JP2007047196A - Navigation device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a navigation device capable of presenting facilities in consideration of health condition of a passenger. <P>SOLUTION: In the navigation device, sensors of body fat, blood pressure, pulse rate and body temperature are arranged in a remote controller 20 or a steering wheel 30, and a body fat percentage and blood pressure etc. are measured as basic data. Based on the basic data, it is determined under which segment driver's health condition falls. The segment of the health condition is classified into, for example, good A, normal B and not normal C, according to the segment of the facility data. For example, it is classified into; A, if maximum blood pressure is 120 or less; B, if it is between 120 and 145; and C, if it is 145 or more, and diagnosis is made for each measurement item. Also, in the facilities data, a flag corresponding to each health condition A, B or C is stored in the health segment data for each facility. For example, the facility in which the flags of the health condition A and B can be proposed to the passenger of the health condition A and the passenger of the health condition B, but can not be proposed to the passenger of the health condition C. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a navigation device, for example, a navigation device that searches and provides facilities existing around a current position.

Navigation devices that guide the current position of a vehicle, a travel route to a destination, and the like are widely used.
In this navigation device, not only guidance on the travel route to the destination, but also facility information such as restaurants and hotels can be provided as information on the route / map.
For example, in the navigation device described in Patent Document 1, a selection menu for selecting a specific facility from a plurality of facilities is displayed on the display device, and facility information relating to the selected facility is superimposed on the map of the display device. Or list display.

JP 2000-66584 A

However, in the conventional navigation device, although the facility genre, the name of the facility, the location coordinates, the description of the facility, etc. are stored as the facility information, the classification and classification information corresponding to the health condition of the passenger is stored. It has not been.
Moreover, it does not have a device for detecting the health condition of the passenger.
For this reason, when providing facility information, a facility existing around the current position is simply provided.

  Therefore, an object of the present invention is to provide a navigation device capable of presenting a facility in consideration of the health condition of a passenger.

(1) In the invention described in claim 1, facility information storage means for storing facility information in a state in which the correspondence with the health condition is distinguishable, and basic data measurement for measuring basic data for judging the health condition of the passenger Means, diagnosis means for diagnosing the health condition of the measured passenger based on the measured basic data, facility presentation means for reading facility information corresponding to the diagnosis result from the facility information storage means, and presenting the facility information Are provided in a navigation device to achieve the object.
(2) In the invention described in claim 2, in the navigation device according to claim 1, the basic data measurement means includes at least one of body fat, blood pressure, pulse rate, and body temperature as the basic data of the passenger. It is characterized by measuring one.
(3) In the invention described in claim 3, in the navigation device according to claim 1 or 2, the basic data measuring means is disposed on at least one of a remote controller for performing an input operation and a steering wheel of a vehicle. It is characterized by being.
(4) In the invention described in claim 4, in the navigation device according to claim 1, claim 2, or claim 3, a health condition in which a health condition corresponding to a measurement value by the basic data measuring means is defined. A diagnosis table is provided, and the diagnosis means diagnoses the health condition of the occupant with reference to the health condition diagnosis table.

  According to the present invention, the basic data for determining the health condition of the passenger is measured to diagnose the health condition, and the facility corresponding to the diagnosis result is read from the facility information storage means and presented. A facility that considers the health condition can be presented.

Hereinafter, a preferred embodiment of the navigation device of the present invention will be described in detail with reference to FIGS. 1 to 4.
(1) Outline of Embodiment The navigation device has body fat, blood pressure, pulse rate, and body temperature sensors arranged on a remote controller or steering wheel, and a transmission button arranged on a remote controller or steering wheel has a predetermined timing, for example. The measured body fat percentage, blood pressure, and the like are measured as basic data for determining health information when pressed, periodically, or when a remote control is operated.

Based on the measurement value of the basic data, for example, it is determined which category the health condition of the person being measured (usually the driver) corresponds.
The health status category is classified into good A, normal B, and anxiety C, for example, according to the facility data category. For example, the maximum blood pressure of 120 or less is classified as A, 120 to 145 as B, 145 or more as C, and the body fat percentage is 20 or less as A, 20 to 28 as B, and 28 or more as C. Diagnose each measurement item.

