JP2017117104A - Operation device, steering, setting method of operation device, program for operation device, and recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide switching means to be used for operating information of an operation object and driving a moving body.SOLUTION: An operation device includes: an operation unit 11 which is equipped in a steering wheel 32 of a moving body held by an operator, and having an operation input area 11a with input parts corresponding to a plurality of operation object devices; and a positioning unit 18 for positioning a finger of the operator to a reference part r1 in the operation area 11a. The operator gripping the steering wheel can confirm a position of a thumb by means of the positioning unit, and can operate the parts other than the reference part.SELECTED DRAWING: Figure 5

Description

  The present application belongs to the technical fields of operating device, steering, operating device setting method, operating device program, and recording medium.

  An operation device for operating an electronic device or the like mounted on a vehicle during driving of a vehicle as an example of a moving body has been developed. For example, in Patent Document 1 below, the input operation panel installed on the steering spoke is based on the direction in which the operating finger is operating the matrix sensor, from among a plurality of detection areas simultaneously pressed in the matrix sensor. There is disclosed an information operating device that obtains a detection area with the highest priority and outputs a number representing the detection area to an operation control unit.

JP-A-2005-96519

  However, in the technique described in Patent Document 1, from which direction the operating finger operates the matrix sensor in the detection area with the highest priority among the plurality of detection areas in order to improve operability. Seeking based on. In driving operation with the steering wheel held, it is difficult for the finger to always be applied to a certain position on the input operation panel, and there was a technical problem in terms of both driving operation using the steering wheel and information operation. .

  Therefore, the present application has been made in view of the above-described problems, and an example of the problem is to provide an operation device or the like that can achieve both information operation of an operation target and driving operation of a moving object.

  In order to solve the above-described problem, an invention according to claim 1 is provided in a steering of a moving body held by an operator, and includes an operation unit including an operation region having a portion corresponding to each of a plurality of operation objects, and the operation region. And a positioning portion for positioning the operator's finger on the reference portion.

  According to the tenth aspect of the present invention, there is provided a steering body portion provided with operation means having an operation area having a portion corresponding to each of a plurality of operation objects, and a reference portion of the operation area. And a steering wheel section having positioning means for positioning a finger.

  According to an eleventh aspect of the present invention, there is provided an operation device setting method for an operator to operate an operation target, wherein an operator information acquisition step of acquiring operator information of the operator who steers the moving body; A reference portion setting step for setting a reference portion of the operation region in an operation region having a portion corresponding to each of the operation targets, and within a movable range within which the operator's finger holding the steering of the moving body reaches And an operation object determining step for determining the operation object for the reference portion based on the operator information.

It is a block diagram which shows an example of schematic structure of the operating device which concerns on embodiment. It is a block diagram which shows an example of schematic structure of the operating device which concerns on an Example. It is a schematic diagram which shows an example of the operating device which concerns on an Example. It is a flowchart which shows an example of the operation | movement which sets the reference | standard part of the operation area | region in the operating device which concerns on an Example. It is a schematic diagram which shows an example of the reference | standard part set to the operation area | region. It is a flowchart which shows an example of the operation | movement which operates the operation target in the operating device which concerns on an Example. It is a schematic diagram which shows an example of the locus | trajectory which the operator's finger | toe touched. It is a schematic diagram which shows an example of a contact pattern. It is a schematic diagram which shows an example of the locus | trajectory which the operator's finger | toe touched. It is a schematic diagram which shows an example of a contact pattern. It is a schematic diagram which shows an example of the locus | trajectory which the operator's finger | toe touched. It is a schematic diagram which shows an example of a contact pattern. It is a schematic diagram which shows the 1st modification of the reference | standard part set to the operation area | region. It is a schematic diagram which shows the 2nd modification of the reference | standard part set to the operation area | region. It is a schematic diagram which shows the 1st modification of a positioning part. It is a schematic diagram which shows the 2nd modification of a positioning part.

