TWM541548U - Smart lighting system - Google Patents

Description

Intelligent lighting system

This creation is about lighting, especially a physiological signal based on immediate feedback, and a library of expert data that can be referenced to intelligently adjust the lighting state of the lighting system.

With the advancement of technology, the popularity of electricity, today's human life and civilization, lighting lamps are needed everywhere.

Traditional luminaires have a mode of opening and closing, which allows the user to turn on the luminaire when lighting is required and to turn it off when no lighting is required. The wavelength or color of the light emitted by the bulb or tube is fixed. Therefore, the effect of the traditional luminaire is only illumination.

With the rapid development of modern scientific and technological civilization, modern people's demand for living lighting is more than just pure lighting. More, we also need situation creation. Therefore, the new generation of lamps, further has the effect of switching the color of the light, facilitating the user to switch the color of the light according to different situational needs.

However, with the improvement of users' needs in various aspects, how to design more lighting lighting application solutions has become an urgent problem to be solved in the industry.

In order to further bring smart lighting that is more in line with people's needs, to provide more Yuan's lighting experience, this creation provides a smart lighting system.

For the above purpose, the intelligent illumination system of the present invention comprises a data processing device, at least one wearable sensing device, and a controllable light-emitting component, wherein: the wearable sensing device can be worn on the human body to sense and Measure the physiological signals of the human body. The wearable device comprises: at least one sensing electrode, a wire, a transmission device, and a shielding element. The sensing electrode receives physiological signals from the human body and may include heartbeat, blood pressure, respiration, body temperature, blood oxygen concentration, degree of muscle contraction, degree of sweating, or (and) brain waves. The sensing electrode is coupled to the transmission device via the wire. The transmission device is connected to the data processing device by wire or wirelessly, and the physiological signal measured by the sensing electrode can be transmitted to the data processing device. The shielding member includes a metal fiber component that covers the sensing electrode and the wire to prevent electrostatic interference, and the shielding member at least partially contacts the human body.

A controllable light-emitting element connected to the data processing device by wire or wirelessly, the light state (eg, light color) can be numerically transmitted to the data processing device, and can be controlled by the data processing device to change the light state ( For example, the color of the light). The utility model comprises a micro control unit and three light-emitting units of red, blue and green respectively, wherein the micro control unit is connected to the light-emitting unit, and outputs and color light-emitting units according to a control command sent by the data processing device. Corresponding current to each color light-emitting unit, the red, blue and green light-emitting units emit different colors of light according to different currents, creating different lighting environments, and achieving the purpose of adjusting the color temperature of the light.

The data processing device is wirelessly connected to the wearable sensing device and the controllable light emitting device, and has a data receiving device, a data library, and an operation module, wherein The data receiving device is connected to the wearable sensing device and the controllable light-emitting component, and can receive and store the physiological signal measured by the wearable sensing device and the current light state of the controllable light-emitting component (eg, light color) Value. The database has built-in preset judgment intervals constructed by physiological signal parameters, and sets a plurality of recommended light state preset parameters according to different purposes, and can control the controllable light-emitting elements to adjust to enter corresponding preset light states. And determining whether the light state reaches a preset purpose according to whether the physiological signal of the user fed back by the wearable sensing device is within a preset judgment interval. If the user's physiological signal is not within the preset judgment interval, the user is notified to manually adjust the light state of the controllable light-emitting element, and after the user completes the adjustment, the value of the light state is stored in the database as another Preferred lighting state preset parameters.

The above-mentioned preset purposes, for example, abnormal physical state warning, fatigue driving awakening, direction of travel guidance, lighting comfort adjustment, etc.

For the purpose of abnormal physical condition warning, the database has built-in judgment parameters for reference physiological signals such as heartbeat, blood pressure, etc. to constitute the judgment interval. When the physiological signal of the user fed back by the wearable sensing device exceeds the determination interval, the data processing device sends a signal to cause the controllable light-emitting element to flash the red light to achieve the warning effect.