On the other hand, in the facility data, health classification data is stored for each facility. The health classification data stores flags corresponding to the health states A, B, C.
For example, a facility in which flags of health status A and B are stored may be proposed to passengers in health status A and passengers in health status B, but not to passengers in health status C. It has become.

According to the present embodiment, for example, the body fat percentage of the driver is measured by a sensor disposed on the steering wheel during driving, and any of the health states A to C is diagnosed and a corresponding facility is presented.
For example, it is assumed that there is a facility search request for the genre “Restaurant”, the health condition is measured, and the body fat percentage is 28 or more, the health condition C is determined. In this case, among the facilities classified as restaurants, restaurants such as “Yakiniku restaurant” classified into health state C are excluded from the extraction target, and “Japanese food” or the like in which flags are stored in health states A and B, etc. Restaurants are extracted and displayed with health status assessment.
Display of search results (facility display) is sorted and displayed in a list in order from the current position or search reference point (point designated by the cursor on the map).

(2) Details of Embodiment FIG. 1 shows a configuration of a navigation device.
As shown in FIG. 1, the navigation device includes a navigation control unit 10 that controls the entire navigation device.
The navigation device also includes a remote controller (remote controller 20) that functions as an input means for the navigation control unit 10 and inputs various operations, and also functions as a health condition measuring means for measuring the health condition of the passenger. ing.
The navigation device is also provided with a sensor unit (described later) that is disposed on the steering wheel 30 and functions as a health condition measuring unit, and is connected to the navigation control unit 10.
A display device 11, a speaker 12, a current position detection unit 13, a storage unit 14, and a stop state detection unit 15 are connected to the navigation control unit 10.

  The navigation control unit 10 is configured by a computer system including a CPU, ROM, RAM, and the like (not shown). By executing various programs stored in the ROM and the storage unit 14 using the RAM as a predetermined work area, Various functions such as destination setting, route search, route guidance, provision of various information, and the like are realized, including facility search processing in the embodiment.

The display device 11 includes a liquid crystal display 11a. The liquid crystal display 11a displays a screen for setting a destination necessary for route guidance, displays a current position along with a map, and further displays a route. In the guidance, a route on which the vehicle should travel is displayed.
In addition, the display 11a displays a list of names of facilities searched for recommendations according to the health condition of the passenger in the facility search of the present embodiment, and detailed information on the facilities selected from the list. It has come to be.
In addition, although the liquid crystal display 11a is used as the display apparatus 11 of this embodiment, you may make it use CRT, a plasma display, etc. in addition.

In the display device 11, a touch panel is disposed on the surface of the liquid crystal display 11a. By pressing (touching) a display part corresponding to various operation keys displayed on the liquid crystal display 11a, an operation key corresponding to the part is selected. It has come to be.
Note that these operation keys may be arranged as dedicated operation keys that are permanently provided on the outer panel portion 11b outside the liquid crystal display 11a.

A remote control light receiving portion 11 c is disposed on the outer panel portion 11 b of the display device 11.
The remote control light receiving unit 11 c functions as a receiving unit for information transmitted from the remote control 20.
Information received from the remote controller 20 includes basic data related to the health condition of the remote controller operator detected by the remote controller 20 in addition to the input operation signal.

The remote controller 20 in the present embodiment employs an infrared remote controller, and a signal corresponding to the operation content input by infrared serial communication is transmitted. The remote controller light receiving unit 11c receives the signal and the navigation control unit 10 receives the signal. The contents are analyzed.
Note that the communication method of the remote controller 20 is not limited to infrared rays, and may be configured by other wireless communication methods such as Bluetooth.
In that case, instead of the remote control light receiving unit 11c, a remote control reception unit corresponding to the communication method of the remote control 20 is arranged on the outer panel unit 11b, and the corresponding reception information is analyzed by the navigation control unit 10. .