  An embodiment for carrying out the present application will be described with reference to FIG. FIG. 1 is a block diagram illustrating an example of a schematic configuration of the operating device according to the embodiment.

  As shown in FIG. 1, the operating device 10 for operating the operation target is configured to include an operating means 10a and a positioning means 10b. Here, examples of the operation target include an air conditioner, an audio device, a car navigation device, a telephone, a browser for browsing the Internet, and a program.

  In this configuration, the operation means 10a includes an operation area that is provided in the steering of the moving body held by the operator and has portions corresponding to a plurality of operation objects. Here, a vehicle, a motorcycle, an aircraft, a ship, etc. are mentioned as an example of a moving body. An example of an operator is an operator of a moving body. Examples of steering include a vehicle steering wheel, a motorcycle handlebar, an aircraft control stick or control wheel, a ship steering wheel, and the like. An example of the operation area includes an operation surface such as a touch panel and a touch pad, an input surface, and the like.

  In this configuration, the positioning means 10b positions the operator's finger to the reference portion of the operation area. Here, as an example of the positioning means 10b, any projection or depression provided on the operation device 10, or a depression provided on a predetermined portion of the steering, a projection, or a change in material may be used as long as the operator can feel the position. As an example of the reference portion of the operation region, a predetermined position coordinate portion set in the operation region can be given. Further, as an example of the reference portion of the operation area, a physically changed portion such as a protruding portion or a tactile change portion may be used.

  As described above, according to the operation device 10 according to the embodiment, when the operator grasps the steering wheel, the operator's finger is positioned at the appropriate position to the reference portion for performing the information operation. Information operation and driving operation of the moving body can be made compatible.

[1. Overview of operation device configuration and functions]
Next, specific examples corresponding to the above-described embodiment will be described with reference to FIGS. In addition, the Example described below is an Example at the time of applying this application with respect to the operating device attached to the vehicle etc. which are examples of a mobile body.

  As illustrated in FIG. 2, the operation device 10 as an example of the operation device according to the embodiment includes an operation unit 11 that receives an input from an operator (an example of the operation unit 10 a) and an operation for operating the operation target 20. An operation signal output unit 12 that outputs a signal, a storage unit 13 that stores a program for controlling the operation device 10, a communication unit 14 that performs transmission and reception with the outside of the operation device 10, and the operation device 10 are controlled. The system control part 15, the input-output interface part 16, and the positioning part 18 (an example of the positioning means 10b) which determines the position which grips a steering are provided. The system control unit 15 and the input / output interface unit 16 are connected via a system bus 17.

  The operation device 10 is connected to an operation target 20 such as an air conditioner, an audio device, a car navigation device, or a telephone via an operation signal output unit 12. The operation device 10 functions as a computer that processes information related to input from the operator. The operation device 10 outputs an operation signal to the operation target 20 based on the operation input received by the operation unit 11.

  The operation unit 11 is, for example, a touch panel having a display function and a position input function. The display function part is configured by, for example, a liquid crystal display element or an EL (Electro Luminescence) element. The part of the position input function is configured by an element that realizes, for example, a capacitance method, a resistance film method, or the like. And the operation part 11 acquires the positional information on the surface of the operation part 11 which the operator's finger | toe etc. contacted or adjoined by the position input function in the pixel unit of predetermined resolution. The operation unit 11 may include a pressure sensor, or may be a touch panel or a touch pad for acquiring pressure information at a position where an operator's finger or the like is in contact with or close to the operation unit 11.

  The operation signal output unit 12 has a function of an interface with each operation target 20. The operation signal output unit 12 is connected to each operation target 20 and outputs an operation signal to each operation target 20.

