JP2004249840A - Display control device for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent operation load on a user from increasing even when an operating menu is prepared according to an operation history. <P>SOLUTION: An operating menu formed of a plurality of treatment selecting menu items displayed in one screen is registered throughout a plurality of layers, full menu information formed by registering an operating menu formed of a plurality of treatment performing menu items showing the treatment of equipment at the lowest layer is stored in a menu structure database part 4 beforehand, and change menu information in which the number of the layers up to the the operating menu in the lowest layer is limited is prepared from the operating menu in the highest layer by using a menu learning/structure constructing part 5. Then an operation load on a vehicle driver is estimated by an operation load estimating part 2, and displayed by the manu learning/structure constructing part 5 by using either of full menu information and change menu information. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a display control device for a vehicle that enables various operations while changing display contents presented to a driver of a vehicle, for example.
[0002]
[Prior art]
Conventionally, as described in Patent Document 1 below, a menu with a learning function that rearranges the menu structure according to the selection history of the operator and rearranges so as to reduce the number of operations for selecting frequently used functions Display methods are known.
[0003]
[Patent Document 1]
JP-A-7-98641
[0004]
[Problems to be solved by the invention]
However, the menu display method with the learning function described above does not assume a special environment such as driving or a car, and if frequently used functions are raised to a shallow level, other functions may become relatively deeper. However, there is a problem that the number of options displayed on the screen increases.
[0005]
Therefore, the present invention has been proposed in view of the above-described circumstances, and a vehicle display control device that does not increase a user's operation burden even when an operation menu is created according to an operation history. To provide.
[0006]
[Means for Solving the Problems]
In the vehicle display control device according to the present invention, an operation menu including a plurality of processing selection menu items displayed in one screen is registered in a plurality of layers, and the processing of the device is stored in the lowest layer of the operation menu. The full menu information in which an operation menu including a plurality of process execution menu items indicating the above is registered is stored in advance in the storage unit, and the full menu information is changed by the menu creation unit to operate the top layer. Change menu information in which the number of layers from the menu to the operation menu of the lowest layer is limited is created in advance.
[0007]
In the display control device for a vehicle according to the present invention, when an operation menu for prompting a selection of a process is displayed on the display device when a process of a device mounted on the vehicle is selected, the driver of the vehicle is controlled by the driving load estimating means. When the operation input means is operated by a user who gets on the vehicle, the display control means causes the display control means to calculate the full menu stored in the storage means based on the driving load estimated by the driving load estimation means. The above-described problem is solved by displaying the operation menu using either the information or the changed menu information created by the menu creation unit.
[0008]
【The invention's effect】
According to the present invention, in addition to the full menu information, modified menu information in which the number of layers is smaller than that of the full menu information is created, and a process is selected using any of the menu information according to the operating load. Since the number of selections is made constant taking into account a special environment such as running, the operation load on the user is not increased even when an operation menu is created according to the operation history, for example.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0010]
The present invention is applied to, for example, a vehicle display device configured as shown in FIG.
[0011]
[Configuration of vehicle display device]
The vehicle display device is mounted on a vehicle, for example, and displays various information to a vehicle driver. When displaying various information on the monitor unit 1, the vehicle display device displays a menu from a menu structure database (DB) unit 4 based on the driving load estimated by the driving load estimating unit 2 and the operation content of the operation unit 3. The display data for performing the operation is read, and the menu learning / structure construction unit 5 controls the display of the operation menu and the information generated by the navigation / audio processing unit 6.
[0012]
Further, in this display device for a vehicle, the monitor unit 1 is provided at a position visible to the driver, the operation unit 3 is provided at a position operable by the driver, the driving load estimating unit 2, the menu structure database, and the like. The unit 4 and the menu learning / structure construction unit 5 are housed in, for example, an instrument panel. Although not shown, a communication device having an e-mail transmission / reception function and a telephone communication function in addition to the menu learning / structure construction unit 5 and the navigation / audio processing unit 6 may be connected to the vehicle display device. . Thus, in the vehicle display device, information generated by the navigation / audio processing unit 6, the communication device, and the like can be displayed on the monitor unit 1.
[0013]
The driving load estimating unit 2 estimates a load when the driver drives the vehicle as a driving load, and sends it to the menu learning / structure construction unit 5 as driving load information. The driving load estimating unit 2 inputs a current road condition such as a road type and a lane from the navigation / audio processing unit 6 and the like, and also detects, for example, a vehicle speed and an operating condition of steering, accelerator, brake and the like from various sensors. It inputs and determines the vehicle state to estimate the driving load.
