  The location information guide device 91 is connected to the usage status monitoring devices 92 and 93 via the Internet. When receiving the standby time from the usage status monitoring devices 92, 93 and 94, the location information guidance device 91 stores them inside.

  The location information guide device 91 is connected to the mobile terminal 90 via the Internet. When receiving a distribution request from the mobile terminal 90, the location information guide device 91 collects location information of the mobile terminal 90. The position information is information about latitude and longitude, for example.

When the position information guide device 91 collects the position information from the portable terminal 90, the position information guide device 91 calculates the travel time from the portable terminal 90 to the information providing devices 92, 93, 94 based on the collected position information. Subsequently, the position information guide device 91 adds the waiting time stored inside and the calculated travel time for each of the information providing devices 92, 93, 94 and enters each information providing device 92, 93, 94. The time required for this (hereinafter referred to as “required time”) is calculated. Then, the positional information guide device 91 transmits information that ranks the facilities in the order of shorter required time to the portable terminal 90.
JP 2004-15369 A Japanese Patent Laid-Open No. 2003-256508

  However, in the position information guidance system described in Patent Document 2, when the standby time changes in the facility, the usage status monitoring devices 92, 93, 94 transmit the required time to the position information guidance device 91. For this reason, if the person frequently enters and exits the facility, data communication between the location information guide device 91 and the usage status monitoring devices 92, 93, 94 frequently occurs, and the communication cost increases. there were.

  An object of the present invention is to provide a location information guidance service system that can prevent an increase in communication cost.

In order to achieve the above object, the facility information guidance system of the present invention provides:
A facility information guidance system that receives notification of search conditions and location information from a terminal, and notifies the facility information of a facility selected based on the search conditions and the location information,
A plurality of usage monitoring devices that are installed in each of a plurality of facilities and monitor standby time for using the installed facilities;
Facility information including location information of a plurality of facilities where the usage status monitoring device is installed is stored in advance, and when the search condition and the location information are notified from the terminal, the search is performed by searching the facility information. The facility that satisfies the condition is extracted, the waiting time is acquired from the usage information monitoring device installed in the extracted facility, and the location indicated by the location information and the location information included in the facility information are indicated. The travel time required to travel from the position to the facility is calculated from the position of the facility, the required time is calculated by adding the waiting time and the travel time, and the extraction is performed based on the required time. A location information guidance device for selecting a facility to be notified to the terminal from the selected facilities and notifying the terminal of facility information of the selected facility.

  According to the present invention, when the search condition is specified by the terminal, the location information guide device extracts the usage status monitoring device that satisfies the search condition, and requests the standby time from the extracted usage status monitoring device. Even if the usage monitoring device detects a change in the standby time, it does not autonomously transmit the detected time to the location information guidance device, and the standby time frequently changes in the facility where the location information guidance device is installed. Even so, data communication between the location information guidance device and the usage status monitoring device does not occur frequently. Thereby, increase of communication cost can be prevented.

  In addition, when the location information guide device selects a facility to be notified to the terminal from the extracted facilities, the position information guide device may extract a predetermined number of facilities in the order of shortest required time.

  According to this, communication cost can be suppressed more.

  According to the present invention, an increase in communication cost can be prevented.

  Embodiments for carrying out the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a position information guidance system in the present embodiment. The location information guidance system includes a mobile terminal 1, a location information guidance device 2, and a usage status monitoring device 3.

  The mobile terminal 1 has a built-in GPS and a web browser. The portable terminal 1 can communicate with a plurality of GPS satellites (not shown), and detects position information of the portable terminal 1 by communicating with the plurality of GPS satellites.

  In addition, the mobile terminal 1 is connected to the position information guide device 2 through a wireless line, and when the search condition information is input from the Web browser by the user, the input search condition information and the detected position information are searched. The request information is transmitted to the position information guide device 2. The search condition information is information for searching for a target facility, and includes, for example, the keyword “parking lot” that is “within a radius of 500 meters” from the current position of the “mobile terminal”. Further, it is possible to include the user's desired “address” in the keyword instead of the current position of the “portable terminal”.