  The storage unit 13 is composed of, for example, a hard disk or a silicon disk drive. The storage unit 13 stores various programs for controlling the controller device 10. Examples of the various programs include an operating system. The various programs may be acquired via a network such as a wireless communication network, or may be recorded on a recording medium such as a CD (Compact Disc) or a DVD (Digital Versatile Disc) and the drive device It may be configured to be read through.

  The communication unit 14 controls communication with the operation target 20, a device that measures travel-related information related to travel, such as the speed of the vehicle, the travel position of the vehicle, and the state of the gears of the vehicle. The controller device 10 is connected to a device including an operation target via the communication unit 14.

  The system control unit 15 includes, for example, a CPU (Central Processing Unit) 15a, a ROM (Read Only Memory) 15b, and a RAM (Random Access Memory) 15c. In the system control unit 15, the CPU 15 a reads out and executes various programs stored in the ROM 15 b, the RAM 15 c, and the storage unit 13. For example, the system control unit 15 executes a program for determining an input received by the operation unit 11.

  The input / output interface unit 16 is an interface between each unit such as the operation unit 11 and the system control unit 15.

  As shown in FIG. 3, the positioning unit 18 is formed in the operation unit 11 on the side of the steering wheel unit 32 around the operation region 11 a. The positioning unit 18 positions the operator's finger on the reference portion of the operation area 11a. The positioning part 18 is formed by a protrusion or a recess. Further, the positioning portion 18 may be formed by changing the hand according to the material.

  The operation device 10 also has an internal clock (not shown) for measuring the time when the finger touches the operation unit 11.

  Next, as illustrated in FIG. 3, the operation unit 11 of the operation device 10 is attached to the front side of the vehicle steering 30 that is an example of the moving body.

  The steering 30 includes a steering main body portion 31 connected to a steering shaft (not shown), and a steering wheel portion 32 having a ring shape, which is a portion gripped by an operator who drives the vehicle.

  The steering body 31 is provided with an operation unit 11 including an operation region 11 a having a portion corresponding to each of the plurality of operation objects 20.

  As shown in FIG. 3, the operation unit 11 includes an operation area 11a. The operation area 11a is an operation surface such as a touch panel or a touch pad, an input surface, or the like.

  The operation unit 11 is attached to the steering wheel unit 32 side from the center on the front side of the steering body 31. That is, when the operator is positioned by the positioning unit 18 and grips and holds the steering wheel unit 32, the operation unit 11 is installed at a position where the operator's thumb can touch the operation area of the operation unit 11. Yes.

  Next, as shown in FIG. 3, an air conditioner 21, a car navigation device 22, an audio device 23, and the like are installed in the vehicle as an example of the operation target 20. In addition, as an example of the operation target 20, a communication device (not shown) for connecting the operator's portable wireless telephone with the short-range wireless communication standard so that the operator can receive the portable wireless telephone is also set. Has been. These operation objects 20 are connected to the operation signal output unit 12 and the communication unit 14 of the operation device 10.

  The air conditioner 21 has a compressor (not shown) and a blower (not shown) that blows air conditioned in the vehicle, and controls the temperature and humidity inside the vehicle. The air outlet 21a of the air conditioner 21 is installed in the vehicle.

  The car navigation device 22 stores a display unit 22a including a touch panel, various sensors such as an acceleration sensor, a gyro sensor, and a GPS (Global Positioning System) sensor, a processing unit including a CPU, a RAM, and a ROM, and information. The storage unit includes a communication unit that communicates with other devices such as the operation device 10, and an operation unit that operates the car navigation device 22. The car navigation device 22 may be connected to the Internet, and the display unit 22a may have a configuration that allows browsing of the Internet.

  An icon ia corresponding to each operation target is displayed in the display unit 22a.

  The audio device 23 receives CDs, DVDs and the like, radio and television radio waves, outputs sound to the speaker, and outputs video to the display unit 22a of the car navigation device 22.

[2. Operation of operation device]
Next, the operation of the operating device according to the embodiment will be described with reference to FIGS.

