技术领域technical field
本公开涉及一种用于控制照明的方法和设备。更具体地,本公开涉及一种用于通过使用调光图案来控制照明的方法和设备。The present disclosure relates to a method and apparatus for controlling lighting. More particularly, the present disclosure relates to a method and apparatus for controlling lighting by using a dimming pattern.
背景技术Background technique
照明装置是照亮黑暗的地方以允许人的视线能够识别对象的装置,发光二极管(LED)、荧光灯、白炽灯等主要用作照明装置。一般来说,在照明装置中,每个灯单独连接到切换单元并且被控制来打开/关闭,或者多个灯通过一根线连接并且被控制来打开/关闭。A lighting device is a device that illuminates a dark place to allow a person's sight to recognize an object, and light emitting diodes (LEDs), fluorescent lamps, incandescent lamps, and the like are mainly used as the lighting device. Generally, in a lighting device, each lamp is individually connected to a switching unit and controlled to be turned on/off, or a plurality of lamps are connected through one line and controlled to be turned on/off.
然而,随着近来的技术进步,相对于作为环境友好的材料的LED照明装置的发展、用于控制照明的技术的发展、以及用于控制灯的亮度的调光技术的研究和学习效果,对用于控制色温的技术的研究正在积极地进行。另外,对用于自动控制整个建筑物中的照明装置的技术和用于实时控制建筑物中与智能家庭系统链接的照明的数字控制技术的研究正在进行。However, with the recent technical progress, with respect to the development of LED lighting devices which are environmentally friendly materials, the development of technology for controlling lighting, and the effects of research and learning of dimming technology for controlling the brightness of lamps, the impact on Research on techniques for controlling color temperature is actively being conducted. In addition, research into technologies for automatically controlling lighting devices throughout buildings and digital control technologies for real-time control of lighting linked to smart home systems in buildings is ongoing.
这种发展已引起照明控制系统以及用于考虑到用户方便控制照明装置的技术的发展,所述照明控制系统可由用户根据照明使用环境而不同地控制照明环境。例如,正在研究用于单独控制多个灯的照明的技术、用于通过将多个灯的亮度配置成特定水平来控制调光的技术、以及用于由用户根据用户环境控制灯的色温或颜色的技术。Such development has led to the development of lighting control systems that can control lighting environments differently by users according to lighting usage environments, as well as technologies for controlling lighting devices in consideration of user convenience. For example, a technology for individually controlling the lighting of multiple lamps, a technology for controlling dimming by configuring the brightness of multiple lamps to a specific level, and a technology for controlling the color temperature or color of lamps by the user according to the user's environment are being studied Technology.
因此,存在对用于通过使用调光图案来控制照明的方法和设备的需要。Therefore, a need exists for a method and apparatus for controlling lighting through the use of dimming patterns.
上述信息仅作为背景信息呈现,以便帮助理解本公开。关于任何上述内容是否可应用为本公开的现有技术,既没有做出确定,也没有做出断言。The above information is presented as background information only to facilitate an understanding of the present disclosure. No determination has been made, and no assertion is made, as to whether any of the foregoing might be applicable as prior art to the present disclosure.
发明内容Contents of the invention
技术问题technical problem
本公开的各方面是为了解决至少上述问题和/或缺点并且提供至少下述优点。因此,本公开的一个方面是为了提供一种改进的照明控制方法和设备。Aspects of the present disclosure are to address at least the above-mentioned problems and/or disadvantages and to provide at least the advantages described below. Accordingly, one aspect of the present disclosure is to provide an improved lighting control method and apparatus.
本公开的一个实施方案提供一种配置对应于生活方式(诸如醒来或睡觉)的照明装置的调光图案或绘制图案以便通过具有多媒体功能的互配递送信息的方法,以及一种用于控制和管理照明装置的方法和设备。One embodiment of the present disclosure provides a method of configuring a dimming pattern or a drawing pattern of a lighting device corresponding to a lifestyle such as waking or sleeping to deliver information through interworking with multimedia capabilities, and a method for controlling And methods and apparatus for managing lighting installations.
问题的解决方案problem solution
根据本公开的一个方面,提供一种使用电子装置控制照明的方法。所述方法包括:接收用于控制照明的图案信息;基于所接收的图案信息生成包括与操作时间信息对应的亮度水平信息的照明控制信息;以及发送所述照明控制信息。According to an aspect of the present disclosure, a method of controlling lighting using an electronic device is provided. The method includes: receiving pattern information for controlling lighting; generating lighting control information including brightness level information corresponding to operation time information based on the received pattern information; and transmitting the lighting control information.
根据本公开的另一个方面,提供了一种控制照明的电子装置。所述电子装置包括:通信单元,配置成发送/接收用于控制照明的数据;以及照明控制器,配置成进行控制以接收用于控制照明的图案信息、基于所接收的图案信息生成包括与操作时间信息对应的亮度水平信息的照明控制信息、以及发送所述照明控制信息。According to another aspect of the present disclosure, an electronic device for controlling lighting is provided. The electronic device includes: a communication unit configured to transmit/receive data for controlling lighting; and a lighting controller configured to control to receive pattern information for controlling lighting, generate and operate based on the received pattern information The time information corresponds to the lighting control information of the brightness level information, and the lighting control information is sent.
根据本公开的另一个方面,提供了一种控制照明的电子装置。所述方法包括:配置一个或多个电子装置、所述电子装置的状态信息和对应于所述状态信息的照明装置的映射信息;从所述一个或多个电子装置接收状态通知消息;基于所述状态通知消息识别所述电子装置的状态信息;以及将基于所识别的状态信息和所述映射信息所选择的照明控制信息发送到对应于所识别的状态信息的照明装置。According to another aspect of the present disclosure, an electronic device for controlling lighting is provided. The method includes: configuring one or more electronic devices, status information of the electronic devices, and mapping information of lighting devices corresponding to the status information; receiving a status notification message from the one or more electronic devices; The status notification message identifies status information of the electronic device; and transmits lighting control information selected based on the identified status information and the mapping information to the lighting device corresponding to the identified status information.
根据本公开的另一个方面,提供了一种服务器通过与电子装置的链接控制照明的设备。所述设备包括:通信单元,配置成与一个或多个照明装置和电子装置通信;以及控制器,配置成进行控制以:配置一个或多个电子装置、所述电子装置的状态信息和对应于所述状态信息的照明装置的映射信息;从所述一个或多个电子装置接收状态通知消息;基于所述状态通知消息识别所述电子装置的状态信息;以及将基于所识别的状态信息和所述映射信息所选择的照明控制信息发送到对应于所识别的状态信息的照明装置。According to another aspect of the present disclosure, there is provided an apparatus in which a server controls lighting through a link with an electronic device. The apparatus includes: a communication unit configured to communicate with one or more lighting devices and electronic devices; and a controller configured to control to: configure the one or more electronic devices, status information of the electronic devices, and information corresponding to The mapping information of the lighting device of the status information; receiving a status notification message from the one or more electronic devices; identifying the status information of the electronic device based on the status notification message; The lighting control information selected by the mapping information is sent to the lighting device corresponding to the identified status information.
本发明的有益效果Beneficial effects of the present invention
根据本公开的另一个方面,可以提供一种方法和一种设备,其中用户可有效地控制和管理照明装置。According to another aspect of the present disclosure, there may be provided a method and an apparatus in which a user can efficiently control and manage a lighting device.
根据本公开的另一个方面,用户可容易地配置用以控制照明的各种图案。此外,可通过与智能家庭系统的互配增加用户便利性。According to another aspect of the present disclosure, a user may easily configure various patterns to control lighting. In addition, user convenience can be increased through interworking with smart home systems.
根据本公开的另一个方面,可以使用声音信息生成照明控制信息并且可以使用声音信息直观地控制照明。According to another aspect of the present disclosure, lighting control information may be generated using sound information and lighting may be intuitively controlled using the sound information.
根据本公开的另一个方面,可以容易地绘制出各种图案并且将其用于日程安排功能(例如,醒来、睡觉等)、信息通知(例如,呼叫、短消息服务(SMS)、家用电器操作通知等)以及基于各种情况的类似功能的目的。According to another aspect of the present disclosure, various patterns can be easily drawn and used for scheduling functions (e.g., wake up, sleep, etc.), information notification (e.g., call, Short Message Service (SMS), home appliance operation notifications, etc.) and the purpose of similar functions based on various circumstances.
根据结合附图公开了本发明的各种实施方案的以下详细描述,本发明的其他方面、优点以及显著特征对于本领域的技术人员来说将变得明显。Other aspects, advantages, and salient features of the invention will become apparent to those skilled in the art from the following detailed description, which, when taken in conjunction with the accompanying drawings, discloses various embodiments of the invention.
附图说明Description of drawings
通过以下结合附图进行的描述,可以更清楚了解本公开的某些实施方案的上述和其他方面、特征以及优点,在附图中:The above and other aspects, features and advantages of certain embodiments of the present disclosure can be more clearly understood through the following description in conjunction with the accompanying drawings, in which:
图1是示出根据本公开的一个实施方案的照明控制系统的图;FIG. 1 is a diagram illustrating a lighting control system according to one embodiment of the present disclosure;
图2是示出根据本公开的一个实施方案的照明控制装置的框图;FIG. 2 is a block diagram illustrating a lighting control device according to an embodiment of the present disclosure;
图3是示出根据本公开的一个实施方案的照明装置的框图;3 is a block diagram illustrating a lighting device according to an embodiment of the present disclosure;
图4是示出根据本公开的一个实施方案的照明控制信息输入屏幕的视图;FIG. 4 is a view illustrating a lighting control information input screen according to an embodiment of the present disclosure;
图5是示出根据本公开的一个实施方案的照明控制方法的流程图;FIG. 5 is a flowchart illustrating a lighting control method according to an embodiment of the present disclosure;
图6是示出根据本公开的一个实施方案的输入图案信息的方法的流程图;6 is a flowchart illustrating a method of inputting pattern information according to one embodiment of the present disclosure;
图7是示出根据本公开的一个实施方案的生成照明控制信息的方法的流程图;7 is a flowchart illustrating a method of generating lighting control information according to one embodiment of the present disclosure;
图8是示出根据本公开的一个实施方案的在生成照明控制信息时确定操作切换点的方法的图表;8 is a diagram illustrating a method of determining an operation switching point when generating lighting control information according to one embodiment of the present disclosure;
图9是示出根据本公开的一个实施方案的对应于照明控制信息的协议的视图;FIG. 9 is a view showing a protocol corresponding to lighting control information according to an embodiment of the present disclosure;
图10是示出根据本公开的一个实施方案的时间采样方法的图表;Figure 10 is a diagram illustrating a time sampling method according to one embodiment of the present disclosure;
图11是示出根据本公开的一个实施方案的确定操作切换点的方法的图表;FIG. 11 is a diagram illustrating a method of determining an operation switching point according to one embodiment of the present disclosure;
图12是示出根据本公开的一个实施方案的照明控制方法的流程图;12 is a flowchart illustrating a lighting control method according to one embodiment of the present disclosure;
图13是示出根据本公开的一个实施方案的输入语音信息的方法的流程图;13 is a flowchart illustrating a method of inputting voice information according to an embodiment of the present disclosure;
图14示出根据本公开的一个实施方案的输入声音信息和生成照明控制信息的方法;14 illustrates a method of inputting sound information and generating lighting control information according to an embodiment of the present disclosure;
图15示出根据本公开的一个实施方案的基于声音类型信息生成照明控制信息的方法;15 illustrates a method of generating lighting control information based on sound type information according to an embodiment of the present disclosure;
图16A和图16B示出根据本公开的一个实施方案的基于文本信息生成照明控制信息的方法;16A and 16B illustrate a method of generating lighting control information based on text information according to an embodiment of the present disclosure;
图17示出根据本公开的一个实施方案的连接和控制家用电器和照明装置的方法;以及FIG. 17 illustrates a method of connecting and controlling home appliances and lighting devices according to an embodiment of the present disclosure; and
图18示出根据本公开的一个实施方案的映射关系。FIG. 18 shows a mapping relationship according to one embodiment of the present disclosure.
在整个附图中,应当指出的是,相同的参考数字用于示出相同或类似的元件、特征和结构。Throughout the drawings, it should be noted that like reference numerals are used to illustrate the same or similar elements, features, and structures.
具体实施方式detailed description
提供以下参照附图进行的描述以便有助于全面理解如由权利要求书及其等同方案限定的本公开的各种实施方案。本公开的实施方案包括有助于全面理解的各种具体细节,但这些实施方案应被视为仅仅是示例性的。因此,本领域的普通技术人员将认识到,在不脱离本公开的范围和精神的情况下,可以对本文所述的各种实施方案做出各种改变和修改。另外,为了清楚和简洁起见,可以省略对众所周知的功能和构造的描述。The following description with reference to the accompanying drawings is provided to facilitate a comprehensive understanding of various embodiments of the present disclosure as defined by the claims and their equivalents. Embodiments of the present disclosure include various specific details to facilitate a thorough understanding, but these embodiments are to be considered as exemplary only. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the various embodiments described herein can be made without departing from the scope and spirit of the disclosure. Also, descriptions of well-known functions and constructions may be omitted for clarity and conciseness.
