TW201712404A - Smartglass-type electrotherapy device and control method of the same - Google Patents

Abstract

The present invention provides a smartglass-type electrotherapy device and method of the same. The smartglass-type electrotherapy device comprises a eye-glass body, at least an imaging module, at least a visual stimulation unit, a plurality of signal sensors, a filter element, a signal processing module, and a discharge module. Accordingly, the visual stimulation unit providing indicative information is generated on the eye-glass body via the imaging module. When the user watches the visual stimulation unit, the signal sensors will determine the position of the user's sight by sensing the physiological signals of the user. Meanwhile, the weak brain wave signals are filtered by the filter element and the strong brain wave signals are retained. According to the physiological signals of the user and the control command of the signal processing module, an electrotherapy is conduct by the discharge module to the user. The electrotherapy is conducted according to the physiological status of the user by accurately interpreting the positing on the imaging module where the user watches.

Description

Electrotherapy device for smart glasses and method thereof

The invention provides an electrotherapy device and a method thereof for smart glasses, in particular to an electrotherapy device for smart glasses which can transfer visual stimulation technology to smart glasses and combines electric stimulation devices to provide accurate and instant electrotherapy for users. And its method.

According to the rapid advancement of display technology and related technologies, the display has a trend of becoming thinner and lighter to meet the user's demand for portable. Among them, the head-mounted display is one of the applications, especially at any time. The display of the glasses-shaped display is more suitable for users' needs. However, if the user sets the focal length of the eye on the display for a long time, it is easy to cause eye fatigue, blurred vision, and even migraine due to prolonged contraction of the ciliary muscle.

In addition, the brain-computer interface based on the Steady State Visual Evoked Potential (SSVEP) response stimulates the viewer's brain by using a fixed-frequency visual stimulus signal to induce the viewer's brain. The relative frequency of the brain wave signal becomes a more accurate brain-computer interface control technology. However, the triggering action of the Steady State Visual Evoked Potential (SSVEP) must have a more accurate signal value when the user looks at a certain object and ignores other images near the target. The display or the remote display produces a visual stimulus signal in one of the corners of the display screen to focus the user's attention, reduce the non-target wave signal, and allow the brain-computer interface to be accurately judged.

However, while the display evolved into a glasses shape, the Steady State Visual Evoked Potential (SSVEP) produced difficulties in implementation, mainly because the distance of the screen was very close to the eyes and the size of the screen was limited. In the size of the lens, in other words, even if the user looks at the visual stimulus at the corner of the screen, it will also look at it. The visual stimuli signal at the corners of other screens, in this way, generates extra noise for the brain-computer interface and affects its judgment.

Therefore, how to solve the above problems and deficiencies in the above-mentioned applications, that is, the inventors of the present invention and those involved in the industry are eager to study the direction of improvement.

Therefore, in view of the above-mentioned deficiencies, the inventors of the present invention have collected relevant materials, evaluated and considered through various parties, and have accumulated many years of experience in the industry, and have continuously designed and modified such visual stimulation techniques. An inventor of an electrotherapy device and method for intelligent eyeglasses that are transferred to a smart eyeglass while incorporating an electric stimulator to provide accurate and immediate electrotherapy to the user.

The main purpose of the present invention is to integrate a developing module capable of generating a visual stimulation unit on the lens body, and use the signal sensing device and the filtering component to retain the strong electric wave of the brain that the user is gazing at the target for the signal processing module pair. The discharge module issues control commands for the electrotherapy.

In order to achieve the above object, the main structure of the electrotherapy device for the smart glasses of the present invention comprises: a lens body, and a developing module disposed at least on the side of the lens body for generating at least a visual stimulation unit for indicating information, and on the lens body A plurality of signal sensing devices for sensing human physiological signals are arranged, and an information link signal sensing device is disposed on the lens body for filtering the weak magnetic waves of the brain, and only the filtering components of the strong electromagnetic waves of the brain that the user is watching are retained, and then The filter element is electrically connected to convert the brain strong wave into a signal processing module of the control command, and finally the discharge module electrically connected to the signal sensing device and the signal processing module is used to the user according to the physiological signal and the control command. When the user wears the lens body of the present invention on the head, the signal sensing device senses the physiological signal of the human body from time to time, and generates a visual stimulation unit when the user feels uncomfortable. And displayed on the developing module, when the user looks at the visual stimulation unit, the filter component can automatically filter out the weak brain. The wave only retains the strong electric wave of the brain that the user is watching, and converts the strong electric wave of the brain into a control command for the discharge module through the signal processing module, so that the discharge module is based on the physiological signal of the user and the control command The user performs electrotherapy to solve the user's symptoms.

In one embodiment, the development module is configured to display one of Virtual Reality (VR) or Augmented Reality (AR).

In one embodiment, the indication information is one of eye fatigue, migraine, or other discomfort symptoms.

In one embodiment, the signal sensing device is one of a temperature sensor, a three-axis accelerator, a gyroscope, a brain wave detector, or a myoelectric detector.

In one embodiment, the eyeglass system is Google glasses.

