WO2014121747A1

WO2014121747A1 - Motion-sensing wristwatch and application method therefor

Info

Publication number: WO2014121747A1
Application number: PCT/CN2014/071864
Authority: WO
Inventors: 方科峰
Original assignee: Fang Kefeng
Priority date: 2013-02-06
Filing date: 2014-02-05
Publication date: 2014-08-14
Also published as: CN103197529A

Abstract

The present invention relates to a motion-sensing wristwatch, characterized in that said wristwatch comprises a gesture recognition control touch-panel, and/or a push button or a virtual push button, characters or symbols, a corresponding gesture recognition control liquid crystal display, and/or a gravity-based sensor recognition wristwatch; a circuit; and a power source. The wristwatch circuit is provided with circuit chips having functions that provide the wristwatch with data processing recognition, a network connectivity, music and video, and telephony. The motion-sensing wristwatch utilizes wired or wireless means to connect to a keyboard system or a computer; and can control imaging or computing programs. Using an intermediate circuit, the touch panel senses the electromagnetism or voltage of a circuit assembly, thereby capturing the movement corresponding to a gesture and establishing a corresponding recognized instruction that is sent to the wristwatch and/or a computer for execution; and/or one side of the touch panel is provided with a micro-sized camera, said camera capturing the movement of the wrist or elbow, thereby establishing a corresponding recognized instruction that is sent to the wristwatch and/or a computer for execution.

Description

Somatosensory wrist watch and application method

Technical field

The present invention relates to a body-worn wristwatch, and in particular, such an action can be defined to effect control of an image or computer program.

Background technique

The first watch was made by Patek Philippe in 1868 for the purpose of timing/displaying time on the wrist. 1967 For the first time, the Swiss made the quartz clock into a quartz watch, and the watch was also manually followed by / The form of automatic winding is developed to display time with quartz, electronics, etc., and mixes other simple functions such as timing, moon phase, measuring pulse, etc. Modern watches add more complex functions, such as: electronics Hand account, MP3, mobile phones, etc. Some watches have also become a kind of jewelry at the same time. The focus is no longer on display time, but a new type of application tool.

The Applicant has noticed that the application of somatosensory technology can bring about an innovation in life and even in computers. Therefore, a somatosensory wristwatch is proposed. For the physical dynamics of people, in particular, this kind of action can be defined to achieve control of images or computer programs.

Summary of the invention

A body-worn wristwatch characterized by comprising a wristwatch surface: a touchpad for gesture recognition control; a circuit in the wristwatch; an embedded power supply for the wristwatch a strap attached to the surface of the watch ;

And / or the surface of the watch: buttons, or virtual buttons, text or symbols, corresponding to the LCD screen for gesture recognition control; there is a circuit inside the watch; The watch has an embedded power supply; a strap attached to the surface of the watch;

Or a wristwatch identified by a gravity sensor, with a circuit inside the watch and a circuit connected to the gravity sensor; the watch has an embedded power source;

The watch has a circuit and a circuit chip with corresponding functions to provide data processing identification, network connection, music video, and telephone application for the watch. ;

The somatosensory watch is wired and / or wireless, connected to the keyboard system or computer; can control the image or computer program;

The embedded power supply powers the circuitry on the surface of the watch and in the watch.

The touchpad of the somatosensory wristwatch senses the electromagnetic and voltage touch of the circuit component through the intermediate circuit, and captures the interval moving manner of the corresponding gesture action. Create instructions for corresponding recognition, feedback to the operation of the watch and / or computer; and / or a micro-aperture camera on the side of the touchpad, capture the movement of the corresponding wrist or elbow movement through the micro-aperture camera , establishing instructions for corresponding recognition, feedback to the operation of the watch and / or computer; and / or blocking or blocking the light transmission on the back of the liquid crystal panel of the finger touch area or the touch panel with the light source, Irregular changes in the light source or temperature of the thermistor components around the touch area of the finger, the auxiliary chain analysis by the similar resistance component as the signal source, and the interval movement mode of the corresponding gesture action , establish instructions for identifying, feedback to the operation of the watch and / or computer.

A somatosensory wristwatch with an RFID tag on the watch connected to the surface of the watch, ie RFID (Radio Frequency IDentification technology is combined with a camera with micro-aperture imaging technology. The camera of micro-aperture imaging captures the movement of the wrist or elbow movement. Establish instructions for identifying and feedback to the computer.

