TWI831487B - Interactive remote lighting control system - Google Patents

Abstract

An interactive remote lighting control system includes an interactive interface, a communication module, a database, and a first lighting control module. The interactive interface is disposed on the communication social platform of a terminal device. The communication module is coupled with a plurality of lightings. The database stores the information of each lighting, a plurality of hand postures and sign operation instructions. The first lighting control module reads and displays the lighting information from the database and provides access for the user to choose. The first lighting control module takes images of the user's hand through the camera function of the terminal device, and processes the images for comparison with the hand postures in the database, obtaining the matched hand postures and sign operation instructions. The first lighting control module provides feedback of the sign operation instructions to control the lighting in a non-contacting manner.

Description

Interactive remote lighting control system

The invention relates to an interactive system, in particular to an interactive remote lighting control system for intelligent lighting control.

With the advancement of science and technology, the Internet of Things has become a trend. Users can control home appliances from a distance through their smart mobile devices and use the Internet functions to make their lives more convenient and achieve the purpose of smart life.

However, to use a mobile device to switch on and off the light and adjust the light brightness, you need to use specific application software that matches the light brand. If there are more than two light brands in your home, you will need to use more than two specific application software. Use, causing inconvenience to users when using.

Therefore, it is necessary to provide a smart lighting device that has a good home experience and is easy to use to meet the needs of users.

In order to solve the above problems, the present invention provides an interactive remote lighting control system that uses a communication community platform as a control interface without the need for additional specific application software to achieve the effect of wireless remote control of smart lamps.

One embodiment of the present invention provides an interactive remote light control system, which includes: an interactive interface, which is mounted on a communication community platform carried by a terminal device; a communication module, which interacts with the interactive interface and a plurality of Lamp coupling; a database, which is coupled to the interactive interface and the communication module. The database contains lamp information of each lamp, a plurality of hand postures and gesture operation instructions corresponding to each hand posture; and a first control The light module is coupled to the interactive interface, the communication module and the database, and the first light control module is displayed on the interactive interface, wherein the first light control module can read and display the information of each lamp from the database, The user can select one of the lighting information; the first lighting control module can run the photography function of the terminal device and capture an image of the user's hand. The first lighting control module performs image calculation processing on the hand image, and the hand image is Mark a skeleton feature, and the first lighting control module compares the skeleton feature with each hand posture in the database to obtain one of the matching hand postures and the corresponding gesture operation command. The first lighting control module The acquired gesture operation command is fed back to control the selected lamp information, so as to perform contactless control of the lamp.

In one embodiment, the present invention further has a second light control module that is coupled to the interactive interface and the database, and the second light control module is displayed in the interactive interface; the database contains a plurality of virtual lamps; The second light control module allows the user to select one of the virtual light fixtures from the database, and the second light control module will present one of the selected virtual light fixtures in the interactive interface; the second light control module can run the photography function of the terminal device and An environment image is captured, and the second light control module displays the selected virtual lamp together with the environment image on the interactive interface.

In one embodiment, the second light control module can run the photography function of the terminal device and capture the user's hand image, and the second light control module displays the selected virtual lamp together with the environment image on the interactive interface. The second lighting control module performs image processing on the hand image, and marks the skeleton features from the hand image. The second lighting control module compares the skeleton features with each hand posture in the database to obtain matching ones. A hand posture and corresponding gesture operation command, the second light control module will feedback control the selected virtual lamp with the acquired gesture operation command to perform virtual control of the virtual lamp.

In one of the embodiments, the present invention further has a third light control module, which is coupled with the interactive interface, the communication module and the database, and the third light control module is displayed on the interactive interface; the database has multiple The command voice and a voice operation command corresponding to each command voice; the third light control module can read and display each lamp information from the database, and the user can select one of the lamp information; the third light control module can run the terminal device The voice function and receiving a sound source, the third light control module performs voice calculation processing on the sound source, obtains a keyword from the sound source, the third light control module compares the keyword with each command voice in the database, to Obtaining one of the matching command voices and the corresponding voice operation command, the third light control module will feedback the acquired voice operation command to control the selected lamp information to perform contactless control of the lamp.