  In addition, when the mobile terminal 1 receives the search result information from the position information guide device 2 as a response to the search request information, the mobile terminal 1 displays the received search result information to the user using a Web browser. The search result information includes information on a facility that satisfies the search condition and takes a short time (required time) until it can be used and the location of the facility. For example, in the case of a parking lot, information on the name of the facility, the location of the facility, the number of available spaces, and the required time is included.

  The location information guide device 2 can be connected to the portable terminal 1 via a wireless line, and is connected to the usage status monitoring device 3 via the Internet. The location information guide device 2 stores facility information of the usage information monitoring device 3. The facility information includes a facility name, location information, an address, and a URL (Uniform Resource Locator) address.

  When the location information guide device 2 receives the search request information from the mobile terminal 1 connected via the line, the location information guide device 2 extracts the usage status monitoring device 3 that satisfies the search condition, and uses the usage status information to the extracted usage status monitoring device 3. Request.

  When the location information guide device 2 receives the usage status information from the usage status monitoring device 3, it calculates the distance from the location information in the facility information and the location information from the portable terminal 1, and divides the calculated distance by the average speed. And calculate travel time. The average speed is set in advance in the position information guide device 2. For example, when searching for a parking lot, the average speed is set to the average speed of a car. When searching for a restaurant, the average speed is set to the average speed when a person is walking. The average speed may be arbitrarily set by the user from the web browser. Then, the location information guide device 2 calculates the required time by adding the calculated travel time to the standby time in the usage status information, generates search result information based on the calculated required time, and sends it to the mobile terminal 1. Send. In addition, you may make it produce | generate the search result information about the facilities within a predetermined number in order with a short required time. According to this, communication cost can be suppressed more.

  The usage status monitoring device 3 is installed, for example, in a parking lot, a restaurant, or a toilet facility, and monitors the usage status of the facility by a sensor.

  Sensors are installed in advance to detect the number of vacant parking spaces in a facility, the number of vacant tables in a restaurant, and the number of urinals in a toilet. The sensor may be an ultrasonic wave, an infrared sensor, or a magnetic sensor. The usage status monitoring device 3 determines the number of available vacancies in the facility detected by the sensor at regular time intervals. For example, if there is no vacancy in the facility, the number of available vacancies in the facility is “0” and the facility cannot be used immediately, and if there is one vacancy in the facility, It becomes “1” and the facility can be used immediately.

  A plurality of sensors are installed in advance in order to detect the number and number of people waiting near the entrance of the facility. The usage status monitoring device 3 detects a person or a vehicle waiting near the entrance by a sensor at a fixed time interval, and determines the number of waiting queues depending on how far the sensor detects the person or the vehicle.

  Then, the usage status monitoring device 3 measures the standby time by multiplying the determined number by the average standby time. The average waiting time may be determined by prediction, or may be a certain fixed time, or may be calculated based on actual measurement of the waiting time. For example, if the average waiting time is set in advance as a fixed time “3” minutes, the waiting time is “0” minutes because the determined number of waiting queues is “0” and is obtained by 0 × 3 (fixed time). When the determined number of waiting queues is “5”, the waiting time is 15 minutes because 5 × 3 (fixed time) is obtained.

  An example of calculating the average standby time based on the actual measurement of the standby time will be described using an example of a parking lot. Since the standby time occurs when the vehicle is full, it is assumed here that the idle time repeats “1” and “0” alternately in a state where the standby time needs to be calculated. In this case, the vacant number from “1” to “0” means that one car waiting in turn could be parked. Therefore, the usage status monitoring device 3 determines the interval between the time when the number of vacancies in the facility changes from “1” to “0” and the time when the number of vacancies in the facility changes from “1” to “0”. The time is measured each time, and a measurement value for a predetermined averaging time is stored. Subsequently, the usage status monitoring device 3 calculates an average value of the measured values measured during the averaging time and sets it as the average standby time. Then, the usage status monitoring device 3 measures the standby time by multiplying the calculated average standby time by the determined number of waiting queues.