以下描述和权利要求书中使用的术语和字词并不限于书面意义,而是仅仅由发明人使用来实现对本公开清楚和一致的理解。因此,对于本领域的技术人员应明显的是,提供以下对本公开各种实施方案的描述仅用于说明的目的而不是用于限制如由权利要求书及其等同方案限定的本公开的目的。The terms and words used in the following description and claims are not limited to the bibliographical meanings, but, are merely used by the inventor to enable a clear and consistent understanding of the present disclosure. Accordingly, it should be apparent to those skilled in the art that the following description of various embodiments of the present disclosure is provided for illustration purpose only and not for the purpose of limiting the disclosure as defined by the claims and their equivalents.
应当理解,除非上下文明确地另外规定,否则单数形式“一个”、“一种”和“所述”包括复数指示物。因此,例如对“部件表面”的提及包括对一个或多个这种表面的提及。It should be understood that the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to "a surface of a component" includes reference to one or more of such surfaces.
术语“基本上”意味着所陈述的特性、参数或值不需要精确地实现,而是在量上可发生不妨碍所述特性意图提供的效果的偏差或变化,包括例如公差、测量误差、测量准确度限制以及本领域中技术人员已知的其他因素。The term "substantially" means that the stated property, parameter or value need not be achieved precisely, but that deviations or changes in quantity may occur, including, for example, tolerances, errors in measurement, measurement Accuracy limitations and other factors known to those skilled in the art.
图1是示出根据本公开的一个实施方案的照明控制系统的图。FIG. 1 is a diagram illustrating a lighting control system according to one embodiment of the present disclosure.
参照图1,照明控制系统10可包括用于向照明装置170发送照明控制命令的照明控制装置110和用于供应照明光的照明装置170。此外,照明控制系统10还可包括通过互联网协议(IP)网络在照明控制装置110与照明装置170之间交互工作的桥接器130和150。Referring to FIG. 1 , the lighting control system 10 may include a lighting control device 110 for transmitting a lighting control command to a lighting device 170 and a lighting device 170 for supplying lighting light. In addition, the lighting control system 10 may further include bridges 130 and 150 interworking between the lighting control device 110 and the lighting device 170 through an Internet Protocol (IP) network.
照明控制装置110可包括电子终端,诸如智能电话、便携式终端、移动终端、个人数字助理(PDA)、便携式多媒体播放器(PMP)终端、记事本、Wibro终端、平板个人计算机(PC)等。此外,照明控制装置110可以是支持无线通信的家用电器,诸如电冰箱、电视机(TV)或洗衣机。在下文中,在本公开的一个实施方案中,智能电话将被描述为照明控制装置的一个实例。The lighting control device 110 may include an electronic terminal such as a smart phone, a portable terminal, a mobile terminal, a personal digital assistant (PDA), a portable multimedia player (PMP) terminal, a notepad, a Wibro terminal, a tablet personal computer (PC), and the like. In addition, the lighting control device 110 may be a home appliance supporting wireless communication, such as a refrigerator, a television (TV), or a washing machine. Hereinafter, in one embodiment of the present disclosure, a smartphone will be described as an example of a lighting control device.
照明控制装置和照明装置可通过无线通信连接。无线通信可包括短程无线通信方案。短程无线通信方案可包括蓝牙、Zigbee、无线保真(Wi-Fi)、Androidbeam、全球微波接入互操作(WiMax)、无线局域网(WLAN)、红外通信等。The lighting control device and the lighting device may be connected by wireless communication. Wireless communication may include short-range wireless communication schemes. Short-range wireless communication solutions may include Bluetooth, Zigbee, Wireless Fidelity (Wi-Fi), Androidbeam, Worldwide Interoperability for Microwave Access (WiMax), Wireless Local Area Network (WLAN), infrared communication, etc.
照明控制装置110和照明装置170可通过直接无线通信方法连接。当照明控制装置110和照明装置170彼此直接通信时,可使用照明控制装置110和照明装置170而无需使用桥接器来配置照明控制系统10。此外,照明控制系统10可包括一个或多个桥接器。当照明控制系统10包括桥接器时,照明控制装置110和照明装置170可通过桥接器通信。通信包括无线通信方案,无线通信方案可包括短程无线通信方案。The lighting control device 110 and the lighting device 170 may be connected by a direct wireless communication method. When the lighting control device 110 and the lighting device 170 communicate directly with each other, the lighting control system 10 may be configured using the lighting control device 110 and the lighting device 170 without using a bridge. Additionally, lighting control system 10 may include one or more bridges. When the lighting control system 10 includes a bridge, the lighting control device 110 and the lighting device 170 may communicate through the bridge. Communication includes wireless communication schemes, which may include short-range wireless communication schemes.
桥接器130和150中的每一个可支持相同类型的通信系统或不同类型的通信系统。例如,参照图1,照明控制装置110和桥接器130可使用Wi-Fi通信来连接,并且桥接器150和照明装置170可使用Zigbee通信来连接。桥接器130和150中的每一个可通过以太网连接或者可通过有线方案直接连接。该连接方案是连接使用不同通信方案的照明控制装置110和照明装置170的一个实例,但本公开的连接方案并不限于此。Each of bridges 130 and 150 may support the same type of communication system or different types of communication systems. For example, referring to FIG. 1 , the lighting control device 110 and the bridge 130 may be connected using Wi-Fi communication, and the bridge 150 and the lighting device 170 may be connected using Zigbee communication. Each of the bridges 130 and 150 may be connected through Ethernet or may be directly connected through a wired scheme. This connection scheme is an example of connecting the lighting control device 110 and the lighting device 170 using different communication schemes, but the connection scheme of the present disclosure is not limited thereto.
此外,当使用智能家庭系统时并且当连接到桥接器的家用电器改变时,照明控制系统10可被配置成根据无线照明控制装置110的配置来操作照明装置170。在智能家庭系统中,桥接器130和150可作为智能家庭系统的服务器进行操作。此外,用于执行智能家庭系统的单独服务器可独立于桥接器存在。例如,服务器可从照明控制装置110接收照明控制信息,存储所接收的照明控制信息,并且将照明控制信息与照明装置170进行映射。服务器可存储家用电器与照明装置170之间的映射关系。此外,服务器可存储家用电器的一种或多种状态与照明装置170之间的映射关系。可另外映射照明控制信息。Furthermore, the lighting control system 10 may be configured to operate the lighting device 170 according to the configuration of the wireless lighting control device 110 when using a smart home system and when the home appliances connected to the bridge are changed. In the smart home system, the bridges 130 and 150 may operate as servers of the smart home system. Furthermore, a separate server for implementing the smart home system can exist independently of the bridge. For example, the server may receive lighting control information from the lighting control device 110 , store the received lighting control information, and map the lighting control information with the lighting device 170 . The server may store the mapping relationship between the home appliance and the lighting device 170 . In addition, the server may store the mapping relationship between one or more states of the home appliance and the lighting device 170 . Lighting control information may additionally be mapped.
当家用电器的状态改变时,服务器可从家用电器接收状态通知消息。服务器可基于所接收的状态通知消息确定家用电器的状态。服务器可将与关于所识别的家用电器状态的信息对应的照明控制信息发送至所映射的照明装置。照明装置可接收照明控制信息并且基于所接收的照明控制信息进行操作。用户可接收基于照明装置170的操作的所映射家用电器的状态的通知。When the status of the home appliance changes, the server may receive a status notification message from the home appliance. The server may determine the status of the home appliance based on the received status notification message. The server may transmit lighting control information corresponding to the information on the identified state of the home appliance to the mapped lighting device. The lighting device may receive lighting control information and operate based on the received lighting control information. The user may receive a notification of the status of the mapped home appliance based on the operation of the lighting device 170 .
照明控制装置110可充当服务器。此时,照明控制装置可连接家用电器和照明装置,接收家用电器的状态信息,并且将对应的照明控制信息发送到照明装置。The lighting control device 110 may act as a server. At this time, the lighting control device may connect the household appliance and the lighting device, receive status information of the household appliance, and send corresponding lighting control information to the lighting device.
图2是示出根据本公开的一个实施方案的照明控制装置的框图。FIG. 2 is a block diagram illustrating a lighting control device according to an embodiment of the present disclosure.
参照图2,照明控制装置200可包括通信单元210、控制器230和显示单元250。Referring to FIG. 2 , the lighting control device 200 may include a communication unit 210 , a controller 230 and a display unit 250 .
通信单元210可通过与相邻网络节点的无线连接来执行数据通信。通信单元210可发送/接收数据以便控制网络节点(例如,WLAN接入点(AP)、桥接器等)和照明装置。通信单元210可执行短程通信功能并且可通过短程通信连接到网络节点。The communication unit 210 may perform data communication through a wireless connection with an adjacent network node. The communication unit 210 may transmit/receive data in order to control network nodes (eg, WLAN access point (AP), bridge, etc.) and lighting devices. The communication unit 210 may perform a short-range communication function and may be connected to a network node through short-range communication.
控制器230可控制照明控制装置的一般操作。控制器还可包括照明控制器231。The controller 230 may control general operations of the lighting control device. The controller may also include a lighting controller 231 .
根据本公开的一个实施方案,照明控制器231可被配置成进行控制以便接收照明控制图案信息,确定与所接收的照明控制图案信息对应的操作切换点,通过使用所确定的操作切换点的坐标信息生成照明控制信息,以及发送所生成的照明控制信息。According to an embodiment of the present disclosure, the lighting controller 231 may be configured to control so as to receive lighting control pattern information, determine an operation switching point corresponding to the received lighting control pattern information, and use the coordinates of the determined operation switching point The information generates lighting control information, and the generated lighting control information is transmitted.
此外,根据本公开的一个实施方案,照明控制器231可被配置成进行控制以便接收用于控制照明的图案信息,基于所接收的图案信息生成包括与操作时间信息对应的亮度水平信息的照明控制信息,以及发送所述照明控制信息。In addition, according to an embodiment of the present disclosure, the lighting controller 231 may be configured to control so as to receive pattern information for controlling lighting, and generate lighting control including brightness level information corresponding to operation time information based on the received pattern information. information, and sending said lighting control information.
另外,照明控制器231可被配置成进行控制以便生成被配置成具有照明操作时间和照明亮度水平的二维输入区域,以及在所生成的输入区域中接收图案信息。当照明控制器231在同一时间点接收关于多个亮度水平的图案信息时,照明控制器231可进行控制以便输出误差信息。In addition, the lighting controller 231 may be configured to control so as to generate a two-dimensional input area configured with a lighting operation time and a lighting brightness level, and to receive pattern information in the generated input area. When the lighting controller 231 receives pattern information about a plurality of brightness levels at the same time point, the lighting controller 231 may control so as to output error information.
此外,照明控制器231可被配置成进行控制以便基于图案信息的斜率信息确定操作切换点,以及基于操作切换点之间的时间差和亮度水平差生成照明控制信息。另外,照明控制器231可被配置成进行控制以便在设定的时间单位内对图案信息进行采样,以及基于每个采样点处的时间信息和亮度水平生成照明控制信息。In addition, the lighting controller 231 may be configured to control to determine an operation switching point based on slope information of the pattern information, and to generate lighting control information based on a time difference and a brightness level difference between the operation switching points. In addition, the lighting controller 231 may be configured to control to sample pattern information within a set time unit, and to generate lighting control information based on time information and brightness levels at each sampling point.
照明控制器231可被配置成进行控制以便基于触摸输入区域的时间生成关于开/关操作时间的照明控制信息。The lighting controller 231 may be configured to control so as to generate lighting control information about an on/off operation time based on a time when an input area is touched.
照明控制器231可被配置成进行控制以便基于声音信息的存在或不存在生成照明控制信息。当输入声音信息时,照明控制器231可被配置成进行控制以便将在设定的声音大小范围内的声音输入识别为用于控制照明的输入信号,从而将声音信息与噪声区分开。The lighting controller 231 may be configured to control to generate lighting control information based on the presence or absence of sound information. When sound information is input, the lighting controller 231 may be configured to control to recognize a sound input within a set sound size range as an input signal for controlling lighting, thereby distinguishing the sound information from noise.
此外,照明控制器231可被配置成进行控制以便识别设定的声音类型信息。声音类型信息指示照明的开/关、调光水平控制等。照明控制器231可被配置成进行控制以便基于所识别的声音类型信息生成照明控制信息。此外,照明控制器231可被配置成识别声音信息的大小或频率信息并且基于所述识别控制调光水平。In addition, the lighting controller 231 may be configured to control so as to recognize the set sound type information. Sound type information indicates lighting on/off, dimming level control, etc. The lighting controller 231 may be configured to control so as to generate lighting control information based on the recognized sound type information. In addition, the lighting controller 231 may be configured to recognize magnitude or frequency information of sound information and control a dimming level based on the recognition.