[0014]
The operation unit 3 includes, for example, a push button, a jog dial, a joystick, and the like, and sends an operation input signal to the menu learning / structure construction unit 5 in response to detecting the operation content of the driver. In this example, in particular, the operation input signal for switching the operation menu display displayed on the monitor unit 1 and the operation input signal for executing the process corresponding to the menu item included in the operation menu display are displayed in the menu learning / structure. Send to construction unit 5.
[0015]
The menu structure database unit 4 includes, for example, an EEPROM (Electrically Erasable and Programmable Read Only Memory) and the like. The full menu information indicating the full menu in which the contents of the operation menu are hierarchically constructed in a tree structure, and the full menu information Change menu information in which the number of layers has been changed is stored. The changed menu information is created by the menu learning / structure construction unit 5 based on the full menu information, and registered in the menu structure database unit 4.
[0016]
Further, the menu structure database unit 4 stores, as information common to the full menu information and the changed menu information, function information on each menu item constituting the operation menu and operation history information indicating the number of selections for each menu item. It is remembered. Further, in the menu structure database section 4, transition relation information indicating transition relation of each operation menu from the operation menu of the highest layer to the operation menu of the lowest layer is stored for each full menu information and change menu information. . The operation history information is created by the menu learning / structure construction unit 5 based on the operation of the operation unit 3 and registered in the menu structure database unit 4.
[0017]
Further, the menu structure database unit 4 stores, for each process selection menu item, learning value information in which the number of operations of the menu items existing in the lower layer of the process selection menu item is totaled, A learning coefficient for determining a learning speed of each menu item existing in the lower layer is stored. The learning value information and the learning coefficient are created at the time of learning coefficient setting processing and learning processing by the menu learning / structure construction unit 5 described later, and are registered in the menu structure database unit 4.
[0018]
The full menu information includes, for example, as shown in FIG. 2, a first layer (main menu) of the highest layer to a fifth layer of the lowest layer. In the full menu information, the fifth layer, which is the lowest layer, is composed of menu items for execution of processing for determining the execution of processing, and the first to fourth layers select menu items for execution of processing on the fifth layer. Menu item for selecting a process in the middle of the process. The full menu is configured to display four menu items on one screen as an operation menu in one screen. It should be noted that the menu item for executing the process may be set as the lowest layer not only in the fifth layer but also in the second to fourth layers.
[0019]
Further, the changed menu information is constructed by limiting the number of layers to the full menu, and the menu learning / structure constructing unit 5 determines the processing execution menu items and the processing selection menu items in each hierarchy and stores them. Is done.
[0020]
Further, the menu structure database unit 4 stores menu item display data for displaying each menu item corresponding to each menu item.
The full menu information is stored in such a manner that the menu learning / structure construction unit 5 is prohibited from changing menu items.
[0021]
The menu learning / structure construction unit 5 uses the various information registered in the menu structure database unit 4 and based on the driving load estimated by the driving load estimation unit 2 and the operation contents of the operation unit 3, Perform various processes.
[0022]
[Processing contents of menu learning / structure construction unit 5]
"Operation menu display processing"
The menu learning / structure construction unit 5 receives the operation load information from the operation load estimation unit 2 and the operation input signal from the operation unit 3 and refers to the full menu information and the changed menu information to display them on the monitor unit 1. The menu item display data to be read is read from the menu structure database unit 4 and displayed in a menu.
[0023]
When the operation unit 3 is operated and an operation input signal is input in a state where an operation menu including a plurality of process selection menu items is displayed, the menu learning / structure construction unit 5 selects the selected menu item. A process for displaying the operation menu set in the lower layer of the “reference” with reference to the transition relation information is performed. When an operation input signal is input from the operation unit 3 in a state where an operation menu including a plurality of processing execution menu items is displayed, the menu learning / structure construction unit 5 executes the selected processing execution. With reference to the function information corresponding to the menu item for use, a process execution command corresponding to the function information is output to the navigation / audio processing unit 6 or the like, and the process is executed.
[0024]
Specifically, the menu learning / structure construction unit 5 sets “navi”, “telephone”, “e-mail”, and “audio” as the menu items of the main menu in the first hierarchy. , The button display of "telephone", the button display of "E-mail", and the button display of "audio" are read out and displayed in the menu display area 12 in one screen. Then, for example, when a menu item for processing selection of “telephone” indicated by a hatched portion in FIG. 2 is selected, an operation menu including four menu items for processing selection in the second hierarchy is displayed, and the second hierarchy is displayed. When the menu item for selecting a process of "call" is selected, an operation menu including four process selection menu items on the third level is displayed, and the process for selecting "address book" is selected on the third level. When the operation menu item is selected, an operation menu including four processing selection menu items on the fourth hierarchy is displayed. When the "job" processing selection menu item is selected on the fourth hierarchy, An operation menu including four process execution menu items on the fifth hierarchy is displayed. Then, when the menu learning / structure construction unit 5 recognizes that the menu item for executing the processing of “office” is selected on the fifth hierarchy, an instruction to execute the processing of calling the office is sent to the external communication device. send.