  Further, the average standby time may be dynamically changed based on the actual measurement of the standby time. For example, the above-described average standby time may be dynamically changed by continuously calculating and switching. In that case, a moving average may be used to calculate the continuous average waiting time.

  In addition, the usage status monitoring device 3 sets the number of facilities that can be used in advance, and measures the number of entrances that enter the facility at the entrance of the facility. The utilization status monitoring device 3 measures the time between the time when the usable number is reached and the time when the usable number is reached next, and stores the measured value. Subsequently, the usage status monitoring device 3 calculates the average value of the stored measurement values as the average standby time. Then, the usage status monitoring device 3 measures the standby time by multiplying the calculated average standby time by the determined number of waiting queues.

  For example, when the usage monitoring device 3 is installed in a parking lot facility, the usage monitoring device 3 measures the average staying time of the car in each parking zone of the parking lot, and measures each parking zone. The average waiting time of the entire parking lot is calculated by dividing the average staying time by the number of parking lots. Then, the usage status monitoring device 3 measures the standby time by multiplying the determined number by the average standby time.

  FIG. 2 is a screen example of the mobile terminal 1 in this embodiment. FIG. 2A shows an example of the screen 15 of the mobile terminal 1 when the user inputs a search condition using the search screen displayed on the Web browser. FIG. 2B is an example of the screen 15 of the mobile terminal 1 that displays the search result for the search condition input by the user.

  First, a screen for inputting a search condition will be described in detail with reference to FIG. 2A. When inputting the search condition, the user can input items of the search category 10, the position information selection 11, and the search range 12.

  First, the user selects a desired category such as a parking lot from the search category 10. Next, the user selects either the current position of the portable terminal 1 or the user's desired address as the position information selection 11. Since the mobile terminal 1 is equipped with GPS, the current position of the mobile terminal 1 can be detected by GPS, and the detected position can be transmitted to the position information guide device 2 as position information. It is also possible to input a desired address and transmit it to the position information guide device 2. In FIG. 2A, the user has selected the current position of the mobile terminal 1 from the position information selection 11.

  Next, the user selects the search range 12 in order to narrow down the search range. In FIG. 2A, a radius within 500 meters from the current position of the mobile terminal 1 is selected. When the user selects the transmission button 13, the mobile terminal 1 generates search request information, and transmits the generated search request information to the position information guide device 2.

  Next, the screen for displaying the search result will be described in detail with reference to FIG. 2B. On the search result screen, first, the search condition input by the user is displayed. Subsequently, information about each facility is arranged in the order of short travel time, and the name of the facility, location, usage status, and travel time are displayed in the information about each facility. When the user clicks a map in the location, map information of the location is displayed.

  FIG. 3 is a block diagram showing a configuration of the position information guide device 2 in the present embodiment. The location information guide device 2 includes an information guide unit 21, a location information storage unit 22, a search result information generation unit 23, a communication unit 24, and an information request unit 25.

  The location information storage unit 22 stores facility information of the usage information monitoring device 3 in advance.

  When the information request unit 25 receives the search request information from the portable terminal 1 via the communication unit 24, the information request unit 25 extracts the facility that satisfies the search condition from the facility information stored in the position information storage unit 22, and extracts the extracted facility. The URL of the facility usage status monitoring device 3 is read. The information request unit 25 requests usage status information from the usage status monitoring device 3 based on the read URL.

  When receiving the usage status information from the usage status monitoring device 3 via the communication unit 24, the information guide unit 21 notifies the search result information generation unit 23 to generate the search result information. And the information guidance part 21 will transmit search result information to the portable terminal 1 via the communication part 24, if search result information is received from the search result information generation part 23. FIG.

  When notified by the information guide unit 21 to generate the search result information, the search result information generation unit 23 calculates the distance from the position information included in the facility information and the position information from the mobile terminal 1, and calculates the calculated distance. The travel time is calculated by dividing by the average speed. Then, the search result information generation unit 23 calculates the required time by adding the calculated travel time to the standby time in the usage status information, generates search result information based on the required time, and sends it to the information guide unit 21. Send.