The speaker 12 is connected to a sound processor (not shown) and outputs various sounds under the control of the navigation control unit 10.
From the speaker 12, for example, voice for route guidance such as “This road is 300m ahead”, operation guidance voice for various screen operation methods displayed on the liquid crystal display 11a, and the like are output. Yes.
Further, the speaker 12 outputs a sound for notifying the normal state of the occupant diagnosed at the facility search in the present embodiment, for example, “the person who operated the remote controller / the health state of the driver is B”. You may be made to do.
Note that the speaker 12 may also be used as an audio speaker disposed in the vehicle.

The current position detection unit 13 detects the current position (for example, an absolute position based on latitude and longitude) of the vehicle on which the navigation device is mounted. The detected current position is used, for example, for matching with road data in route guidance, and is displayed as the current position of the vehicle on the map displayed on the liquid crystal display 11a.
The current position detection unit 13 includes one or a plurality of GPS (Global Positioning System) that measures the position of the vehicle using an artificial satellite, a vehicle speed sensor, a gyro sensor, a direction sensor, a steering angle sensor, a distance sensor, and the like. ing.

The storage unit 14 includes a program storage unit 14a and a data storage unit 14b.
In addition to the facility search program in the present embodiment, the program storage unit 14a stores a destination setting program, a route search program, a route guidance program, and other various programs as various programs for performing route guidance.
The data storage unit 14b stores various data such as map data, road data, facility data (described later in FIG. 3) used in the facility search program, and a health condition diagnosis table as various data necessary for the navigation process. Yes.

The health condition diagnosis table defines health condition categories for the measurement values of basic data (body fat, blood pressure, pulse rate, body temperature) that are measurement items in the present embodiment.
For example, the maximum blood pressure is 120 or less is defined as A, 120 to 145 is defined as B, and 145 or more is defined as C, and the body fat percentage is defined as 20 or less as A, 20 to 28 as B, and 28 or more as C.
The points are scored for each section, and A = p point, B = q point, C = r point (p>q> r), and the total value X of these points for each measurement item is a predetermined threshold value. If t1 or more (X ≧ t1), the health state A, and if the total value X is less than the threshold t1, t2 (t1> t2) or more (t1> X ≧ t2), the health state B, the total value X is the threshold t2. If less than (X <t2), the health condition is comprehensively diagnosed as health condition C.

In addition, about the diagnosis of a health condition, you may make it judge from the average value instead of the total value X of the score for each measurement item. In this case, for example, with respect to the thresholds T1 and T2 (T1> T2), the average value is E, the health state A when E ≧ T1, the health state B when T1> E ≧ T2, and the condition of E <T2. In this case, state of health C is assumed.
Moreover, you may make it diagnose a health condition with another method.

The stop state detection unit 15 detects the state of the vehicle for the navigation control unit 10 to determine whether or not the vehicle is in a stop state.
The stop state detection unit 15 in this embodiment includes a vehicle speed sensor, and the vehicle speed is supplied to the navigation control unit 10. The navigation control unit 10 determines that the navigation is stopped when the vehicle speed V = 0.
The navigation control unit 10 may determine that the vehicle is stopped when vehicle speed V> predetermined vehicle speed v1 (for example, 5 km / h).
Further, the stop state detection unit 15 may detect the shift lever position, or may detect whether the side brake is on or off and supply it to the navigation control unit 10. In this case, the navigation control unit 10 determines that the shift lever is in the stopped state when the shift lever position is the parking P position and the side brake is on.
Note that the vehicle speed sensor of the stop state detection unit 15 may also be used as the vehicle speed sensor of the current position detection unit 13.

Next, measurement of basic data by the remote controller 20 and the steering wheel 30 functioning as basic data measuring means will be described.
FIG. 2 shows the external configuration of the remote controller 20 and the steering wheel 30.
As shown in FIG. 2A, the remote controller 20 includes a transmission unit 25, a cursor movement key 22, a scale selection key 23, other operation keys 24, and sensor units 31a and 31b.
The sensor units 31a and 31b are arranged on both sides as viewed from the operation key arrangement surface of the remote controller 20, and when the remote controller 20 is held for input operation of the operation key, the hand contacts to measure basic data. It is like that.
From the transmission unit 25, various operation signals such as operation contents and various basic data such as body fat percentage measured by the sensor units 31a and 31b are transmitted by infrared rays.

