RU2201618C2 - Method for entering information onto microterminal residing in users hand, in particular radiophone receiver, pager, organizer - Google Patents

Abstract

FIELD: information input means. SUBSTANCE: method involves input of information incorporating alphanumeric characters, texts, control instructions into electronic computers and microterminal, including input of information in mobile communication device and similar keyboard-less devices residing in user s hand. Method for information input to microterminal includes writing flourishes corresponding to entry, converting flourishes into electric signal, identifying characters entered, memorizing and/or displaying the entry, flourishes being put down in the air by means of microterminal positioned in users hand. Microterminal has displacement transducer that functions to convert its displacement path into electric signals with aid of mentioned displacement transducer. EFFECT: enhanced information input speed, facilitated use of microterminal by persons with weak vision. 17cl, 1 dwg

Description

 The invention relates to methods for entering information, including numbers, text, punctuation marks, control commands, in electronic computers (computers), in particular in a small-sized terminal, and can be used to enter information into mobile communication devices (radiotelephone handsets, pagers), organizers, remote controls and other similar devices located in the user's hand without a keyboard.

 The transition to new economic conditions, stimulating the development of business activity and entrepreneurship, significantly increased the demand for mobile (mobile) communication services, and also contributed to the need for introducing devices such as organizers (electronic notebooks) into the business life. Mobile radio communication devices include radio stations, pagers, cell and satellite phones. The most popular additional functions of the above mobile radio communication devices include data transmission, such as fax messages, e-mail, information from the Internet. (Andrianov V.I., Sokolov A.V. Means of mobile communication. BHV - St. Petersburg, 1998, p. 9, 59, 161-182). The input of digital, textual information and control commands (for example, scrolling, confirming, sorting, dialing, etc.) commands are carried out in a tool located in the user's hand (radiotelephone or similar device), which includes one or more microprocessors (microcontrollers). In addition to mobile communications and organizers, there are many devices located in the user's hand, which provide input of digital, textual information and control commands (for example, remote controls for a TV, VCR, audio equipment, car remote start engine, alarm, climate control and etc.). All of the above devices can be combined into a group of small-sized terminals located in the user's hand (see Andrianov V.I., Sokolov A.V. Mobile communications. BHV - St. Petersburg, 1998, p. 18).

 A known method of entering information into a small-sized terminal located in the user's hand, which is a radiotelephone handset (see ibid., P. 157, 161), according to which the input of digital, textual information and control commands is carried out by pressing the corresponding keys on the keyboard of the radiotelephone handset .

 The disadvantage of this method is the need to concentrate the user's visual attention on the keyboard and display of the handset in the process of entering information, which makes it difficult to use the handset while driving. In addition, the further miniaturization of the radiotelephone handset is difficult due to the need to place on it a keyboard with a large number of keys having significant dimensions (for ease of use) and containing a large number of movable leaking elements, which leads to low reliability of the used information input method in conditions of increased pollution the environment. The used method of entering letters, which involves repeatedly pressing the same key by the user (the result is controlled by the display), is inconvenient. In addition, it is difficult to use the radiotelephone with persons with disabilities (visually impaired, having physical disabilities).

 There is a method of entering information into a small-sized terminal located in the user's hand, which is a personal radio call device (pager) (Dyakonov V.P., Smerdov V.Yu. Household and office communications equipment. M: SOLON - R, 1999, p.212, 213, 230), which provides for viewing the information received by the pager by "scrolling" the received long message on a small display, selecting the transmitted message from the menu by pressing the buttons on the front panel of the pager by the user.

 The disadvantage of this method is the significantly limited set of input characters, which leads to the need for long “paging” messages or menu items by pressing the same buttons, slows down the hierarchical levels of the menu, in addition, it is almost impossible to generate an arbitrary text message to send or organize sorting of the received information according to an arbitrary (not predetermined) attribute.

 The closest to the proposed technical essence method for entering digital, textual information, punctuation marks and control commands into a small-sized terminal located in the user's hand, which is an organizer (electronic notebook) provides for entering information into the organizer by writing user-defined strokes corresponding to the characters entered, on the touch screen for data input and display, recognition of input characters, which are then used to control the work of the organizer or hurt in its internal memory. (The main guide to Palm organizers. - M.: McCenter, 1999).