  FIG. 4 is an example of the facility information 26 stored in the position information storage unit 22 of the present embodiment. In this example, a facility name record, a category record, a position information record, an address record, and a URL address record are stored in the position information storage unit 22.

  The facility name record stores the name of the facility and is the primary key. In the category record, the name of the category specified by the user in the search condition is stored. For example, a restaurant, a parking lot, or a toilet is stored. The position information record stores the position information of the facility detected by the GPS, for example, information on the latitude and longitude of the facility. The address information stores the address of the facility, and the URL address record stores the URL address to the facility.

  FIG. 5 is a block diagram showing the configuration of the usage information monitoring apparatus 3 in the present embodiment. The usage information monitoring apparatus 3 includes a vacancy detection unit 32, a standby queue detection unit 33, an information provision unit 34, an information storage unit 35, and a communication unit 36.

  The usage information monitoring device 3 is pre-installed with a sensor to detect the number of vacancies in the facility. In addition, a sensor is installed at the entrance of the facility to judge the waiting situation.

  The waiting line detection unit 33 is connected to a sensor installed at the entrance of the facility, and collects the waiting state at the entrance of the facility detected by the sensor. When the waiting state of the facility detected by the sensor is collected, the waiting line detection unit 33 measures the number of currently waiting at the entrance of the facility, and transmits the measured number to the information providing unit 34 as waiting number information. .

  The vacancy detection unit 32 is connected to each sensor installed in the facility, and collects the usage status in the facility detected by the sensor. The vacancy detection unit 32 calculates the number of available vacancies in the facility based on the collected information on the usage status in the facility, and transmits information about the calculated vacancy number to the information providing unit 34 as vacancy number information. .

  When the information providing unit 34 receives the waiting number information from the waiting line detection unit 33, the information providing unit 34 calculates the waiting time by multiplying the average stay time by the received waiting number information, and the calculated waiting time is used as the waiting time information. Record in the information storage unit 35. When the information providing unit 34 receives the vacant number information from the vacant detection unit 32, the information providing unit 34 records the received vacant number information in the information storage unit 35.

  When the usage information is requested from the location information guidance device 2, the information providing unit 34 transmits the available number information and the waiting time information recorded in the information storage unit 35 to the location information guidance device 2 as usage status information.

  The information storage unit 35 stores empty number information and standby time information.

  FIG. 6 is an example of a file on the facility usage status in this embodiment. FIG. 6A is an example of data on the usage status 60 detected by the sensor. FIG. 6B is a storage example of information 61 regarding the usage status of the number of free spaces information and the waiting time information stored in the information storage unit 35.

  In FIG. 6A, an identification name record, a usage state record, a time information record, and an average stay time record are stored in the information storage unit 35. In the identification name, a unique number for identifying each sensor in the facility is stored. The usage status stores information about the current usage status. The time information stores the time when the use was started, for example, the time detected by the sensor. The average stay time in the facility is stored in the average stay time. For example, in the number 1-1, it has been used since 10 o'clock time and is still in use. Moreover, the average stay time so far of the number 1-1 is 30 minutes. On the other hand, the number 1-2 is vacant because it is not currently used, and the average stay time of the number 1-2 so far is 25 minutes.

  In FIG. 6B, a record of the current number of free spaces and a record of the standby time are stored in the information storage unit 35. The record of the current number of vacancies stores the number of vacancies in the facility, and the vacancy number is “0” when the facility cannot be used. In the waiting time, a time until the facility can be used is stored, and the time “5” is stored.

  It is assumed that the usage information monitoring device 3 is installed in a plurality of facilities. For example, the usage information monitoring device 3 can be installed in a restaurant, a parking lot, or a toilet facility. The operation of each part of the usage information monitoring device 3 when the usage information monitoring device 3 is installed in each facility will be described.