In one embodiment, the present invention further has an environment module, which is coupled with the interactive interface, the communication module and the database. The environment module is displayed on the interactive interface. The environment module has a creation unit, and the creation unit can According to the location of each lamp, the lamp information of each lamp is obtained from the database and an environment map is created.

In one embodiment, the environment module has a setting unit. The setting unit allows the user to set a light control sequence for turning on and off each lamp according to needs. The setting unit displays the light control sequence in conjunction with the environment map on the interactive interface. .

Through the above, the present invention can use the communication social platform as the control interface, without the need to set up additional specific application software, and can achieve wireless remote control of lamps using hand gestures; thereby effectively improving the inconvenience of the conventional need to use specific application software, and thereby improving The convenience of smart wireless control lights.

Furthermore, the present invention provides a variety of methods for wireless remote control of lamps, which can not only improve the inconvenience of using specific application software, but also provide diversified control effects, thereby improving the convenience of intelligent wireless control of lamps.

In order to facilitate the explanation of the central idea of the present invention expressed in the above summary column, specific embodiments are hereby expressed. Various objects in the embodiments are drawn according to proportions, sizes, deformations or displacements suitable for illustration, rather than according to the proportions of actual components.

The directional terms mentioned in the present invention, such as "up", "down", "front", "back", "left", "right", "inside", "outside", "side", etc., are only diagrams. The direction of the formula; therefore, the direction terms used are used to illustrate and understand the present invention, rather than to limit the present invention, and are explained first.

Referring to Figures 1 to 6, the present invention provides an interactive remote lighting control system 100, which includes:

An interactive interface 10, which is mounted on a communication community platform 2 carried on a terminal device 1, wherein the terminal device 1 is a personal computer, a notebook computer, a smart mobile device or a tablet computer; in the embodiment of the present invention, The terminal device 1 is a smart mobile device, and the communication social platform 2 is Line.

A communication module 20 coupled to the interactive interface 10 and a plurality of lamps; wherein each lamp is set in the environment, and each lamp is equipped with a wireless communication module 20. The communication module 20 can utilize the Internet of the terminal device 1 Wireless communication functions such as Bluetooth and Bluetooth are connected to the wireless communication module 20 of each lamp. The present invention does not limit the wireless connection method between the communication module 20 and each lamp.

A database 30 is coupled to the interactive interface 10 and the communication module 20. The database 30 stores the lamp information 31 of each lamp, a plurality of hand postures, a gesture operation command corresponding to each hand posture, and a plurality of virtual lamps. 32. Plural command voices and one voice operation command corresponding to each command voice; among them, the lamp information 31 can be one of the name of the lamp, a unique code, or a combination thereof; furthermore, the gesture operation command can be to turn on or off the light. , bright, dark, night light, white light, yellow light, etc.; the instruction voice can be lights on, lights off, bright, dark, night light, white light, yellow light, etc., but the present invention does not limit the content of gesture operation instructions and instruction voices. .

A first light control module 40 is coupled to the interactive interface 10, the communication module 20 and the database 30, and the first light control module 40 is displayed on the interactive interface 10, wherein the first light control module 40 can Each lamp information 31 is read and displayed from the database 30. The user can select one of the lamp information 31, and the selected lamp information 31 can be connected to the corresponding lamp, as shown in Figures 1 to 2.

The first light-control module 40 can run the photography function of the terminal device 1 and capture a hand image H of the user. The first light-control module 40 performs image calculation processing on the hand image H, and marks a skeleton with the hand image H. Feature S, the first light control module 40 compares the skeleton feature S with each hand posture in the database 30 to obtain one of the matching hand postures and the corresponding gesture operation command. The first light control module 40 The acquired gesture operation command is fed back to control the selected lamp information 31 to perform contactless control of the lamp corresponding to the lamp information 31; in the embodiment of the present invention, the first lamp control module 40 can control the terminal device 1 The photography function dynamically tracks the user's hand image H, as shown in Figures 1 and 3.