(2.1 Operation example for setting the reference part of the operation area)
First, an operation example of setting the reference portion of the operation area will be described with reference to FIGS. 4 and 5.

  FIG. 4 is a flowchart illustrating an example of an operation for setting the reference portion of the operation area in the operation device according to the embodiment. FIG. 5 is a schematic diagram illustrating an example of a reference portion set in the operation area.

  As shown in FIG. 4, the controller device 10 acquires operator information (step S1). Specifically, the system control unit 15 of the controller device 10 may accept an input of a user ID associated with the operator information. Based on the user ID, the system control unit 15 determines, as operator information, age, gender, height, hand size, finger length, setting information regarding the past reference part, operator operation history (when and what operation target From the storage unit 13 is acquired.

  Next, the controller device 10 sets a reference portion (step S2). Specifically, the system control unit 15 of the controller device 10 sets the reference portion based on the operator's physical characteristics such as the size of the hand and the finger length. As shown in FIG. 5, the system control unit 15 sets the first reference portion r1, the second reference portion r2, and the operation portion p in the operation area 11a of the operation unit 11. The first reference portion r1, the second reference portion r2, and the operation portion p are examples of portions corresponding to a plurality of operation objects.

  The first reference portion r1, the second reference portion r2, and the operation portion p are set by position information in the operation area 11a, that is, position coordinates in the operation area 11a. The first reference portion r1 and the second reference portion r2 are within a movable range R having a predetermined width in the operation region 11a in a predetermined direction guided by the positioning unit 18 when the operator grasps the steering wheel portion 32. Is set. The movable range is an area guided by the positioning unit 18 in the operation area 11a and is determined by operator characteristics such as the length of the operator's finger.

  The first reference portion r1 is set to a portion that is easy for the operator's thumb to reach and touches most easily according to the length of the operator's finger, for example. The second reference portion r2 is a reference portion other than the first reference portion r1 in the movable range R, for example. The operation part p is set to a part other than the part guided by the positioning unit 18.

  The positions, sizes, and shapes of the first reference portion r1, the second reference portion r2, and the operation portion p are variably set according to the operator characteristics of the operator. In the case of a person with a large finger, the part corresponding to each operation target may be set larger, or the interval between the parts may be set wider. The shape of the portion may be a circle, a rectangle, or an ellipse, and may be a shape corresponding to the shape of a finger as an example of the operator characteristics.

  Note that the system control unit 15 may set the reference part based on the setting information regarding the past reference part.

  The system control unit 15 is an operation area having a portion corresponding to each of the plurality of operation objects, and a reference portion of the operation area is set in a movable range where the finger of the operator holding the steering of the moving body reaches. It functions as an example of a reference part setting means for setting.

  Next, the controller device 10 determines an operation target based on the operator information (step S3). Specifically, the system control unit 15 estimates the behavior of the operator based on the operator information, and associates the operation target estimated to be most selected by the operator with the first reference portion r1, and secondly. The operation object estimated to be selected is made to correspond to the second reference portion r2.

  The system control unit 15 functions as an example of an operation target determining unit that determines the operation target for the reference portion based on the operator information.

  The system control unit 15 may determine the operation target according to the state and environment in which the vehicle is traveling. For example, if the vehicle is traveling along the beach from the position information of the vehicle, the system control unit 15 may associate the operation target corresponding to the song related to the sea with the first reference portion r1. When there is a traffic jam, the system control unit 15 may associate the operation target corresponding to the music to be relaxed with the first reference portion r1. When the in-house temperature is high, the system control unit 15 may associate the air conditioner 21 with the first reference portion r1.

  Furthermore, the system control unit 15 may associate the operation targets corresponding to the first reference portion r1 and the second reference portion r2 based on the state and environment in which the vehicle is traveling and the past operation history of the operator. Good.