  First, operation | movement of each part of the utilization information monitoring apparatus 3 when the utilization information monitoring apparatus 3 is installed in the parking lot provided with the several parking area is demonstrated in detail. When the usage information monitoring device 3 is installed in a parking lot, a sensor is installed near each parking lot to judge the usage status of the parking lot, and a sensor is installed at the entrance of the parking lot to judge the waiting status of the car. Install.

  The waiting line detection unit 33 is connected to a sensor installed at the entrance of the parking lot, and collects the waiting state of the vehicle detected by the sensor. When the waiting queue detection unit 33 collects the waiting states of the vehicles detected by the sensors, it determines the number of vehicles currently waiting at the entrance of the parking lot, and provides information on the number of vehicles determined as waiting number information. To the unit 34.

  For example, a plurality of sensors for checking the presence of a car are installed near the entrance of a parking lot. The standby queue detection unit 33 detects the length of the order queue depending on how far the plurality of sensors detect the vehicle, and waits by dividing the detected length by the average vehicle length. Determine the number of cars.

  The vacancy detection unit 32 is connected to each sensor installed in the parking area of the parking lot, and collects information on the parking state of the vehicle detected by the sensor. The vacancy detection unit 32 calculates the number of available parking spaces based on the collected information on the parking state of the vehicle, and transmits information about the calculated vacant number to the information providing unit 34 as vacant number information.

  When the information providing unit 34 receives the waiting number information from the waiting line detection unit 33, the information providing unit 34 calculates the waiting time by multiplying the average stay time by the received waiting number information, and uses the calculated waiting time as the waiting time information. Record in the information storage unit 35. When the information providing unit 34 receives the vacant number information from the vacant detection unit 32, the information providing unit 34 records the received vacant number information in the information storage unit 35.

  When the information providing unit 34 is requested to transmit the usage status information from the location information guidance device 2, the information providing unit 34 transmits the available number information and the standby time information recorded in the information storage unit 35 to the location information guidance device 2 as usage status information. To do.

  The information storage unit 35 stores empty number information and standby time information.

  FIG. 7 is a flowchart showing an operation when the usage status monitoring device 3 is installed in a parking lot facility.

  The vacancy detection unit 32 collects the parking conditions of the cars in the respective parking sections in the parking lot using sensors (step 100). Subsequently, the vacancy detection unit 32 determines the number of vacancy based on the collected parking situation and transmits it to the information providing unit 34 (step 101). When the information providing unit 34 receives the vacant number information from the vacant detection unit 32, the information providing unit 34 records the received vacant number information in the information storage unit 35 (step 102).

  The waiting line detection unit 33 collects the waiting state of the car waiting at the entrance of the parking lot using a sensor (step 103). Next, the standby queue detection unit 33 determines the number of standby vehicles based on the collected standby status (step 104).

  When the standby queue detection unit 33 determines the standby number, the standby queue detection unit 33 calculates the standby time by multiplying the determined standby number by the average standby time (step 105). Next, the standby queue detection unit 33 transmits the calculated standby time to the information providing unit 34 (step 106). When the information providing unit 34 receives the standby time from the standby queue detecting unit 33, the information providing unit 34 records the received standby time in the information storage unit 35 (step 107).

  Next, the operation of each part of the usage information monitoring device 3 when the usage information monitoring device 3 is installed in a restaurant having a plurality of tables will be described in detail. When the usage information monitoring device 3 is installed in a restaurant, a sensor is installed near each table to determine the usage status of the table, and a sensor is installed at the entrance of the restaurant to determine the waiting status of a person.

  The vacancy detection unit 32 is connected to sensors installed in each table, and collects information on the usage status of the tables detected by the sensors. The empty detection unit 32 calculates an available empty table based on the collected information on the usage status of the table, and transmits the information about the calculated empty table to the information providing unit 34 as empty table information.

  The waiting queue detection unit 33 receives an input of the number of reservations, and transmits the input number of reservations to the information providing unit 34 as waiting number information.

