An input device includes: a contact detector configured to detect at least a size of contact area by detecting a physical contact with a control input section; a pressure detector configured to detect a pressure applied by the physical contact; and a controller configured to output signals in response to detection outputs from the contact detector and the pressure detector. The controller outputs a first signal carrying a value which varies in response to the pressure detected under a state of contact in which a contact detection result indicates that the detected contact area is equal to or smaller than a predetermined contact area, and outputs a second signal carrying a value which varies in response to the pressure detected under a state of contact in which the contact detection result indicates that the detected contact area is greater than the predetermined contact area.
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0. 23. An information processing method comprising:
detecting a size of a contact area of an operation body on a touch sensitive surface;
comparing the size of the contact area with a size of a predetermined contact area threshold;
controlling display of a display content displayed on a display screen, in response to an operation of the operation body input through the touch sensitive surface; and
controlling zooming display of the display content based on the result of the comparison of the size of the contact area and a pressing force of the operation on the touch sensitive surface,
wherein the controlling zooming display comprises a selective controlling between executing opposite functions in response to the same pressing force of the operation being input by the same operation body at a same contact position, wherein a selected one of either a function of zoom in on the display content by a zoom amount correlated with a magnitude of the pressing force or a function of zoom out on the display content by a zoom amount correlated with the magnitude of the pressing force is executed based on whether the size of the contact area of the operation body exceeds the size of the predetermined contact area threshold.
0. 7. An information processing apparatus comprising:
a circuitry configured to
detect a size of a contact area of an operation body on a touch sensitive surface,
compare the size of the contact area with a size of a predetermined contact area threshold, and
control display of a display content displayed on a display screen, in response to an operation of the operation body input through the touch sensitive surface,
wherein the circuitry is configured to control zooming display of the display content based on the result of the comparison of the size of the contact area and a pressing force of the operation on the touch sensitive surface, and
wherein the circuitry is further configured to selectively control between executing opposite functions in response to the same pressing force of the operation being input by the same operation body at a same contact position, wherein a selected one of either a function of zoom in on the display content by a zoom amount correlated with a magnitude of the pressing force or a function of zoom out on the display content by a zoom amount correlated with the magnitude of the pressing force is executed based on whether the size of the contact area of the operation body exceeds the size of the predetermined contact area threshold.
0. 24. A non-transitory computer-readable medium having embodied thereon a program, which when executed by a processor causes the processor to execute a method, the method comprising:
detecting a size of a contact area of an operation body on a touch sensitive surface;
comparing the size of the contact area with a size of a predetermined contact area threshold;
controlling display of a display content displayed on a display screen, in response to an operation of the operation body input through the touch sensitive surface; and
controlling zooming display of the display content based on the result of the comparison of the size of the contact area and a pressing force of the operation on the touch sensitive surface,
wherein the controlling zooming display comprises a selective controlling between executing opposite functions in response to the same pressing force of the operation being input by the same operation body at a same contact position, wherein a selected one of either a function of zoom in on the display content by a zoom amount correlated with a magnitude of the pressing force or a function of zoom out on the display content by a zoom amount correlated with the magnitude of the pressing force is executed based on whether the size of the contact area of the operation body exceeds the size of the predetermined contact area threshold.
0. 30. An input device comprising:
a contact detector configured to detect a size of a contact area by detecting a physical contact, made by an operation body, with a control input section;
a pressure detector configured to detect a pressure applied by the physical contact made by the operation body;
an area determinator configured to compare the size of the contact area with a size of a predetermined contact area threshold; and
a controller configured to output signals in response to detection of outputs from the area determinator and the pressure detector,
wherein the controller is configured to output:
a first signal carrying a value which varies in response to the pressure detected by the pressure detector when the result of the comparison indicates that the size of the contact area is equal to or smaller than the size of the predetermined contact area threshold; and
a second signal carrying a value which varies in response to the pressure detected by the pressure detector when the result of the comparison indicates that the size of the contact area is greater than the size of the predetermined contact area threshold, and
wherein the controller is further configured to selectively control between executing opposite functions in response to the same pressure applied by the same operation body at a same contact position, wherein a selected one of either a function of zoom in on a display content by a zoom amount correlated with a magnitude of the pressure or a function of zoom out on the display content by a zoom amount correlated with the magnitude of the pressure is executed based on whether the size of the contact area exceeds the size of the predetermined contact area threshold.