In addition, the present invention further provides an electrotherapy method for smart glasses, the steps comprising: (a) a user wearing a lens body provided with at least one developing module; and (b) a developing module generating at least visual stimulus for indicating information (c) using a complex signal sensing device to sense a physiological signal generated by a user after viewing the visual stimulation unit; (d) filtering the weak magnetic wave of the brain by using a filtering component, and retaining only strong brain waves of the user's eyes; e) converting the brain strong electric wave into a control command by the signal processing module; and (f) driving the discharge module according to the physiological signal and the control command to perform electrotherapy on the user for the indication information.

In one embodiment, the development module is configured to display one of Virtual Reality (VR) or Augmented Reality (AR).

In one embodiment, the indication information is one of eye fatigue, migraine, or other discomfort symptoms.

In one embodiment, the signal sensing device is one of a temperature sensor, a three-axis accelerator, a gyroscope, a brain wave detector, or a myoelectric detector.

In one embodiment, the eyeglass system is Google glasses.

With the above technology, it is possible to achieve a breakthrough in the problem that the eyeglass-type head-mounted display and the visual stimulation technology cannot be effectively combined and combined, and it is impossible to accurately determine the brain wave signal and the eye fatigue caused by prolonged use, thereby achieving the above advantages. Progressive.

1‧‧‧ glasses body

2‧‧‧Development module

21‧‧‧ visual stimulation unit

3‧‧‧Signal sensing device

4‧‧‧Filter components

5‧‧‧Signal Processing Module

6‧‧‧Discharge module

a~f‧‧‧step

The first figure is a perspective view of a preferred embodiment of the invention.

The second drawing is a block diagram of a preferred embodiment of the invention.

The third drawing is a block flow diagram of a preferred embodiment of the present invention.

The fourth figure is a schematic view (1) of the operation of the preferred embodiment of the present invention.

The fifth figure is a schematic diagram (2) of the operation of the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detecting apparatus according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings, wherein the same elements will be described with the same reference numerals.

In order to achieve the above objects and effects, the technical means and the structure of the present invention will be described in detail with reference to the preferred embodiments of the present invention.

Please refer to the first, second and third figures, which are perspective views, structural block diagrams and block diagrams of a preferred embodiment of the present invention. It will be apparent from the figures that the present embodiment includes: a lens body 1 is a Google eyeglass; at least one developing module 2 disposed on a side of the lens body 1 is configured to generate at least one visual stimulation unit 21 for indicating information, wherein the developing module 2 Used to display one of Virtual Reality (VR) or Augmented Reality (AR), which is one of eye fatigue, migraine, or other discomfort symptoms. The signal sensing device 3 disposed on the lens body 1 is for sensing the physiological signal of the human body, and the signal sensing device 3 is a temperature sensor, a three-axis accelerator, a gyroscope, and an electroencephalogram detection. One of the instrument or the electromyography detector; a filter element 4 disposed on the lens body 1 and connected to the signal sensing device 3 for filtering the weak electric wave of the brain, and only retaining the brain of the user's gaze a strong electric wave; an electrical connection of the filter element 4 The processing module 5 is configured to convert the brain strong wave into a control command; and the discharge module 6 electrically connected to the signal sensing device 3 and the signal processing module 5 is based on the physiological signal and the control Command to perform electrotherapy on the user.

In addition, referring to the third figure, the electrotherapy method according to another preferred embodiment of the present invention comprises the following steps. Step a: The user wears a lens body 1 provided with at least one developing module 2. Step b: The developing module 2 generates at least one visual stimulation unit 21 for indicating information. Step c: The complex signal sensing device 3 is used to sense the physiological signal generated by the user after viewing the visual stimulation unit 21. Step d: Filtering the weak magnetic wave of the brain by using a filtering element 4, and only retaining the strong electric wave of the brain that the user is watching. Step e: Converting the brain strong electric wave into a control command by a signal processing module 5. And step f: driving a discharge module 6 according to the physiological signal and the control command, to Instruct the information to perform electrotherapy on the user.

Through the above description, the technical structure of the embodiment can be understood, and according to the corresponding cooperation of the structure, the visual stimulation technology can be transferred to the smart glasses, and the electric stimulator is combined to provide the user with accurate and instant. Advantages such as electrotherapy, and detailed explanations will be explained below.

Please refer to the first to fifth figures, which are perspective views, structural block diagrams, block flow diagrams, motion diagrams (1) and motion diagrams (II) of the preferred embodiment of the present invention. It can be clearly seen that the eyeglass body 1 of the present invention is represented by Google glasses, and a plurality of signal sensing devices 3 are added to the Google glasses which can only be controlled by touch or voice control. The signal sensing device 3 is provided. It is one of a temperature sensor, a three-axis accelerator, a gyroscope, a brain wave detector or a myoelectric detector, in other words, the signal sensing device 3 is configured to detect the user's body temperature, Physiological signals such as movements, brain waves, and myoelectric signals.

