INPUT SYSTEM AND INPUT METHOD
An input system according to one aspect of the present disclosure comprises an electronic pen having a pen tip; and an electronic device configured to detect a pointed position of the electronic pen based on a detection signal received pursuant to an approach by the pen tip toward the electronic device. The electronic device includes: a planar sensor configured to acquire the detection signal; a flexible cover provided above the planar sensor and exposed to the outside; an actuator configured to displace the cover at each of multiple positions in an area defined by the planar sensor in at least a direction normal to the planar sensor; and a drive controller configured to perform drive control of the actuator so as to form local unevenness at a position of the cover corresponding to the pointed position of the electronic pen.
The present disclosure relates to an input system and an input method.
Description of the Related ArtAn input system is known, which includes an electronic pen, which may be a pen-type pointing device, and an electronic device including a touch sensor that detects a touch. A user can draw pictures and characters by holding the electronic pen with one hand and moving it (the electronic pen) while pressing its pen tip against the touch surface of the electronic device.
BRIEF SUMMARY Technical ProblemThe input system described above can be used, for example, in a situation where s designer wishes to verify or confirm a 3D design that he/she has created. However, displaying the original design or a changed design on a flat display surface may not be sufficient to allow the viewer to readily understand or imagine the three-dimensional shape of the design, which is displayed in two dimensions.
Solution to ProblemAn input system according to one aspect of the present disclosure comprises an electronic pen having a pen tip; and an electronic device configured to detect a pointed position of the electronic pen based on a detection signal received pursuant to an approach by the pen tip toward the electronic device. The electronic device includes: a planar sensor configured to acquire the detection signal; a flexible cover provided above the planar sensor and exposed to the outside; an actuator configured to displace the cover at each of multiple positions within an area formed by the planar sensor in at least a direction normal to the planar sensor; and a drive controller configured to perform drive control of the actuator so as to form local unevenness at a position of the cover corresponding to the pointed position of the electronic pen.
An input method according to another aspect of the present disclosure uses an input system, which comprises an electronic pen having a pen tip; and an electronic device configured to detect a pointed position of the electronic pen based on a detection signal received pursuant to an approach by the pen tip toward the electronic device. The electronic device includes: a planar sensor configured to acquire the detection signal; and a flexible cover provided above the planar sensor and exposed to the outside. The input method includes: detecting a pointed position of the electronic pen based on a detection signal received pursuant to an approach by the pen tip toward the planar sensor; and displacing the cover in at least a direction normal to the planar sensor to form local unevenness at a position of the cover corresponding to the pointed position of the electronic pen.
Advantageous EffectsAccording to the present disclosure, the cooperative operation of the electronic pen and the electronic device achieves three-dimensional representations of designs that are created in two dimensions.
The input system and the input method according to the present disclosure will be described with reference to the drawings. It should be noted that the present disclosure is not limited to the embodiments described below, and can be readily modified based on the present disclosure. Alternatively or additionally, the configurations and components of the embodiments may be readily combined based on the present disclosure.
Configuration of Input System 10
The electronic pen 12 is configured to be able to communicate with the electronic device 14 in one direction or two directions. The electronic pen 12 in the illustrated embodiment is an electromagnetic resonance/induction type (EMR) stylus, but may be an active electrostatic coupling type (AES) stylus, for example.
The electronic device 14 may be, for example, a tablet terminal, a smartphone, a personal computer, and so forth. The user U can draw pictures and characters, and can also perform three-dimensional engraving by holding the electronic pen 12 with one hand and moving the electronic pen 12 while pressing the pen tip 18 against the touch surface 16 of the electronic device 14.
The pen tip 18a has a shape resembling the tip of a brush pen. The pen tip 18b has a shape resembling the tip of a chisel having a relatively wide blade. The pen tip 18c has a shape resembling the tip of a chisel having a relatively narrow blade. The pen tips 18a, 18b, 18c are respectively provided detachably with respect to the pen body 20 of the electronic pen 12.
A microcontroller unit (hereinafter, MCU 28) that performs various controls related to the operation of the electronic pen 12 is mounted on the PCB 26. Also, two pairs of electric wire 30 are electrically connected to terminals (not shown) of the PCB 26. At the end of each pair of electric wire 30, a connector 32 is provided. Each of the connectors 32 is arranged so as to be exposed to the outside at the distal end surface of the housing 22.
The pen tip 18a includes a base portion 40, a tip portion 42 provided on the upper side of the base portion 40, and a joint portion 44 provided on the lower side of the base portion 40, as shown in
Two conductive members 46 are embedded in the lower surface of the base portion 40 and at positions radially outside the joint portion 44. Each conductive member 46 is arranged so as to be connectable to one of the two connectors 32 provided on the housing 22. With respect to the pair of electric wire 30 on the left in
While the structure of one type of the pen tip 18a has been described, other types of pen tips 18b and 18c may be understood to have similar configurations as the pen tip 18a. However, in various embodiments, different types of the pen tip 18 may have different arrangements of the conductive members 46, i.e., different connection patterns between the pen tip 18 and the pen body 20.