0. 25. An information processing method comprising:
an input step; and
a processing step including performing processing in response to a signal obtained by the input step,
wherein the input step includes:
a contact detection step including detecting a size of a contact area by detecting a physical contact, made by an operation body, with a control input section;
a pressure detection step including detecting a pressure applied by the physical contact made by the operation body;
an area determination step including comparing the size of the contact area with a size of a predetermined contact area threshold; and
a control step including outputting signals in response to detection of outputs produced by the area determination step and the pressure detection step,
wherein the control step is configured to selectively control between executing opposite functions in response to a same pressing force of the detected pressure being detected at a same contact position of the physical contact made by the same operation body, and executes:
a first processing by a first signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is equal to or smaller than the size of the predetermined contact area threshold; and
a second processing by a second signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is greater than the size of the predetermined contact area threshold,
wherein the first processing and the second processing are opposite functions and correspond to respective ones of a function of zoom in on a display content by a zoom amount correlated with a magnitude of the pressing force and a function of zoom out on the display content by a zoom amount correlated with the magnitude of the pressing force, and a selected one of either the first processing or the second processing is selected to be executed based on whether the size of the contact area of the operation body exceeds the size of the predetermined contact area threshold.
0. 29. A storage medium that stores a program for causing a computer to execute an information processing method, the information processing method comprising:
an input step; and
a processing step including performing processing in response to a signal obtained by the input step,
wherein the input step includes:
a contact detection step including detecting a size of a contact area by detecting a physical contact, made by an operation body, with a control input section;
a pressure detection step including detecting a pressure applied by the physical contact made by the operation body;
an area determination step including comparing the size of the contact area with a size of a predetermined contact area threshold; and
a control step including outputting signals in response to detection of outputs produced by the area determination step and the pressure detection step,
wherein the control step is configured to selectively control between executing opposite functions in response to a same pressing force of the detected pressure being detected at a same contact position of the physical contact made by the same operation body, and executes:
a first processing by a first signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is equal to or smaller than the size of the predetermined contact area threshold; and
a second processing by a second signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is greater than the size of the predetermined contact area threshold,
wherein the first processing and the second processing are opposite functions and correspond to respective ones of a function of zoom in on a display content by a zoom amount correlated with a magnitude of the pressing force and a function of zoom out on the display content by a zoom amount correlated with the magnitude of the pressing force, and a selected one of either the first processing or the second processing is selected to be executed based on whether the size of the contact area of the operation body exceeds the size of the predetermined contact area threshold.
0. 1. An information processing method comprising:
an input step; and
a processing step including performing processing in response to a signal obtained by the input step;
wherein the input step includes:
a contact detection step including detecting a size of a contact area by detecting a physical contact with a control input section;
a pressure detection step including detecting a pressure applied by the physical contact;
an area determination step including comparing the size of the contact area with a size of a predetermined contact area threshold; and
a control step including outputting signals in response to detection of outputs produced by the area determination step and the pressure detection step;
wherein the control step executes:
a first processing by a first signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is equal to or smaller than the size of the predetermined contact area threshold, and
a second processing by a second signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is greater than the size of the predetermined contact area threshold.
0. 2. The information processing method according to
detecting a physical contact with the control input section further comprises detecting a position of a physical contact with the control input section.
0. 3. The information processing method according to
0. 4. The information processing method according to
displaying function information about one or more functions assigned to the control input section; and
reflecting the contact detection result from the contact detection step in the function information displayed;
wherein the control input section outputs the first or second signal if the control input section is pressed while the contact detection result is being reflected in the function information displayed.
0. 5. A storage medium that stores a program for causing a computer to execute an information processing method, the information processing method comprises an input step; and
a processing step including performing processing in response to a signal obtained by the input step;
wherein the input step includes:
a contact detection step including detecting a size of a contact area by detecting a physical contact with a control input section;
a pressure detection step including detecting a pressure applied by the physical contact;
an area determination step including comparing the size of the contact area with a size of a predetermined contact area threshold; and
a control step including outputting signals in response to detection of outputs produced by the area determination step and the pressure detection step;
wherein the control step executes:
a first processing by a first signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is equal to or smaller than the size of the predetermined contact area threshold, and
a second processing by a second signal carrying a value which varies in response to the pressure detected by the pressure detection step when the result of the comparison indicates the size of the contact area is greater than the size of the predetermined contact area threshold.