The body-worn watch can be used as an auxiliary tool for the remote control, including: a panel; a watch attached to the surface of the watch with a multi-axis gravity sensor, Or the circuit is integrated with a multi-axis gravity sensor; the top can capture the offset of the movement of the wrist or elbow from top to bottom and left and right from the surrounding light field sensor of the front beam, and establish an instruction corresponding to the recognition. Feedback to the operation of the watch system computer; or the front and back panels of the remote control have buttons, or virtual buttons, text or symbols 2 prompts.

There is a projector on the somatosensory watch; the projector provides the corresponding projection image for the network or storage medium video. The somatosensory watch can project a visualization of the projector or control of a computer program.

Somatosensory wristwatch with circuit in the watch: There is an external voice port or receiver, which can provide the corresponding data interface for the headset. Realize the communication of voice.

A body-worn watch with a watch attached to the surface of the watch: a body temperature sensor, a blood pressure pulse meter, and a heart rate sensor. In the exercise, the user's body has: data recording, fitness plan, physical status reminding a variety of application functions.

The body-worn watch circuit bus has a chip tapped, and one of the following solutions can be selected:

Or a microprocessor, a memory chip, a display chip, a sound effect chip;

Or communication RF chip, baseband chip, antenna, SIM card slot or integrated SIM card;

Or a microprocessor or a gravity sensor;

Or microprocessor, memory chip, display chip, sound audio chip, communication RF chip, baseband chip, antenna, SIM card slot or integration SIM card, gravity sensor.

A telemedicine application method for a body-worn watch, the steps are as follows:

S1. Establishing a physical vitality file for the user through data analysis of the user's daily body temperature, blood pressure, pulse, and heart rate data;

S2. Through the user's leisure and fitness program, improve dietary advice, work and rest, and evaluate the quality of life of users;

S3. According to the user input posture, family history, medication self-medication evaluation, and pharmacological counseling;

S4. For user discomfort, telemedicine voice video, when the medical practitioner consults the information of the above steps, gives pathological consultation, analyzes the state of the patient, and makes a partial or comprehensive examination for the time of further treatment, and continues the treatment;

S5. Kang Yu completed.

Applicants aim to provide a kind of help to users' behavior through somatosensory technology, combined with self-fitness programs. It may bring about the help of a remote disease rescue and physical self-monitoring. DRAWINGS

Figure 1 is a schematic view of the structure of the present invention,

Figure 2 is a schematic circuit diagram of the present invention,

Figure 3 is a schematic illustration of the process steps of the present invention.

detailed description

Referring to Figure 1, a body-worn wristwatch is characterized by including a wristwatch surface: a touchpad 1 for gesture recognition control; and a circuit in the wristwatch; The watch has an embedded power supply; a strap attached to the surface of the watch;

And / or the surface of the watch: buttons, or virtual buttons, text or symbols 2, corresponding to the LCD screen for gesture recognition control; The watch has an embedded power supply; a strap attached to the surface of the watch;

Or the wristwatch identified by the gravity sensor 3, the circuit has a circuit, the circuit is connected with the gravity sensor; the watch has an embedded power source;

The watch has a circuit 4, and the circuit has a corresponding function circuit chip, providing data processing identification, network connection, music video, and telephone application for the watch. ;

Touch panel of the somatosensory watch 1 Through the intermediate circuit 4, electromagnetic and voltage sensing of the circuit components are sensed, and the interval movement mode of the corresponding gesture action is captured. , establish corresponding instructions for recognition, feedback to the operation of the watch and / or computer;

And / or the micro-aperture camera 5 on the side of the touchpad 1 captures the movement of the corresponding wrist or elbow movement through the micro-aperture camera , establish corresponding instructions for recognition, feedback to the operation of the watch and / or computer;

And / or cover and block the light transmission through the finger to the touch panel LCD panel or the back of the touch panel with the light source. The induction of the light source or temperature of the thermistor 6 around the touch area of the finger is irregularly changed, and the auxiliary chain is recognized by the similar resistor as the signal source, and the interval of the corresponding gesture is moved. , establish instructions for identifying, feedback to the operation of the watch and / or computer.

The touchpad can be a capacitive or electromagnetic liquid crystal screen, and when in a normal state, can identify information such as weather time for the watch form.