[0025]
Further, the menu learning / structure constructing unit 5 controls the display of the changed menu information instead of the full menu information indicating the full menu based on the driving load estimated by the driving load estimating unit 2. In this example, for example, the full menu information can be used when the vehicle stops, and only the changed menu information can be used when the vehicle runs.
[0026]
"Menu item selection processing"
The menu learning / structure structuring unit 5 performs a menu item selection process of selecting four menu items to be presented at each level constituting the change menu. That is, the menu learning / structure construction unit 5 limits the number of layers of the changed menu information according to the driving load by comparing with the full menu, and determines the menu items displayed in each of the limited layers based on the learning value information. select. At this time, the menu learning / structure structuring unit 5 selects a process selection menu item having a high use frequency from the learning value information, creates an integrated menu item integrating a plurality of different functions, and further uses the process frequency. Processing is performed by subdividing a high processing selection menu item and setting it as an upper layer.
[0027]
Thus, the menu learning / structure construction unit 5 changes the full menu shown in FIG. 2 to a changed menu as shown in FIGS. 3 and 4. Since the change menu information shown in FIGS. 3 and 4 has a driving load during traveling, the full menu exists up to the fifth hierarchy, whereas the full menu exists up to the third hierarchy by the menu learning / structure construction unit 5. ing.
[0028]
More specifically, the change menu information shown in FIGS. 3 and 4 includes a process selection menu item 11 for selecting an audio function as the first layer, and a different type of function such as telephone and e-mail. Integrated menu item 12 for process selection, menu item 13 for process selection for displaying the destination of the navigation function in the navigation / audio processing unit 6, and display of the map screen for the navigation function in the navigation / audio processing unit 6. Menu item for presenting the process selection menu item 14 is selected. Here, the menu learning / structure constructing unit 5 determines that the process selection menu item 11, the process selection integrated menu item 12, the process selection menu item 13, and the process selection menu item 14 are frequently used based on the learning value information. This is the determined menu item.
[0029]
The process selection menu item 13 and the process selection menu item 14 include a process selection menu item for selecting the navigation function on the first level in the full menu of FIG. It is subdivided into menu items, and the hierarchy is changed from the second hierarchy to the first hierarchy.
[0030]
Further, in FIG. 3 and FIG. 4, the menu learning / structure construction unit 5 sets an integrated menu item 12 for process selection. The process selection integrated menu item 12 is a menu item that does not exist in the full menu of FIG. 2 and is a menu item created by the menu learning / structure construction unit 5. As shown in FIG. 3, in the integrated menu item 12 for process selection, menu items for selecting an e-mail function and a telephone function are set in the lower layer as transition relation information regarding change menu information.
[0031]
Specifically, in the lower layer (second layer) of the integrated menu item 12 for process selection, the menu item 21 for process selection set in the lower layer of the menu item for process selection for selecting the telephone function in the full menu , 22 and processing selection menu items 23 and 24 set in a lower layer of the processing selection menu item for selecting the e-mail function in the full menu. These process selection menu items 21 to 24 are registered in the menu structure database unit 4 by the transition relation information so as to be located in a lower layer of the process selection integrated menu item 12. In FIG. 2, the menu items 21 to 24 for selecting a process are the menu items for selecting a navigation function and the lower (second layer) of the menu items for selecting a process for selecting a telephone function. Among the more than one menu items, the menu items that have been determined by the menu learning / structure structuring unit 5 to be frequently used from the learning value information.
[0032]
Further, in the lower layer (third layer) of the process selection menu item 22, the process execution menu items 31 to 34 set in the lower layer of the process selection menu item "call" in the full menu. Is set. The menu items 31 to 34 for execution of processing are registered in the menu structure database unit 4 by the transition relation information so as to be located in a lower layer of the menu item 22 for processing selection. Further, the menu items 31 to 34 for executing the process are four or more menu items for executing the process in the lower layer (third to fifth layers) of the menu item for selecting "call" in FIG. Of these, the menu item for processing execution determined by the menu learning / structure structuring unit 5 to be frequently used from the learning value information.