0. 6. An input device comprising:
a contact detector configured to detect a size of a contact area by detecting a physical contact with a control input section;
a pressure detector configured to detect a pressure applied by the physical contact;
an area determinator configured to compare the size of the contact area with a size of a predetermined contact area threshold; and
a controller configured to output signals in response to detection of outputs from the area determinator and the pressure detector;
wherein the controller is configured to output:
a first signal carrying a value which varies in response to the pressure detected by the pressure detector when the result of the comparison indicates that the size of the contact area is equal to or smaller than the size of the predetermined contact area threshold,
a second signal carrying a value which varies in response to the pressure detected by the pressure detector when the result of the comparison indicates that the size of the contact area is greater than the size of the predetermined contact area threshold.
0. 8. The information processing apparatus according to claim 7, wherein the circuitry is further configured to set a value associated with the zooming display according to an intensity of the pressing force.
0. 9. The information processing apparatus according to claim 8, wherein the display of the display content is zoomed out in correlation with an increase of the pressing force.
0. 10. The information processing apparatus according to claim 7, wherein the circuitry executes a process for the zooming display based on the pressing force being determined to be higher than a predetermined threshold.
0. 11. The information processing apparatus according to claim 7, wherein the circuitry executes a process for the zooming display based on an information regarding a contact condition of the operation body in relation to the touch sensitive surface, which is determined based on output of a touch sensor provided in relation to the touch sensitive surface, and information regarding the pressing force.
0. 12. The information processing apparatus according to claim 11, further comprising:
a touch sensor; and
a pressing force sensor configured to sense the pressing force of the operation on the touch sensitive surface.
0. 13. The information processing apparatus according to claim 12, wherein the circuitry is further configured to initiate a scrolling of display of the display content based on output of the touch sensor.
0. 14. The information processing apparatus according to claim 12, wherein the touch sensor is provided separately from the pressing force sensor.
0. 15. The information processing apparatus according to claim 12, wherein the touch sensor comprises a capacitive sensor or a resistive sensor.
0. 16. The information processing apparatus according to claim 12, wherein the pressing force sensor comprises a piezoelectric element, a pressure-resistance transducer, or an electric-resistance transducer.
0. 17. The information processing apparatus according to claim 16, wherein the display content comprises an image of a map.
0. 18. The information processing apparatus according to claim 16, wherein the display content comprises a touch operable control button.
0. 19. The information processing apparatus according to claim 7, wherein the circuitry is further configured to initiate a scrolling of display of the display content, based on a movement of the operation body while the operation body is contacting the touch sensitive surface.
0. 20. The information processing apparatus according to claim 7, wherein the touch sensitive surface is provided on the display screen.
0. 21. The information processing apparatus according to claim 7, further comprising a communication circuitry.
0. 22. The information processing apparatus according to claim 7, further comprising a tuner circuitry.
0. 26. The information processing method according to claim 25, wherein detecting a physical contact with the control input section further comprises detecting a position of a physical contact with the control input section.
0. 27. The information processing method according to claim 25, wherein the control step further comprises outputting the first or second signal when the detected pressure is greater than a predetermined pressure threshold.
0. 28. The information processing method according to claim 25, further comprising:
displaying function information about one or more functions assigned to the control input section; and
reflecting the contact detection result from the contact detection step in the function information displayed,
wherein the control input section outputs the first or second signal if the control input section is pressed while the contact detection result is being reflected in the function information displayed.
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1. Field of the Invention
The present invention relates to an input device configured to output a signal carrying a value (or controlled variable) which varies in response to input operations performed by a finger or the like contacting and pressing a control panel. The present invention also relates to an information processing apparatus, an information processing method, and a storage medium that stores a program, which use this input device.
2. Description of Related Art
Various input devices are known, through which input operation is performed to an information processing apparatus such as a personal computer. They include a keyboard, a mouse, a touch pad, a drawing tablet, a touch panel, a joystick, a trackball, and so on, and many improvements have been made to reduce their size and enhance their easiness of operation.
For example, Japanese Patent Application Publication Number 2005-18669 discloses a touch panel of a capacitive coupling type, in which a change in capacity corresponding to an area touched is detected falsely as pressing.
Japanese Patent Application Publication Number 2005-38812 discloses a pressing-pressure sensor having a structure in which the number of input points can be varied with high accuracy in response to the magnitude of a pressing force applied.
Moreover, Japanese Patent Application Publication Number 2005-31918 discloses a touch panel display apparatus that allows a user to have a feeling of more realistic operation.