根据本公开的一个实施方案,图案信息包括声音信息,并且照明控制器231可被配置成基于声音信息控制照明控制信息。照明控制器231可被配置成进行控制以便识别用于标识声音信息的声音类型信息,确定所述声音信息中是否包括设定的声音类型信息,以及基于包括在声音信息中的声音类型信息的输入间隔信息生成照明控制信息。According to one embodiment of the present disclosure, the pattern information includes sound information, and the lighting controller 231 may be configured to control the lighting control information based on the sound information. The lighting controller 231 may be configured to control so as to recognize sound type information for identifying sound information, determine whether set sound type information is included in the sound information, and input a sound based on the sound type information included in the sound information. The interval information generates lighting control information.
此外,照明控制器231可被配置成进行控制以便基于文本输入生成照明控制信息。In addition, the lighting controller 231 may be configured to control to generate lighting control information based on text input.
已描述了照明控制器231的功能和操作。然而,照明控制器231的功能和操作并不限于此,并且明显的是,照明控制器231执行根据以下通过图4至图18所描述的本公开的各种实施方案的操作。The function and operation of the lighting controller 231 have been described. However, the functions and operations of the lighting controller 231 are not limited thereto, and it is apparent that the lighting controller 231 performs operations according to various embodiments of the present disclosure described below through FIGS. 4 to 18 .
显示单元250可输出由控制器230输出的用户数据。根据本公开的一个实施方案,显示单元250可显示照明装置的状态,显示照明装置的控制状态,并且显示用于接收照明控制命令的输入区域。此外,显示单元250可显示由控制器控制的控制图案。The display unit 250 may output user data output by the controller 230 . According to one embodiment of the present disclosure, the display unit 250 may display a state of the lighting device, display a control state of the lighting device, and display an input area for receiving a lighting control command. In addition, the display unit 250 may display control patterns controlled by the controller.
输入单元260可接收针对照明控制装置200的一般控制的控制命令。根据本公开的一个实施方案,可通过输入单元接收用于控制照明装置的图案信息。当显示单元250被用作触摸屏时,显示单元250可以用作输入单元260。The input unit 260 may receive a control command for general control of the lighting control device 200 . According to one embodiment of the present disclosure, pattern information for controlling the lighting device may be received through the input unit. When the display unit 250 is used as a touch screen, the display unit 250 may be used as the input unit 260 .
同时,已分块描述了照明控制装置200。然而,所划分的块是为了描述方便,本公开的范围并不限于此。Meanwhile, the lighting control device 200 has been described in blocks. However, the divided blocks are for convenience of description, and the scope of the present disclosure is not limited thereto.
图3是示出根据本公开的一个实施方案的照明装置的框图。FIG. 3 is a block diagram illustrating a lighting device according to an embodiment of the present disclosure.
参照图3,照明装置300包括通信单元310、控制器330、光输出单元350和存储器370。Referring to FIG. 3 , the lighting device 300 includes a communication unit 310 , a controller 330 , a light output unit 350 and a memory 370 .
通信单元310可与相邻的网络节点执行数据通信。通信单元310可包括用于执行短程通信的通信模块。照明装置300可通过通信单元310的短程通信网络与照明控制装置形成网络并且发送/接收数据。通信单元310可通过桥接器与照明控制装置通信。The communication unit 310 may perform data communication with neighboring network nodes. The communication unit 310 may include a communication module for performing short-range communication. The lighting device 300 may form a network with a lighting control device through a short-range communication network of the communication unit 310 and transmit/receive data. The communication unit 310 may communicate with the lighting control device through the bridge.
控制器330可控制照明装置300的一般操作。控制器330可根据本公开的一个实施方案来控制照明装置。此时,控制器330可通过控制照明通信单元310来与照明控制装置通信。例如,控制器330可被配置成进行控制以便从照明控制装置接收调光控制信息和操作时间控制信息。此外,控制器330可被配置成进行控制以便基于所接收的调光控制信息和操作时间控制信息,通过控制光输出单元350来执行闪烁操作。The controller 330 may control general operations of the lighting device 300 . The controller 330 may control the lighting device according to one embodiment of the present disclosure. At this time, the controller 330 may communicate with the lighting control device by controlling the lighting communication unit 310 . For example, the controller 330 may be configured to control to receive dimming control information and operating time control information from the lighting control device. In addition, the controller 330 may be configured to control to perform a blinking operation by controlling the light output unit 350 based on the received dimming control information and operation time control information.
光输出单元350产生光。此时,光输出单元350可通过执行闪烁操作输出光。光输出单元350可以在输出时间间隔期间输出光并且随后可重复阻止光的操作,而在阻止光间隔期间不输出光。例如,光输出单元350可包括作为光源的多个发光二极管(LED)。然而,LED是光源的一个实施方案,光源并不限于LED。The light output unit 350 generates light. At this time, the light output unit 350 may output light by performing a blinking operation. The light output unit 350 may output light during the output time interval and may then repeat the operation of blocking light without outputting light during the light blocking interval. For example, the light output unit 350 may include a plurality of light emitting diodes (LEDs) as light sources. However, the LED is one embodiment of the light source, and the light source is not limited to the LED.
存储器370可由程序存储器和数据存储器进行配置。程序存储器可存储用于控制照明装置300的一般操作的程序。此时,程序存储器可存储用于根据本公开的一个实施方案执行照明控制操作的程序。数据存储器可存储在执行程序期间生成的数据。Memory 370 is configurable by program memory and data memory. The program memory may store programs for controlling general operations of the lighting device 300 . At this time, the program memory may store a program for performing a lighting control operation according to one embodiment of the present disclosure. Data memory stores data generated during program execution.
同时,已分块描述了照明装置300。然而,所划分的块是为了描述方便,本公开的范围并不限于此。Meanwhile, the lighting device 300 has been described in blocks. However, the divided blocks are for convenience of description, and the scope of the present disclosure is not limited thereto.
图4是示出根据本公开的一个实施方案的照明控制信息输入屏幕的视图。FIG. 4 is a view illustrating an illumination control information input screen according to one embodiment of the present disclosure.
参照图4,示出根据本公开的一个实施方案的用于接收照明控制信息的显示单元400的配置。在图4中,显示单元400可执行显示用于控制照明的应用的功能,并且还充当用于接收照明控制信息的输入单元。在下文中,假设显示单元400的屏幕处于用于控制照明装置的应用的一种状态下。Referring to FIG. 4 , there is shown a configuration of a display unit 400 for receiving lighting control information according to one embodiment of the present disclosure. In FIG. 4 , the display unit 400 may perform a function of displaying an application for controlling lighting, and also serve as an input unit for receiving lighting control information. Hereinafter, it is assumed that the screen of the display unit 400 is in a state of an application for controlling a lighting device.
基于图案信息控制照明装置的应用的屏幕可包括模式显示区域410、图案输入区域430和周期配置区域450。A screen of an application for controlling a lighting device based on pattern information may include a mode display area 410 , a pattern input area 430 , and a cycle configuration area 450 .
模式显示区域410是用于示出应用的当前输入模式的模式。例如,照明控制装置可执行用于控制照明装置的各种模式,模式显示区域是在一种或多种模式中用于由当前用户进行控制的模式的属性的区域。例如,在模式显示区域410中显示短语“图案”的当前情况描述了照明控制应用的模式属性是用于通过图案输入来配置照明控制的模式。页面配置取消区域411是用于基于在图案输入区域430中配置的图案信息来输入用于取消控制信息配置的用户控制命令的区域。关于输入到图案输入区域430中的图案信息的配置信息可根据用户的控制命令重置或取消。此外,页面配置完成区域413是用于基于在图案输入区域430中配置的图案信息来输入用于完成控制信息配置的用户控制命令的区域。因此,关于输入到图案输入区域430中的图案信息的配置信息可根据用户的控制命令进行存储。The mode display area 410 is a mode for showing the current input mode of the application. For example, the lighting control device may execute various modes for controlling the lighting device, and the mode display area is an area for attributes of a mode controlled by a current user among the one or more modes. For example, the current situation that the phrase "pattern" is displayed in the mode display area 410 describes that the mode attribute of the lighting control application is a mode for configuring lighting control through pattern input. The page configuration cancel area 411 is an area for inputting a user control command for canceling the configuration of control information based on the pattern information configured in the pattern input area 430 . Configuration information about pattern information input into the pattern input area 430 may be reset or canceled according to a user's control command. Also, the page configuration completion area 413 is an area for inputting a user control command for completing configuration of control information based on the pattern information configured in the pattern input area 430 . Accordingly, configuration information on pattern information input into the pattern input area 430 may be stored according to a user's control command.
图案输入区域430可从用户接收图案信息。可将图案信息转换成用于照明控制的照明控制信息并且发送到待控制的照明装置。例如,图案输入区域430可显示为具有x轴和y轴的二维图案输入区域430。根据图4的实施方案,图案输入区域430的x轴是对应于照明装置的操作时间的时间区域。例如,x轴值对应于操作时间并且当前x轴值与整个x轴长度的比率可对应于当前操作时间对总时间。对应于整个x轴长度的时间值可被配置为基值或由对应于在周期配置区域450中所选择的周期的时间值进行配置。例如,当在当前周期配置区域450中选择4秒时,x轴的总周期可以被配置为4秒。此时,所配置的周期可显示为如参考数字451所指示,或者可以显示为与周期配置区域450内的其他选择元素区分开。相对于所配置的总x轴长度,x轴的左端部可以被配置为时间轴的起点并且右端部可以被配置为终点。x轴的配置和x轴的配置方法并不将本公开的范围限制于此。The pattern input area 430 may receive pattern information from a user. The pattern information may be converted into lighting control information for lighting control and sent to the lighting device to be controlled. For example, the pattern input area 430 may be displayed as a two-dimensional pattern input area 430 having an x-axis and a y-axis. According to the embodiment of FIG. 4 , the x-axis of the pattern input area 430 is a time area corresponding to the operating time of the lighting device. For example, an x-axis value corresponds to operating time and a ratio of the current x-axis value to the entire x-axis length may correspond to current operating time to total time. A time value corresponding to the entire x-axis length may be configured as a base value or configured by a time value corresponding to a cycle selected in the cycle configuration area 450 . For example, when 4 seconds is selected in the current period configuration area 450, the total period of the x-axis may be configured as 4 seconds. At this time, the configured cycle may be displayed as indicated by reference numeral 451 , or may be displayed to be distinguished from other selection elements within the cycle configuration area 450 . With respect to the configured total x-axis length, the left end of the x-axis may be configured as the start point of the time axis and the right end may be configured as the end point. The configuration of the x-axis and the method of configuring the x-axis do not limit the scope of the present disclosure thereto.
y轴431对应于与照明装置的调光对应的调光水平区域。例如,当前y轴值与总y轴长度的比率可以是当前调光水平对100%的调光水平。如图4所示,可显示调光水平信息。调光水平信息可以用明确的数字表达或者可以用对应于调光水平的色温来表达以便直观地示出调光水平,如图4所示。当y轴未明确显示时,根据基本设置,y轴的最低部分可被配置为调光水平0并且y轴的最高部分可被配置为调光水平100。y轴的配置和y轴的配置方法并不将本公开的范围限制于此。调光可作为照明亮度的类似意义使用。The y-axis 431 corresponds to a dimming level region corresponding to dimming of the lighting device. For example, the ratio of the current y-axis value to the total y-axis length may be the current dimming level to a 100% dimming level. As shown in Figure 4, dimming level information can be displayed. Dimming level information may be expressed in explicit numbers or may be expressed in color temperature corresponding to the dimming level in order to visually show the dimming level, as shown in FIG. 4 . When the y-axis is not explicitly shown, the lowest part of the y-axis can be configured as a dimming level of 0 and the highest part of the y-axis can be configured as a dimming level of 100, according to a basic setup. The configuration of the y-axis and the method of configuring the y-axis do not limit the scope of the present disclosure thereto. Dimming can be used in a similar sense as lighting brightness.