Furthermore, the skeleton feature S has a plurality of feature points P and a plurality of feature lines L. Each feature point P corresponds to each knuckle of the hand and the junction of the hand and the wrist. Each feature line L is connected to two adjacent feature points P. During the period, each feature point P has an exclusive code. The first light control module 40 can determine the positional relationship between each feature point P based on the exclusive code of each feature point P, so as to obtain a matching hand from the database 30 posture, as shown in Figures 1 and 3.

For example: the skeleton feature S marked by the user's hand image H determines that the user's thumb and index finger are in contact, then the hand posture and gesture operation command corresponding to the database 30 is to turn off the light; the user's hand The skeleton feature S marked in the image H determines that if the user's thumb and index finger are separated, the hand posture and gesture operation command of the database 30 is to turn on the light, and the distance between the user's thumb and index finger corresponds to The hand posture and gesture operation instructions to the database 30 are light or dark. When the distance between the user's thumb and index finger is small, the hand posture and gesture operation instructions corresponding to the database 30 are dark, indicating that the user will The brightness of the lamp is dimmed; conversely, when the distance between the user's thumb and index finger becomes larger, the hand posture and gesture operation command corresponding to the database 30 is bright, indicating that the brightness of the lamp is brightened.

A second light control module 50 is coupled to the interactive interface 10 and the database 30, and the second light control module 50 is displayed in the interactive interface 10; the database 30 stores a plurality of virtual lamps 32; the second light control module The group 50 provides the user to select one of the virtual lamps 32 from the database 30, and the second light control module 50 will present the selected one of the virtual lamps 32 on the interactive interface 10; and the second light control module 50 can run the terminal device 1 and capture an environment image E, the second light control module 50 displays the selected virtual lamp 32 together with the environment image E on the interactive interface 10, as shown in Figures 1 and 4 .

Furthermore, the second light control module 50 can run the photography function of the terminal device 1 and capture the user's hand image H. The second light control module 50 can control the photography function of the terminal device 1 to dynamically track the user's hand image H. The hand image H; the second light control module 50 displays the selected virtual lamp 32 together with the environment image E on the interactive interface 10. The second light control module 50 performs image calculation processing on the hand image H. The hand image is H marks the skeleton feature S. The second light control module 50 determines the positional relationship between each feature point P based on the exclusive code of each feature point P, and compares the skeleton feature S with each hand posture in the database 30 By comparison, one of the matching hand gestures and the corresponding gesture operation command are obtained from the database 30. The second light control module 50 feeds back the obtained gesture operation command to control the selected virtual lamp 32 to perform operations on the virtual lamp 32. Virtual control.

A third light control module 60 is coupled to the interactive interface 10, the communication module 20 and the database 30, and the third light control module 60 is displayed on the interactive interface 10; the third light control module 60 can be controlled by data The library 30 reads and displays each lamp information 31, and the user can select one of the lamp information 31; then, the third lamp control module 60 can run the voice function of the terminal device 1 and receive an audio source. The third lamp control module 60 The sound source is subjected to voice computing processing to obtain a keyword from the sound source. The third light control module 60 compares the keyword with each command voice in the database 30 to obtain one of the matching command voices and the corresponding voice operation. command, the third light control module 60 will feedback the obtained voice operation command to control the selected lamp information 31 to perform contactless control of the lamp, as shown in Figures 1 and 5; where the keywords can be to turn on the light, Keywords such as lights off, bright, dark, yellow light, white light, night light, etc. can correspond to the instruction voice of the database 30, but the present invention does not limit the content of the keywords.