  When the information providing unit 34 receives the waiting number information from the waiting line detection unit 33, the information providing unit 34 measures the waiting time by multiplying the average waiting time by the received waiting number information, and uses the measured waiting time as the waiting time information. Record in the information storage unit 35. When the information providing unit 34 receives the empty table information from the empty detecting unit 32, the information providing unit 34 records the received empty table information in the information storage unit 35.

  When the usage information is requested from the location information guidance device 5, the information providing unit 34 transmits the standby time information and the empty table information recorded in the information storage unit 35 to the location information guidance device 5 as usage status information.

  The information storage unit 35 stores empty table information and standby time information.

  FIG. 8 is a flowchart showing the operation of the usage status monitoring device 3 when the usage status monitoring device 3 is installed in a restaurant.

  The vacancy detection unit 32 collects the usage status of each table in the restaurant with a sensor (step 300). Subsequently, the empty detection unit 32 determines the number of empty tables based on the collected usage status, and transmits the empty table information to the information providing unit 34 (step 301). When the information providing unit 34 receives the empty table information from the empty detecting unit 32, the information providing unit 34 records it in the information storage unit 45 (step 302).

  The waiting queue detection unit 33 receives an input of the number of people waiting for the restaurant (step 303). When receiving the waiting number input, the waiting queue detection unit 33 determines the waiting number based on the received waiting number (step 304).

  When the waiting queue number is determined, the waiting queue detection unit 33 multiplies the determined waiting number by the average waiting time to calculate the waiting time (step 305). Next, the standby queue detection unit 33 transmits the calculated standby time to the information providing unit 34 (step 306). When the information providing unit 34 receives the standby time from the standby queue detecting unit 33, the information providing unit 34 records the received standby time in the information storage unit 35 (step 307).

  Next, the operation of each part of the usage information monitoring device 3 when the usage information monitoring device 3 is installed in a toilet having a plurality of toilets will be described in detail. When the usage information monitoring device 3 is installed in the toilet, a sensor is installed near each toilet in order to determine the use status of the toilet, and a sensor is installed at the entrance of the toilet in order to determine the waiting status of a person.

  The toilet has a plurality of toilets, and sensors are installed in each toilet to determine the presence or absence of a person. A sensor is also installed at the entrance of the toilet to determine the waiting situation of the person.

  The waiting line detection unit 33 is connected to a sensor installed at the entrance of the toilet, and collects the waiting state of the person detected by the sensor. When the waiting queue detection unit 33 collects the waiting status of the person detected by the sensor, the waiting queue detection unit 33 determines the number of people currently waiting at the entrance of the toilet and transmits the determined number of people to the information providing unit 34 as waiting number information. .

  The vacancy detection unit 32 is connected to each sensor installed near the toilet bowl of the toilet, and collects information on the usage status of the toilet detected by the sensor. The empty detection unit 32 calculates the number of empty toilets based on the collected usage status of the toilets, and transmits the calculated number of empty toilets to the information providing unit 34 as empty toilet information.

  When the information providing unit 34 receives the waiting number information from the waiting line detection unit 33, the information providing unit 34 multiplies the received waiting number information by the average stay time to calculate the waiting time, and the calculated waiting time is used as the waiting time information. 35. When the information providing unit 34 receives the empty toilet information from the empty detecting unit 32, the information providing unit 34 records the received empty toilet information in the information storage unit 35.

  When the usage information is requested from the location information guide device 2, the information providing unit 34 transmits the waiting number information and empty toilet information recorded in the information storage unit 35 to the location information guidance device 2 as usage status information.

  The information storage unit 35 stores empty toilet information and standby number information.

  FIG. 9 is a flowchart showing the operation of the usage status monitoring device 3 when the usage status monitoring device 3 is installed in the toilet.

  The vacancy detection unit 32 collects the usage status of each toilet in the toilet with a sensor (step 400). Subsequently, the vacant detection unit 32 determines the number of vacant toilets based on the collected usage status and transmits the vacant toilet information to the information providing unit 34 as vacant toilet information (step 401). When the information providing unit 34 receives the empty toilet information from the empty detecting unit 32, the information providing unit 34 records the received empty toilet information in the information storage unit 35 (step 402).