Sensor portions 31a and 31b are arranged on the left and right sides of the steering wheel 30 in a straight traveling state, and the basic data is measured from the hand held by the driver through the steering operation.
In the present embodiment, the basic data measured by the steering wheel 30 is connected to the navigation control unit 10 via a connection line (see FIG. 1), but as with the remote control 20, wireless communication using infrared communication, Bluetooth, or the like. Thus, it may be transmitted to the remote control light receiving unit 11c of the display device 11.

  The remote controller 20 and the steering wheel 30 are provided with a body fat meter, a blood pressure meter, a pulse rate meter, and a thermometer as basic data for determining a health condition. It arrange | positions at the sensor parts 31a and 31b.

The body fat scale has a pair of electrodes disposed on both sensor parts 21a, 21b of the remote control 20 and both sensor parts 31a, 31b of the steering wheel 30, and each electrode is a hand of an operator of the remote control 20 or a vehicle driver. Measure body fat percentage as basic data.
The body fat scale measures the fat percentage by measuring the bioimpedance (electrical resistance of the body) by applying a weak current to the body from both electrodes using the non-conductivity of fat.

  The thermometer measures, for example, the temperature of an electrode for a body fat scale, and measures the temperature based on the body temperature of the operator of the remote controller 20 or the vehicle driver.

The sphygmomanometer, for example, measures blood pressure using a correlation between a pulse wave transmission time (PWTT: Pulse Wave Transmit Time) until blood reaches the fingertip from the heart and blood pressure accompanying the contraction of the heart in the human body. Is to do.
The sphygmomanometer has an electrode sensor for detecting a change in the potential of the heart by detecting a potential change that occurs when the heart beats, and a timing at which the pulse wave reaches the fingertip by detecting a change in blood flow at the fingertip using infrared rays. An infrared sensor for capturing (pulse) is provided, and blood pressure is measured by calculation based on the pulse wave propagation time detected by these sensors.
As the sphygmomanometer of the present embodiment, an electrode sensor for detecting heart contraction timing (cardiac radio wave (R wave)) is disposed in one sensor unit 21a, 31a, and an infrared sensor is disposed in the other sensor unit 21b, 31b. Is placed.

As described in Japanese Patent Application Laid-Open No. 2000-107141, pulse sensors that measure a pulse by using a difference in distance from the heart are arranged in both sensor portions 21a, 21b, 31a, and 31b. Also good.
In this case, the remote controller 20 places one sensor, for example, the sensor unit 21b on the operation key. As a result, the pulse is detected by the sensor unit 21a from the hand holding the remote controller 20, and the pulse is detected by the sensor unit 21b disposed on the operation key when the operation key is operated by the other hand.
Various other known methods can be employed for the blood pressure monitor of the present embodiment.

In the pulse meter, the sensor units 21a and 31a are provided with an oscillator that oscillates an ultrasonic wave toward the bloodstream and a receiver that receives the reflection group reflected by the bloodstream, and the frequency change of the received reflection group The pulse is detected from the change of the amplitude and the pulse rate is measured from the interval.
The pulse rate meter may also be used as a sphygmomanometer, and the number of pulse stays may be measured using the pulse measured with the sphygmomanometer.

The basic data measured by the remote controller 20 and the steering wheel 30 are transmitted to the navigation control unit 10 at the next timing.
That is, a transmission button for basic data is arranged on the remote controller 20 and the steering wheel 30 and is transmitted when this transmission button is pressed.
In the case of the steering wheel 30, the basic data may be measured at predetermined time intervals and automatically transmitted after the measurement.
Conversely, the steering wheel 30 may measure and transmit basic data when requested by the navigation control unit 10.
Further, in the case of the remote controller 20, basic data is measured when the remote controller 20 is gripped, that is, when measurement by the sensor units 21a and 21b becomes possible, and corresponds to the operation key when the operation key is pressed. Basic data may be transmitted together with the information.