[0033]
As another specific example of the integrated menu item 12 for processing selection, as shown in FIG. 4, a menu for processing selection for selecting a telephone function as the second layer based on the learning value information of each menu item. Items 41 to 42 and a menu item 44 for process selection for selecting an e-mail function are registered, and menu items 51 to 54 for process execution are set as transition relation information as a third hierarchy for the menu item 42 for process selection. May be.
[0034]
Further, the menu item for process selection and the menu item for process execution may be detected by dividing the operation history information into holidays or time zones, and may be stored in the menu structure database unit 4. As a result, when performing the operation menu display process, the menu learning / structure structuring unit 5 changes the process execution menu item and the process selection menu item to be displayed with priority according to weekdays, holidays, or time zones. It can be change menu information.
[0035]
"Learning process"
The menu learning / structure construction unit 5 performs a learning process of changing the learning value information of each menu item by weighting (learning coefficient) in accordance with the operation of the operation unit 3. Here, the menu learning / structure construction unit 5 updates the operation history information indicating the operation history of each menu item in response to detecting the operation of the operation unit 3 while displaying various menu items. . Further, for the menu item for process selection, the menu learning / structure construction unit 5 sums the operation history information of each menu item of the lower layer set in the transition relation information, and uses the total value as a learning coefficient. Create learning value information divided by On the other hand, the menu learning / structure construction unit 5 sets the operation history information indicating the number of selected operations as the learning value information for the process execution menu item.
[0036]
Specifically, as shown in FIG. 5, a menu item for processing selection (specialty A, for example, "audio") and a menu item for processing selection (specialty B, for example, "E-mail") included in the full menu information, The integrated menu item for selection exists in the same hierarchy, and menu items A to D are located below the menu item for processing selection (specialty A), and menu items E to H are located below the menu item for processing selection (specialization B). It is assumed that menu items A, B, E, and F are registered in a lower layer of the process selection integrated menu item. Each menu item shown in FIG. 5 is assumed to be included in the changed menu information.
[0037]
In such a state, for example, between the time when the power supply of the vehicle display device is turned on and the time when the display device is turned off, the menu item A is displayed five times, the menu item B is displayed four times, and the menu item C is displayed as shown in FIG. Is selected once, menu item D is selected once, menu item E is selected five times, menu item F is selected four times, menu item G is selected once, and menu item H is selected once. When the recognition is performed by the unit 5, the menu learning / structure construction unit 5 adds the coefficient information “11” to the total value “11” of the menu items A to D set in the lower layer of the menu item for processing selection (specialty A). The value “11” obtained by multiplying “1” is the learning value information for the menu item for processing selection (specialty A), and similarly, the learning value information for the menu item for processing selection (specialization B) is “11”. The menu learning / structure construction unit 5 multiplies the total value “18” of the menu items A, B, E, and F set in the lower layer of the integrated menu item for process selection by coefficient information “0.8”. The value “14.4” is set as learning value information for the menu item for process selection integration.
[0038]
Accordingly, the menu learning / structure structuring unit 5 determines that the specialty A process selection menu item, the specialty B process selection menu item, and the process selection integrated menu item exist on the same level (for example, the first level). , The display control of the monitor unit 1 is performed so as to present the process selection integrated menu item having the highest learning value information as the most frequently used menu item.
[0039]
As shown in FIG. 6, when there is operation history information indicating that menu item A has been selected five times, menu item B has been selected four times, and menu items C to H have been selected zero times, a menu item for processing selection ( The learning value information for the specialty A) is “9”, the learning value information for the process selection menu item (specialty B) is “0”, and the learning value information for the process selection integrated menu item is “7.2”. ". Therefore, in such a case, it is assumed that the process selection menu item (specialty A) is most frequently used.
[0040]
Further, as shown in FIG. 6, an operation in which menu item A is selected five times, menu item B is selected four times, menu item C is selected twice, menu item D is selected once, and menu items E to H are selected four times If there is history information, the learning value information for the menu item for processing selection (specialist A) is “12”, the learning value information for the menu item for processing selection (specialization B) is “16”, and The learning value information for the integrated menu item is “13.6”. Therefore, in such a case, it is assumed that the process selection menu item (specialty B) is most frequently used.
[0041]
Further, as shown in FIG. 6, when there is operation history information indicating that all of the menu items A to H have been selected four times, a menu item for processing selection (specialty A) and a menu item for processing selection (specialization B) Is "16", and the learning value information about the process selection integrated menu item is "12.8". Therefore, in such a case, the menu item for processing selection (specialty A) or the menu item for processing selection (specialization B) is assumed to be the most frequently used.