Even the touchpad 1 can replace the process of gesture recognition with a button, or a virtual button, text or symbol 2, Achieve similar technical effects. Here, a creation scheme similar to such non-independence should not be considered as a deviation from the full coverage principle or the equivalent principle of the technology.

Somatosensory wristwatch, electronic tag 7 RFID (Radio Frequencv IDentification) The technology combined with the camera 5 of the micro-aperture imaging technology and the micro-aperture imaging technology captures the movement of the wrist or elbow movement, establishes the corresponding recognition command, and feeds back to the operation of the computer.

Somatosensory The watch can be used as an auxiliary tool for the remote control, including: front and back panels; multi-axis gravity sensing sensors in the middle, or sensors with multi-axis gravity sensing; the top can be captured from the surrounding light field sensor of the front beam The offset of the movement of the wrist or elbow moves up, down, left, and right, and establishes a corresponding recognition instruction, and feedback The operation of the watch and / or computer; or the front and back panels of the remote control have buttons, or virtual buttons, text or symbols 2 prompts.

Usually this hypothetical gesture requires a gradual habit process, and preferably has a certain universal recognition. The definition of the gesture is not described in detail here. However, the above-mentioned means of analyzing the behavior of use through physical means is feasible, and can make the watch become such a sense of behavior in controlling computers, or remote network services.

There is a projector 9 on the body watch; the projector provides corresponding projection image for network or storage media video, The somatosensory watch can project a visualization of the projector or control of a computer program.

The body-worn watch has a circuit in the watch: there is an external voice port or receiver 18, which can provide a corresponding data interface for the earphone. Realize the communication of voice.

A body-worn watch with a watch attached to the surface of the watch: a body temperature sensor 19, a blood pressure pulse meter 20, a heart rate sensor 21, In the exercise, the user's body has: data recording, fitness plan, physical status reminding a variety of application functions.

Referring to FIG. 2, the body watch circuit bus is tapped with a chip, and one of the following solutions can be selected:

Or a micro processor 10, a memory chip 11, a display chip 12, a sound effect chip 13;

Or communication RF chip 14, baseband chip 15, antenna 16, SIM card slot or integrated SIM card 17;

Or a microprocessor 10, a gravity sensor 3;

Or the microprocessor 10, the memory chip 11, the display chip 12, and the sound effect chip 13. Communication RF chip 14, baseband chip 15, antenna 16, SIM card slot or integrated SIM card 17, gravity sensor 3.

The communication RF chip 14 and the baseband chip 15 of the circuit select a chip suitable for the following communication standard: the communication described Standards are TD-SCDMA, TD-SCDMA to HSPA, TD MBMS to TDD LTE, WCDMA, HSDPA, CDMA20001×EV-DO, UMB, UWB, Mimax 802.16d\e\m, LTE\SAE, Wapi, compatible Wlan Wifi802.11b\g\n\aq, Mimo ofdm, IGRS technology, Bluetooth or McWiLL;

The circuit 4 is guided by the antenna 16 to operate in a wireless frequency band of 400 mhz, 450 to 470 mhz, and 698 mhz. 806mhz, 900mhz, 1110mhz, 1800mhz, 1900mhz, 2100mhz, 2300 to 2400mhz, 2,500 to 2,690mHz, 3300mhz, 3400 ~ 3600mhz, 3650-3700MHz frequency band for wireless network connection and communication phone functions.

Microprocessor 10 is suitable for the following DSP, CPU or GPU, RISC architecture of APU, MIPS architecture, ARM Or x86 architecture, quantum or photonic CPU technology options.

The body-worn watch has a dedicated interface and is not limited to one of the following interfaces: USB interface, IEEE1394 interface, parallel interface, PC Card slot interface, card reader interface, serial interface, Micro SATA interface, PCMCIA interface, PS/2 interface, TV-OUT interface, TV-Tuner interface, S-VIDEO Interface, MODEM interface, network card interface, Station interface, Kensington interface.

Referring to Figure 3, a telemedicine application method of a body-worn watch, the steps are as follows:

S5. Kang Yu completed.