FIG. 3 conceptually shows the contents of the facility data.
The facility data includes the identification number (serial number), name, address, coordinates, genre, and health classification data of each facility, and various facilities such as telephone numbers, URLs, e-mail addresses, image data, and recommended information depending on each facility. Data is stored.
The genre of facilities is classified into “food” (meals), “stores” (convenience stores, etc.), “cars” (gas stations, etc.), “hotels” (accommodations), “plays” (amusement park), etc. The subcategories are classified into a plurality of layers below each category.
For example, the genre “food” is subordinate to “restaurant”, “family restaurant”, “fast food”, “ramen”, and the like.
The facility data displayed in FIG. 3 is exemplified by facility data for “restaurants” under the genre “food”.

As shown in FIG. 3, each facility data has a health state A, a health state B, and a health state C area as health classification data, and a flag is assigned to each area. Yes.
Then, the facility to which the flag is assigned becomes the facility search target in each health state. For example, since the facility XX is flagged in the health states A and B, it is a search target when diagnosed as the health state A, but is diagnosed as the health state C without the flag. In some cases, it is excluded from the search target.

In this embodiment, the health classification data of the facility data is divided into three categories, namely, health state A, health state B, and health state C. It is what I do.
Therefore, when the health condition is further divided into n cases for diagnosis, the health classification data of the facility data is also divided into n types.

Next, the facility search processing operation in consideration of the health condition in the vehicle configured as described above will be described.
FIG. 4 is a flowchart showing the operation of the facility search process.
The facility information search is performed when, for example, a destination to be searched for a route is set, a facility around a vehicle of a genre designated by the user is displayed, or the latest information on the displayed facility is viewed by the user. Used for.

  When the facility search is selected by the input operation of the remote controller 20 or the input key operation of the liquid crystal display 11a, the navigation control unit 10 receives basic data from the remote controller 20 or the steering wheel 30 (step 10).

And the navigation control part 10 diagnoses the health condition of a to-be-measured person (usually a driver | operator) based on the received basic data (step 11, step 12).
That is, the navigation control unit 10 obtains the score for each measurement item from the received basic data for each measurement item according to the health condition diagnosis table of the data storage unit 14b, and calculates the total value X thereof.
The navigation control unit 10 diagnoses the health condition A if the total value X is equal to or greater than a predetermined threshold value t1 (X ≧ t1).
If the total value X is less than the threshold value t1, t2 (t1> t2) or more (t1> X ≧ t2), the navigation control unit 10 diagnoses the health condition B, and the total value X is less than the threshold value t2 (X <t2). ), The health condition C is diagnosed.

Next, the navigation control unit 10 searches for facilities recommended in the health state according to the diagnosis results of the health states A to C (steps 13 to 15).
That is, the navigation control unit 10 searches for a facility in which a flag is assigned to the health category corresponding to the health states A to C diagnosed from the facility data in the data storage unit 14b. For example, in the case of diagnosing the health state C, a facility having a flag assigned to the health state category C is searched from the facilities stored in the facility data.
When a genre to be searched is specified from the operation key, the navigation control unit 10 performs a search within the range of the specified genre.

The navigation control unit 10 displays the found facility on the liquid crystal display 11a (step 16).
When displaying the searched facilities on the liquid crystal display 11a, the navigation control unit 10 sorts and displays the facilities in order of increasing distance from the current position of the vehicle detected by the current position detection unit 13.

  When a facility search is instructed, if a predetermined point on the map displayed on the liquid crystal display 11a is specified as a search reference point with a cursor, the navigation control unit 10 specifies not the current position of the vehicle, The facilities are sorted and displayed in ascending order of distance from the search reference point.

As described above, according to the present embodiment, the health condition is diagnosed from the measured basic data of the passenger's health condition, and the facility corresponding to the diagnosed health condition is searched and presented. It is possible to propose recommended facilities that consider the health of the elderly.
For example, if the body fat percentage and blood pressure are high, so that the health condition C is comprehensively diagnosed, a restaurant with a high oil content such as grilled meat or Chinese food is set as Category C, and these stores are searched. Can be excluded.