[0042]
"Learning coefficient setting process"
The menu learning / structure structuring unit 5 performs a learning coefficient setting process of setting a learning coefficient used for performing the above-described learning process and registering the learning coefficient in the menu structure database unit 4.
[0043]
First, the process of setting the learning coefficient according to the relationship between the menu items included in the full menu information and the menu items included in the change menu information and the integrated menu item for process selection will be described.
[0044]
For example, FIG. 7 shows the first and second layers of the changed menu information (first to second layers), and FIG. 8 shows the learning value information of the second layer and the learning value information of the first layer. , The menu learning / structure construction unit 5 sets the learning coefficient for the process selection menu item (item 1 to item 3) to “1”, and sets the process selection menu item (item 1-1, item 1-2) for the process selection menu item. The learning coefficient is set to “1.1”, and the learning coefficient for the process selection integrated menu item A is set to “0.8”.
[0045]
This is because the process selection menu items in the lower layer of the process selection menu item (item 1) and the process selection menu item (item 2) include a process selection integrated menu item and different processes in the full menu. Menu items (specialty A, B, E, specialty a, b, e) located below the selection menu item are registered, and further, a process selection menu item (item 3) and a process selection integrated menu In the item A, menu items (specialized f, h, m, q, specialized A, B, a, b) located in a lower layer of the different process selection menu items in the full menu are registered. The menu items for processing selection (items 1-1 and 1-2) are menu items (specialized A, B, C, D, specialized E, , Due to the fact that G) has been registered.
[0046]
Also, for example, FIG. 9 shows the second and third layers of the changed menu information (second to third layers), and FIG. 8 shows the learning value information of the third layer and the learning value information of the second layer. In this case, the menu learning / structure construction unit 5 sets the learning coefficient for the process selection menu item (specialized A, B, C, D) to “1” and sets the process selection integrated menu item to (integration 1, 2). Is set to “0.8”.
[0047]
This is because, while the integrated menu item for process selection registers a menu item located in a lower layer of a different menu item for process selection in the full menu, the menu item for process selection (item 1-1, item 1-1) In 1-2), menu items (specialty A, B, C, D, specialty E, F, G) located in the lower layer of the same process selection menu item in the full menu are registered.
[0048]
Next, as another learning coefficient setting process performed by the menu learning / structure structuring unit 5, a case in which the learning coefficient of each menu item is changed with time will be described.
[0049]
Here, FIG. 11 shows the change menu information, and FIG. 12 shows changes in the operation history information and the learning value information of the menu items at times “1” to “4” corresponding to the change menu information. FIG. 13 shows the time change of the learning coefficient. As shown in FIG. 13, the menu learning / structure structuring unit 5 performs, for example, a process of lowering the learning coefficient by “0.8” if no menu item is selected for a certain period of time.
[0050]
By performing such processing, the menu learning / structure construction unit 5 multiplies the operation history of the oldest time “1” to the operation history of the latest time “4” in FIG. 12 by different learning coefficients. History.
[0051]
That is, as shown in FIG. 12, the operation history information corresponding to the operation performed at time “1” includes, for example, five times for menu item A, four times for menu item B, one time for menu item C, and one time for menu item C. D is selected once, menu item E is specified twice, menu item F is specified five times, menu item G is selected once, menu item H is selected three times, and the learning values of the menu items for processing selection (specialized A and specialized B) are selected. The value of the information is “11”, and the value of the integrated menu item for process selection is “13.6”. Then, at the next time “2”, if the menu item C is operated once, the menu item D is operated twice, the menu item E is operated three times, and the menu item E is operated once, the menu learning / structure construction unit is operated. 5 multiplies the value of the operation history information at time “1” by a learning coefficient of 0.8 as shown in FIG. 13 and adds the number of operations. As a result, the menu learning / structure construction unit 5 sets the values of the operation history information of the menu items A, B, F, and G that have not been operated at time “2” to “4”, “3.2”, and “3.2”, respectively. 4 "and" 3.4 ", and the values of the operation history information of the menu items C, D, E and H are" 1.8 "," 2.8 "," 4.6 "and" 3. 4 ". Then, the value of the learning value information of the menu item for processing selection (specialist A) is “11.8”, the value of the learning value information of the menu item for processing selection (specialization A) is “12.8”, and the integration for processing selection is performed. The value of the learning value information of the menu item is “11.2”.
