SE0950500A1 - Device for transmitting inputs to electronic device - Google Patents

Description

15 20 25 30 35 2 Various solutions have previously been proposed where the user can control a computer cursor through movements with the tongue and / or other parts of the oral cavity or face. Some prior art solutions for this include an actuator corresponding to the mouse which is placed inside the oral cavity, for example a ball or the like applied to a row of teeth or in the palate, see for example DE 195 12 595 A1. However, it can be perceived as troublesome for the user to have a foreign object in the environment inside the mouth, not least from a hygienic point of view. the oral cavity with e.g. Saliva's enzymes also cause sensitive electronic components in the equipment to break down fairly quickly. The actuator also needs to be applied correctly in the oral health and cleaned and maintained, which entails extra work.

WO 02/075515 describes a solution for controlling a cursor on a computer screen by recording ultrasound signals reflected against the user's tongue and / or oral cavity, which does not require any foreign object in the mouth. However, this solution requires fairly advanced equipment and programming to read and interpret movements in the oral cavity.

There are also solutions for disabled people based on the registration of eye movements. However, this technology is relatively expensive and difficult to implement with sufficient precision, and requires a lot of training from the user. In addition, the user can then not concentrate his gaze on anything else.

There is no known simple solution for quickly and accurately transferring inputs to computers, game consoles and other electronic devices for control such as a cursor, or functions on a monitor, mouse pointer, an object in a game, etc., without having to use your hands or foreign objects in the user's mouth.

Summary It is an object of the present invention to avoid or at least reduce the above-mentioned problems, and to obtain a relatively simple and robust solution which allows inputs to an electronic device for controlling functions on a monitor, without need to use your hands.

These objects and others can be achieved by a device for transmitting inputs from the user to an electronic device for controlling functions on a monitor, according to claim 1. The device comprises a framework intended to be held in a position substantially in front of the user's mouth, the framework forming a cavity open to the mouth that can be reached by the user's tongue. In the device, furthermore, a plurality of light sources are arranged on the inside of the framework and designed to emit light rays in the inward direction through the cavity of the framework, and a plurality of light sensors are arranged on the inside of the framework and designed to respond to light rays from opposing light sources by emitting corresponding electrical signals. The device also comprises a holder designed to be carried by the user and holding the framework in said position substantially in front of the user's mouth, and a signal unit designed to register and convert electrical signals emitted from the light sensors into corresponding inputs to the electronic device.

Various embodiments are possible within the scope of the invention. For example, the light sensors may be of the photocell type which emit a signal when the light beam from an opposing light source is refracted by the user's tongue, and the light sources may be designed to emit laser light to obtain increased precision. In addition, the framework can be designed as a basket or cage with ribs where the light sources and light sensors are distributed along the insides of the ribs facing the cavity so that each light sensor can be hit by the light from at least one opposite light source.

Further embodiments and advantages of the invention will become apparent from the following detailed description.

Brief Description of the Drawings The present invention is described in more detail below by means of various embodiments with reference to the accompanying drawings: Fig. 1 is a schematic perspective view of a device for transferring inputs from a user to an electronic device, according to a possible design.

Fig. 2 is a side view of the device of Fig. 1.

Fig. 3 is a side view showing how the device in Figs. 1 and 2 could be designed in more detail, according to an embodiment.

Fig. 4 shows a section A - A of Fig. 3 which shows how light sources and light sensors can be placed in the device, according to an exemplary embodiment.

Fig. 5 shows a slightly modified embodiment of how light sources and light sensors can be placed in the device, according to an alternative embodiment.

Fig. 6 is a block diagram showing how signals from light sensors are converted into inputs to an electronic device, according to another conceivable embodiment.

Detailed Description of Embodiments Fig. 1 shows an example of a device for transferring inputs, such as functions corresponding to mouse, joystick and keyboard, from a user 100 to an electronic device 110 provided with or connected to a monitor 110a.

