一种体感腕表及应用方法
Somatosensory wrist watch and application method
技术领域Technical field
本发明涉及一种体感腕表,特别是可以定义这种动作实现对影像或者电脑程序的 控制。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.
背景技术Background technique
第一只手表是于1868 年由百达翡丽制造 , 为戴在手腕上、用以计时 / 显示时间的仪器。1967
年瑞士人首度将石英钟做成石英表,手表之后也由手动 /
自动上发条的形式,发展到用石英、电子等动力显示时间,并混合了较为简单的其他功能,例如计时、月相、量度脉搏等;现代手表增加了更多复杂的功能,如:电子手帐、
MP3 、手机等形式。而部份手表亦同时变成了手饰的一种,重点已不在显示时间,而是一种新型的应用工具。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.
本申请人注意到体感技术的应用 , 可以给生活乃至电脑带来一种革新。因此 , 提出一种体感腕表 ,
对人的形体动态 , 特别是可以定义这种动作实现对影像或者电脑程序的控制。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.
发明内容Summary of the invention
一种体感腕表 , 其特征在于包括腕表表面 : 手势识别控制的触摸板 ; 腕表内有电路 ; 腕表有嵌入电源
; 与腕表表面相连的表带 ; 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 ;
和 / 或腕表表面 : 按键、或虚拟按键、文字或符号, 对应手势识别控制的液晶屏 ; 腕表内有电路 ;
腕表有嵌入电源 ; 与腕表表面相连的表带 ; 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;
或重力感应器识别的腕表 , 腕表内有电路 , 电路与重力感应器相连 ; 腕表有嵌入电源 ; 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;
腕表内有电路 , 电路有相应功能的电路芯片 , 为腕表提供数据处理识别、网络连接、音乐视频、电话应用
; 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.
;
体感腕表采取有线和 / 或无线的方式 , 连接键盘系统或电脑 ; 可对影像或者电脑程序的控制 ; The somatosensory watch is wired and / or wireless, connected to the keyboard system or computer; can control the image or computer program;
嵌入电源为腕表表面和腕表内有电路供电。 The embedded power supply powers the circuitry on the surface of the watch and in the watch.
体感腕表的触摸板通过中间电路对电路组件电磁、电压触感感应 , 捕捉到相应手势动作的区间移动方式 ,
建立对应识别的指令 , 反馈到腕表和 / 或电脑的操作 ; 和 / 或者触摸板一侧有微孔径摄像头 , 通过微孔径摄像头捕捉到相应手腕或肘部动作的区间移动方式
, 建立对应识别的指令 , 反馈到腕表和 / 或电脑的操作 ; 和 / 或对手指触摸区液晶面板、或有光源的触摸板背部透光的遮掩、阻挡 ,
导致手指触摸区周边热敏电阻件的光源或温度的感应出现不规律的变化 , 由相近的电阻件作为信号源识别的辅助链分析 , 对相应手势动作的区间移动方式
,建立对应识别的指令 , 反馈到腕表和 / 或电脑的操作。 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.
体感腕表 , 通过与腕表表面相连的表带有电子标签射频识别 , 即 RFID ( Radio
Frequency IDentification )技术与微孔径成像技术的摄像头结合 , 微孔径成像技术的摄像头 捕捉到手腕或肘部动作的区间移动方式 ,
建立对应识别的指令 , 反馈到电脑的操作。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.
体感腕表可以作为遥控器的辅助工具 , 包括 : 面板 ; 与腕表表面相连的表带有多轴重力感应器 ,
或电路整合有多轴重力感应器 ; 顶部可以自前方光线束的四周光场感应器捕捉到手腕或肘部动作上下左右移动的偏移 , 建立对应 识别的指令 ,
反馈到腕表系统电脑的操作 ; 或遥控器正反面面板有按键、或虚拟按键、文字或符号 2 提示 。 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.
体感腕表上有投射仪 ; 投射仪为网络或存储介质视频提供相应的投射显像 ,
体感腕表可对投射仪投射显像影像,或者电脑程序的控制。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.
体感腕表 , 腕表内有电路 : 有外接的语音端口或受话器 , 可以为耳机提供相应的数据接口 ,
实现语音的交流。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.
体感腕表 , 与腕表表面相连的表带有 : 体温感应器、血压脉搏测量仪、心率传感器 ,
在运动中对使用者身体有:数据记录、健身计划、身体状态提醒多种应用功能。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.