[0052]
If the menu items B, E, and G are operated twice each at time “3”, and if the menu items D and G are operated twice three times at time “4”, the time elapses. Accordingly, by referring to the data in FIG. 13 and performing the same calculation, operation history information and learning value information as shown in FIG. 12 are obtained. As a result, the menu learning / structure structuring unit 5 suppresses the learning value information from becoming too high by reducing the learning coefficient over time.
[0053]
Further, the menu learning / structure structuring unit 5 does not only change the learning coefficient for the changed menu item according to the relationship between the full menu information and the elapsed time as described above, but also changes the learning coefficient from the driving load estimating unit 2. The learning coefficient may be changed according to the operating load of the vehicle. In this case, the menu learning / structure constructing unit 5 sets a high learning coefficient when it is determined that the vehicle is running based on the driving load, facilitates learning, and determines when the vehicle is stopped based on the driving load. Sets the learning coefficient lower than during running to make learning difficult.
[0054]
"Learning processing, learning coefficient setting processing procedure"
Next, a processing procedure for performing the learning process and the learning coefficient setting process by the menu learning / structure construction unit 5 having the above-described functions will be described with reference to the flowchart in FIG. In the description of the processing procedure, a case will be described in which the monitor unit 1 displays the third hierarchy of the change menu information including the first hierarchy to the third hierarchy.
[0055]
First, in a state where an operation menu including, for example, four process execution menu items is displayed on the monitor unit 1, any one of the process executions according to the operation of the operation unit 3 by the driver is performed. When the menu learning / structure construction unit 5 recognizes the selection of the menu item for use (step S1), the process proceeds to step S2.
[0056]
In step S2, the menu learning / structure construction unit 5 determines whether or not the same process execution menu item (function) is suddenly selected. That is, the menu learning / structure construction unit 5 determines whether or not the ratio or interval at which the same menu item for executing the same process is selected with respect to the driving time (the activation time of the vehicle display device) is equal to or greater than a predetermined threshold. By doing so, it is determined whether or not a certain process execution menu item is selected several times or more in a certain time.
[0057]
When the menu learning / structure construction unit 5 determines that the ratio or interval at which the same process execution menu item is selected is not equal to or greater than the predetermined threshold, it is determined that the operation is not a sudden operation, and the process proceeds to step S3. On the other hand, if it is determined that the ratio or interval at which the same process execution menu item is selected is equal to or greater than a predetermined threshold, it is determined that the operation is a sudden operation, and the process proceeds to step S4.
[0058]
In steps S3 and S4, the menu learning / structure construction unit 5 executes the above-described learning coefficient setting processing.
[0059]
In step S3, the menu learning / structure construction unit 5 sets the value of the learning coefficient for the menu item for processing executed operated in step S1 to a value for non-suddenness, and saves it in the menu structure database unit 4. To step S5. At this time, the menu learning / structure constructing unit 5 sets the reference value of the learning coefficient according to the determination that it is not abrupt in step S2 to “1”, and determines from the driving load from the driving load estimating unit 2 When it is determined that the vehicle is traveling, the learning coefficient is changed from the reference value “1” to “1.2”, and when it is determined that the vehicle is stopped, the learning coefficient is changed to the reference value “1”. Leave.
[0060]
On the other hand, in step S4, the menu learning / structure construction unit 5 sets the value of the learning coefficient for the menu item for processing executed operated in step S1 to a value corresponding to suddenness, and sets the menu structure database unit 4 And the process proceeds to step S5. At this time, the menu learning / structure construction unit 5 sets the reference value of the learning coefficient to “0.8” in accordance with the determination that it is not sudden in step S2, When it is determined that the vehicle is traveling from the load, the learning coefficient is changed from the reference value “0.8” to “1”, while when it is determined that the vehicle is stopped, the learning coefficient is changed to the reference value “0”. .8 ".
[0061]
In step S5, the menu learning / structure construction unit 5 corrects the operation history information of the process execution menu item selected in step S1, using the learning coefficient set in step S3 or step S4. A learning process to be stored in the menu structure database unit 4 is performed. Further, in this step S5, using the corrected operation history information of the process execution menu item selected in step S1, the process selection for the second hierarchy located at the upper layer of the process execution menu item is performed. The learning value information of the menu item is calculated, and the process proceeds to step S6.
[0062]
In step S5, the menu learning / structure constructing unit 5 changes the learning coefficient based on the elapse of the time described above, and operates the menu items for process execution and the menu items for process selection not selected in step S1. In addition to changing the history information, a learning process for correcting the learning value information of each process selection menu item is also performed.