For the purpose of fatigue driving, the database has built-in judgment parameters referring to physiological signals such as muscle relaxation degree and pulse to constitute the judgment interval. When the physiological signal of the muscle relaxation level, the pulse, and the like fed back by the wearable sensing device exceeds the determination interval, the data processing device sends a signal to cause the controllable light-emitting element to vibrate or flash, and wake up The effect.

According to the above principle, lighting effects of different meanings can be given according to different purposes, thereby achieving different purposes.

The intelligent lighting system of this creation, based on the physiological signals of instant feedback and the referenced expert data database, can adjust the lighting state of the light more agilely, which can ensure more diversified lighting purposes and bring better. Lighting experience.

(1)‧‧‧Data processing device

(10)‧‧‧ Data receiving device

(11)‧‧‧Database

(12)‧‧‧ Computing Module

(2) ‧‧‧Wearing sensing device

(3) ‧‧‧Controllable light-emitting elements

The first picture shows the overall architecture of the intelligent lighting system.

Referring to FIG. 1 , the intelligent illumination system of the present invention comprises a data processing device (1), at least one wearable sensing device (2), and a controllable light-emitting component (3), wherein: the wearable The sensing device (2) can be worn on the human body to sense and measure physiological signals of the human body. The wearable device comprises: at least one sensing electrode, a wire, a transmission device, and a shielding element. The sensing electrode receives physiological signals from the human body and may include heartbeat, blood pressure, respiration, body temperature, blood oxygen concentration, degree of muscle contraction, degree of sweating, or (and) brain waves. The sensing electrode is coupled to the transmission device via the wire. The transmission device is connected to the data processing device (1) by wire or wirelessly, and the physiological signal measured by the sensing electrode can be transmitted to the data processing device (1). The shielding member includes a metal fiber component that covers the sensing electrode and the wire to prevent electrostatic interference, and the shielding member at least partially contacts the human body.

A controllable light-emitting element (3) connected to the data processing device (1) by wire or wirelessly, the light state (eg, light color) can be numerically transmitted to the data The device (1) is controlled by the data processing device (1) to change the state of the light (e.g., the color of the light). The utility model comprises a micro control unit and three light-emitting units of red, blue and green respectively, wherein the micro control unit is connected to the light-emitting unit, and outputs and controls according to the control command transmitted by the data processing device (1). The current corresponding to the color light-emitting unit is to the light-emitting unit of each color, so that the light-emitting units of red, blue and green emit different colors of light according to different currents, thereby creating different lighting environments and realizing the purpose of adjusting the color temperature of the light.

The data processing device (1) is wirelessly connected to the wearable sensing device (2) and the controllable light emitting device (3), and has a data receiving device (10), a database (11) and a computing module (12), wherein the data receiving device (10) is connected to the wearable sensing device (2) and the controllable light-emitting element (3), and can receive and store the measured by the wearable sensing device (2) The physiological signal and the current state of the light (eg, light color) of the controllable light-emitting element (3). The database (11) is internally provided with a preset judgment interval constructed by physiological signal parameters, and a plurality of recommended light state preset parameters are set according to different purposes, and the controllable light-emitting element (3) can be controlled to adjust to enter Corresponding preset lighting state, according to whether the user physiological signal fed back by the wearable sensing device (2) is within a preset judgment interval, confirm whether the light state reaches a preset purpose.

The plurality of recommended lighting state preset parameters that are set with reference to the physiological signals and are set according to different purposes are, in the preferred embodiment, preferred lighting state preset parameters corresponding to the physiological state of the user, based on, for example, Medical experts study the relationship between light state and human body response response, observe and measure the quality, adaptability and variability of human body control functions under different states of light, and make an objective assessment. According to the hemodynamics and hemorheology indicators tested above, human motion parameters and dynamic ECG, dynamic Automatic analysis of blood pressure, heart rate variability and blood pressure variability parameters into hemodynamics, hemorheological indicators, dynamic changes, data recording of different light state parameters, and human regulatory function assessment load test response evaluation report, including: exercise response Evaluation, standardized α and β adrenal energy low-intensity stress test response evaluation, stress assessment of stress stress test.