体感腕表电路总线分接有芯片,可选用下述方案之一:The body-worn watch circuit bus has a chip tapped, and one of the following solutions can be selected:
或微型处理器、存储芯片、显示芯片 、声音音效芯片;Or a microprocessor, a memory chip, a display chip, a sound effect chip;
或通讯射频芯片、基带芯片 、天线 、 SIM 卡槽或集成 SIM 卡;Or communication RF chip, baseband chip, antenna, SIM card slot or integrated SIM card;
或微型处理器、重力感应器;Or a microprocessor or a gravity sensor;
或者微型处理器、存储芯片、显示芯片 、声音音效芯片、通讯射频芯片、基带芯片、天线 、 SIM 卡槽或集成
SIM 卡、重力感应器。Or microprocessor, memory chip, display chip, sound audio chip, communication RF chip, baseband chip, antenna, SIM card slot or integration
SIM card, gravity sensor.
一种体感腕表的远程医疗应用方法,步骤如下:A telemedicine application method for a body-worn watch, the steps are as follows:
S1. 通过使用者的日常体温、血压、脉搏、心率数据的数据分析,对使用者建立体征档案;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. 通过使用者的休闲健身计划,完善饮食建议、劳逸状态、对使用者生活质量给予评议;S2. Through the user's leisure and fitness program, improve dietary advice, work and rest, and evaluate the quality of life of users;
S3. 根据使用者输入体态,家族病史,用药顾忌方面给予自我身体健康评价,以及药理心理咨询;S3. According to the user input posture, family history, medication self-medication evaluation, and pharmacological counseling;
S4.
对使用者不适,远程医疗语音视频,当医者查阅上述步骤的信息资料,给予病理咨询,对就诊者状态分析,约进一步就诊时间,进行局部或者全面检查,延续治疗;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. 康愈完成。S5. Kang Yu completed.
申请人旨在通过体感技术对使用者的行为提供一种帮助 , 与自我健身计划的结合 ,
有可能带来一种远程疾病救助、身体自我监测的帮助。 附图说明 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
图1 是本发明的结构示意图,Figure 1 is a schematic view of the structure of the present invention,
图2 是本发明的电路示意图,Figure 2 is a schematic circuit diagram of the present invention,
图3 是本发明的方法步骤示意图。Figure 3 is a schematic illustration of the process steps of the present invention.
具体实施方式detailed description
参照图 1, 一种体感腕表 , 其特征在于包括腕表表面 : 手势识别控制的触摸板 1; 腕表内有电路 ;
腕表有嵌入电源 ; 与腕表表面相连的表带 ; 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;
和 / 或腕表表面 : 按键、或虚拟按键、文字或符号2 , 对应手势识别控制的液晶屏 ; 腕表内有电路
; 腕表有嵌入电源 ; 与腕表表面相连的表带 ; 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;
或重力感应器 3 识别的腕表 , 腕表内有电路 , 电路与重力感应器相连 ; 腕表有嵌入电源 ; 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;
腕表内有电路 4, 电路有相应功能的电路芯片 , 为腕表提供数据处理识别、网络连接、音乐视频、电话应用
; 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.
;
体感腕表采取有线和 / 或无线的方式 , 连接键盘系统或电脑 ; 可对影像或者电脑程序的控制 ; The somatosensory watch is wired and / or wireless, connected to the keyboard system or computer; can control the image or computer program;
嵌入电源为腕表表面和腕表内有电路供电。 The embedded power supply powers the circuitry on the surface of the watch and in the watch.
体感腕表的触摸板 1 通过中间电路 4 对电路组件电磁、电压触感感应 , 捕捉到相应手势动作的区间移动方式
, 建立对应识别的指令 , 反馈到腕表和 / 或电脑的操作 ; 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;
和 / 或者触摸板 1 一侧有微孔径摄像头 5, 通过微孔径摄像头捕捉到相应手腕或肘部动作的区间移动方式
, 建立对应识别的指令 , 反馈到腕表和 / 或电脑的操作 ; 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;
和 / 或对通过手指 对手指触摸区液晶面板、或有光源的触摸板背部透光的遮掩、阻挡 ,
导致手指触摸区周边热敏电阻件 6 的光源或温度的感应出现不规律的变化 , 由相近的电阻件作为信号源识别的辅助链分析 , 对相应手势动作的区间移动方式
,建立对应识别的指令 , 反馈到腕表和 / 或电脑的操作。 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.
这种触摸板可以是电容或电磁液晶屏,当处于常态时,可以为腕表形态标识天气时间等信息。 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.
甚至触摸板 1 可还用按键、或虚拟按键、文字或符号2, 替换手势识别动作的过程 ,
达到类似的技术效果。在此 , 类似这种非独立性的创造方案 , 不应视为对本技术的全面覆盖原则或等同原则的偏移。 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.
体感腕表,电子标签7 射频识别即RFID(Radio Frequencv IDentification)
技术与微孔径成像技术的摄像头5 结合、微孔径成像 技术的摄像头 捕捉到手腕或肘部动作的区间移动方 式,建立对应识别的指令,反馈到电脑的操作。 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.