 The disadvantage of this method is the need for a high concentration of visual attention of the user on the touch screen of entering and displaying organizer data during information input, which is unacceptable, for example, while driving a vehicle, the need to use both hands when entering information (in one is the organizer, and in the other writing instrument) or in the supporting surface on which the organizer can be placed in order to free the hand, small sizes of the stroke depicted by the user (limited not the size of the touch screen), and therefore, high demands on the accuracy of reproduction of the trajectory of movement of the writing instrument, the need to use a special “pen” that does not damage the touch screen.

 The problem of the invention is to simplify the procedure for entering information into a small-sized terminal located in the user's hand, including entering information with one hand, without the aid of vision (for example, to simplify the use of a small-sized terminal by people with low vision), increasing the reliability of entering information in conditions of high pollution level (or when using a small-sized terminal under water), ensuring the safe use of a small-sized terminal by drivers of transport dstv.

 The problem is solved in that in the method of entering information into a small-sized terminal located in the user's hand, in particular a radiotelephone, a pager, an organizer, which consists in writing strokes corresponding to the entered characters, including numbers, letters, punctuation marks and control commands, transforming strokes in electrical signals, recognition of input characters, storing and / or displaying them on the display of a small-sized terminal according to the invention, writing strokes corresponding to the input th symbols is performed in user space are in a small-sized terminal arm, the trajectory of movement which is converted into electrical signals by the displacement sensor, which is provided with a small-sized terminal.

The problem is also solved in the following special cases of the proposed device, in which the development and refinement of the signs of the proposed solution were found:
- to increase the reliability of the input information while writing in space by the user, a stroke corresponding to the input character is generated, a character input permission signal is generated and fed to the corresponding input of the character recognition means;
- a character input permission signal is generated using a button that the user holds pressed while drawing a stroke;
- the displacement sensor is made single-axis;
- the displacement sensor is made two-coordinate;
- the displacement sensor is made three-coordinate;
- an acceleration sensor containing an inertial mass (inertial body) is used as a displacement sensor;
- the acceleration sensor is made in the form of an inertial body of non-magnetic material placed in a closed volume filled with magnetic fluid, around which magnetic field sources are arranged in pairs along three mutually perpendicular axes;
- as a displacement sensor using a coordinate sensor;
- a magnetometric sensor is used as a coordinate sensor;
- an acoustic sensor is used as a coordinate sensor;
- an optical sensor is used as a coordinate sensor;
- a rotation sensor is used as a displacement sensor;
- the rotation sensor is made uniaxial;
- the rotation sensor is made biaxial;
- the rotation sensor is made triaxial;
- the displacement sensor is made in the form of an arbitrary combination of acceleration, coordinate and rotation sensors.

 Let us explain the essence of the proposed method for entering information into a small-sized terminal located in the user's hand. The displacement sensor, which is equipped with a small terminal, is oriented relative to the terminal case in such a way that the X axis of the displacement sensor is directed from left to right, the Y axis is from bottom to top in relation to the front panel of the small terminal, and the Z axis is from the back of the case to the front panel small-sized terminal on which the keyboard and display are located.

 While entering each character, the user holds down the key used to generate the character input enable signal and moves the small-sized terminal case along the path corresponding to the character being entered (digit, letter, punctuation mark, control command). The trajectory of movement of a small-sized terminal, hereinafter referred to as a stroke, is transformed with the help of a displacement sensor into electrical signals, the change in time which unambiguously describes the trajectory of movement of a small-sized terminal in space. The stroke information may include data on one (X), two (XY) or three (XYZ) linear coordinates and / or one, two or three angles of rotation of the small-sized terminal enclosure around the X, Y, Z axes. Each character is entered during input discretization and memorization of electrical signals describing a stroke, and at the end of character input, they are recognized. The standard set of characters used in the operation of the device (numbers, letters, punctuation marks and control commands) used when recognizing the image of the input character is determined in advance, in addition, the user can create his own library of characters used, for example, for quick access to the lower levels of hierarchical menu.