  As described above, the system control unit 15 functions as an example of a behavior estimation unit that determines the operation target based on a result of estimating the behavior of the operator. The system control unit 15 has a function of associating recommendation information having the highest degree of recommendation with respect to the operator among the plurality of operation objects determined by the behavior estimation unit with the reference portion.

(2.2 Example of operation to operate the operation target)
Next, an operation example for operating the operation target will be described with reference to FIGS.

  FIG. 6 is a flowchart illustrating an example of the operation of operating the operation target in the operation device according to the embodiment. 7A, FIG. 8A, and FIG. 9A are schematic diagrams illustrating an example of a locus touched by an operator's finger. 7B, FIG. 8B, and FIG. 9B are schematic views showing examples of contact patterns.

  The operator sits in the driver's seat of the vehicle and holds the steering wheel portion 32 so that the operator's hand can contact the positioning portion 18. The operator touches the operation unit 11 with his / her thumb and touches the operation area 11a by sliding, tapping, or tracing.

  As illustrated in FIG. 6, the controller device 10 acquires contact position information in the operation unit (step S <b> 10). Specifically, as shown in FIG. 7A, the system control unit 15 acquires, from the operation area 11a, the position information of the x coordinate and the y coordinate of the part touched by the operator's finger in the operation area 11a. More specifically, as shown in FIG. 7A, the system control unit 15 obtains the position information of the x coordinate and the y coordinate of the contact area C of the part in contact with the operator's finger at a certain time from the operation unit 11. get. Then, the system control unit 15 acquires the position information of the contact area C at certain time intervals, thereby acquiring the position information of the x coordinate and the y coordinate of the trajectory of the contact area C.

  Next, the controller device 10 calculates a contact pattern (step S11). Specifically, the system control unit 15 determines the degree of contact (contact area, pressure, etc.) with respect to the movement amount, coordinate information, time, or the like in the first reference portion r1, the second reference portion r2, the operation portion p, and the like. The contact pattern shown is calculated. For example, as shown in FIG. 7A, in the case of a strongly pressed contact trajectory, as shown in FIG. 7B, the horizontal axis represents the amount of movement, coordinate information, or time, and the vertical axis represents the contact pattern of the degree of contact. Appears. As shown in FIG. 8A, in the case of a contact locus that is lightly pressed and traced several times, a contact pattern appears as shown in FIG. 8B. As shown in FIG. 9A, in the case of a contact locus that is lightly pressed at the beginning and then strongly pressed in the middle, a contact pattern appears as shown in FIG. 9B.

  When only the first reference portion r1, the second reference portion r2, and the operation portion p are set to accept input in the operation area 11a, the contact pattern is interrupted as shown in FIG. 8B.

  Next, the controller device 10 determines whether or not the first contact pattern (step S12). For example, when the first reference portion r1, the second reference portion r2, and the operation portion p are lightly slid, and the contact pattern is less than the threshold θ, the system control unit 15 determines that the contact pattern is the first contact pattern. For example, as shown in FIGS. 8A and 8B, the case where the contact pattern is less than the threshold value θ is the first contact pattern.

  When it is a 1st contact pattern (step S12; YES), the operating device 10 changes the operation target based on a 1st contact pattern (step S13). Specifically, the system control unit 15 follows the first contact pattern (for example, according to the amount of movement of the slide and the degree of contact), and, as shown in FIG. 3, the icon ia corresponding to the operation target of the display unit 22a, The active position is moved, or the display of the icon ia is moved.

  Thus, the system control unit 15 functions to change the plurality of operation objects to an output form based on the first contact pattern.

  When it is not a 1st contact pattern (step S12; NO), the operating device 10 determines whether it is a 2nd contact pattern (step S14). For example, when the first reference portion r1, the second reference portion r2, and the operation portion p are pressed strongly, for example, as shown in FIGS. 7B and 9B, the system control unit 15 It determines with a 2nd contact pattern.