根据本公开的一个实施方案,用户可根据针对图案输入区域430的图案信息437的输入来确定照明装置的调光水平和操作时间。调光水平和操作时间可实时进行操作以便彼此对应,或者对应于图案的点435的调光水平可在每个设定的时间段进行操作。例如,基于图4中所描述的图案信息437的输入,可以分析出完全增加调光水平的图案是根据时间流逝而输入的。图案信息可以是包括点或线的图案信息。例如,在图4中,尽管图案信息是通过连接线输入的,但图案信息可通过点或不连接的线输入。当图案信息是通过点或不连接的线输入时,可根据时间轴上的序列通过随后连接不连续的图案来分析照明控制信息。例如,根据本公开的一个实施方案,可通过基于用户的需要所生成的定制的照明控制信息来控制照明。According to one embodiment of the present disclosure, a user may determine a dimming level and an operating time of the lighting device according to an input of pattern information 437 for the pattern input area 430 . The dimming level and the operating time may be operated in real time so as to correspond to each other, or the dimming level corresponding to the point 435 of the pattern may be operated every set period of time. For example, based on the input of the pattern information 437 described in FIG. 4 , it can be analyzed that the pattern of fully increasing the dimming level is input according to the lapse of time. The pattern information may be pattern information including dots or lines. For example, in FIG. 4, although the pattern information is input through connected lines, the pattern information may be input through dots or unconnected lines. When the pattern information is input through dots or unconnected lines, the lighting control information may be analyzed by subsequently connecting the discontinuous patterns according to the sequence on the time axis. For example, according to one embodiment of the present disclosure, lighting may be controlled through customized lighting control information generated based on user's needs.
同时,当照明控制图案输入中存在具有相同x轴值的点时,它指示同时输入了两个控制命令。因此,当做出具有相同x轴值的输入时,可向用户显示若干条消息。此外,因为图案输入区域430具有x轴的最大值和最小值,所以如果当前x坐标超出最小<x坐标<最大的范围,可显示误差消息。然而,在当前x坐标超出输入可用的x坐标范围时,可不生成误差消息。另外,超出范围的值不可用于生成控制信息并且图案输入区域430内的图案信息可用于生成控制信息。类似地,当y轴图案超出图案输入区域430范围时,可以生成误差消息或可以使用除了超出范围的值之外的在图案输入区域430内的图案信息来生成控制信息。Meanwhile, when there are points with the same x-axis value in the lighting control pattern input, it indicates that two control commands are simultaneously input. Thus, several messages may be displayed to the user when an input is made with the same x-axis value. In addition, since the pattern input area 430 has the maximum and minimum values of the x-axis, if the current x-coordinate exceeds the range of minimum<x-coordinate<max, an error message may be displayed. However, an error message may not be generated when the current x-coordinate is outside the x-coordinate range available for input. Additionally, values out of range may not be used to generate control information and pattern information within the pattern input area 430 may be used to generate control information. Similarly, when the y-axis pattern is outside the range of the pattern entry area 430, an error message may be generated or control information may be generated using pattern information within the pattern entry area 430 other than the out-of-range value.
图案输入区域430可包括取消命令输入区域433。当在图案信息437的输入之后将控制命令输入到取消命令输入区域433中时,可以删除所生成的图案信息437。The pattern input area 430 may include a cancel command input area 433 . When a control command is input into the cancel command input area 433 after input of the pattern information 437, the generated pattern information 437 may be deleted.
图5是示出根据本公开的一个实施方案的照明控制方法的流程图。FIG. 5 is a flowchart illustrating a lighting control method according to one embodiment of the present disclosure.
同时,以下描述的照明控制方法可通过照明控制装置的控制器或照明控制器来执行。Meanwhile, the lighting control method described below may be performed by a controller of a lighting control device or a lighting controller.
参照图5,可以首先执行照明控制应用来控制照明。此后,在操作S510中,可以将用于控制照明的图案信息输入到照明控制装置中。图案信息可包括设计图案。例如,图案信息可以是包括线或点的图像信息。Referring to FIG. 5 , a lighting control application may be executed first to control lighting. Thereafter, pattern information for controlling lighting may be input into the lighting control device in operation S510. The pattern information may include design patterns. For example, pattern information may be image information including lines or dots.
在操作S530中,照明控制装置可生成照明控制信息。照明控制信息可以是发送用于控制照明的控制信息。照明控制信息可基于输入图案信息形成。照明控制信息可以是与每一条时间信息对应的调光信息的控制信息。此外,照明控制信息可以是基于每个调光水平的控制信息,所述每个调光水平与对应于设定的时间配置周期的每一个时间点相对应。In operation S530, the lighting control device may generate lighting control information. The lighting control information may be control information transmitted for controlling lighting. The lighting control information may be formed based on the input pattern information. The lighting control information may be control information of dimming information corresponding to each piece of time information. In addition, the lighting control information may be control information based on each dimming level corresponding to each time point corresponding to a set time configuration period.
在操作S550中,照明控制装置可发送所生成的照明控制信息。可以将照明控制信息从照明控制装置直接发送到灯。此外,可通过无线AP或桥接器将照明控制信息发送到灯。In operation S550, the lighting control device may transmit the generated lighting control information. Lighting control information can be sent from the lighting control device directly to the lamps. Additionally, lighting control information can be sent to the lights through a wireless AP or bridge.
图6是示出根据本公开的一个实施方案的输入图案信息的方法的流程图。FIG. 6 is a flowchart illustrating a method of inputting pattern information according to one embodiment of the present disclosure.
参照图6,当首先执行照明控制应用以控制照明时,可输出照明图案信息配置页面。在操作S610中,可以在配置页面中生成用于输入照明图案信息的输入区域。同时,尽管图6的实施方案描述了首先生成输入区域,但可在操作时间之后生成对应的输入区域并且配置调光水平。当首先形成输入区域时,输入区域可根据设定的默认值生成。当稍后存在操作时间或调光水平的配置变化或者存在所述变化的输入时,输入区域的操作时间和调光水平的属性可改变成对应值。Referring to FIG. 6 , when the lighting control application is first executed to control lighting, a lighting pattern information configuration page may be output. In operation S610, an input area for inputting lighting pattern information may be generated in the configuration page. Meanwhile, although the embodiment of FIG. 6 describes generating an input area first, a corresponding input area may be generated and a dimming level configured after an operating time. When the input area is formed first, the input area may be generated according to the set default value. When there is a configuration change of the operation time or the dimming level later or there is an input of the change, the attributes of the operation time and the dimming level of the input area may be changed to corresponding values.
在操作S630中,可根据照明控制装置来配置照明装置的操作时间。配置操作时间的操作可以在生成输入区域的操作之前或在配置调光水平的操作之后执行。此外,配置操作时间的操作可能不是必需的。操作时间可以使用设定值。当输入区域预生成时,可根据设定的操作时间来改变或重新配置输入区域的操作时间的属性信息。当输入区域未生成时,可以生成对应于下一个操作时间的输入区域。In operation S630, an operating time of the lighting device may be configured according to the lighting control device. The operation of configuring the operation time may be performed before the operation of generating the input area or after the operation of configuring the dimming level. Also, the operation of configuring the operating time may not be necessary. The operating time can use the set value. When the input area is pre-generated, the attribute information of the operation time of the input area may be changed or reconfigured according to the set operation time. When the input area is not generated, an input area corresponding to the next operation time may be generated.
在操作S650中,可根据照明控制装置来配置照明装置的调光水平。类似于配置操作时间的操作,配置调光水平的操作可以在生成输入区域的操作之前或在配置操作时间的操作之后执行。此外,配置调光水平的操作可以使用基值。例如,当输入区域的y轴被用作调光水平的参考时,当前y轴值与总y轴长度的比率可以是当前调光水平对100%的调光水平。当在默认情况下使用基值时,可以省略配置调光水平的操作。在配置调光水平时,可根据用户的请求来控制最高调光水平或最低调光水平。根据照明操作时间的配置生成输入区域是本公开的一个实施方案,但本公开并不限于此。In operation S650, a dimming level of the lighting device may be configured according to the lighting control device. Similar to the operation of configuring the operation time, the operation of configuring the dimming level may be performed before the operation of generating the input area or after the operation of configuring the operation time. Additionally, operations that configure the dimming level can use the base value. For example, when the y-axis of the input area is used as a reference for the dimming level, the ratio of the current y-axis value to the total y-axis length may be the current dimming level to the 100% dimming level. Configuring the dimming level can be omitted when the base value is used by default. When configuring the dimming level, the highest dimming level or the lowest dimming level can be controlled according to the user's request. Generating the input area according to the configuration of the lighting operation time is an embodiment of the present disclosure, but the present disclosure is not limited thereto.
根据操作S610至S630,可以生成在其中配置调光水平和操作时间的输入区域。此后,假设输入区域对应于二维区域,所述二维区域具有对应于操作时间的x轴和对应于调光水平的y轴。x轴和y轴的配置可根据用户的意图而改变。According to operations S610 to S630, an input area in which a dimming level and an operation time are configured may be generated. Hereinafter, it is assumed that the input area corresponds to a two-dimensional area having an x-axis corresponding to the operation time and a y-axis corresponding to the dimming level. The configuration of the x-axis and the y-axis can be changed according to the user's intention.
在操作S670中,可输入图案信息。可基于图案信息生成照明控制信息。可将图案信息输入到所生成的输入区域中。图案信息可以是包括点或线的图案信息。此外,图案信息可通过触摸输入来输入。例如,可以输入在触摸输入模式下使得照明在触摸时间期间打开并且使得照明在非触摸时间期间关闭的图案信息。当通过触摸时间输入信息时,可生成对应于用户期望的直观时间的照明控制信息。In operation S670, pattern information may be input. The lighting control information may be generated based on the pattern information. Pattern information can be entered into the generated input field. The pattern information may be pattern information including dots or lines. Also, pattern information may be input through a touch input. For example, pattern information that turns on lighting during a touch time and turns off lighting during a non-touch time in a touch input mode may be input. When information is input by touching time, lighting control information corresponding to a user's desired intuitive time may be generated.
在操作S690中,当配置图案信息时,可存储由用户输入的图案信息。In operation S690, when configuring the pattern information, the pattern information input by the user may be stored.
同时,以上已描述了输入新图案信息的方法。然而,至少一条图案信息可存储在照明控制装置的存储单元中。当用户生成新图案信息时,所述图案信息可存储在照明控制装置的存储单元中。此外,当用户加载存储在存储单元中的图案时,所存储的图案可改变并且通过上述过程存储。Meanwhile, the method of inputting new pattern information has been described above. However, at least one piece of pattern information may be stored in a storage unit of the lighting control device. When a user generates new pattern information, the pattern information may be stored in a storage unit of the lighting control device. In addition, when a user loads a pattern stored in the storage unit, the stored pattern may be changed and stored through the above-described process.
基本上,照明控制装置可生成对应于输入图案信息的操作时间和调光水平的照明控制信息。在这种情况下,可以生成与对应于每个操作时间的调光水平有关的照明控制信息。同时,当实时生成与对应于操作时间的调光水平有关的照明控制信息时,照明控制装置和照明装置中可能产生过载。因此,可以使用操作切换点、拐点、时间采样等来生成照明控制信息。在下文中,将描述使用上述方法生成照明控制信息的方法。Basically, the lighting control device may generate lighting control information corresponding to the operation time and dimming level of the input pattern information. In this case, lighting control information related to a dimming level corresponding to each operation time may be generated. Meanwhile, when the lighting control information related to the dimming level corresponding to the operation time is generated in real time, an overload may be generated in the lighting control device and the lighting device. Therefore, lighting control information can be generated using operation switching points, inflection points, time samples, and the like. Hereinafter, a method of generating lighting control information using the above method will be described.
将参照图7、图8、图9、图10和图11来描述根据本公开的一个实施方案的生成照明控制信息的方法。A method of generating lighting control information according to one embodiment of the present disclosure will be described with reference to FIGS. 7 , 8 , 9 , 10 , and 11 .
图7是用于示出根据本公开的一个实施方案的生成照明控制信息的方法的流程图,图8是示出根据本公开的一个实施方案的在生成照明控制信息时确定操作切换点的方法的图表,图9是示出根据本公开的一个实施方案的对应于照明控制信息的协议的视图,图10是示出根据本公开的一个实施方案的时间采样方法的图表,并且图11是示出根据本公开的一个实施方案的确定操作切换点的方法的图表。7 is a flow chart illustrating a method of generating lighting control information according to an embodiment of the present disclosure, and FIG. 8 is a flowchart illustrating a method of determining an operation switching point when generating lighting control information according to an embodiment of the present disclosure. 9 is a diagram showing a protocol corresponding to lighting control information according to an embodiment of the present disclosure, FIG. 10 is a diagram showing a time sampling method according to an embodiment of the present disclosure, and FIG. 11 is a diagram showing A diagram of a method of determining an operation switching point according to an embodiment of the present disclosure is shown.
在下文中,假设输入图案信息是包括线的图案信息。Hereinafter, it is assumed that the input pattern information is pattern information including lines.
参照图7,在操作S710中,照明控制装置可以确定输入图案信息的起点和终点。在包括线的图案信息中,对应于时间轴上的最低水平的图案部分可以是起点而对应于时间轴上的最高水平的图案部分可以是终点。参照图8,可以提取由图8的参照数字811指示的部分作为起点并且将由图8的参照数字815指示的部分确定为终点。Referring to FIG. 7 , in operation S710, the lighting control device may determine a start point and an end point of input pattern information. In pattern information including lines, a pattern portion corresponding to the lowest level on the time axis may be a start point and a pattern portion corresponding to the highest level on the time axis may be an end point. Referring to FIG. 8 , a portion indicated by reference numeral 811 of FIG. 8 may be extracted as a starting point and a portion indicated by reference numeral 815 of FIG. 8 may be determined as an end point.