 To enter any character (numbers, letters, punctuation marks, control commands) used in the operation of a small-sized terminal, the user just needs to manipulate one button and move the case of the small-sized terminal. The described actions can be performed with one hand of the user, and the size of the stroke to be performed is limited only by the length of the user's hand (or the presence of free space), therefore, to enter characters you can use the stroke of the maximum available size, and with the increase in the size of the stroke the reliability of the input information increases (due to the relative reducing the deviation of the real trajectory from the given, arising due to shaking of the user's hand, vehicle vibration, etc.), reduce requirements for visual acuity of the user, in addition, if there is a skill, there is no need to concentrate the user's visual attention on the small-sized terminal body, thus it becomes possible to safely use the small-sized terminal while driving a vehicle, and to control machines (devices) that require continuous concentration of the operator’s visual attention . Since information is entered into a small-sized terminal using a displacement sensor, which usually has a sealed enclosure, and one button is enough to control a small-sized terminal (a buttonless version of the device with recognition of the end of character input by pauses between characters is possible), the problem of dustproofing of a small-sized terminal case is greatly simplified and, therefore, the reliability of the device increases sharply in conditions of high levels of pollution (dust). The buttonless version of the small-sized terminal can be used underwater (for example, as a pager for scuba divers).

 The invention is illustrated by the drawing, which shows a functional diagram of one of the possible embodiments of a small terminal that implements the proposed method of entering information into a small terminal located in the user's hand, which is a radiotelephone handset. The functional diagram of the radiotelephone handset is given by V. Dyakonov, V. Yu. Smerdov Household and office communications equipment. - M.: SOLON - R, 1999, p. 246-248.

 The radiotelephone handset contains an acoustic module 1, the output and input of which is connected respectively to the acoustic input and output of the low-frequency module 2, the signal output of which is connected by a bi-directional communication line with the signal output of the radio-frequency module 3, the high-frequency output of which is connected to the antenna 4, in addition, the radiotelephone handset a control module 5, including a displacement sensor 6, a keyboard 7, a display 8, a microcontroller 9 and a microprocessor module 10, the control outputs of which are outputs control modules 5 are connected by separate bi-directional communication lines to the control inputs of the low-frequency module 2 and the radio-frequency module 3, in addition, the microprocessor module 10 is connected by a bi-directional bus to the microcontroller 9, the signal inputs of which are connected to the outputs of the displacement sensor 6, the outputs of the keyboard 7 are connected to digital the inputs of the microcontroller 9, the indicator outputs of which are connected by a bi-directional communication line with the inputs of the display 8.

 Let the two-coordinate inertial displacement sensor described in the patent of the Russian Federation 2073907, class. G 06 K 11/16 "A pen for entering handwritten and graphic information in a computer."

 A radiotelephone handset, selected to illustrate one of the options for implementing the proposed method of entering information into a small-sized terminal located in the user's hand, works as follows. Let the radiotelephone handset be located in the user's hand so that the antenna 4 is directed upwards and the front panel, on which the keyboard 7 and display 8 are located, is turned towards the user. In this case, the displacement sensor 6, which is equipped with the radiotelephone handset, is oriented so that the X axis of the displacement sensor 6 is directed from left to right, and the Y axis is from bottom to top with respect to the front panel of the handset. To increase the accuracy of recognition of the input information, a special alphabet can be used, including simplified spellings of numbers, letters and punctuation marks. An example of such an alphabet is provided in the Palm Organizers Basic Guide. - M .: MakTsentr, 1999, p.24, 26-30. With the correct use of the adopted simplified alphabet, the probability of error-free recognition of input characters is very high and is more than 99% of the Basic Guide to Palm organizers. - M .: MakTsentr, 1999, p.21. Before starting to enter a stroke corresponding to the required number, letter or control command, the user presses one of the buttons located on the keyboard 7, which provides the formation of a signal for inputting character input. During the input of the character input permission signal, the microcontroller 9 records the discretized values of the output signals of the displacement sensor 6 either in its own random access memory (RAM) or in the RAM of the microprocessor module 10 (depending on the hardware composition of the used microcontroller). The user writes a stroke by moving the casing of the radiotelephone handset along the imaginary XY 'plane, if possible ensuring that the XY' plane coincides with the XY plane of the displacement sensor (moving the radiotelephone handset along a non-planar path or in a plane that does not coincide with the XY plane will cause the projection of the trajectory on the XY plane and therefore distortion of the shape of the symbol). While entering a character, the user holds the button for generating the input enable signal in the pressed state. At the end of the character input, the user releases the button that generates the input enable signal, so the software of the microcontroller 9 receives a signal about the end of the input of the current character. At the end of the character input, the character is recognized using the appropriate software of the microcontroller 9. For the displacement sensor 6 under consideration, the description of the trajectory of the radiotelephone handset (image of the input character) stored in RAM is reduced to the time dependence of the state of the contacts of the inertial sensor (for each pair of contacts in At each moment of time, two states are possible: closed or open), which is easily described in binary notation (e.g. Example, a closed state of contacts corresponds to a logical "1", and an open state corresponds to a logical "0"). The character recognition program performs a sequential comparison of the stroke pattern stored in RAM with each of the character images in the library that correspond to the numbers, letters (punctuation marks) used by the given radiotelephone handset, and control commands. According to the result of each comparison, the software of the microcontroller 9 determines the coincidence coefficient and decides to recognize the number, letter (punctuation mark) or control command for which the coincidence coefficient of the library and the considered patterns of strokes will be maximum (see RF patent 2073907, class G 06 K 11/16. A pen for entering handwritten and graphic information into a computer). After recognition, the entered information is used to control the operation of the handset just as if it came from a conventional keyboard. The entered digital and / or text information is duplicated on the display, which provides the possibility of operational control of the correct input (if necessary). To ensure the minimum need for concentration of the user's visual attention, the entered characters can be duplicated using a voice synthesizer with an appropriate library of sound images of numbers and letters (a voice synthesizer is used in many existing mobile phone models).