In type A, three conductive members 46 are provided except at the upper left position. In type B, three conductive members 46 are provided except at the upper right position. In type C, two lower conductive members 46 are provided. In type D, three conductive members 46 are provided except at the lower right position. A case where the pen tip 18 is not attached to the pen body 20 corresponds to the case where no conductive member 46 is provided.
Therefore, the MCU 28 of the pen body 20 may recognize the type of the pen tip 18 based on the electrical connection state with the pen tip 18. Specifically, when the maximum number of the conductive members 46 is four as illustrated, there are sixteen (16) possible combinations of the electrical connection states (connected or not connected) between the four conductive members 46 and the four pairs of electric wire 30. The MCU 28 may detect one of the sixteen possible combinations of the connection states as a 4-bit code value, to thereby recognize the type of the pen tip 18 associated with the 4-bit code value.
The back cover 50 and the front cover 60 are members that form a housing for the electronic components of the electronic device 14. The front cover 60 includes a covering surface (or a cover) 62 which covers the entire opening formed by a surrounding frame of the front cover 60. The cover 62 may be made of, for example, a highly flexible and light-transmitting material such as a resin material.
The pen sensor 52 is a flat sensor that acquires a detection signal related to the electronic pen 12 using electromagnetic induction, for example. When the electronic pen 12 is an AES stylus, the touch sensor 58 can perform the function of detecting the electronic pen 12 in addition to performing the function of detecting a finger touch and, thus, the pen sensor 52 can be omitted.
The display panel 54 may be formed of, for example, a liquid crystal panel, an organic EL (Electro Luminescence) panel, electronic paper, and the like. The display panel 54 displays an image or video in its display area by applying driving voltages to matrix signal lines arranged in a row direction and a column direction (not shown) to drive a plurality of pixels.
The actuator 56 is arranged over the display surface (XY plane) of the display panel 54, and is configured to be displaceable at least in the normal direction (Z direction) at multiple positions. For example, the actuator 56 may be a linear actuator array, in which linear actuators are two-dimensionally arranged (e.g., as a matrix). Alternatively, the actuator 56 may be an “origami” type actuator configured such that a plurality of polygon components are tightly arranged without gaps in-between and connected to form a sheet, wherein the connection portions between the polygon components may be driven to bend the sheet into a variety of shapes.
The touch sensor 58 may be an “external type” sensor that is attached to the display panel 54 from the outside, or may be an “internal type” that is integrally formed with the display panel 54 (e.g., an on-cell type sensor or an in-cell type sensor).
A control board 64 forming electric circuitry for operating the electronic device 14 is provided inside the electronic device 14. On the control board 64, a host processor, a memory, a wireless communication module, a power supply circuit, and various control ICs (Integrated Circuits) may be provided. The control IC in the illustrated example is an integrated circuit for the pen sensor 52, the display panel 54, the actuator 56, and the touch sensor 58. In the illustrated example, only a drive IC 66 (e.g., a drive controller) configured to controllably drive the actuator 56 is shown.
Operation of Input System 10
Next, the operation of the input system 10 will be described with reference to
When the brush pen type pen tip 18a is used, the electronic device 14 executes the brush pen mode to reproduce a stroke resembling an actual brush pen stroke. Specifically, the electronic device 14 generates digital ink (or ink data) having a line width that varies according to the pen pressure and/or the inclination angle of the electronic pen 12, and renders (displays) the digital ink on the display panel 54.
When the chisel type pen tip 18b or 18c is used, the electronic device 14 executes the chisel mode to reproduces a stroke resembling an actual carving made by a chisel. Specifically, the electronic device 14 may form local unevenness on the touch surface 16 by driving the actuator 56 according to the position indicated by the electronic pen 12.
The drive IC 66 may controllably drive the actuator 56 so that the amount of displacement is different depending on the type of the pen tip 18. In various embodiments, even if the stroke is the same, different types of the pen tip 18 may be used to create different types of the concave groove 70 in which at least one of the width, the depth, the shape, etc., of the concave groove is different. Thus, rich expression of three-dimensional sculpture becomes possible. The drive IC 66 may controllably drive the actuator 56 so as to deform the touch surface 16 not only into a concave shape but also into a convex shape.