在操作S730中,照明控制装置可确定操作切换点。操作切换点可以是图案信息的斜率属性改变或存在大于设定斜率或更多的改变的点。此外,操作切换点可包括起点和终点。例如,斜率属性可包括图案信息的斜率从正值改变成负值或从负值改变成正值的位置。此外,斜率属性可包括斜率值从正值或负值改变成0或从0改变成正值或负值的位置。另外,可以将图案信息的斜率中的不连续位置确定为操作切换点。另外,当斜率变化大于或等于设定变化时,可将所述位置确定为操作切换点。In operation S730, the lighting control device may determine an operation switching point. The operation switching point may be a point at which the slope property of the pattern information changes or there is a change greater than a set slope or more. In addition, the operation switching point may include a start point and an end point. For example, the slope attribute may include a position where the slope of the pattern information changes from a positive value to a negative value or from a negative value to a positive value. Additionally, the slope attribute may include locations where the slope value changes from a positive or negative value to 0 or from 0 to a positive or negative value. In addition, a discontinuous position in the slope of the pattern information may be determined as an operation switching point. In addition, when the slope change is greater than or equal to the set change, the position may be determined as an operation switching point.
此外,在操作S750中,照明控制装置可生成控制信息。Also, in operation S750, the lighting control device may generate control information.
参照图8,可以将由参考数字812、813和814指示的部分确定为操作切换点。因为参考数字812对应于斜率值从正值改变成0的部分,所以可以将所述部分确定为操作切换点。因为参考数字813对应于斜率值从负值改变成0的部分、斜率变化不连续的部分、或存在大于或等于设定参考值的斜率变化的部分,所以可以将所述部分确定为操作切换点。此外,因为参考数字814是斜率变化不连续的部分或存在大于或等于设定参考值的斜率变化的部分,所以可以将所述部分确定为操作切换点。Referring to FIG. 8, portions indicated by reference numerals 812, 813, and 814 may be determined as operation switching points. Since reference numeral 812 corresponds to a portion where the slope value changes from a positive value to 0, the portion can be determined as an operation switching point. Since reference numeral 813 corresponds to a portion where the slope value changes from a negative value to 0, a portion where the slope change is discontinuous, or a portion where there is a slope change greater than or equal to a set reference value, the portion can be determined as an operation switching point . Furthermore, since the reference numeral 814 is a portion where the slope change is discontinuous or where there is a slope change greater than or equal to the set reference value, the portion can be determined as an operation switching point.
当确定了操作切换点时,可以确定操作间隔。例如,在图8中,可以将起点811与第一操作切换点812之间的间隔确定为第一操作间隔t811,可以将第一操作切换点812与第二操作切换点813之间的间隔确定为第二操作间隔t812,可以将第二操作切换点813与第三操作切换点814之间的间隔确定为第三操作间隔t813,并且可以将第三操作切换点814与终点815之间的间隔确定为第四操作间隔t814。第一操作间隔t811是调光水平根据时间流逝增加的操作间隔,并且第二操作间隔t812是调光水平根据时间流逝降低的操作间隔。第三操作间隔t813是调光水平根据时间流逝保持恒定的操作间隔,并且第四操作间隔t814是调光水平根据时间流逝增加的操作间隔。When the operation switching point is determined, the operation interval can be determined. For example, in FIG. 8, the interval between the starting point 811 and the first operation switching point 812 can be determined as the first operation interval t811, and the interval between the first operation switching point 812 and the second operation switching point 813 can be determined as As the second operation interval t812, the interval between the second operation switching point 813 and the third operation switching point 814 can be determined as the third operation interval t813, and the interval between the third operation switching point 814 and the end point 815 can be determined as It is determined as the fourth operation interval t814. The first operation interval t811 is an operation interval in which the dimming level increases according to the lapse of time, and the second operation interval t812 is an operation interval in which the dimming level decreases according to the lapse of time. The third operation interval t813 is an operation interval in which the dimming level is kept constant according to the lapse of time, and the fourth operation interval t814 is an operation interval in which the dimming level is increased according to the lapse of time.
当确定了操作切换点时,可以使用关于起点、终点和操作切换点的信息来生成照明控制信息。可以使用所确定的起点、终点和操作切换点的坐标来生成照明控制信息。可以针对每个操作间隔确定照明控制信息。When the operation switching point is determined, lighting control information may be generated using information on the start point, the end point, and the operation switching point. Lighting control information can be generated using the determined coordinates of the start point, end point, and operation switching point. Lighting control information may be determined for each operation interval.
x轴上的起点的值可以是操作时间的偏移量,并且y轴上的起点的值可以是调光控制值。可以将基于起点、终点和操作切换点的x轴上的值之间的差值确定为每个操作间隔的操作时间。此外,可以将操作间隔中的y轴上的值之间的差值确定为操作间隔中的调光水平变化。可以将x轴上的操作切换点之间的差值的比率(总操作时间*(t操作间隔长度/x轴长度)确定为每个操作间隔的操作时间。每个操作切换点的y轴值可以被配置为调光值(100*(d/y轴长度))。相对于每个操作间隔,照明控制装置可以生成照明控制信息,所述照明控制信息用于将具有操作间隔的起点与终点之间相同比率的调光值从操作间隔的起始调光值改变成最终调光值。The value of the starting point on the x-axis may be the offset of the operating time, and the value of the starting point on the y-axis may be the dimming control value. The difference between values on the x-axis based on the start point, end point, and operation switching point may be determined as the operation time for each operation interval. Furthermore, the difference between the values on the y-axis in the operation interval may be determined as the dimming level change in the operation interval. The ratio of the difference between operation switching points on the x-axis (total operation time*(t operation interval length/x-axis length) can be determined as the operation time for each operation interval. The y-axis value of each operation switching point Can be configured as a dimming value (100*(d/y-axis length)). For each operation interval, the lighting control device can generate lighting control information, which is used to set the start and end points of the operation interval The same ratio between the dimming value changes from the initial dimming value to the final dimming value of the operating interval.
照明控制信息可包括照明控制图案信息和照明控制命令协议信息。照明控制装置可使用起点、终点、操作切换点、偏移时间、操作间隔以及调光控制值来生成命令协议,如图9所示。The lighting control information may include lighting control pattern information and lighting control command protocol information. The lighting control device may use the start point, end point, operation switching point, offset time, operation interval, and dimming control value to generate a command protocol, as shown in FIG. 9 .
参照图9,id指代图案识别信息。图案识别信息可以是用于识别图案信息的图案名称。在图9的实施方案中,“pattern1”可以是图案的名称。“Playtime”是对应于图案信息的总操作时间的长度。在图9的实施方案中,图案的总操作时间是40秒(当时间单位是秒时)。将一起参照图8和图9来做出以下描述。在图8中,第一操作间隔t811的起点811的调光水平是10,第一操作间隔t811的终点812的调光水平是90,并且操作间隔的长度是10秒。基于第一操作间隔的控制信息,第一操作间隔起始于调光水平10并且在10秒内达到调光水平90。因为第二操作间隔t812的起点812对应于第一操作间隔t811的终点812,所以第二操作间隔t812的起点812的调光水平是90,第二操作间隔t812的终点813的调光水平是10,并且操作间隔的长度是10秒。基于第二操作间隔的控制信息,第二操作间隔起始于调光水平90并且在10秒内达到调光水平10。通过这种方法,可以生成对应于图案信息的照明控制信息。Referring to FIG. 9, id refers to pattern identification information. The pattern identification information may be a pattern name for identifying the pattern information. In the embodiment of FIG. 9, "pattern1" may be the name of the pattern. "Playtime" is the length of the total operation time corresponding to the pattern information. In the embodiment of FIG. 9, the total operation time of the patterns is 40 seconds (when the time unit is seconds). The following description will be made with reference to FIGS. 8 and 9 together. In FIG. 8 , the dimming level at the start point 811 of the first operation interval t811 is 10, the dimming level at the end point 812 of the first operation interval t811 is 90, and the length of the operation interval is 10 seconds. Based on the control information for the first operating interval, the first operating interval starts at dimming level 10 and reaches dimming level 90 within 10 seconds. Because the start point 812 of the second operation interval t812 corresponds to the end point 812 of the first operation interval t811, the dimming level at the start point 812 of the second operation interval t812 is 90, and the dimming level at the end point 813 of the second operation interval t812 is 10. , and the length of the operation interval is 10 seconds. Based on the control information for the second operating interval, the second operating interval starts at dimming level 90 and reaches dimming level 10 within 10 seconds. By this method, lighting control information corresponding to pattern information can be generated.
生成照明控制信息的另一种方法可包括时间采样方法。Another method of generating lighting control information may include time sampling methods.
参照图10,可以在相对于总操作时间T的设定时间间隔t处对总操作间隔进行采样。在图10的实施方案中,总操作时间T被分成十六个间隔进行采样。照明控制装置可提取对应于每个采样位置的调光信息。照明控制装置可使用所提取的信息生成包括关于采样时间点的调光信息的照明控制信息。Referring to FIG. 10 , the total operation interval may be sampled at a set time interval t relative to the total operation time T. Referring to FIG. In the embodiment of Figure 10, the total operating time T is divided into sixteen intervals for sampling. The lighting control device may extract dimming information corresponding to each sampling location. The lighting control device may generate lighting control information including dimming information on the sampling time point using the extracted information.
生成照明控制信息的另一种方法可包括通过使用拐点确定操作切换点的方法。Another method of generating lighting control information may include a method of determining an operation switching point by using an inflection point.
参照图11,当最初接收到图案输入时,可以使用前一个点和当前点的坐标来计算斜率。当斜率的角度之间的差值大于或等于设定阈值时,可将所述部分确定为操作切换点。从起点或操作切换点连续地计算每个时间点处的斜率。将当前斜率与设定斜率的最大值或最小值进行比较。在当前斜率大于给出权重与设定最小值的比值时,可以将具有当前斜率的位置确定为操作切换点。例如,如果当前斜率>a*最小(1<a<2),可以将具有当前斜率的位置确定为操作切换点。例如,当a为1.5时,可以将具有比特定时间点处的斜率大1.5倍的斜率的位置确定为操作切换点。此外,在当前斜率小于给出权重与设定最大值的比值时,可以将具有当前斜率的位置确定为操作切换点。例如,如果当前斜率<b*最大(0<b<1),可以将具有当前斜率的位置确定为操作切换点。例如,当b为0.5时,可以将具有比特定时间点处的斜率大0.5倍的斜率的位置确定为操作切换点。当确定了操作切换点时,基于所确定的操作切换点生成照明控制信息的方法类似于图7和图8中所描述的方法。Referring to FIG. 11 , when a pattern input is initially received, a slope may be calculated using coordinates of a previous point and a current point. When a difference between angles of slopes is greater than or equal to a set threshold, the portion may be determined as an operation switching point. The slope at each time point is calculated continuously from the starting point or operation switching point. Compare the current slope with the maximum or minimum value of the set slope. When the current slope is greater than the ratio of the given weight to the set minimum value, the position with the current slope can be determined as the operation switching point. For example, if the current slope>a*min (1<a<2), the position with the current slope can be determined as the operation switching point. For example, when a is 1.5, a position having a slope greater than 1.5 times the slope at a certain point in time may be determined as an operation switching point. In addition, when the current slope is smaller than the ratio of the given weight to the set maximum value, the position with the current slope can be determined as the operation switching point. For example, if the current slope<b*max (0<b<1), the position with the current slope can be determined as the operation switching point. For example, when b is 0.5, a position having a slope greater than 0.5 times the slope at a certain point in time may be determined as an operation switching point. When an operation switching point is determined, a method of generating lighting control information based on the determined operation switching point is similar to the methods described in FIGS. 7 and 8 .
照明控制装置可以通过将通过上述方法生成的照明控制信息发送到照明装置来控制照明装置。照明控制装置可以直接将照明控制信息发送到照明装置。此外,在不直接将所生成的控制信息发送到照明装置的情况下,照明控制装置可以通过桥接器或无线AP来发送所述控制信息。已接收到照明控制信息的桥接器可将所接收的信息发送到照明装置。桥接器可以存储所接收的照明控制信息。照明装置可根据所接收的照明控制信息进行操作。The lighting control device may control the lighting device by transmitting the lighting control information generated by the method described above to the lighting device. The lighting control device may send lighting control information directly to the lighting device. In addition, without directly transmitting the generated control information to the lighting device, the lighting control device may transmit the control information through a bridge or a wireless AP. A bridge that has received the lighting control information may send the received information to the lighting device. The bridge can store the received lighting control information. The lighting device is operable according to the received lighting control information.