The device is intended to be carried on the user's head and comprises a frame 104 which is held in a position in front of the user's mouth by a holder 102 and forms a cavity which can be reached by the user's tongue. Fig. 2 shows the device in Fig. 1 from the side.

The framework 104 comprises a plurality of light sources which send light rays through the cavity of the framework in the direction of opposite light sensors in the framework, which will be described in more detail below. When the user's tongue refracts from these light beams, the light sensors may send corresponding electrical signals to a signal unit 108 used to control the electronic device 110. Alternatively, the light sensors may send electrical signals to the signal unit continuously as long as they are struck by the light, for to then cease this when the tongue refracts the rays. In this description, the term "emitting electrical signals" shall be considered to cover both cases above, ie. that signals are generated or cease to be generated when the light beams are refracted, which is equivalent to the function of the invention in this context [OK?].

By placing such light sources and light sensors appropriately, the position and movements of the tongue can be recorded with high precision and translated into corresponding inputs to the electronic device 110. The device can thus be operated without the help of the hands and requires no foreign object in the mouth or contact with the tongue. the equipment.

The light sensors can be of the photocell type which emit a signal when the light beam from an opposing light source is refracted by the user's tongue. The light sources can also be designed to emit laser light, which allows a dense structure of a large number of light sources and sensors to achieve very high speed and precision when reading the position and movements of the tongue.

The signal unit 108 is designed to send inputs "IM" corresponding to the electrical signals from the light sensors to the apparatus 110, in this case a computer, so that refraction of different light beams gives rise to different inputs in the computer 110 for a marker, for example to control a mouse pointer. objects in a game, or other applications on the screen 110a.

In the example shown in Fig. 1, the signal unit 108 is placed in an upper position on a holder 102 which extends along the side of the user's head, but other locations and designs of holders are also possible within the scope of the invention.

For example, the signal unit 108 may be located further down on the holder 102 or on an additional branch connected to the holder. The holder 102 may in turn be formed as a band extending around the user's head, or as a rigid arm of the "headset" type extending along one side or two arms along either side of the user's mouth. The holder 102 can also be built into a helmet-like construction. for example

The framework 104 can also be designed in different ways, such as a bowl, bag, cage or basket. Preferably, the framework is designed with openings for ventilation so that condensation does not occur, 3 shows one which can otherwise disturb the light function. Fig. A possible embodiment of the framework 104 in more detail, where the framework 104 is built up with ribs 300 which form a basket-like structure with good ventilation. A plurality of light sources 302a and light sensors 302b are provided on the inside of the framework, and the figure shows only a few examples of how these can be placed. The invention is thus not limited to any particular design of frameworks or placement of light sources and light sensors. The light sources 302a are designed to send light beams through the cavity of the framework substantially in the direction of the light sensors 302b which in turn are designed to respond to light beams from opposing light sources by sending corresponding electrical signals to the signal unit 108.

Fig. 4 shows an example of how the light sources 302a and the light sensors 302b can be located in more detail, seen mainly in a section AA of Fig. 3. In this example, five light sources 302a-e and five corresponding light sensors 304a-e are evenly distributed along the inner periphery of the frame 104 in the section / plane shown, so that each light sensor 304 is hit by light rays from an opposing light source 302. Depending on whether such a light beam is refracted by the user's tongue, the corresponding light sensor 304 emits a signal S to the signal unit 108, not shown in Fig. 4.

The number and location of the light sources and the light sensors can be chosen freely depending on the desired function and they do not have to be located with all the light sources 302a-e on one side and all the light sensors 304a-e on the opposite side as in Fig. 4. In addition, they can be placed so that the light rays are sent in any direction through the three-dimensional downward, forward, backward, cavity of the frame against the light sensors, ie. upwards, etc. The light sensors can also be calibrated to react only after the tongue has refracted the corresponding light beam for a certain time, for example half a second.