When an input device, which uses a pressure sensor to change a value (or controlled variable) in response to pressing force applied by a finger or the like, the pressure value sensed by the input device takes a positive value from 0. Accordingly, the input device is capable of handling values that change in one direction from a reference value (or controlled variable), but encounters difficulty handling values that change in the opposite direction from the reference value (or controlled variable). For example, to zoom in or out on an image of a map in a navigation system or the like, a user can increase or decrease his/her pressing force to increase the zoom percentage from 0 (no zoom in/zoom out), or to step back to 0 (no zoom in/zoom out), but cannot zoom out from 0 (no zoom in/zoom out).
It is possible that, in addition to the pressure sensor, a switch is provided, whereby when the switch is turned off, the zoom-in level can be changed in response to pressing force from 0, whereas when the switch is turned on, the zoom-out level can similarly be changed in response to pressing force from O. However, this approach requires on/off switching operation. Such an operation is cumbersome, and may prevent a user from performing the continuous and smooth operation.
Alternatively, it is possible to switch the functions of zooming in and zooming out depending on, e.g., positions pressed. However, in this case also, the user needs to move the finger to different positions. Accordingly, such a construction may also prevent a user from performing the continuous and smooth operation.
It is desirable to provide an input device, an information processing apparatus, an information processing method, and/or a storage medium that stores a program, all enabling control an input in both positive and negative directions from zero without changing the position of a finger or the like. The present invention has been proposed in view of such circumstances of related art.
In the present invention, two kinds of values, namely a contact area and a pressing force by a finger or an input device that works similarly as the finger or the like, are utilized together using contact detection means and pressure detection means. Furthermore, the detected contact area is discriminated by a predetermined threshold whereby the detected pressure value can be interpreted in one of two directions, a positive or a negative direction from zero.
According to an embodiment of the present invention, there is provided an input device. The input device includes: contact detection means for detecting at least a size of a contact area by detecting a physical contact with a control input section; pressure detection means for detecting a pressure applied by the physical contact; and control means for outputting control signals in response to detection outputs from the contact detection means and the pressure detection means. The control means outputs a first control signal carrying a first value (or controlled variable) which varies in response to the pressure detected by the pressure detection means under a state of contact in which a contact detection result indicates that the contact area is equal to or smaller than a predetermined contact area, and outputs a second control signal carrying a second value (or controlled variable) which varies in response to the pressure detected by the pressure detection means under a state of contact in which the contact detection result indicates that a contact area is greater than the predetermined contact area.
Here, the contact detection means may be provided with a position detection function for detecting a position of the physical contact with the control input section.
According to another embodiment of the present invention, there is provided an information processing apparatus. The apparatus includes: an input device; and a plurality of function sections for performing processing in response to a signal obtained from the input device. The input device includes: contact detection means for detecting at least a size of a contact area by detecting a physical contact with a control input section; pressure detection means for detecting a pressure applied by the physical contact; and control means for outputting control signals in response to detection outputs from the contact detection means and the pressure detection means. The control means outputs a first control signal carrying a first value (or controlled variable) which varies in response to the pressure detected by the pressure detection means under a state of contact in which a contact detection result indicates that the contact area is equal to or smaller than a predetermined contact area, and outputs a second control signal carrying a second value (or controlled variable) which varies in response to the pressure detected by the pressure detection means under a state of contact in which the contact detection result indicates that a contact area is greater than the predetermined contact area.
An information processing method according to an embodiment of the present invention includes an input step, and a processing step of performing processing in response to a signal obtained by the input step. The input step includes a contact detection step of detecting at least a size of contact area by detecting a physical contact with a control input section, a pressure detection step of detecting a pressure applied by the physical contact, and a control step of outputting signals in response to detection outputs produced by the contact detection step and the pressure detection step. The control step executes first processing by a first signal carrying a value which varies in response to the pressure detected by the pressure detection step under a state of contact in which a contact detection result indicates a contact area equal to or smaller than a predetermined contact area, and executes second processing by a second signal carrying a value which varies in response to the pressure detected by the pressure detection step under a state of contact in which the contact detection result indicates a contact area greater than the predetermined contact area.
A program according to an embodiment of the present invention or a storage medium that stores such a program causes a computer to execute the above-mentioned information processing.
According to the present invention, a contact area touched by a finger or the like during input operation is combined with a pressure value. The contact area is discriminated using a predetermined threshold. A first signal carrying a first value (or controlled variable) which varies with pressure and a second signal carrying a second value (or controlled variable) which varies with pressure are switched for output. As a result, first processing and second processing may be selectively performed without causing a user to change the position of his/her finger on the control input section.
Embodiments to which the present invention is applied will be described below with reference to the drawings.