照明控制装置可附加地接收请求照明控制信息的命令。照明控制信息可包括请求照明控制图案列表的信息。当接收到照明控制信息请求消息时,照明控制装置可展示所存储的照明控制信息或加载并展示对应于每一条照明控制信息的图案列表。在这种情况下,照明控制装置可展示存储在桥接器中的照明控制信息以及存储在照明控制装置本身中的照明控制信息。The lighting control device may additionally receive commands requesting lighting control information. The lighting control information may include information requesting a list of lighting control patterns. When receiving the lighting control information request message, the lighting control device may display the stored lighting control information or load and display a pattern list corresponding to each piece of lighting control information. In this case, the lighting control device may exhibit the lighting control information stored in the bridge as well as the lighting control information stored in the lighting control device itself.
照明控制装置可显示至少一条照明控制信息或对应于照明控制信息的图案。此外,可以显示图案图像和对应于每个图案的操作时间。当选择多条照明控制信息中的至少一个时,可以展示对应于所选择的照明控制信息的图案图像和操作时间。The lighting control device may display at least one piece of lighting control information or a pattern corresponding to the lighting control information. In addition, pattern images and operation time corresponding to each pattern can be displayed. When at least one of the pieces of lighting control information is selected, a pattern image and an operation time corresponding to the selected lighting control information may be presented.
另外,用户可以修改所存储的图案信息。例如,当用户修改总操作时间时,可以重新计算每个操作切换点的x轴比值并且可以存储所修改的照明控制信息。可以将所修改的信息存储在照明控制装置中。此外,可以将所修改的信息存储在桥接器中。In addition, the user can modify the stored pattern information. For example, when the user modifies the total operating time, the x-axis ratio of each operating switching point may be recalculated and the modified lighting control information may be stored. The modified information may be stored in the lighting control device. Additionally, the modified information can be stored in the bridge.
此后,将描述根据本公开的另一个实施方案的输入照明控制信息的方法。根据本公开的另一个实施方案,可建议使用声音信息输入照明控制信息的方法或基于文本输入照明控制信息的方法。Hereinafter, a method of inputting lighting control information according to another embodiment of the present disclosure will be described. According to another embodiment of the present disclosure, a method of inputting lighting control information using sound information or a method of inputting lighting control information based on text may be suggested.
将首先描述使用声音信息的照明控制方法。声音信息可包括用户语音信息或从其他声源输入的信号。A lighting control method using sound information will be described first. The sound information may include user voice information or signals input from other sound sources.
在下文中,在本公开的一个实施方案中,将描述对应于声音信息的一个实例的语音信息。Hereinafter, in one embodiment of the present disclosure, speech information corresponding to one example of sound information will be described.
图12是示出根据本公开的一个实施方案的照明控制方法的流程图。FIG. 12 is a flowchart illustrating a lighting control method according to one embodiment of the present disclosure.
参照图12,可以首先执行照明控制应用来控制照明。此后,在操作S1210中,可以将用于控制照明的声音信息输入到照明控制装置中。声音信息可以是用户语音信息或从其他声源输入的信号。Referring to FIG. 12 , a lighting control application may be executed first to control lighting. Thereafter, sound information for controlling lighting may be input into the lighting control device in operation S1210. The sound information may be user voice information or signals input from other sound sources.
在操作S1230中,照明控制装置可生成照明控制信息。照明控制信息可以是所发送的用于控制照明的控制信息。照明控制信息可基于输入的语音信息形成。照明控制信息可基于输入的语音信息生成照明开/关控制信息、调光控制信息、开/关周期、开/关的次数等。In operation S1230, the lighting control device may generate lighting control information. The lighting control information may be control information sent to control lighting. The lighting control information may be formed based on the input voice information. The lighting control information may generate lighting on/off control information, dimming control information, on/off cycle, number of times of on/off, etc. based on the input voice information.
在操作S1250中,照明控制装置可发送所生成的照明控制信息。可以将照明控制信息从照明控制装置直接发送到灯。此外,可通过无线AP或桥接器将照明控制信息发送到灯。In operation S1250, the lighting control device may transmit the generated lighting control information. Lighting control information can be sent from the lighting control device directly to the lamps. Additionally, lighting control information can be sent to the lights through a wireless AP or bridge.
图13是示出根据本公开的一个实施方案的输入语音信息的方法的流程图。FIG. 13 is a flowchart illustrating a method of inputting voice information according to one embodiment of the present disclosure.
参照图13,当首先执行照明控制应用以控制照明时,可以执行声音信息输入模式。照明控制装置可打开声音辨识模块以便在声音信息输入模式下接收声音信息。声音辨识模块可包括在照明控制装置的照明控制器中。因此,照明控制器可执行声音辨识模块的功能,也就是说,在操作S1310中照明控制器可启动声音信息输入模式。同时,可附加地显示照明控制信息输入区域。在照明控制信息输入区域中,可以配置照明的操作时间和调光水平。Referring to FIG. 13 , when a lighting control application is first executed to control lighting, a sound information input mode may be performed. The lighting control device can turn on the sound recognition module to receive sound information in the sound information input mode. The voice recognition module may be included in the lighting controller of the lighting control device. Accordingly, the lighting controller may perform the function of the voice recognition module, that is, the lighting controller may activate the voice information input mode in operation S1310. At the same time, an illumination control information input area may be additionally displayed. In the lighting control information input area, the operating time and dimming level of the lighting can be configured.
在操作S1330中,可以在照明控制装置中配置照明装置的操作时间。配置操作时间的操作可以在生成输入区域的操作之前或在配置调光水平的操作之后执行。此外,配置操作时间的操作可能不是必需的。操作时间可以使用设定值。当输入区域预生成时,可根据设定的操作时间来改变或重新配置输入区域的操作时间的属性信息。当输入区域未生成时,可以生成对应于下一个操作时间的输入区域。In operation S1330, an operating time of the lighting device may be configured in the lighting control device. The operation of configuring the operation time may be performed before the operation of generating the input area or after the operation of configuring the dimming level. Also, the operation of configuring the operating time may not be necessary. The operating time can use the set value. When the input area is pre-generated, the attribute information of the operation time of the input area may be changed or reconfigured according to the set operation time. When the input area is not generated, an input area corresponding to the next operation time may be generated.
在操作S1350中,可根据照明控制装置来配置照明装置的调光水平。类似于配置操作时间的操作,配置调光水平的操作可以在生成输入区域的操作之前或在配置操作时间的操作之后执行。此外,配置调光水平的操作可以使用基值。例如,当输入区域的y轴被用作调光水平的参考时,当前y轴值与总y轴长度的比率可以是当前调光水平对100%的调光水平。当在默认情况下使用基值时,可以省略配置调光水平的操作。在配置调光水平时,可根据用户的请求来控制最高调光水平或最低调光水平。根据照明操作时间的配置生成输入区域是本公开的一个实施方案,但本公开的实施方案并不限于此。同时,可以省略配置操作时间和调光水平的操作。In operation S1350, a dimming level of the lighting device may be configured according to the lighting control device. Similar to the operation of configuring the operation time, the operation of configuring the dimming level may be performed before the operation of generating the input area or after the operation of configuring the operation time. Additionally, operations that configure the dimming level can use the base value. For example, when the y-axis of the input area is used as a reference for the dimming level, the ratio of the current y-axis value to the total y-axis length may be the current dimming level to the 100% dimming level. Configuring the dimming level can be omitted when the base value is used by default. When configuring the dimming level, the highest dimming level or the lowest dimming level can be controlled according to the user's request. Generating the input area according to the configuration of the lighting operation time is an embodiment of the present disclosure, but the embodiment of the present disclosure is not limited thereto. Meanwhile, the operation of configuring the operation time and dimming level can be omitted.
在操作S1370中,可以将语音信息输入到照明控制装置中。语音信息可通过声音辨识模块来检测。In operation S1370, voice information may be input into the lighting control device. Voice information can be detected by the voice recognition module.
在操作S1390中,照明控制装置可基于输入到照明控制装置中的语音信息生成照明控制信息。将参照图14来描述输入到照明控制装置中的声音信息以及生成照明控制信息的方法。In operation S1390, the lighting control device may generate lighting control information based on voice information input into the lighting control device. Sound information input into the lighting control apparatus and a method of generating lighting control information will be described with reference to FIG. 14 .
当生成照明控制信息时,可以将照明控制信息存储在照明控制装置中。同时,照明控制装置可以将所生成的照明控制信息与特定照明装置进行匹配。例如,照明控制装置可以将所生成的照明控制信息与特定照明装置进行匹配以控制匹配的照明装置。可以在生成照明控制信息之前产生对应于所生成的照明控制信息的照明装置。例如,在产生特定照明装置之后,可以执行这种用于选择所产生的照明装置的一系列过程。When the lighting control information is generated, the lighting control information may be stored in the lighting control device. At the same time, the lighting control device can match the generated lighting control information with a specific lighting device. For example, the lighting control device may match the generated lighting control information with a specific lighting device to control the matched lighting device. The lighting device corresponding to the generated lighting control information may be generated before the lighting control information is generated. For example, after a specific lighting device is generated, such a series of processes for selecting the generated lighting device may be performed.
同时,以上已描述了输入新语音信息的方法。然而,至少一条语音信息可存储在照明控制装置的存储单元中。当用户生成新图案信息时,所述图案信息可存储在照明控制装置的存储单元中。此外,当用户加载存储在存储单元中的图案时,所存储的图案可改变并且通过上述过程存储。Meanwhile, the method of inputting new voice information has been described above. However, at least one piece of voice information may be stored in the storage unit of the lighting control device. When a user generates new pattern information, the pattern information may be stored in a storage unit of the lighting control device. In addition, when a user loads a pattern stored in the storage unit, the stored pattern may be changed and stored through the above-described process.
图14示出根据本公开的一个实施方案的输入声音信息和生成照明控制信息的方法。FIG. 14 illustrates a method of inputting sound information and generating lighting control information according to one embodiment of the present disclosure.
照明控制装置可首先接收声音信息。照明控制装置可基于所接收的声音信息来配置照明装置的打开/关闭时间。例如,照明控制装置可基于声音信息的存在或不存在来配置照明装置的打开/关闭时间。照明控制装置可以将输入声音信息的时间配置为照明装置的打开时间而将未输入声音信息的时间配置为照明装置的关闭时间。The lighting control device may first receive the audio information. The lighting control device may configure the on/off time of the lighting device based on the received sound information. For example, the lighting control device may configure the on/off time of the lighting device based on the presence or absence of sound information. The lighting control device may configure the time when the sound information is input as the turn-on time of the lighting device and configure the time when the sound information is not input as the turn-off time of the lighting device.
参照图14,照明控制装置可基于所接收的声音信息生成声音信息输入表1410。例如,假设照明控制装置在声音信息输入模式下在0至1秒的时间间隔期间接收到声音信息,在1至3秒的时间间隔期间未接收到声音信息,在3至4.5秒的时间间隔期间接收到声音信息,并且在4.5至8秒的时间间隔期间未接收到声音信息。Referring to FIG. 14 , the lighting control device may generate a sound information input form 1410 based on the received sound information. For example, assume that the lighting control device receives sound information during the time interval of 0 to 1 second in the sound information input mode, does not receive sound information during the time interval of 1 to 3 seconds, and receives no sound information during the time interval of 3 to 4.5 seconds. Audio messages are received and no audio messages are received during the 4.5 to 8 second interval.
在这种情况下,照明控制装置可基于所接收的声音信息生成信息,诸如声音信息输入表1410。声音信息输入表可对应于照明控制信息。此外,照明控制装置可基于声音信息输入表1410生成具有一个周期的照明控制信息1420。照明控制装置可生成使照明装置打开持续1秒、关闭持续接下来的2秒、打开持续接下来的1.5秒并且关闭持续接下来的2.5秒的照明控制信息1420。例如,可基于输入的声音信息生成照明装置的开/关控制信息。In this case, the lighting control device may generate information, such as the sound information input form 1410, based on the received sound information. The sound information input form may correspond to lighting control information. In addition, the lighting control device may generate lighting control information 1420 having one cycle based on the sound information input table 1410 . The lighting control device may generate lighting control information 1420 that turns the lighting device on for 1 second, off for the next 2 seconds, on for the next 1.5 seconds, and off for the next 2.5 seconds. For example, on/off control information of a lighting device may be generated based on input sound information.
