DE102010028716A1 - Device and method for operating a device - Google Patents

Abstract

A device is proposed for generating input signals with an input component, the input component comprising a microphone, the microphone being configured to generate the input signals as a function of a friction movement and / or a tapping movement.

Description

State of the art

The invention relates to a device according to the preamble of claim 1.

Such devices are well known. For example, a computer mouse is known from the prior art, wherein the computer mouse for operating a personal computer is moved by an operator accordingly and wherein by means of a built-in computer mouse light emitting diode (LED) movement of the computer mouse is detected. A disadvantage of such a computer mouse is that on the one hand the motion detection on comparatively smooth and reflective surface does not work reliably and on the other hand, the LED leads to an increased energy demand. Especially with wireless computer mice the operating time is severely limited.

Disclosure of the invention

The device according to the invention and the method according to the invention for operating a device according to the independent claims have the advantage over the prior art that no LED is required for motion detection, but the motion detection is instead performed with at least one microphone which is much more energy efficient compared to an LED. The operating time for a wireless input component is thus increased. It is also advantageous that the device works reliably even on smooth or reflective surfaces.

The input signals are preferably provided for controlling an electronic component. The electronic component preferably comprises a computer, a mobile phone, a PDA (Personal Digital Assistant), an MP3 player, a television, an e-paper (electronic book) or the like.

The rubbing movement preferably comprises a relative movement between a surface and a computer mouse, or a stylus or a finger of a user.

The jogging movement preferably comprises the movement of a finger or a stylus on a surface.

Advantageous embodiments and modifications of the invention are the dependent claims, as well as the description with reference to the drawings.

According to a preferred embodiment, it is provided that the microphone is configured for the detection of sound waves transmitted essentially through the air and / or for the detection of substantially structure-borne noise. As a result, it is advantageously possible to dispense with the use of an LED and thus to increase the operating time of the wireless input component. It is preferably provided that the input component comprises an input means that can be moved by an operator, wherein the microphone is configured to detect a movement of the input means. Input means is for example a pen or a finger of a user. More preferably, it is provided that the microphone is configured to detect frictional noise caused by the movement of the input means. More preferably, it is provided that the input means comprises a button, wherein the microphone is configured to detect caused by the operator movements of the button.

According to another preferred embodiment, it is provided that the input component is integrated in the electronic component, in a housing of the electronic component and / or in the input means. By such an integration is advantageously a particularly simple and space-saving implementation of the input component possible.

According to another preferred embodiment, it is provided that the input component comprises at least microphones, which are preferably arranged at a distance from one another and which are provided for detecting a relative movement. By microphones, a particularly simple realization of the input component is advantageously possible, in particular a DF method with the microphones is possible. It is furthermore preferred that the at least one microphone comprises a micromechanical microphone. By using a micromechanical microphone, a comparatively space-saving realization of the input component is possible.

According to another preferred embodiment, it is provided that the input means is moved on a detection surface, wherein the detection surface preferably part of a housing of the electronic component and / or a support surface for the electronic component and / or a control surface of the electronic component and / or a touch-sensitive touch Pad includes. As a result, a particularly simple realization of the detection surface is advantageously possible.

According to another preferred embodiment it is provided that the input component and the input means are in a common Housing are integrated and / or formed separated from each other.

According to another preferred embodiment, it is provided that the input component comprises an acceleration sensor and in particular a micromechanical acceleration sensor.

According to another preferred embodiment, it is provided that the input means comprises a keyboard, a touch pad, a computer mouse, a joystick, a remote control, a mobile telephone, a PDA (Personal Digital Assistant) and / or the like.

Another object of the present invention is a method for operating a device for generating input signals with a microphone, wherein the microphone detects a frictional movement and / or a tilting movement.

It is preferably provided that the microphone detects a structure-borne sound wave and / or a sound wave transmitted through the air.

It is preferably provided that a movement of an input means and / or a hand movement of an operator via a detection surface is detected by means of the microphone, wherein the detection surface preferably part of a housing of the electronic component and / or a support surface for the electronic component and / or a control surface of the electronic component and / or a touch-sensitive touch pad. Further preferably, it is provided that a movement of a probe caused by the operator is detected by means of the microphone. Further preferably, it is provided that a body sound vibration of the housing and / or the support surface and / or the control surface is detected by means of the microphone.

According to another preferred embodiment, it is provided that a movement and / or a direction of movement of the input means relative to the detection surface are detected by means of at least two spaced-apart microphones.