As mentioned above, although embodiment of the navigation apparatus of this invention was described, this invention is not limited to embodiment described, Various deformation | transformation are possible in the range described in each claim.
For example, the health condition determination according to the present embodiment is made to diagnose the health condition by integrating the basic data for determining the health condition, but the health condition may be diagnosed for each measured basic data. Good. For example, there are three types of body fat percentages: health conditions A1, B1, C1, blood pressure: health conditions A2, health conditions B2, health conditions C3, body temperature: health conditions A3 and health conditions B, and so on. Diagnose each measurement item.
In this case, according to each health condition diagnosed by the health condition, the health classification data is also classified for each basic data for each facility.

In this way, by providing health condition classification and diagnosis for each measurement item, it is possible to provide a facility that more closely matches the health condition of the passenger and to perform detailed health management.
For example, if the blood pressure is high and the health state is C, the restaurant with a high salt content is excluded from the search target (no flag is assigned to the blood pressure category of the corresponding facility), thereby performing finer health state management. be able to.

As another modification, when a user specifies a genre (search item) when searching for a facility, an item for determining a health condition may be changed according to the specified genre. .
For example, the body fat percentage may be a measurement item in a search related to eating and drinking such as a restaurant, and the blood pressure and pulse rate may be a measurement item in a leisure facility.

Moreover, although embodiment demonstrated demonstrated the case where the facility searched according to the health condition was displayed on the liquid crystal display 11a as a list, the display method is not limited to this, and other methods may be used.
For example, the navigation control unit 10 extracts facilities existing within the display range of the map displayed on the liquid crystal display 11a, and displays them at the corresponding position on the map from the coordinates of each facility. When the facility is displayed, a mark corresponding to the facility is displayed. As a mark to be displayed, a mark corresponding to the genre classified most finely for each facility is displayed. For example, when the minimum classification of the searched facility is Japanese food, a mark (picture) designed with an image of Japanese food is displayed at the corresponding position on the map.
When the displayed mark is touched by the user, the navigation control unit 10 displays the detailed information of the facility existing at the position on the liquid crystal display 11a.

  Further, in the described embodiment and its modifications, the facility corresponding to the health condition is searched and displayed, and when any facility is selected from the displayed facilities, the navigation control unit 10 selects the selected facility. A route from the current position to the facility may be searched for as a destination or relay point, and route guidance may be performed.

  In the present embodiment, both the remote controller 20 and the steering wheel 30 are provided as basic data measuring means, but either one may be used.

Note that, when the basic data is measured by both the remote controller 20 and the steering wheel 30 as in the present embodiment, the basic data of the driver is measured from the steering wheel 30, and the basic data of the passengers other than the driver is the remote controller 20. May be measured from.
In this case, the navigation control unit 10 separately diagnoses the health conditions of the driver and other passengers from the respective basic data, and searches for the facilities separately. That is, the facility for the driver and the facility for other passengers are searched separately.
Then, the navigation control unit 10 displays the facilities existing in both the driver facility and the other passenger facilities on the liquid crystal display 11a as the final search facility. The display method may be either list display or mark display on a map.

Further, in the embodiment described, a facility in which a flag is assigned to the health category corresponding to the diagnosed health states A to C is searched.
On the other hand, the navigation control unit 10 searches for all facilities existing within a predetermined distance range from the vehicle current location or the search reference point (within the range of the specified genre when the genre is specified), The retrieved facilities may be sorted in order of proximity and the health categories A to C may be displayed together with the names of the facilities.
Then, the navigation control unit 10 also displays the health condition diagnosed as “Your health condition is B” and / or notifies by voice.

  In this case, regardless of whether the health status is to be reported as “Your health status is B” or not, the facilities that are classified according to the diagnosed health status are framed and highlighted. It is also possible to identify and display a facility that does not match by changing the color.