An environment module 70 is coupled to the interactive interface 10, the communication module 20 and the database 30. The environment module 70 is displayed on the interactive interface 10. The environment module 70 has a creation unit 71 and a setting unit coupled to each other. 72 and a control unit 73. The creation unit 71 can obtain the lamp information 31 of each lamp from the database 30 and create an environment map M according to the location of each lamp. That is to say, the user can generate an environment map M according to the location of the lamp, for example: If the environment is home, an environment map can be created according to the home environment, and each lamp can be assigned a name corresponding to the location of the home, so as to form lamp information 31 and store it in the database 30 .

Furthermore, the setting unit 72 allows the user to set a lighting control sequence T for turning on and off each lamp according to the needs. The setting unit 72 displays the lighting control sequence T in conjunction with the environment map M on the interactive interface 10; and the control unit 73 can be based on The lighting control sequence T controls the opening and closing time of each lamp through the communication module 20, as shown in Figures 1 and 6.

An editing module 80 is coupled to the interactive interface 10, the communication module 20 and the database 30. The editing module 80 can display each hand gesture and the corresponding gesture operation command in the database 30 on the interactive interface 10. The editing module 80 can select one of the hand postures for editing to change the selected hand posture and the corresponding gesture operation command.

Furthermore, the editing module 80 can further activate the photography function of the terminal device 1 to capture a sample image, and send the sample image to the editing module 80 for image calculation processing to generate a hand image H marked with the skeleton feature S, and the editing module The group 80 can replace one of the hand postures in the database 30 with the hand image H marked with the skeleton feature S, set it to correspond to one of the operation instructions, or add it as a hand posture and set the corresponding operation instruction.

Based on the above, the present invention can achieve the following effects:

1. The interactive remote lighting control system 100 of the present invention uses the communication community platform 2 to present the interactive interface 10 without the need to set up additional specific application software, and can achieve wireless remote control of lamps using hand gestures, thereby improving the efficiency of intelligent wireless control of lighting. Convenience.

2. The interactive remote lighting control system 100 of the present invention provides multiple wireless remote control methods for lighting fixtures using gestures or voice to provide diversified control effects and thereby enhance the convenience of intelligent wireless lighting control.

3. The interactive remote lighting control system 100 of the present invention provides the ability to set the switching time of lamps according to the environment, thereby achieving a more convenient intelligent lighting control effect.

4. The interactive remote lighting control system 100 of the present invention can control the virtual lamp 32 through the second lighting control module 50, thereby achieving an augmented reality lighting control effect.

The above embodiments are only used to illustrate the present invention and are not intended to limit the scope of the present invention. All modifications or changes that do not violate the spirit of the present invention fall within the scope of the invention.

1:Terminal device

2: Communication social platform

100:Interactive remote lighting control system

10:Interactive interface

20:Communication module

30:Database

31:Lamp information

32:Virtual light fixtures

40: The first light control module

50: Second light control module

60: The third light control module

70:Environment module

71:Create unit

72: Setting unit

73:Control unit

80:Edit module

H:Hand image

S: skeleton features

P: Feature point

L: Characteristic line

E:Environmental image

M: environment map

T: light control sequence

Figure 1 is a block diagram of the system architecture of the present invention. Figure 2 is a schematic diagram of an embodiment of the first light control module of the present invention presented on a communication community platform. Figure 3 is a schematic diagram of the first embodiment of the light control module of the present invention. Figure 4 is a schematic diagram of the second embodiment of the light control module of the present invention. Figure 5 is a schematic diagram of a third embodiment of the light control module of the present invention. Figure 6 is a schematic diagram of an embodiment of the environment module of the present invention.