In the example of
The control section 4 includes a contact detection processing circuit 42 connected to the contact sensor section 2, and a pressure detection circuit 43 connected to the pressure sensor sections 3. The contact detection processing circuit 42 detects a contact position and a contact area touched by a finger or the like, to output a contact position information signal and a contact area information signal, which are electrical signals, respectively. The pressure detection circuit 43 detects a pressure (pressing force) applied by the finger or the like, to output an electric pressure detection signal. The contact area information signal from the contact detection processing circuit 42 is supplied to an area determination circuit 44 for comparison with a specified area threshold St, and the area determination circuit 44 then supplies a switching signal in response to the comparison result, to a switching selection circuit 45. The switching selection circuit 45 switches between terminals a, b in response to comparison results, to output the pressure detection signal from the pressure detection circuit 43. A first signal from the terminal a of the switching selection circuit 45 is supplied to a first processing function section 51 via an output terminal 46 of the control section 4, and a second signal from the terminal b of the switching selection circuit 45 is supplied to a second processing function section 52 via an output terminal 47 of the control section 4. Furthermore, the contact position information signal from the contact detection processing circuit 42 is supplied to a third processing function section 53 via an output terminal 48 of the control section 4, as necessary.
It should be noted that the first and second processing function sections 51, 52 include those performing zoom-in processing and zoom-out processing for displaying an image, and that the third processing function section 53 includes display position moving processing such as so-called scrolling or panning for moving a display area when a part of a large image area, such as a map, is displayed.
In
When it is determined to be YES (the detected pressure is greater than the specified threshold Pt) in step S11, the processing proceeds to step S12, to determine whether or not a contact area detected by the contact detection processing circuit 42 connected to the contact sensor section 2 of
When it is determined to be NO (the pressure detected is equal to or smaller than the threshold Pt) in step S11, the processing proceeds to step S15, to determine whether or not the contact position of the finger in the contact sensor section 2 has moved (whether or not a finger movement has been detected). If NO (no finger movement), the processing returns to step S11, whereas if YES (a finger movement has been detected), the processing proceeds to step S16. In step S16, the image moving (scroll) processing for moving the image in response to finger movements is performed. After completing step S16, the processing returns to step S11.
Here, step S12 of
Next,
The input device 1 has, as described with reference to
To the bus 110 of
In the above-described embodiment, the contact sensor section 2 has even the function of detecting a contact position of a finger or the like. However, any contact sensor section 2 may be acceptable as long as it can detect at least a contact area.
In
In a first step S21 of
Next,
In such a configuration, when a user touches, e.g., a button 71a of the buttons 71 in the input device 70 with his/her finger, a soft button 81a of the soft key pad 80 on the display screen corresponding to this button 71a is highlighted. In an example of
It should be noted that in the example of
In the embodiment of
As is apparent from the foregoing, the embodiment of the present invention uses a combination of a value about a contact area touched by a finger and a pressure value to identify a control mode. That is, the contact area S1 by the fingertip applying pressure is related to the contact area S2 by the finger pad (laying the finger down) applying pressure as S1<S2. These areas 51, S2 are distinguished by setting an appropriate threshold St, whereby under each distinguished state, a pressure value can be used in two directions, positive and negative, such as zooming in when pressure is applied by the fingertip (processing the pressure as a positive value) and zooming out when pressure is applied with the finger laid down (processing the pressure as a negative value). That is, two types of control modes, in each of which a value (or controlled variable) varies with pressure can be switched according to a contact area touched by the finger.
It should be noted that the present invention is not limited to the above-described embodiments, but may also be applied to an embodiment in which, e.g., the first and second processing includes, in addition to zooming in/zooming out, any two kinds of processing, in each of which a value or controlled variable varies with pressure, such as controlling brightness to levels brighter (positive) or darker (negative) than a reference level (0), switching pages or layers toward the positive side or the negative side from a reference page or layer in a plurality of pages or layers.
Furthermore, the above embodiment has been described in terms of a hardware configuration. However, the present invention is not limited to this configuration, but may be realized by causing the CPU to execute the processing by means of a computer program. In this case, the computer program may be provided by recording on a recording medium, or by transmission via the Internet or a like transmission medium.
The present invention contains subject matter related to Japanese Patent Application JP 2005-168699 filed in the Japanese Patent Office on Jun. 8, 2005, the entire contents of which being incorporated herein by reference.
It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and alterations may occur depending on design requirements and other factors insofar as they are within the scope of the appended claims or the equivalents thereof.
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