  The waiting line detection unit 33 collects the waiting state of the person waiting at the entrance of the toilet using a sensor (step 403). Next, the waiting queue detection unit 33 determines the number of waiting people based on the collected waiting situations (step 404).

  When the waiting queue number is determined, the waiting queue detection unit 33 calculates the waiting time by multiplying the determined waiting number and the average waiting time (step 405). Next, the standby queue detection unit 33 transmits the calculated standby time to the information providing unit 34 (step 406). When the information providing unit 34 receives the standby time from the standby queue detecting unit 33, the information providing unit 34 records the received standby time in the information storage unit 35 (step 407).

  FIG. 10 is a flowchart showing the operation of the position information search system in this embodiment.

  When the mobile terminal 1 accepts the search condition by the user, the mobile terminal 1 transmits the search condition information and the position information as the search request information to the information request unit 25 of the position information guide device 2 via the communication unit 24 (step 200).

  When receiving the search request information from the portable terminal 1 via the communication unit 24, the information request unit 25 determines whether or not a facility that satisfies the search condition is included (step 201). If it is determined that the information is not included, the information request unit 25 transmits to the portable terminal 1 that there is no corresponding facility (step 202). The portable terminal 1 informs the user to that effect (step 203).

  If determined to be included, the information request unit 25 reads the URL of the corresponding facility from the position information storage unit 22 (step 204). Based on the read URL, the information request unit 25 accesses the information providing unit 34 of the usage status monitoring device 3 and requests usage status information (step 205).

  When the information requesting unit 25 requests acquisition of usage status information, the information providing unit 34 transmits the standby number and standby time recorded in the information storage unit 22 to the information guiding unit 21 as usage status information (step 206). ).

  When receiving the usage status information from the information providing unit 34, the information guiding unit 21 notifies the search result information generating unit 23 to generate search result information (step 207). When the search result information generation unit 23 is notified from the information guide unit 21 to generate search result information, the position information in the facility information stored in the position information storage unit 22 and the position information from the portable terminal 1 are displayed. The travel time is calculated from the above (step 208). The search result information generation unit 23 calculates the required time by adding the calculated travel time to the standby time in the received usage status information (step 209). The search result information generation unit 23 generates search result information based on the calculated required time and transmits it to the information guide unit 21 (step 210).

  When receiving the search result information from the search result information generating unit 23, the information guiding unit 21 transmits the search result information to the portable terminal 1 via the communication unit 24 (step 211).

  When the mobile terminal 1 receives the search result information from the information guide unit 21, the mobile terminal 1 displays the received search result information on the Web browser (step 212).

  As described above, according to the present embodiment, when the search condition is specified by the mobile terminal 1, the location information guide device 2 extracts the use condition monitoring device 3 that satisfies the search condition, and extracts the extracted use condition monitor. Since the waiting time is requested to the device 3, even if the use status monitoring device 3 detects a change in the waiting time, the detected time is not autonomously transmitted to the position information guiding device 2, and the position information guidance is performed. Even if the standby time frequently changes in the facility where the apparatus 2 is installed, data communication between the position information guide apparatus 2 and the usage status monitoring apparatus 3 does not occur frequently. Thereby, increase of communication cost can be prevented.

  The utilization status monitoring device 3 of the present invention can be widely applied to other facilities.