照明控制信息可以是一个周期的照明控制装置。例如,照明控制信息1420可以是具有8秒周期的照明控制信息。另外,可以配置在照明控制信息期间执行操作的次数。执行操作的次数可以是一次或多次。当执行操作的次数是两次或更多次时,可以针对设定的次数生成照明控制信息。例如,执行操作的次数被配置为n,照明控制信息的总操作时间可以是8n秒。同时,可以配置总操作时间。例如,总操作时间可以是在操作S1330中配置的操作时间。操作时间可以预先配置或可以在生成一个周期的照明控制信息之后生成。例如,操作时间可以被配置为32秒。在这种情况下,可以生成将要在32秒操作时间期间执行的具有8秒周期的照明控制信息1420。The lighting control information may be a cycle of lighting control means. For example, the lighting control information 1420 may be lighting control information having a period of 8 seconds. In addition, it is possible to configure the number of times an operation is performed during a lighting control message. The number of times an operation is performed can be one or more times. When the number of times the operation is performed is two or more times, lighting control information may be generated for a set number of times. For example, the number of operations performed is configured as n, and the total operation time of the lighting control information may be 8n seconds. At the same time, the total operating time can be configured. For example, the total operation time may be the operation time configured in operation S1330. The operating time may be pre-configured or may be generated after one cycle of lighting control information is generated. For example, the operation time can be configured as 32 seconds. In this case, lighting control information 1420 having a period of 8 seconds to be performed during an operation time of 32 seconds may be generated.
同时,可以生成作为图案信息1430的照明控制信息,并且可以通过照明控制装置的显示单元显示图案信息1430。用户通过图案信息1430直观地识别根据照明控制信息的照明开/关操作。Meanwhile, lighting control information as pattern information 1430 may be generated, and the pattern information 1430 may be displayed through a display unit of the lighting control device. The user intuitively recognizes the lighting on/off operation according to the lighting control information through the pattern information 1430 .
同时,当在声音输入模式下接收到用于生成照明控制信息的声音信息时,可以将非预期的噪声辨识为用于照明信息的语音信息。因此,照明控制装置可配置声音信息识别阈值。当接收到设定范围内的声音信息时,声音信息识别阈值可以是用于识别控制照明的声音信息的信息。所述阈值可以是具有最低值的阈值或具有最低值和最高值的阈值。所述阈值可以是针对声音信息大小的阈值并且声音大小的单元可以是dB。当接收到大小不满足阈值范围的声音信息时,照明控制装置可以识别出声音信息不是用于照明控制的控制信息。因此,即使输入了声音信息,声音信息也未被辨识为用于打开照明装置的照明控制信息并且被忽略。因此,可以将用于生成照明控制信息的声音信息与噪声区分开。为了排除噪声,可预先配置用于控制照明的声音类型信息。Meanwhile, when sound information for generating lighting control information is received in a sound input mode, unexpected noise may be recognized as voice information for lighting information. Therefore, the lighting control device may configure a sound information recognition threshold. The sound information recognition threshold may be information for recognizing sound information for controlling lighting when sound information within a set range is received. The threshold may be a threshold with the lowest value or a threshold with the lowest and highest value. The threshold may be a threshold for the magnitude of sound information and the unit of sound magnitude may be dB. When receiving sound information whose magnitude does not satisfy the threshold range, the lighting control device may recognize that the sound information is not control information for lighting control. Therefore, even if sound information is input, the sound information is not recognized as lighting control information for turning on the lighting device and is ignored. Therefore, sound information for generating lighting control information can be distinguished from noise. To exclude noise, sound type information for controlling lighting can be preconfigured.
图15示出根据本公开的一个实施方案的基于声音类型信息生成照明控制信息的方法。FIG. 15 illustrates a method of generating lighting control information based on sound type information according to one embodiment of the present disclosure.
可以在照明控制装置中配置用于控制照明装置操作的声音类型信息。例如,声音类型信息可包括用于打开照明的声音类型信息(第一类型信息)、用于关闭照明的声音类型信息(第二类型信息)、用于增加调光水平的声音类型信息(第三类型信息)、以及用于降低调光水平的声音类型信息(第四类型信息)。以上列出的声音类型信息是声音类型信息的一个实施方案,并且声音类型信息的实例并不限于此。Sound type information for controlling the operation of the lighting device may be configured in the lighting control device. For example, the sound type information may include sound type information for turning on lighting (first type information), sound type information for turning off lighting (second type information), and sound type information for increasing a dimming level (third type information). type information), and sound type information (fourth type information) for reducing the dimming level. The sound type information listed above is one embodiment of the sound type information, and examples of the sound type information are not limited thereto.
参照图15,图15的部分(a)示出生成照明控制信息的实施方案。尽管照明控制信息在图15中以图表的形式表达,但表达方式并不限于此并且可以通过文本或另一种方法实现。图15的部分(b)示出输入声音类型信息的时间的识别结果。Referring to FIG. 15 , part (a) of FIG. 15 shows an embodiment of generating lighting control information. Although the lighting control information is expressed in the form of a graph in FIG. 15, the way of expression is not limited thereto and may be realized by text or another method. Part (b) of FIG. 15 shows the recognition result of the time when the sound type information is input.
因为在0至t1的时间间隔期间识别出第一类型信息,所以照明控制装置可生成用于在对应于0至t1的时间间隔的时间期间打开照明的控制信息。当相对于第一类型信息打开照明时,可预先配置照明的调光水平。因为在t1至t2的时间间隔期间识别出第二类型信息,所以照明控制装置可生成用于在对应于t1至t2的时间间隔的时间期间关闭照明的控制信息。因为在t2至t3的时间间隔期间识别出第一类型信息,所以照明控制装置可生成用于在对应于t2至t3的时间间隔的时间期间打开照明的控制信息。因为在t3至t4的时间间隔期间识别出第四类型信息,所以照明控制装置可生成用于在对应于t3至t4的时间间隔的时间期间降低照明的调光水平的控制信息。此时,可预先配置在单位时间期间调光水平的变化。因此,可基于在每单位时间和t3至t4的持续时间期间调光水平的变化来改变调光水平。Since the first type information is recognized during the time interval of 0 to t1, the lighting control device may generate control information for turning on the lighting during a time corresponding to the time interval of 0 to t1. A dimming level of the lighting may be preconfigured when the lighting is turned on relative to the first type of information. Since the second type information is recognized during the time interval of t1 to t2, the lighting control device may generate control information for turning off the lighting during a time corresponding to the time interval of t1 to t2. Since the first type information is recognized during the time interval of t2 to t3, the lighting control device may generate control information for turning on the lighting during a time corresponding to the time interval of t2 to t3. Since the fourth type information is recognized during the time interval t3 to t4, the lighting control device may generate control information for reducing the dimming level of the lighting during a time corresponding to the time interval t3 to t4. At this time, the change of the dimming level during a unit time may be configured in advance. Accordingly, the dimming level may be changed based on a change in the dimming level per unit time and during the duration of t3 to t4.
在t4至t5的时间间隔期间,可识别出用于维持调光水平的声音信息。此外,当未识别出设定的声音类型信息时,可做出配置以维持调光水平。例如,当在t4至t5的时间间隔期间未接收到单独的声音信息时,照明控制装置可生成用于在对应于t4至t5的时间间隔的时间期间维持t4的调光水平的控制信息。因为在t5至t6的时间间隔期间识别出第二类型信息,所以照明控制装置可生成用于在对应于t5至t6的时间间隔的时间期间关闭照明的控制信息。因为在t6至t7的时间间隔期间识别出第三类型信息,所以照明控制装置可生成用于在对应于t6至t7的时间间隔的时间期间增加照明的调光水平的控制信息。当在t7至t8的时间间隔期间未接收到单独的声音信息时,照明控制装置可生成用于在对应于t7至t8的时间间隔的时间期间维持t7的调光水平的控制信息。因为在t8至t9的时间间隔期间识别出第二类型信息,所以照明控制装置可生成用于在对应于t8至t9的时间间隔的时间期间关闭照明的控制信息。During the time interval from t4 to t5, sound information for maintaining the dimming level may be recognized. Furthermore, configuration may be made to maintain the dimming level when the set sound type information is not recognized. For example, when no separate sound information is received during the time interval of t4 to t5, the lighting control device may generate control information for maintaining the dimming level of t4 during a time corresponding to the time interval of t4 to t5. Since the second type information is recognized during the time interval of t5 to t6, the lighting control device may generate control information for turning off the lighting during a time corresponding to the time interval of t5 to t6. Since the third type of information is recognized during the time interval of t6 to t7, the lighting control device may generate control information for increasing the dimming level of the lighting during a time corresponding to the time interval of t6 to t7. When no separate sound information is received during the time interval of t7 to t8, the lighting control device may generate control information for maintaining the dimming level of t7 during a time corresponding to the time interval of t7 to t8. Since the second type information is recognized during the time interval of t8 to t9, the lighting control device may generate control information for turning off the lighting during a time corresponding to the time interval of t8 to t9.
可生成0到t9的时间长度作为一个周期的照明控制图案信息。如图14所示,可通过一个周期的控制信息来控制照明或者可另外配置重复所述周期的次数。此外,可通过配置总操作时间并且在预先配置的总操作时间期间应用所配置周期的照明控制图案信息来生成照明控制信息。A time length of 0 to t9 may be generated as one cycle of lighting control pattern information. As shown in FIG. 14, lighting may be controlled by control information for one cycle or the number of times the cycle is repeated may be configured otherwise. In addition, the lighting control information may be generated by configuring the total operation time and applying the lighting control pattern information of the configured period during the preconfigured total operation time.
在本公开的上述实施方案中,例如,第一类型信息可以是[ggam]的语音信息并且第二类型信息可以是[bbak]的语音信息。例如,假设[ggam][bbak][ggam][bbak]的语音信息被输入到照明控制装置中。可生成用于在识别[ggam]的输入的时间期间打开照明装置的控制信息,并且可生成用于在识别[bbak]的输入的时间期间关闭照明装置的控制信息。例如,用户可以将[ggam][bbak]的声音信息输入到照明控制装置中并且随后可以响应于用户的语音输入生成直观的照明控制信息。例如,当用户期望在特定时间期间打开照明装置并且在另一个特定时间期间关闭照明装置时,可以生成第一类型信息和第二类型信息并且照明控制装置可以接收第一类型信息和第二类型信息。因为用户可根据第一类型信息和第二类型信息的持续时间直观地确定照明装置的操作时间,所以这种方法对用户来说是直观且有用的。In the above-described embodiments of the present disclosure, for example, the first type information may be voice information of [ggam] and the second type information may be voice information of [bbak]. For example, assume that voice information of [ggam][bbak][ggam][bbak] is input into the lighting control device. Control information for turning on the lighting device during a time when an input of [ggam] is recognized may be generated, and control information for turning off the lighting device during a time for recognizing an input of [bbak] may be generated. For example, a user may input voice information of [ggam][bbak] into the lighting control device and then intuitive lighting control information may be generated in response to the user's voice input. For example, when a user desires to turn on a lighting device during a specific time and to turn off a lighting device during another specific time, first type information and second type information may be generated and the lighting control device may receive the first type information and the second type information . This method is intuitive and useful for the user because the user can intuitively determine the operating time of the lighting device according to the duration of the first type information and the second type information.
同时,尽管已描述了第三类型信息和第四类型信息,但可以使用第一类型信息和第二类型信息来控制调光水平。例如,当在第一类型信息之后输入第二类型信息时,可生成用于通过逐渐降低调光水平关闭照明的照明控制信息。相反,当在第二类型信息之后输入第一类型信息时,可生成用于通过逐渐增加调光水平打开照明的照明控制信息。Meanwhile, although the third type information and the fourth type information have been described, the dimming level may be controlled using the first type information and the second type information. For example, when the second type information is input after the first type information, lighting control information for turning off the lighting by gradually lowering the dimming level may be generated. On the contrary, when the first type information is input after the second type information, lighting control information for turning on the lighting by gradually increasing the dimming level may be generated.
此外,当输入声音信息时,可根据关于声音信息的大小的信息来控制调光水平。例如,将操作描述为用于在输入声音信息时打开照明并且在未输入声音信息时关闭照明的照明控制信息的实例。此时,当在输入声音信息的时间期间声音大小增加时,可生成用于在对应时间期间增加调光水平的控制信息。当在输入声音信息的时间的特定时间间隔期间声音大小降低时,可生成用于在对应时间期间降低调光水平的控制信息。Also, when sound information is input, the dimming level may be controlled according to information on the magnitude of the sound information. For example, an operation is described as an example of lighting control information for turning on lighting when sound information is input and turning off lighting when sound information is not input. At this time, when the sound level increases during the time when the sound information is input, control information for increasing the dimming level during the corresponding time may be generated. When the sound level decreases during a certain time interval of the time when the sound information is input, control information for decreasing the dimming level during the corresponding time may be generated.