  Furthermore, in the described embodiment, a case has been described in which the measurement of the basic data of the driver, the health condition diagnosis process based on the basic data, and the facility information search process corresponding to the health condition diagnosis result are all performed by the navigation device. However, the information center may perform processing other than measurement of the basic data of the driver.

That is, the navigation device includes a communication unit for performing bidirectional wireless communication between information centers.
Then, one or both of the health condition diagnosis process based on the basic data and the facility information search process corresponding to the health condition diagnosis result may be performed in the information center, and the process result may be transmitted to the navigation device.
Specifically, when the information center (a) performs a health check process based on basic data, (b) performs both a health check process based on basic data and a search process for facility information corresponding to the diagnosis result of the health condition, Or (c) The facility information search process corresponding to the health condition diagnosis result may be performed.

In the case of (a), the navigation device transmits the measured basic data to the information center.
The information center diagnoses the health condition based on the received basic data and transmits the diagnosis result to the navigation device. In the navigation device, facility information corresponding to the diagnosed result is retrieved and displayed.

In the case of (b), the information center stores the facility data shown in FIG. 3 as in the navigation device.
The navigation device transmits the measured basic data to the information center.
The information center diagnoses the health condition based on the received basic data, searches for facility information according to the diagnosis result, and transmits the search result to the navigation device. The search result transmitted here is the identification number (serial number, see FIG. 3) of the searched facility.
On the other hand, in the navigation apparatus, the facility information corresponding to the received search result is read from the facility data in the data storage unit 14b and displayed.
The navigation device may not hold the facility information. In this case, the facility information itself is transmitted instead of the facility identification number retrieved from the information center.

Also in the case of (c), the information center stores the facility data shown in FIG.
Then, the navigation device diagnoses the health condition based on the measured basic data, and transmits the diagnosis result (health conditions A to C in the case of the described embodiment) to the information center.
The information center searches for a facility corresponding to the received health condition, transmits the facility identification number (serial number) if the navigation device stores the facility information, and transmits the facility information if the facility information is not stored. To do.
In the information center, the facility information corresponding to the received identification number is read from the facility data and displayed, or the received facility information is displayed.

As described above, when two-way wireless communication is performed between information centers, the information center updates facility information as appropriate, receives a navigation device or basic data, performs a predetermined process, and performs the process. When transmitting the result to the navigation device, update information for updating to the latest facility information may be transmitted.
In this case, when the navigation apparatus transmits the basic data to the information center, the information center can identify the necessary update information by transmitting the update information (the latest update date) of its own facility information. become.

It is a block diagram of a navigation apparatus. It is an external appearance block diagram of a remote control and a steering wheel. It is explanatory drawing which represented the content of the facility data notionally. It is a flowchart showing operation | movement of a facility search process.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Navigation control part 11 Display apparatus 11a Liquid crystal display 11b Outside panel part 11c Remote control light-receiving part 12 Speaker 13 Current position detection part 14 Storage part 14a Program storage part 14b Data storage part 15 Stop state detection part 20 Remote control 21a, 21b Sensor part 30 Steering Wheel 31a, 31b Sensor unit 25 Transmitter unit

Claims (4)

Facility information storage means for storing facility information in a state in which the correspondence with the health state is distinguishable;
Basic data measuring means for measuring basic data for judging the health condition of the passenger;
Diagnostic means for diagnosing the measured health condition of the occupant based on the measured basic data;
Facility presentation means for reading out and presenting facility information corresponding to the diagnosis result from the facility information storage means;
A navigation device comprising:
The navigation device according to claim 1, wherein the basic data measuring unit measures at least one of body fat, blood pressure, pulse rate, and body temperature as basic data of the passenger.
The navigation device according to claim 1 or 2, wherein the basic data measuring means is arranged on at least one of a remote controller that performs an input operation and a steering wheel of a vehicle.
A health condition diagnosis table in which a health condition corresponding to a measurement value by the basic data measuring means is defined;
The diagnosis means diagnoses the health condition of the passenger with reference to the health condition diagnosis table.
The navigation device according to claim 1, claim 2, or claim 3.

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