The computing module (12) can match the physiological signal measured by the wearable sensing device (2) with the data in the database (11) to obtain a better light state according to the database (11). Presetting parameters, issuing a control signal to adjust the light state of the controllable light-emitting element (3), and according to whether the physiological signal of the user fed back by the wearable sensing device (2) is within a preset determination interval, confirming whether the lighting is Make the user comfortable. If the user's physiological signal is not within the preset judgment interval, the user is notified to manually adjust the light state of the controllable light-emitting element (3), and after the user completes the adjustment, the value of the light state is stored in the database ( 11), as another preferred light state preset parameter.

In the preferred embodiment, the intelligent lighting system of the present invention is based on the physiological signals of instant feedback and the referenced expert data database (11), and more agilely adjusts the lighting state of the light to ensure the user obtains The most comfortable lighting experience brings a better lighting experience.

Of course, the pre-set purpose of the intelligent lighting system of this creation can also be abnormal warning of physical state, wake-up of fatigue driving, direction of travel, adjustment of lighting comfort, and the like.

The basic principles, main features and advantages of this creation are shown and described above. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the above embodiments and descriptions are merely illustrative of the principles of the present invention, and the present invention may have various kinds without departing from the spirit and scope of the present invention. Changes and improvements, these changes and changes Jindu falls within the scope of this creation. The scope of the present invention is defined by the appended claims and their equivalents.

(1)‧‧‧Data processing device

(10)‧‧‧ Data receiving device

(11)‧‧‧Database

(12)‧‧‧ Computing Module

(2) ‧‧‧Wearing sensing device

(3) ‧‧‧Controllable light-emitting elements

Claims (5)

An intelligent illumination system includes a data processing device, at least one wearable sensing device, and a controllable light-emitting component, wherein: the wearable sensing device can be worn on a human body to sense and measure a physiological signal of the human body; a controllable light-emitting element connected to the data processing device by wire or wirelessly, the light state can be numerically transmitted to the data processing device, and can be controlled by the data processing device to change the light state; the data processing device is wireless Connecting to the wearable sensing device and the controllable light emitting device, comprising: a data receiving device, a database, and a computing module, wherein the data receiving device is coupled to the wearable sensing device and the controllable light emitting device Receiving and storing the physiological signal measured by the wearable sensing device and the current light state of the controllable light-emitting element, the database is internally provided with a preset judgment interval constructed by physiological signal parameters, and according to different Setting a plurality of recommended lighting state preset parameters; the computing module can measure the wearable sensing device The physiological signal is matched with the data in the database to preset a parameter according to the preferred light state in the database, and a control signal is sent to adjust the light state of the controllable light-emitting component, and then feedback according to the wearable sensing device. Whether the user's physiological signal is within the preset judgment interval, and whether the lighting is comfortable for the user. The smart lighting system of claim 1, wherein the wearable device comprises: at least one sensing electrode, a wire, a transmitting device, and a shielding component, the sensing electrode receives a physiological signal from the human body, the sensing The electrode is coupled to the transmission device via the wire; the transmission device is connected to the data processing device by wire or wirelessly, and the physiological signal measured by the sensing electrode can be transmitted to the data processing device; the shielding component comprises metal fiber An ingredient covering the sensing electrode and the wire to prevent electrostatic interference, and the shielding member at least partially contacts the human body. The smart lighting system of claim 1, wherein the light state measured by the controllable light-emitting element is a light color. The smart lighting system of claim 1, wherein the controllable light-emitting element comprises a micro-control unit and three different color light-emitting units, respectively, red, blue and green, and the micro-control unit is connected to the light-emitting unit According to the control command sent by the data processing device, the current corresponding to each color light-emitting unit is output to each color light-emitting unit, so that the red, blue, and green light-emitting units emit different colors of light according to different currents. The smart lighting system of claim 1, wherein the determining manner of the computing module further comprises: if the physiological signal of the user is not within the preset determining interval, notifying the user to manually adjust the light of the controllable light emitting component; Status, and after the user completes the adjustment, the value of the light state is stored in the database as another preferred light state preset parameter.