  When it is a 2nd contact pattern (step S14; YES), the operating device 10 selects the operation target (step S15). Specifically, the system control unit 15 selects an operation target corresponding to the first reference portion r1 or the like whose contact pattern exceeds the threshold θ. The system control unit 15 outputs a signal for operating the selected operation target via the operation signal output unit.

  As described above, the system control unit 15 corresponds to the reference portion by detecting the second contact pattern of the operator with respect to the reference portion corresponding to each of the plurality of operation objects. It functions as an example of a recognition unit that recognizes that an operation target has been selected.

  As described above, according to the configuration according to the embodiment, when the steering wheel is gripped, the operator's finger is positioned at the appropriate position by the positioning unit 18 to the reference portion r1 for performing the information operation. It is possible to achieve both the information operation and the driving operation of the moving body.

  When the reference parts (the first reference part r1 and the second reference part r2) are variably set in the operation area according to the operator characteristics of the operator, the position of the reference part according to the characteristics of the operator, Since the size, number, and the like can be made variable, the compatibility between the information operation to be operated and the driving operation of the moving body is improved. For example, the reference part of the position and size is set according to the body characteristics of the operator such as the size of the hand and the length of the finger, or the part that the operator often touches according to the operation history of the operator. The reference part is set.

  When the operator characteristic is the length of the finger of the operator, the reference part can be set in a part where the operator's finger can easily reach in the operation area 11a. Therefore, the information operation of the operation target 20 and the driving operation of the moving object Improved compatibility.

  When the reference portion is variably set in accordance with the operator characteristics of the operator within the movable range R of the operator's finger positioned at the positioning portion, the reference portion is set at a portion where the operator's finger can easily touch. Therefore, the compatibility between the information operation of the operation target 20 and the driving operation of the moving body is improved.

  When a second reference portion different from the reference portion is set in a portion (for example, movable range R) of the operation region 11a where the operator's finger is guided by the positioning unit 18, a plurality of reference portions (first reference portions r1) , The second reference portion r2) can be set, and various operation objects can be handled, so that the information operability is improved.

  When the behavior estimation unit for determining the operation target 20 is provided based on the result of estimating the operator's behavior, the operation target according to the operator's behavior can be presented, so that the information operability is improved. Further, the information operability is improved, the operation target can be easily selected, and the driver can concentrate on the driving, so that the driving operation is also improved.

  When the recommendation information having the highest recommendation level for the operator among the plurality of operation objects 20 determined by the behavior estimation unit is associated with the reference portion (first reference portion r1), the operation according to the behavior of the operator Since an object can be presented, information operability is improved. Further, the information operability is improved, the operation target can be easily selected, and the driver can concentrate on the driving, so that the driving operation is also improved.

  When detecting the first contact pattern of the operator with respect to the reference portion, when changing the plurality of operation objects 20 to the output form based on the first contact pattern, the corresponding operation object 20 is changed based on the first contact pattern. By making the change, the information operability is improved, the operation target can be easily selected, and the driver can concentrate on the driving, so that the driving operation is also improved.

  The operation area 11a further includes a recognition unit that recognizes that the operation target 20 corresponding to the reference portion is selected by detecting the second contact pattern of the operator with respect to the reference portion corresponding to each of the plurality of operation targets 20. In the case of providing, since the action on the operation target 20 can be changed by the contact pattern, the information operability is improved, the operation target can be easily selected, and the driver can concentrate on the driving, so that the driving operation is also improved.

[3. Modified example]
Next, a modified example of the reference portion set in the operation area will be described with reference to FIGS. 10 and 11.

  FIG. 10 is a schematic diagram illustrating a first modification of the reference portion set in the operation area.

  As shown in FIG. 10, a plurality of second reference portions r2 may be set in the operation area 11a. Further, the size of the first reference portion r1 may be set small. Further, the size of the second reference portion r2 may be increased so that the finger can easily reach as the distance from the first reference portion r1 increases.