[0063]
In step S6, the menu learning / structure structuring unit 5 determines whether or not the configuration of the operation menu including the menu item for processing selection of the second hierarchy for which the learning value information has been calculated in step S5 is changed. That is, in the menu learning / structure structuring unit 5, the process selection menu items for which the learning value information has been calculated in step S5 are displayed in the second hierarchy among the process selection menu items registered in the second hierarchy. It is determined whether or not the configuration of the process selection menu item to be changed is changed.
[0064]
If it is determined that the configuration of the second-level operation menu does not change, the menu learning / structure construction unit 5 proceeds to step S7 to end the learning process, while determining that the configuration of the operation menu changes. In this case, the process proceeds to step S8.
[0065]
In step S8, the menu learning / structure structuring unit 5 changes each of the process selection menu items constituting the second hierarchy operation menu in step S6, and accordingly, each of the first hierarchy operation menus is formed. The learning value information on the menu item for process selection is corrected by calculating using the learning value information on the menu item for process selection on the second layer after the change, and the process proceeds to step S9.
[0066]
In step S9, the menu learning / structure structuring unit 5 determines whether or not the configuration of the first-level operation menu including the process selection menu item for which the learning value information has been calculated in step S8 is changed. That is, the menu learning / structure construction unit 5 performs the same determination as in step S5 for the first hierarchy.
[0067]
When determining that the configuration of the first-level operation menu does not change, the menu learning / structure construction unit 5 advances the process to step S7 to end the learning process, while determining that the configuration of the operation menu changes. In this case, the process proceeds to step S10.
[0068]
In step S10, the menu learning / structure structuring unit 5 changes each of the process selection menu items constituting the first hierarchy operation menu in step S9, and accordingly, the respective menus constituting the first hierarchy operation menu are changed. The learning value information on the menu item for process selection is corrected by calculating using the operation history information on the menu item for process selection on the first hierarchy, the process proceeds to step S7, and the learning process ends.
[0069]
[Effects of Embodiment]
As described in detail above, according to the display device for a vehicle according to the present embodiment, in addition to the full menu information, the change menu information in which the number of layers is smaller than the full menu information is created, and the driving load is changed. The process can be selected using any of the menu information according to the conditions, taking into account the special environment such as running, and the number of selections is fixed. For example, when the operation menu is created according to the operation history However, the operation load on the user is not increased.
[0070]
Further, according to the display device for a vehicle, based on the operation history information of each process selection menu item and the process selection menu item, the change menu information is displayed such that the menu item that is selected more frequently is displayed with priority. Is created, it is possible to give priority to menu items frequently used by the user, and to further reduce the operation burden on the user.
[0071]
Further, according to the display device for a vehicle, the operation history is detected by classifying the operation history into weekdays, holidays, or time zones, and the menu items to be displayed with priority according to the weekdays, holidays, or time zones are changed. Even if a user uses a different function, the operation burden can be reduced.
[0072]
Furthermore, according to the display device for a vehicle, since the menu item for process selection that is frequently used is subdivided and made into the menu item for process selection in the upper layer, the change menu information is created. When the setting processing and the display setting processing are used more frequently than the processing of other navigation functions, menu items related to the destination setting processing and the display setting processing can be displayed at a higher hierarchy.
[0073]
Furthermore, according to the display device for a vehicle, since the integrated menu item for process selection in which a plurality of different menu items are integrated to create the changed menu information, the menu items to be displayed in one screen are limited. Even in this case, it is possible to select a larger number of functions than the limited number of menu items, and it is possible to further reduce the operation burden on the user.
[0074]
Furthermore, according to the vehicle display device, a learning coefficient for changing the learning speed is set for each process selection menu item and each process execution menu item, and the operation history for each menu item is changed based on the learning coefficient. Since the change menu information is created, the learning speed of each menu item can be changed according to various situations.
[0075]
Furthermore, according to the vehicle display device, the learning speed of the menu item in the lower layer of the integrated menu item for process selection is lower than the learning speed of the menu item in the lower layer of the menu item for process selection included in the full menu information. Since the learning coefficient is set to be delayed, the menu item for process selection included in the full menu information can be displayed prior to the integrated menu item for process selection, and the integrated menu for process selection that is unfamiliar to the user. It is possible to prevent the user from frequently displaying items and increasing the operation burden on the user.
[0076]
Furthermore, according to the vehicle display device, since the learning coefficient is set so that the learning speed becomes slower as the time elapsed after each menu item is selected, a menu item frequently used is displayed. The probability of operation is increased, and the operation burden on the user can be reduced.
[0077]
Still further, according to the vehicle display device, the learning coefficient is set such that the higher the driving load, the higher the learning speed is. The operation burden can be reduced.