It is a block diagram which shows the structure of the positional information guidance system in this embodiment. It is an example of the screen 15 of the portable terminal 1 when a user inputs a search condition using a search screen displayed on a Web browser. It is an example of the screen 15 of the portable terminal 1 which displays the search result with respect to the search conditions input by the user. It is a block diagram which shows the structure of the positional information guidance apparatus 2 in this embodiment. It is an example of the facility information 26 stored in the position information storage unit 22 of the present embodiment. It is a block diagram which shows the structure of the utilization information monitoring apparatus 3 in this embodiment. It is an example of the data about the usage condition 60 detected by a sensor. It is a storage example of the information 61 about the utilization status of the number-of-vacancy information and the waiting time information stored in the information storage unit 35. It is a flowchart which shows operation | movement when the usage condition monitoring apparatus 3 is installed in the facility of a parking lot. It is a flowchart which shows operation | movement of the utilization condition monitoring apparatus 3 when the utilization condition monitoring apparatus 3 is installed in the restaurant. It is a flowchart which shows operation | movement of the utilization condition monitoring apparatus 3 when the utilization condition monitoring apparatus 3 is installed in the toilet. It is a flowchart which shows operation | movement of the positional information search system in this embodiment. It is a block diagram which shows the structure of the positional information guidance system in patent document 2. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Mobile terminal 2 Location information guidance device 3 Usage information monitoring device 21 Information guidance unit 22 Location information storage unit 23 Route information generation unit 24 Communication unit 25 Information request unit 32 Empty detection unit 33 Standby queue detection unit 34 Information provision unit 35 Information storage Unit 36 communication unit 100-107, 200-212, 300-307, 400-407 steps

Claims (6)

A facility information guidance system that receives notification of search conditions and location information from a terminal, and notifies the facility information of a facility selected based on the search conditions and the location information,
A plurality of usage monitoring devices that are installed in each of a plurality of facilities and monitor standby time for using the installed facilities;
Facility information including location information of a plurality of facilities where the usage status monitoring device is installed is stored in advance, and when the search condition and the location information are notified from the terminal, the search is performed by searching the facility information. The facility that satisfies the condition is extracted, the waiting time is acquired from the usage information monitoring device installed in the extracted facility, and the location indicated by the location information and the location information included in the facility information are indicated. The travel time required to travel from the position to the facility is calculated from the position of the facility, the required time is calculated by adding the waiting time and the travel time, and the extraction is performed based on the required time. A facility information plan comprising: selecting a facility to be notified to the terminal from the selected facilities, and notifying the facility information of the selected facility to the terminal. System.   2. The facility information guidance system according to claim 1, wherein when selecting a facility to be notified to the terminal from among the extracted facilities, the location information guidance device selects a facility within a predetermined number in order of the shortest required time. .   The usage monitoring device has a plurality of sensors installed at the entrance of the facility, measures the number of standbys waiting at the entrance of the facility based on how far the sensor detects, and the number of units for entering the facility The facility information guidance system according to claim 1 or 2, wherein an average time per win is calculated, and the waiting time is calculated by multiplying the measured number of waiting times and the calculated average time. A location information guide device connected via a line with a usage status monitoring device installed in each of a plurality of facilities receives a search condition and location information from a terminal, and based on the search condition and the location information A facility information guidance method for notifying facility information of a selected facility from a location information guidance device to a terminal,
The usage status monitoring device monitors a standby time for using the installed facility,
The location information guidance device stores facility information including location information of a plurality of facilities where the usage monitoring device is installed in advance,
When the terminal is notified of the search condition and the location information, the facility that satisfies the search condition is extracted by searching the facility information,
While obtaining the waiting time from the usage information monitoring device installed in the extracted facility, from the location indicated by the location information and the location of the facility indicated by the location information included in the facility information, Calculate the travel time required to travel from the location to the facility,
Calculate the required time by adding the waiting time and the travel time,
Based on the required time, select a facility to notify the terminal from the extracted facilities,
A facility information guidance method of notifying the terminal of facility information of the selected facility.   5. The facility information guidance method according to claim 4, wherein when selecting a facility to be notified to the terminal from among the extracted facilities, the location information guidance device selects a facility within a predetermined number in order of a short duration. .   The usage monitoring device has a plurality of sensors installed at the entrance of the facility, measures the number of standbys waiting at the entrance of the facility based on how far the sensor detects, and the number of units for entering the facility The facility information guidance method according to claim 4 or 5, wherein an average time per win is calculated, and the waiting time is calculated by multiplying the measured number of waiting times and the calculated average time.

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