  FIG. 11 is a schematic diagram illustrating a second modification of the reference portion set in the operation area.

  As shown in FIG. 11, a movable range R may be set around the movable axis of the thumb, and a second reference portion r2 may be set in the movable range R.

  Next, a modified example of the positioning portion will be described with reference to FIGS.

  FIG. 12 is a schematic diagram illustrating a first modification of the positioning unit. FIG. 13 is a schematic diagram illustrating a second modification of the positioning unit.

  As shown in FIG. 12, a positioning portion 18 </ b> A for positioning the operator's finger of the moving body may be set in the steering wheel portion 32 to the reference portion of the operation area 11 a. For example, a positioning portion 18A formed by a recess in the steering wheel portion 32 and a positioning portion 18A with a different touch depending on the material are set. In addition to the steering wheel portion 32, a positioning portion may be formed by a recess in the operation portion 11 excluding the operation region 11a, similarly to the steering wheel portion 32.

  As shown in FIG. 13, a positioning portion 18 </ b> B may be set in the steering wheel portion 32. For example, the positioning portion 18B having a protrusion on the steering wheel portion 32 is set. The number of protrusions may be one or more.

DESCRIPTION OF SYMBOLS 10: Operation apparatus 10a: Operation means 10b: Positioning means 11: Operation part 11a: Operation area 15: System control part 18, 18A, 18B: Positioning part 20: Operation object 21: Air conditioner (operation object)
22: Car navigation (operation target)
23: Audio device (operation target)
30: Steering 31: Steering body part 32: Steering wheel part r1: First reference part (reference part)
r2: Second reference portion R: Range of motion

Claims (13)

Provided in the steering of the moving body held by the operator, an operation unit including an operation region having a portion corresponding to each of a plurality of operation objects;
A positioning unit for positioning the operator's finger on a reference portion of the operation area;
An operating device comprising:   The operation device according to claim 1, wherein the reference portion is variably set in the operation area according to an operator characteristic of the operator.   The operating device according to claim 2, wherein the operator characteristic is a length of the operator's finger.   The operation according to claim 2 or 3, wherein the reference portion is variably set in a movable range of the finger of the operator positioned by the positioning unit according to the operator characteristics. apparatus.   The second reference portion different from the reference portion is set in a portion of the operation region where the operator's finger is guided by the positioning unit. The operating device according to 1.   The operating device according to claim 1, further comprising an action estimating unit that determines the operation target based on a result of estimating the action of the operator.   The operation device according to claim 6, wherein recommendation information having a highest recommendation level for the operator among the plurality of operation objects determined by the behavior estimation unit is associated with the reference portion.   8. The system according to claim 1, wherein when the first contact pattern of the operator is detected with respect to the reference portion, the plurality of operation targets are changed to an output form based on the first contact pattern. The operating device according to claim 1.   A recognition unit that recognizes that an operation target corresponding to the reference portion is selected by detecting the second contact pattern of the operator with respect to the reference portion corresponding to each of the plurality of operation targets. The operating device according to claim 1, further comprising: Steering body portion provided with an operation means having an operation area having a portion corresponding to each of a plurality of operation objects;
A steering wheel portion having positioning means for positioning a finger of an operator of the moving body to a reference portion of the operation area;
A steering wheel characterized by comprising: In the setting method of the operation device for the operator to operate the operation target,
An operator information acquisition step of acquiring operator information of the operator who steers the moving body;
A reference portion setting step for setting a reference portion of the operation region in an operation region having a portion corresponding to each of the plurality of operation targets, and within a movable range where the operator's finger holding the steering of the moving body reaches When,
An operation object determining step for determining the operation object for the reference portion based on the operator information;
A method for setting an operating device.   An operating device program for causing a computer to execute the operating device setting method according to claim 11.   13. A recording medium on which the operating device program according to claim 12 is recorded so as to be readable by the computer.