[0078]
Note that the above embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and other than the present embodiment, various modifications may be made according to the design and the like within a range not departing from the technical idea according to the present invention. Can be changed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a vehicle display device to which the present invention is applied.
FIG. 2 is a diagram for explaining a menu structure of a full menu.
FIG. 3 is a diagram illustrating an example of a menu structure of change menu information.
FIG. 4 is a diagram for explaining another example of a menu structure of change menu information.
FIG. 5 is a diagram for explaining that a learning coefficient for a lower layer differs depending on a menu item for process selection or an integrated menu item for process selection.
FIG. 6 is a diagram showing learning history information of each menu item and learning value information of a menu item for process selection.
FIG. 7 is another diagram for explaining that a learning coefficient for a lower layer is different depending on a menu item for process selection or an integrated menu item for process selection.
FIG. 8 is another diagram showing learning history information of each menu item and learning value information of a menu item for process selection.
FIG. 9 is another diagram for explaining that a learning coefficient for a lower layer is different depending on a menu item for process selection or an integrated menu item for process selection.
FIG. 10 is another diagram showing learning history information of each menu item and learning value information of a menu item for process selection.
FIG. 11 is another diagram for explaining that a learning coefficient for a lower layer is different depending on a menu item for process selection or an integrated menu item for process selection.
FIG. 12 is a diagram showing learning history information of each menu item and learning value information of a menu item for process selection according to the passage of time.
FIG. 13 is a diagram illustrating a change in a learning coefficient according to the passage of time.
FIG. 14 is a flowchart illustrating a processing procedure for performing a learning process and a learning coefficient setting process by a menu learning / structure structuring unit.
[Explanation of symbols]
1 Monitor section
2 Operating load estimator
3 Operation part
4 Menu structure database section
5 Menu Learning / Structure Construction Department
6 Navigation / Audio processing unit
11,13,14 Menu item for process selection
12 Integrated menu items for process selection

Claims (9)

A display control device for a vehicle that displays an operation menu for prompting the user to select a process on a device mounted on a vehicle on a display device.
Operation input means operated by a user getting on the vehicle;
Driving load estimating means for estimating the driving load of the vehicle driver;
An operation menu composed of a plurality of processing selection menu items displayed in one screen is registered in a plurality of layers, and the lowest layer of the operation menu is composed of a plurality of processing execution menu items indicating the processing of the device. Storage means for storing full menu information obtained by registering operation menus;
Menu creation means for changing full menu information stored in the storage means to create change menu information in which the number of layers from the operation menu of the highest layer to the operation menu of the lowest layer is limited,
Display control for displaying an operation menu using the full menu information stored in the storage unit or the changed menu information created by the menu creation unit based on the operating load estimated by the operating load estimation unit And a display control device for a vehicle. The menu creating means creates change menu information based on operation history information of each process selection menu item and a process execution menu item, so that a menu item with a higher selection frequency is preferentially displayed. The vehicle display control device according to claim 1, wherein: The menu creation means detects the operation input to the operation input means by classifying the operation into weekdays, holidays, or time zones, creates operation history information for each menu item, and gives priority to the menu items on weekdays, holidays, or time zones 3. The display control device for a vehicle according to claim 2, wherein change menu information for changing a menu item to be displayed is created. 2. The menu creation unit according to claim 1, wherein the menu item for frequently used process selection is subdivided, and change menu information in which the hierarchy of the menu item for frequently used process selection is a higher layer is created. 4. The display control device for a vehicle according to claim 1. 2. The display control device for a vehicle according to claim 1, wherein the menu creation unit creates an integrated menu item for process selection by integrating a plurality of menu items of different types to create change menu information. The menu creation means sets a learning coefficient for changing a learning speed for each process selection menu item and a process execution menu item, and changes an operation history for each menu item based on the learning coefficient. 3. The vehicle display control device according to claim 2, wherein the information is created. The menu creation means creates an integrated menu item for process selection by integrating a plurality of different menu items, and determines the learning speed of the menu item in the lower layer of the integrated menu item for process selection by the process selection included in the full menu information. 7. The vehicle display control device according to claim 6, wherein the learning coefficient is set so as to be lower than a learning speed of a menu item in a lower layer of the menu item for use. 7. The vehicle display control device according to claim 6, wherein the menu creation means sets the learning coefficient such that the learning speed becomes slower as the elapsed time after each menu item is selected becomes longer. 7. The vehicle display control device according to claim 6, wherein the menu creation means sets the learning coefficient such that the higher the driving load estimated by the driving load estimating means, the faster the learning speed. .

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