In the present embodiment, the signals are mainly used for medical purposes, and the physiological signals are used to determine whether the user has eye fatigue, migraine or other discomfort, so when the discomfort is detected, the developing module 2 At least one visual stimulation unit 21 for indicating information is generated to stimulate the user's visual nerve to allow the user to look at the visual stimulation unit 21. Although the distance between the eyeglass body 1 and the user's eyes is short, and the range that the development module 2 can display is small, when the user looks at the visual stimulation unit 21, the brain wave inevitably generates peripheral vision outside the visual stimulation unit 21. In this case, the filter element 4 uses the filter element 4 to treat the weak magnetic wave (peripheral visual image) of the brain other than the target as a noise, and filters it out, leaving only the strong electric wave of the brain that the user is watching (visual stimulation) The image of unit 21), thereby generating a fixed frequency visual stimuli signal required for Steady State Visual Evoked Potential (SSVEP). Then, the visual stimulation signal (brain strong electric wave) is transmitted to the signal processing module 5 to convert the brain strong electric wave into a control command, so that the discharge module 6 can detect the physiological signal and the signal according to the signal sensing device 3. The control command sent from the module 5 is used to perform electrotherapy on the user. Referring to the present embodiment, if the uncomfortable symptom is migraine, the electrotherapy position is the headache position, and if the discomfort symptom is eye fatigue, the electrotherapy position is the eye area.

It is worth mentioning that the system of automatic sensing and automatic electrotherapy of the lens body 1 can provide the most immediate treatment for the user, especially if the user is neglected due to busyness or concentration. There are not many situations in which the physical condition of the person is in a state of being overworked. Therefore, when the user wears the eyeglass body 1 of the present invention, the signal sensing device 3 can be used to instantly sense the physical condition, and the developing module 2 is used to stimulate or remind the patient. The user is ready to receive treatment for immediate electrotherapy of the discharge module 6 to relieve the user's discomfort and to be a highly portable intelligent health care technology.

However, the above description is only the preferred embodiment of the present invention, and thus it is not intended to limit the scope of the present invention. Therefore, the simple modification and equivalent structural changes of the present specification and the drawings should be treated similarly. It is included in the scope of the patent of the present invention and is combined with Chen Ming.

In summary, the electrotherapy device and the method thereof for the smart glasses of the present invention can achieve the efficacy and purpose when used, and therefore the invention is an invention with excellent practicability, and is an application requirement for the invention patent.提出 Submit an application in accordance with the law, and hope that the trial committee will grant the invention as soon as possible to protect the inventor's hard work. If there is any doubt in the trial committee, please do not hesitate to give instructions, the inventor will try his best to cooperate and feel polite.

1‧‧‧ glasses body

2‧‧‧Development module

21‧‧‧ visual stimulation unit

3‧‧‧Signal sensing device

4‧‧‧Filter components

5‧‧‧Signal Processing Module

6‧‧‧Discharge module

Claims (10)

An electrotherapy device for smart glasses, comprising: a lens body; at least one developing module disposed on one side of the lens body, configured to generate at least one visual stimulation unit for indicating information; and the plurality is disposed on the lens body The signal sensing device is configured to sense the physiological signal of the human body; a filtering component disposed on the lens body and connected to the signal sensing device for filtering the weak electric wave of the brain, and only retaining the brain of the user's eyes a strong signal; a signal processing module electrically connected to the filter component converts the brain strong wave into a control command; and a discharge module electrically coupled to the signal sensing device and the signal processing module The user is subjected to electrotherapy according to the physiological signal and the control command. The electrotherapy device for smart glasses according to claim 1, wherein the developing module is configured to display one of a virtual reality image or an augmented reality image. The electrotherapy device for smart glasses according to claim 1, wherein the indication information is one of eye fatigue, migraine, or other discomfort. The invention relates to an electrotherapy device for smart glasses according to claim 1, wherein the signal sensing device is a temperature sensor, a three-axis accelerator, a gyroscope, a brain wave detector or a myoelectric detector. One. The electrotherapy device for smart glasses according to claim 1, wherein the glasses system is Google glasses. An electric therapy method for smart glasses, the steps of which are: (a) the user wears a lens body provided with at least one developing module; (b) the developing module generates at least one visual stimulation unit for indicating information; c) using the complex signal sensing device to sense the physiological signal generated by the user after viewing the visual stimulation unit; (d) filtering the weak magnetic wave of the brain by using a filtering component, and retaining only the strong electric wave of the brain that the user is watching; Translating the brain strong electric wave into a control command by a signal processing module; and (f) driving a discharge module according to the physiological signal and the control command to perform electrotherapy on the user for the indication information. The method of electrotherapy for smart glasses according to claim 6, wherein the developing module is for displaying one of a virtual reality image or an augmented reality image. The invention relates to an electrotherapy method for a smart eyeglass according to claim 6, wherein the indication information is one of eye fatigue, migraine, or other discomfort symptoms. The invention relates to an electric therapy method for a smart eyeglass according to claim 6, wherein the signal sensing device is a temperature sensor, a three-axis accelerator, a gyroscope, a brain wave detector or a myoelectric detector. One. The method of electrotherapy for smart glasses according to claim 6, wherein the glasses system is Google glasses.