The signal unit 108 is designed to convert signals from the light sensors to a corresponding command or the like which is then fed to the electronic apparatus 110 to control one or more functions on the display. A certain light sensor can, for example, correspond to a mouse movement on the screen in a certain direction, e.g. to the right, left, up and down.

The signal unit 108 can also be programmed to enable or disable functions at various combinations of signals from the light sensors. For example, the signal unit 108 may convert a combination of a signal from light sensor 304a immediately followed by a signal from light sensor 304b, to a keyboard press that activates a particular program or function in computer 110.

In addition, the signal unit 108 may be programmed to create different inputs depending on how long the tongue has been refracting one or more light beams. Different activation times for a certain light sensor can, for example, correspond to different movements, signs or functions, e.g. 1 second - activation of function A, 2 seconds - activation of function B, etc.

Inputs thus created can be transmitted from the signal unit 108 to the computer 110 via a cable (not shown) or wirelessly. Thus, a transmitter may be connected to the signal unit 108 and transmit the signals wirelessly to a receiver at the computer 110, e.g. via IR light or Bluetooth radio. The invention is thus generally not limited to any particular transmission technique for transmitting the signals between the signal unit and the electronic apparatus. Through the arrangement described above, the user can make various inputs to the electronic device by moving his tongue inside the cavity of the framework, the device acting as a control unit where the light sensors can read the position and movements of the tongue lightning fast and with very high precision, especially when many close placed light sources / light sensors are used and when laser light is used. It is also possible to design the device to create a variety of different inputs and functions by influencing different combinations of light sensors. This device can be realized with simple components and is relatively easy for the user to learn to operate.

The invented device is not limited to any particular area of use, and can be used to control any functions displayed on the screen of, for example, a computer, telephone, game console or television set.

Of course, various combinations of the embodiments described above are conceivable within the scope of the invention, which is not limited by the embodiments shown. The invention is defined by the following claims.

Claims (9)

10 15 20 25 30 PATENT REQUIREMENTS Device for transmitting inputs from a user (100) to an electronic device (110), which inputs control functions on a monitor (110a), the device comprising: - a framework (104) intended to be held in a position mainly in front of the user's mouth, the framework forming a mouth open cavity which can be reached by the user's tongue, - a plurality of light sources (302a-e) arranged on the inside of the framework and designed to emit light rays inwards through the framework cavity, - a plurality of light sensors ( 304a-e) arranged on the inside of the framework and designed to respond to light rays from opposing light sources by emitting corresponding electrical signals (S), a holder (102) designed to be carried by the user and holding the framework in said position substantially in front of the user's mouth, and - a signal unit (108) designed to register and convert electrical signals emitted from the light sensors into corresponding inputs to the electronic app araten. Device according to claim 1, wherein the light sensors are of the photocell type which emit a signal when the light beam from an opposing light source is refracted by the user's tongue. Device according to claim 1 or 2, wherein the light sources are designed to emit laser light. Device according to any one of claims 1-3, wherein the framework is designed as a basket or cage with ribs where the light sources and light sensors are distributed along the insides of the ribs facing the cavity so that each light sensor can be hit by the light from at least an opposing light source. Device according to any one of claims 1-4, wherein the signal unit is programmed to create different inputs from different combinations of signals from the light sensors. Device according to one of claims 1 to 5, wherein different activation times for a certain light sensor or combination of light sensors correspond to different inputs. Device according to any one of claims 1-6, wherein the light sensors are calibrated to react only after the tongue has refracted the light beam for a certain time. Device according to any one of claims 1-7, wherein the signal unit is programmed to create different inputs depending on how long the tongue has refracted one or more light rays. Device according to any one of claims 1-8, wherein the holder is designed as a strap or headset, or is part of a helmet-like construction. lO. Device according to one of Claims 1 to 9, designed to create inputs which constitute keyboard functions, mouse functions and / or joystick functions which control one of the following types of electronic devices: computer, telephone, game console and TV set.