 Using the invention, it will be possible to enter information into a small-sized terminal located in the user's hand, and any type of handsets, pagers, remote controls, organizers, etc. can be used as a terminal. The present invention provides the ability to enter an arbitrary set of characters (letters, numbers, punctuation, control commands) using a one-button keyboard without selecting from the menu (that is, one character in one operation), which allows further miniaturization of devices implementing this method of input, provides high (and the same for any characters) information input speed. All operations for entering characters are carried out with one hand, almost without the help of the user's eyes, which will make it possible to fully use the device that implements this method while driving, process control, requiring a high concentration of visual attention of the operator. A single-key keyboard significantly increases the achievable degree of isolation of the device from the environment (it is possible to implement keyless character input with recognition of the moment the character is entered by a pause between characters), therefore, it opens up the possibility of creating highly reliable devices for "difficult" operating conditions. An extremely simple character entry procedure facilitates the use of devices implementing the proposed method by persons with disabilities (for example, visually impaired).

Claims (17)

 1. The method of entering information into a small-sized terminal located in the user's hand, in particular a radiotelephone, a pager, an organizer, which consists in writing strokes corresponding to input characters, including numbers, letters, punctuation marks and control commands, converting strokes into electrical signals, recognition input characters, storing and / or displaying them on the display of a small-sized terminal, characterized in that the writing of strokes corresponding to the input characters is carried out in space ve user terminal located in the small-sized hand movement trajectory of which is converted into electrical signals by the displacement sensor, which is provided with a small-sized terminal.  2. The method according to p. 1, characterized in that while writing in space the user draws a stroke corresponding to the input character, generate a character input permission signal and feed it to the corresponding input of the character recognition tool.  3. The method according to p. 2, characterized in that the character input permission signal is generated using a button that the user holds pressed while drawing a stroke.  4. The method according to p. 1, characterized in that the displacement sensor is made single-axis.  5. The method according to p. 1, characterized in that the displacement sensor is made two-coordinate.  6. The method according to p. 1, characterized in that the displacement sensor is made three-coordinate.  7. The method according to p. 1, characterized in that as the displacement sensor using an acceleration sensor containing an inertial body.  8. The method according to p. 7, characterized in that the acceleration sensor is made in the form of an inertial body of non-magnetic material placed in a closed volume filled with magnetic fluid, around which magnetic field sources are arranged in pairs along three mutually perpendicular axes.  9. The method according to p. 1, characterized in that the coordinate sensor is used as a displacement sensor.  10. The method according to p. 9, characterized in that as a coordinate sensor using a magnetometric sensor.  11. The method according to p. 9, characterized in that an acoustic sensor is used as a coordinate sensor.  12. The method according to p. 9, characterized in that the optical sensor is used as a coordinate sensor.  13. The method according to p. 1, characterized in that the rotation sensor is used as a displacement sensor.  14. The method according to p. 13, characterized in that the rotation sensor is made uniaxial.  15. The method according to p. 13, characterized in that the rotation sensor is made biaxial.  16. The method according to p. 13, characterized in that the rotation sensor is made triaxial.  17. The method according to any one of paragraphs. 1, 7, 9 and 13, characterized in that the displacement sensor is made in the form of an arbitrary combination of acceleration, coordinate and rotation sensors.