体感
腕表可以作为遥控器的辅助工具,包括:正反面面板;中间有多轴重力感应的传感器,或电路整合有多轴重力感应的传感器;顶部可以自前方光线束的四周光场感应器捕捉到手腕或肘部动作上下左右移动的偏移,建立对应识别的指令,反馈到
腕表和 / 或电脑的操作 ;或遥控器正反面面板有按键、或虚拟按键、文字或符号 2提示 。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.
通常这种假定的手势动作需要一个渐进的习惯过程 , 并且最好是有一定的通用的识别 ,
定义手势在此不做详述。但上述通过物理的手段对使用行为分析的途径是可行的 , 且能够让腕表成为这种体感的行为中控制电脑 , 或者远程的网络服务。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.
体感腕表上有投射仪 9; 投射仪为网络或存储介质视频提供相应的投射显像 ,
体感腕表可对投射仪投射显像影像,或者电脑程序的控制。 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.
体感腕表 , 腕表内有电路 : 有外接的语音端口或受话器 18, 可以为耳机提供相应的数据接口 ,
实现语音的交流。 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.
体感腕表 , 与腕表表面相连的表带有 : 体温感应器 19 、血压脉搏测量仪 20 、心率传感器 21,
在运动中对使用者身体有:数据记录、健身计划、身体状态提醒多种应用功能。 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.
参照图2,体感腕表电路总线分接有芯片,可选用下述方案之一:Referring to FIG. 2, the body watch circuit bus is tapped with a chip, and one of the following solutions can be selected:
或微型处理器 10、存储芯片11、显示芯片 12 、声音音效芯片13;Or a micro processor 10, a memory chip 11, a display chip 12, a sound effect chip 13;
或通讯射频芯片 14 、基带芯片15 、天线16 、 SIM 卡槽或集成 SIM 卡17;Or communication RF chip 14, baseband chip 15, antenna 16, SIM card slot or integrated SIM card 17;
或微型处理器 10 、重力感应器3;Or a microprocessor 10, a gravity sensor 3;
或者微型处理器10 、存储芯片11、显示芯片 12 、声音音效芯片
13、通讯射频芯片14、基带芯片15、天线 16 、 SIM 卡槽或集成 SIM 卡17、重力感应器 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.
电路的通讯射频芯片14、基带芯片15 选择适用以下通讯标准的芯片:所述的通讯
标准为TD-SCDMA、TD-SCDMA 到HSPA、TD MBMS 到TDD
LTE、WCDMA、HSDPA、CDMA20001×EV-DO、UMB、UWB、Mimax 802.16d\e\m、LTE\SAE、Wapi、兼容Wlan
下的Wifi802.11b\g\n\aq、Mimo ofdm、闪联技术、蓝牙或McWiLL ;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;
电路4 通过天线16 引导工作无线频段为400mhz、450 ~ 470mhz、698mhz ~
806mhz、900mhz、1110mhz、1800mhz、1900mhz、2100mhz、2300 ~ 2400mhz、2,500 ~ 2,690mHz、
3300mhz、3400 ~ 3600mhz、3650-3700MHz 频段实理无线网络连接和通讯电话的功能。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.
微型处理器10 适用于以下DSP、CPU 或者GPU、APU 的RISC 架构、MIPS 架构、ARM
或x86 架构、量子或光子CPU 技术选择。 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.
体感腕表有专用接口,不限于以下接口之一:USB 接口、IEEE1394 接口、并行接口、 PC
卡插槽接口、读卡器接口、串行接口、Micro SATA 接口、PCMCIA 接口、PS/2 接口、TV-OUT 接口、TV-Tuner 接口、S-VIDEO
接口、MODEM 接口、网卡接口、Station 接口、Kensington 接口。 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.
参照图3,一种体感腕表的远程医疗应用方法,步骤如下:Referring to Figure 3, a telemedicine application method of a body-worn watch, the steps are as follows:
S1. 通过使用者的日常体温、血压、脉搏、心率数据的数据分析,对使用者建立体征档案;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. 通过使用者的休闲健身计划,完善饮食建议、劳逸状态、对使用者生活质量给予评议;S2. Through the user's leisure and fitness program, improve dietary advice, work and rest, and evaluate the quality of life of users;
S3. 根据使用者输入体态,家族病史,用药顾忌方面给予自我身体健康评价,以及药理心理咨询;S3. According to the user input posture, family history, medication self-medication evaluation, and pharmacological counseling;
S4.
对使用者不适,远程医疗语音视频,当医者查阅上述步骤的信息资料,给予病理咨询,对就诊者状态分析,约进一步就诊时间,进行局部或者全面检查,延续治疗;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. 康愈完成。S5. Kang Yu completed.