Claims

A somatosensory watch, watch a surface comprising: a touch panel control gesture recognition; the watch circuit; watch fitted with a power supply; watch strap connected to the surface;

And / or the surface of the watch: buttons, or virtual buttons, text or symbols, corresponding to the LCD screen for gesture recognition control; there is a circuit in the watch; the watch has embedded power; a strap attached to the surface of the watch;

Or a wristwatch identified by a gravity sensor, with a circuit inside the watch and a circuit connected to the gravity sensor; the watch has an embedded power source;

The watch has a circuit and a circuit chip with corresponding functions to provide data processing identification, network connection, music video, and telephone application for the watch. ;

The somatosensory watch is wired and / or wireless, connected to the keyboard system or computer; can control the image or computer program;

The embedded power supply powers the circuitry on the surface of the watch and in the watch.

The somatosensory wrist watch according to claim 1, wherein the touch panel 1 senses electromagnetic and voltage touches of the circuit component through the intermediate circuit, captures an interval movement manner of the corresponding gesture action, and establishes an instruction corresponding to the recognition, and feeds back to the wrist. Table and / or computer operation; and / or touchpad (1) on one side of the micro-aperture camera (5), through the micro-aperture camera to capture the corresponding movement of the wrist or elbow movement, establish the corresponding recognition instructions, feedback To the operation of the watch and / or the computer; and / or to the finger touch area LCD panel, or the light source of the touchpad (1) the back of the light to cover, block, resulting in the finger touch area peripheral thermistor (6) Irregular changes in the induction of the light source or temperature, the auxiliary chain analysis by the similar resistance component as the signal source, the corresponding movement of the corresponding gesture action, the establishment of the corresponding recognition instruction, feedback to the watch system and / or computer Operation.

3. The body-worn wristwatch according to claim 1, wherein the watch attached to the surface of the wristwatch is provided with an electronic tag (7) radio frequency identification, ie, RFID Technology combined with micro-aperture imaging camera (5), micro-aperture imaging camera (5) captures the movement of the wrist or elbow movement, and establishes instructions for recognition. Feedback to the operation of the computer.

4. The body-worn wristwatch according to claim 1, wherein the wristwatch can be used as an auxiliary tool for the remote controller (8), comprising: a panel; The watch attached to the surface of the watch has a multi-axis gravity sensor (3), or the circuit (4) incorporates a multi-axis gravity sensor (3); The top can capture the offset of the movement of the wrist or elbow from the surrounding light field sensor from the surrounding light beam sensor, and establish the corresponding recognition command and feedback to the operation of the watch or computer; Or the front and back panels of the remote control have buttons, or virtual buttons, text or symbols (2) Tips.

5. The body-worn wristwatch according to claim 1, wherein the watch has a projector (9); The projector provides a corresponding projected image for network or storage media video, and the somatosensory watch can project a projected image to the projector or control the computer program.

6. The body-worn wristwatch according to claim 1, wherein the watch has an electric circuit: an external voice port or a receiver (18), The corresponding data interface can be provided for the earphone to realize voice communication.

7. The body-worn wristwatch according to claim 1, characterized in that the watch attached to the surface of the wristwatch is provided with: a body temperature sensor (19), a blood pressure pulse measuring instrument. (20), heart rate sensor (21), the user's body during exercise: data recording, fitness plan, physical status reminder of a variety of application functions.

8. The body-sensing wristwatch according to claim 1, wherein the body-worn watch circuit bus is tapped with a chip, and one of the following solutions can be selected. :

Or a microprocessor (10), a memory chip (11), a display chip (12), a sound effect chip (13);

Or communication RF chip (14), baseband chip (15), antenna (16), SIM card slot or integrated SIM card (17);

Or microprocessor (10), gravity sensor (3);

Or a microprocessor (10), a memory chip (11), a display chip (12), a sound effect chip (13), a communication RF chip (14) , baseband chip (15), antenna (16), SIM card slot or integrated SIM card (17), gravity sensor (3).

9. A telemedicine application method for a body-worn watch, the steps are as follows:

S1. Establishing a physical vitality file for the user through data analysis of the user's daily body temperature, blood pressure, pulse, and heart rate data;

S2. Through the user's leisure and fitness program, improve dietary advice, work and rest, and evaluate the quality of life of users;

S3. According to the user input posture, family history, medication self-medication evaluation, and pharmacological counseling;

S4. For user discomfort, telemedicine voice video, when the medical practitioner consults the information of the above steps, gives pathological consultation, analyzes the state of the patient, and makes a partial or comprehensive examination for the time of further treatment, and continues the treatment;

S5. Kang Yu completed.