As described above, the input system 10 may be formed of the electronic pen 12 having the pen tip 18, and the electronic device 14 configured to detect a pointed position of the electronic pen 12 based on a detection signal received pursuant to an approach by the pen tip 18 toward the planar pen sensor (e.g., the pen sensor 52, or the touch sensor 58 in case of an AES stylus). In various embodiments, the electronic device 14 includes the planar pen sensor 52 configured to acquire the detection signal, the flexible cover 62 provided above the planar pen sensor 52 and exposed to the outside, and the actuator 56 configured to displace the cover 62 at each of multiple positions in an area formed (defined) by the planar pen sensor 52 in at least a direction normal to the pen sensor 52. The electronic device 14 further includes the drive IC 66 configured to perform drive control of the actuator 56 so as to form local unevenness at positions of the cover 62 corresponding to the pointed positions of the electronic pen 12. Accordingly, the cooperative operation of the electronic pen 12 and the electronic device 14 achieve three-dimensional expressions or representations of designs that are created in two dimensions.
When the drive IC 66 detects a stroke operation to form a stroke based on movement of the electronic pen 12 with the pen tip 18 in contact with the cover 62, the drive IC 66 may create unevenness (for example, the concave groove 70 of
When the electronic pen 12 is configured so that the pen tip 18 and the pen body 20 can be electrically connected to each other when the pen tip 18 is mounted to the pen body 20, the MCU 28 of the pen body 20 may be able to recognize the type of the mounted pen tip 18 based on the electrical connection state between the pen body 20 and the pen tip 18. When the pen body 20 is configured to be electrically connectable to the pen tip 18 at a plurality of connection points C1 and C2 (see
Claims
1. An input system, comprising:
- an electronic pen having a pen tip; and
- an electronic device configured to detect a pointed position of the electronic pen based on a detection signal received pursuant to an approach by the pen tip toward the electronic device,
- wherein the electronic device includes: a planar sensor configured to acquire the detection signal; a flexible cover provided above the planar sensor and exposed to the outside; an actuator configured to displace the cover at each of multiple positions in an area defined by the planar sensor in at least a direction normal to the planar sensor; and a drive controller configured to perform drive control of the actuator so as to form local unevenness at a position of the cover corresponding to the pointed position of the electronic pen, wherein the drive controller performs drive control of the actuator in response to detecting a stroke operation which forms a stroke based on movement of the electronic pen in a state where the pen tip is in contact with the cover, so as to form local unevenness at positions along the stroke.
2. (canceled)
3. The input system according to claim 1, wherein the drive controller detects the stroke operation by detecting a pen-up operation following the stroke operation.
4. The input system according to claim 1, wherein the electronic pen is configured so that the pen tip is detachable from a pen body of the electronic pen, and the drive controller performs drive control of the actuator so that a characteristic of the displacement varies depending on a type of the pen tip.
5. The input system according to claim 4, wherein the electronic pen is configured such that the pen tip and the pen body are electrically connectable to each other when the pen tip is mounted to the pen body, and the pen body is configured to recognize the type of the pen tip based on an electrical connection state between the pen body and the pen tip.
6. The input system according to claim 5, wherein the pen body is configured to be electrically connectable to the pen tip at a plurality of connection points, and is configured to recognize the type of the pen tip based on a number or arrangement of the connection points.
7. An input method using an input system,
- wherein the input system includes: an electronic pen having a pen tip; and an electronic device configured to detect a pointed position of the electronic pen based on a detection signal;
- wherein the electronic device includes: a planar sensor configured to acquire the detection signal; and a flexible cover provided above the planar sensor and exposed to the outside; and
- wherein the input method comprises:
- detecting a pointed position of the electronic pen based on a detection signal received pursuant to an approach by the pen tip toward the planar sensor; and
- displacing the cover in at least a direction normal to the planar sensor to form local unevenness at a position of the cover corresponding to the pointed position of the electronic pen, including displacing the cover in response to detecting a stroke operation, which forms a stroke based on movement of the electronic pen in a state where the pen tip is in contact with the cover, so as to form local unevenness at positions along the stroke.
8. The input method according to claim 7, wherein the stoke operation is detected by detecting a pen-up operation following the stroke operation.
9. The input method according to claim 7, wherein the electronic pen is configured so that the pen tip is detachable from a pen body of the electronic pen, and the step of displacing the cover includes varying a characteristic of the displacement depending on a type of the pen tip.
10. The input method according to claim 9, wherein the electronic pen is configured such that the pen tip and the pen body are electrically connectable to each other when the pen tip is mounted to the pen body, and the pen body is configured to recognize the type of the pen tip based on an electrical connection state between the pen body and the pen tip.
11. The input method according to claim 10, wherein the pen body is configured to be electrically connectable to the pen tip at a plurality of connection points, and is configured to recognize the type of the pen tip based on a number or arrangement of the connection points.
Type: Application
Filed: Jun 8, 2020
Publication Date: Dec 9, 2021
Inventors: Henry WONG (Portland, OR), Oliver Martin MADLENER (Duesseldorf), Moritz ARNT (Duesseldorf)
Application Number: 16/895,675