According to another preferred embodiment, it is provided that the amplitude and / or frequency behavior of the noise caused by the movement is detected by means of the at least one microphone.

Embodiments of the present invention are illustrated in the drawings and explained in more detail in the following description.

Brief description of the drawings

It shows

1 a device according to the invention according to an exemplary embodiment.

Embodiment (s) of the invention

In the various figures, the same parts are always provided with the same reference numerals and are therefore usually named or mentioned only once in each case.

1 shows schematically the device according to the invention 1 according to an exemplary embodiment. The device 1 controls an electronic component 100 for example a laptop. The device 1 has an input component for controlling the laptop 101 which preferably has an input means 102 includes, which in this embodiment as a computer mouse 102 is trained. In the mouse 102 is at least a microphone 107 integrated, which prefers the noise caused by the movement (indicated by four arrows) and the mechanical friction of the mouse 102 on a surface 103 on a mousepad, for example 103 , arises, absorbs and evaluates in a suitable electronic circuit (evaluation circuit 108 ), which prefers the mouse 102 integrated, but which can also be integrated into the laptop. The back and forth movement of the mouse 102 as well as the speed can be from the sound that the mouse 102 generated when pushing, derive. The mouse housing may preferably serve as a resonance chamber for this purpose. The movement of a scroll wheel 106 the mouse 102 is detected via another (not shown here) microphone, and alternatively, a single microphone both the movement of the mouse 102 as well as the movement of the scroll wheel 106 can detect. Preferably, this is at least one microphone 107 can be combined with an acceleration sensor, wherein preferably the acceleration sensor detects only the direction of movement and ensures plausibility and the microphone 107 provides the fine resolution. A right and left mouse button 104 . 105 which can be carried out in conventional mice as a mechanical probe and advantageously saved, if preferred when pressing the left or right mouse button 104 . 105 in each case a characteristic "click" (characteristic frequency pattern) is created, that via the microphone 107 , which detects the direction of movement, recorded and in the evaluation circuit 108 is evaluated. In this described embodiment, the power consumption of the mouse 102 significantly reduced since the microphone 107 consumes little power and not as usual with optical methods, LED must be energized. These Embodiment is therefore particularly advantageous for a cordless mouse.

According to a further embodiment of the present invention, the input component, and in particular the microphone, is attached to or in the electronic component (eg laptop, organizer mobile phone, etc.) in such a way that an acoustic contact with the ground (eg tabletop), on which the electronic component stands, is given. The input means (eg mouse) is usually located on the same ground as the electronic component. The input means is constructed so as to make noise when moving. This noise may be the abrasive sound of a solid object pushed on the surface, or the sound may be acoustically enhanced by, for example, a flywheel. The noise is transmitted through the ground (eg) table top and received and evaluated by the microphone (s) in the electronic component. The evaluation of the mouse buttons preferably takes place acoustically. The mouse buttons, when pressed, generate a defined acoustic frequency pattern ("click") that is interpreted by the input component, and particularly the microphone, preferably located in the electronic component, as pressing the button, with the left and right mouse buttons preferably defining one have different tone. Preferably, not only when pressing the keys, the "click" sound, but also when you release the keys. Advantageously, thereby the input component, which is preferably arranged on or in the electronic component, recognize a depressed mouse button. In this preferred embodiment, no separate power supply for the input means is advantageously necessary, so that this embodiment is particularly well suited for portable devices such as laptops, organizers and mobile phones.

Preferably, the input means comprises a pen, which is moved back and forth on a table surface, wherein the motion is determined by the resulting noise in the input component by means of the microphone. As a result, no additional computer hardware such as a mouse is advantageous as input means necessary. Preferably, similar to actuated mouse buttons, the recognition of defined "knocking" of the pen on a pad.

The tapping of the electronic component or of the input component is preferably measured by the microphone on the basis of the generated structure-borne noise. Advantageously, this does not require an acceleration sensor for the simple (not direction-sensitive) antiperspirant.

Preferably, the input component comprises an acceleration sensor in addition to the microphone. The acceleration sensor detects the direction of the tap (from above, below and laterally left / right) and with the aid of the microphone can advantageously be made more robust detection by the acceleration sensor. This results in increased functionality at the same cost.