1:Terminal device

2: Communication social platform

100:Interactive remote lighting control system

10:Interactive interface

20:Communication module

30:Database

40: The first light control module

50: Second light control module

60: The third light control module

70:Environment module

71:Create unit

72: Setting unit

73:Control unit

80:Edit module

Claims (9)

An interactive remote lighting control system, which includes: an interactive interface, which is mounted on a communication community platform carried by a terminal device; a communication module, which is coupled to the interactive interface and a plurality of lamps; a database , which is coupled to the interactive interface and the communication module, and the database contains lamp information for each lamp, a plurality of hand postures and gesture operation instructions corresponding to each hand posture; a first light control module , which is coupled to the interactive interface, the communication module and the database, and the first light control module is displayed on the interactive interface, where the first light control module can be read and displayed by the database For each lamp information, the user can select one of the lamp information; the first lamp control module can run the photography function of the terminal device and capture an image of the user's hand, and the first lamp control module converts the hand image Image computing is performed to mark a skeleton feature from the hand image, and the first lighting control module compares the skeleton feature with each hand posture in the database to obtain one of the matching hand postures and Corresponding to the gesture operation command, the first lighting control module will feedback control the selected lamp information with the acquired gesture operation command to perform contactless control of the lamp; and an editing module, Coupled with the interactive interface, the communication module and the database, the editing module can display each hand posture and corresponding gesture operation command in the database on the interactive interface, and the editing module can select among them Edit a hand posture to change the selected hand posture and the corresponding gesture operation command. The interactive remote light control system as described in claim 1 further has a second light control module coupled to the interactive interface and the database, and the second light control module is displayed on the interactive interface ; The database contains a plurality of virtual lamps; the second light control module allows the user to select one of the virtual lamps from the database, and the second light control module presents the selected one of the virtual lamps in the interactive interface; The second light control module can run the photography function of the terminal device and capture an environment image. The second light control module displays the selected virtual lamp in conjunction with the environment image on the interactive interface. The interactive remote light control system as described in claim 2, wherein the second light control module can run the photography function of the terminal device and capture the user's hand image, and the second light control module will The selected virtual lamp is displayed on the interactive interface together with the environment image. The second lighting control module performs image calculation processing on the hand image, and marks the skeleton features with the hand image. The second lighting control module The group compares the skeleton features with each hand posture in the database to obtain one of the matching hand postures and the corresponding gesture operation command. The second lighting control module will obtain the gesture The operation instruction feedback controls the selected virtual lamp to perform virtual control on the virtual lamp. The interactive remote light control system as described in claim 1 further has a third light control module coupled to the interactive interface, the communication module and the database, and the third light control module Displayed on the interactive interface; the database contains a plurality of command voices and a voice operation command corresponding to each command voice; the third light control module can read and display each lamp information from the database, and the user can select One of the lamp information; the third light control module can run the voice function of the terminal device and receive a sound source. The third light control module performs voice calculation processing on the sound source and obtains a keyword from the sound source. The third light control module The three-light control module compares the keyword with each command voice in the database to obtain one of the matching command voices and the corresponding voice operation command. The third light-control module will obtain the command voice. The voice operation command feedback controls the selected lamp information to perform contactless control of the lamp. The interactive remote lighting control system as described in claim 1 further has an environment module that is coupled to the interactive interface, the communication module and the database. The environment module is displayed on the interactive interface, and the The environment module has a creation unit that can obtain the lamp information of each lamp from the database and create an environment map according to the location of each lamp. The interactive remote lighting control system as described in claim 5, wherein the environment module has a setting unit that allows the user to set a lighting control sequence for turning on and off each lamp according to needs, and the setting unit The setting unit displays the light control sequence in conjunction with the environment map on the interactive interface. The interactive remote lighting control system as described in claim 2, wherein the skeleton feature has a plurality of feature points and a plurality of feature lines, and each feature point corresponds to each knuckle of the hand and the junction of the hand and the wrist, and each A feature line connects two adjacent feature points. The interactive remote light control system as described in claim 7, wherein each feature point has an exclusive code, and the first light control module or the second light control module is determined based on the exclusive code of each feature point. The positional relationship between the feature points is used to obtain one of the matching hand postures from the database. The interactive remote light control system as described in claim 2, wherein the first light control module or the second light control module can control the photography function of the terminal device to dynamically track the user's hand image.

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