Preferably, the microphone or the input component is integrated in a trackpoint. A trackpoint is a mouse replacement for small notebooks or subnotebooks that have no mouse control. The control is done by stroking ("caressing") the track point (without moving it) with your finger in the desired direction of movement (eg sweeping forward / backward corresponds to scrolling up / down). A mouse click can preferably be canceled by defining the track point. As a result, an integration of the scroll function ("scroll wheel 106 ") In the trackpoint possible. With the scroll wheel, for example, documents are scrolled up and down. Preferably, the microphone is integrated with evaluation in the trackpoint, the microphone has an acoustic coupling to the trackpoint. This microphone is preferably realized in MEMS technology, whereby advantageously a particularly space-saving arrangement is possible.

The input component or the microphone is preferred. integrated into the housing surface of the electronic component. Preferably, the microphone has acoustic contact with the housing surface in front of the keyboard. The user may then request the cursor actuation z. B. put your thumb in front of the keyboard on the case and move it. The resulting sound is picked up by the microphone and calculated back to the movement by means of the evaluation circuit. As a result, a simple implementation of the input component is advantageously possible because additional hardware components such as touchpads are no longer needed. In a simple way, thumb or finger movements can advantageously be detected within an input area, which is then converted into a cursor movement in the electronic component. Further advantageously, the user with the finger rest is no longer limited to the narrowly defined area of the touch pad, but the user can use the entire housing surface of the laptop, which is arranged in front of the keyboard. As a result, the user-friendliness of the laptop is considerably increased and the production costs are considerably reduced by the fact that no more touchpads are necessary. In addition, the designer will be given new possibilities of housing design. Preferably, the mouse button function is implemented by defined "knocking" on the housing surface.

Preferably, the input component or the microphone is arranged such that it has both acoustic contact with the table top on which the electronic component is standing, and with the housing of the electronic component. This makes it advantageously possible to detect a movement of the input means on the table top as well as movements of thumb or fingers on the housing surface in front of the keyboard and assign these movements corresponding cursor movements.

Preferably, the input component comprises two microphones, which are preferably arranged at different locations in the housing of the electronic component. Through the use of two microphones can advantageously be both the direction detection front / back by the amplitude of the received signal between removing and oncoming sound as well as the right / left detection on the evaluation of the time offset of the acoustic signal.

The signals received by the microphone are preferably pre-amplified and then converted to digital data in an ADC (Analog to Digital Converter). The further processing of the digitized data can -. For determining the movement speed - z. Example via the calculation of an FFT (Fast Fourier Transformation). Furthermore preferred defined "frequency pattern" can be deposited, the z. B. arise when pressing a mouse button. Thus, the above-described function of the acoustic mouse button detection could be realized. Described digital signal processing can be carried out directly in an ASIC (application-specific circuit) attached to the acoustic sensor (microphone) or externally in a μC.

Claims (10)

Contraption ( 1 ) for generating input signals with an input component ( 101 ), characterized in that the input component ( 101 ) a microphone ( 107 ), wherein the microphone ( 107 ) is configured to generate the input signals in response to a friction movement and / or a jog movement. Contraption ( 1 ) according to claim 1, characterized in that the microphone ( 107 ) is configured to detect structure-borne noise and / or sound waves transmitted through the air. Contraption ( 1 ) according to one of the preceding claims, characterized in that the rubbing motion is a relative movement between a finger of a user and a surface of a housing of an electronic component ( 100 ). Contraption ( 1 ) according to one of the preceding claims, characterized in that the microphone ( 107 ) for detecting a frictional noise and / or a jogging sound of a button ( 104 . 105 ) is configured. Contraption ( 1 ) according to one of the preceding claims, characterized in that the microphone ( 107 ) is configured to detect a further friction noise of a punctiform position input device (trackpoint). Contraption ( 1 ) according to one of the preceding claims, characterized in that the input component ( 101 ) into the electronic component ( 100 ) or in the housing of the electronic component ( 100 ) is integrated. Contraption ( 1 ) according to one of the preceding claims, characterized in that the microphone ( 107 ) a micromechanical microphone ( 107 ). Contraption ( 1 ) according to one of the preceding claims, characterized in that the input component ( 101 ) an electronic evaluation circuit ( 108 ), wherein the electronic evaluation circuit ( 108 ) for the evaluation of the microphone ( 107 ) detected frictional noise and / or typing noise is configured. Method for operating a device ( 1 ) for generating input signals with a microphone ( 107 ), characterized in that the microphone detects a friction movement and / or a tilting movement. Method according to claim 9, characterized in that the microphone ( 107 ) detects a structure-borne sound wave and / or a sound wave transmitted through the air.

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