此时,可基于基本调光水平来确定调光水平。例如,可配置基本调光水平和最高调光水平。此时,可通过以下方式生成照明控制信息:将在输入声音信息的时间间隔期间输入的声音信息的大小为最大的时间点与最高调光水平相匹配并且将声音信息的大小为最小的时间点与最低调光水平相匹配。可通过识别关于输入声音信息的时间点、输入最大声音信息的时间点以及输入最小声音信息的时间点的信息并且连接连续时间上的时间点来生成控制信息。At this time, the dimming level may be determined based on the basic dimming level. For example, a base dimming level and a maximum dimming level can be configured. At this time, the lighting control information can be generated by matching the time point at which the magnitude of the sound information input during the time interval in which the sound information is input is the largest with the highest dimming level and the time point at which the magnitude of the sound information is the smallest Matches the minimum dimming level. The control information may be generated by identifying information on a time point at which sound information is input, a time point at which maximum sound information is input, and a time point at which minimum sound information is input and connecting the time points on continuous time.
此外,在本公开的一个实施方案中,可基于音高信息来控制调光水平。音高信息可以与声音信息的频率相关联。从物理学上讲,当振动频率增加时,音高变得更高。Furthermore, in one embodiment of the present disclosure, the dimming level may be controlled based on the pitch information. Pitch information may be associated with the frequency of the sound information. Physically, when the frequency of vibration increases, the pitch becomes higher.
本公开的一个实施方案提供了用于基于文本信息控制照明的方法和设备。One embodiment of the present disclosure provides a method and apparatus for controlling lighting based on text information.
图16A和图16B示出根据本公开的一个实施方案的基于文本信息生成照明控制信息的方法。16A and 16B illustrate a method of generating lighting control information based on text information according to one embodiment of the present disclosure.
参照图16A,可输入用于控制照明的信息。输入信息可以是文本信息。可以输入关于每个时间间隔的信息和关于时间间隔中的操作的信息。输入信息可具有输入照明控制信息的形式,所述输入照明控制信息具有0至t5的一个周期。Referring to FIG. 16A, information for controlling lighting may be input. The input information may be text information. Information about each time interval and information about operations in the time interval can be entered. The input information may have a form of input lighting control information having a period of 0 to t5.
在0至t1的时间间隔期间输入用于打开照明的信息,在t1至t2的时间间隔期间输入用于关闭照明的信息,并且在t2至t3的时间间隔期间输入用于以50%的调光水平打开照明的信息。此外,在t3至t4的时间间隔期间未输入直接信息并且在t4至t5的时间间隔期间输入用于关闭照明的信息。当不存在打开状态与关闭状态之间(例如,图16A中的t3至t4的时间间隔的控制信息输入时,可以分析照明控制信息以便逐渐控制它们之间的调光水平。例如,因为照明装置在t3期间处于打开状态并且在t4期间处于关闭状态,所以可以通过在从t3进展到t4时逐渐降低调光水平来生成用于在t4期间关闭照明装置的照明控制信息。The information for turning on the lighting is entered during the time interval 0 to t1, the information for turning off the lighting is entered during the time interval t1 to t2, and the information for dimming at 50% is entered during the time interval t2 to t3 Message to turn on lighting horizontally. Furthermore, no direct information is input during the time interval t3 to t4 and information for switching off the lighting is input during the time interval t4 to t5. When there is no control information input between the open state and the closed state (for example, the time interval t3 to t4 in FIG. 16A ), the lighting control information can be analyzed to gradually control the dimming level between them. Being on during t3 and off during t4, lighting control information for turning off the lighting device during t4 can be generated by gradually reducing the dimming level as it progresses from t3 to t4.
图16A的输入信息本身可作为控制信息生成。此外,可生成输入信息作为呈图16B的图表所示的图表形式的照明控制信息。当显示呈图表形式的照明控制信息时,对于用户来说是有利的,原因是用户可在所配置的周期期间通过图表直观地识别照明操作。参照图16B的图表,用户可直观地识别打开照明的间隔,打开状态中的调光水平以及时间。The input information of FIG. 16A itself can be generated as control information. Furthermore, input information may be generated as lighting control information in the form of a graph as shown in the graph of FIG. 16B. When the lighting control information is displayed in the form of a graph, it is advantageous for the user because the user can intuitively recognize the lighting operation through the graph during the configured cycle. Referring to the graph of FIG. 16B , the user may intuitively recognize the interval at which the lighting is turned on, the dimming level and the time in the turned-on state.
参照图16B,可以生成用于在0至t1的时间周期期间打开照明、在t1至t2的时间周期期间关闭照明、在t2至t3的时间周期期间以50%的调光水平打开照明、在t3至t4的时间周期期间降低调光水平、并且在t4至t5的时间周期期间关闭照明的照明控制信息。Referring to FIG. 16B , it is possible to generate a function for turning on the lighting during the time period 0 to t1 , turning off the lighting during the time period t1 to t2 , turning on the lighting at a dimming level of 50% during the time period t2 to t3 , and turning on the lighting at t3 Lighting control information that reduces the dimming level during the time period to t4 and turns off the lighting during the time period from t4 to t5.
此后,将描述根据本公开的一个实施方案的连接并控制家用电器和照明装置的方法。根据本公开的一个实施方案,当检测到电子装置的状态变化时,可以通过各种通信方法将状态通知消息发送到服务。服务器可检测状态变化。已检测到状态变化的服务器可以将用于控制照明操作的照明控制信息发送到照明装置。可通过映射关系预先配置每个电子装置、照明控制信息和照明装置。Hereinafter, a method of connecting and controlling a home appliance and a lighting device according to one embodiment of the present disclosure will be described. According to one embodiment of the present disclosure, when a state change of the electronic device is detected, a state notification message may be transmitted to the service through various communication methods. The server can detect state changes. The server having detected the state change may transmit lighting control information for controlling the lighting operation to the lighting device. Each electronic device, lighting control information, and lighting device may be preconfigured through a mapping relationship.
当未配置照明控制信息或映射关系时,可另外配置映射关系。在本公开的一个实施方案中,应预先配置用于在照明控制装置与服务器之间发送/接收控制信号的应用。同时,将基于服务器来描述以下实施方案,所述服务器从照明控制装置接收照明控制信息并存储所接收的照明控制信息,从电子装置接收状态通知消息,并且将照明控制信息发送到照明装置。服务器可单独提供并且照明控制装置可充当服务器。When the lighting control information or the mapping relationship is not configured, the mapping relationship may be additionally configured. In one embodiment of the present disclosure, an application for sending/receiving control signals between the lighting control device and the server should be preconfigured. Meanwhile, the following embodiments will be described based on a server that receives lighting control information from a lighting control device and stores the received lighting control information, receives a status notification message from an electronic device, and transmits the lighting control information to the lighting device. The server can be provided separately and the lighting control device can act as the server.
服务器可包括控制器和通信单元。通信单元可以与家用电器、照明控制装置和照明装置中的至少一个通信。控制器可控制服务器的一般操作。A server may include a controller and a communication unit. The communication unit may communicate with at least one of home appliances, lighting control devices, and lighting devices. The controller can control the general operation of the server.
此外,根据本公开的一个实施方案,服务器的控制器可进行控制以便配置并存储照明控制信息。服务器的控制器可进行控制以便从电子装置接收状态通知消息以及基于所述状态通知消息确定电子装置的状态。In addition, according to one embodiment of the present disclosure, the controller of the server may control to configure and store lighting control information. The controller of the server may control to receive a status notification message from the electronic device and determine a status of the electronic device based on the status notification message.
服务器的控制器可存储并更新电子装置的状态以及与照明控制信息和照明装置的映射关系。服务器的控制器可基于映射关系通过将与检测到电子装置状态变化的状态对应的照明控制信息发送到照明装置来控制照明装置的状态。The controller of the server can store and update the state of the electronic device and the mapping relationship with the lighting control information and the lighting device. The controller of the server may control the state of the lighting device by transmitting the lighting control information corresponding to the state in which the state change of the electronic device is detected to the lighting device based on the mapping relationship.
图17示出根据本公开的一个实施方案的连接和控制家用电器和照明装置的方法。FIG. 17 illustrates a method of connecting and controlling a home appliance and a lighting device according to one embodiment of the present disclosure.
参照图17,智能家庭系统可包括照明控制装置1710、服务器1720、电子装置1730和照明装置1740。因为已在图1中描述了每个实体,所以参考图1中的每个实体。同时,将描述的是,智能家庭系统使用服务器1720,服务器1720可包括在照明控制装置中。此外,假设用于执行智能家庭系统的应用可安装在每个实体中。Referring to FIG. 17 , a smart home system may include a lighting control device 1710 , a server 1720 , an electronic device 1730 and a lighting device 1740 . Reference is made to each entity in FIG. 1 because each entity has been described in FIG. 1 . Meanwhile, it will be described that the smart home system uses the server 1720, and the server 1720 may be included in the lighting control device. Also, it is assumed that applications for executing the smart home system can be installed in each entity.
在操作S1701中,照明控制装置1710可以将照明控制信息发送到服务器1720。照明控制信息可以是图1至图16B中所描述的照明控制信息。参考在图16A和图16B中对生成照明控制信息的各种方法的描述。服务器1720可存储照明控制信息。In operation S1701, the lighting control device 1710 may transmit lighting control information to the server 1720. The lighting control information may be the lighting control information described in FIGS. 1 to 16B . Reference is made to the description of various methods of generating lighting control information in FIGS. 16A and 16B . The server 1720 may store lighting control information.
在操作S1703中,服务器可配置映射关系。映射关系可包括电子装置、照明装置和照明控制信息之间的映射关系。此外,映射关系可包括电子装置的状态、照明装置和照明控制信息之间的映射关系。将参照图18来描述映射关系。In operation S1703, the server may configure a mapping relationship. The mapping relationship may include a mapping relationship among electronic devices, lighting devices, and lighting control information. In addition, the mapping relationship may include a mapping relationship between the state of the electronic device, the lighting device, and lighting control information. The mapping relationship will be described with reference to FIG. 18 .
图18示出根据本公开的一个实施方案的映射关系。将参照图18来描述映射关系。FIG. 18 shows a mapping relationship according to one embodiment of the present disclosure. The mapping relationship will be described with reference to FIG. 18 .
参照图18描述映射关系的表,电子装置的状态、照明控制信息和照明装置之间的映射关系被映射到表中。表映射方法是本公开的一个实施方案,但映射方法并不限于表映射方法。在图18中,电子装置与照明装置之间的映射关系是必要配置,而电子装置的状态和照明控制信息可以是用于映射的附加选项。Referring to FIG. 18 , describing a table of a mapping relationship, a mapping relationship between states of electronic devices, lighting control information, and lighting devices is mapped into the table. The table mapping method is one embodiment of the present disclosure, but the mapping method is not limited to the table mapping method. In FIG. 18 , the mapping relationship between the electronic device and the lighting device is a necessary configuration, and the state of the electronic device and lighting control information may be additional options for mapping.
例如,电子装置可包括洗衣机、电冰箱等。电子装置的状态可彼此不同。例如,根据洗衣机的特性,洗衣机可具有洗涤状态(状态1)、洗涤完成状态(状态2)和洗涤剂不足状态(状态3)。根据电冰箱的特性,电冰箱可具有开门状态(状态4)和电冰箱容量为90%或更大的状态(状态5)。可映射用于描述每种状态的照明控制信息。如上所述,照明控制信息可具有不同的打开状态和关闭状态时间、不同的调光度以及不同的重复次数。可在相应的状态中配置相同的控制信息。此外,可映射对应于电子装置或电子装置的状态的照明装置。例如,在洗衣机的状态1中,控制信息1被发送到照明装置1,并且因此照明装置1可根据控制信息1进行操作。用户可基于所配置地点中的照明和照明操作图案认识到电子装置的状态。For example, electronic devices may include washing machines, refrigerators, and the like. The states of the electronic devices may be different from each other. For example, the washing machine may have a washing state (state 1), a washing completed state (state 2), and a detergent-insufficient state (state 3) according to characteristics of the washing machine. Depending on the characteristics of the refrigerator, the refrigerator may have a door-open state (state 4) and a state of refrigerator capacity of 90% or more (state 5). Lighting control information describing each state can be mapped. As mentioned above, the lighting control messages may have different on-state and off-state times, different dimming degrees, and different repetition times. The same control information can be configured in the corresponding state. Also, lighting devices corresponding to electronic devices or states of electronic devices may be mapped. For example, in the state 1 of the washing machine, the control information 1 is sent to the lighting device 1 , and thus the lighting device 1 can operate according to the control information 1 . The user may recognize the status of the electronic device based on the lighting and lighting operation patterns in the configured place.
重新参照图17,将描述图17的操作。当电子装置1730的状态改变时,在操作1705中,电子装置1730可以将状态通知消息发送到服务器1720。只要状态改变,或者在状态改变成设定状态时,电子装置1730可以发送状态通知消息。此外,在存储状态变化信息之后,电子装置1730可以针对存储在每个配置周期中的状态变化信息发送状态通知消息。Referring back to FIG. 17, the operation of FIG. 17 will be described. When the state of the electronic device 1730 is changed, the electronic device 1730 may transmit a state notification message to the server 1720 in operation 1705 . The electronic device 1730 may transmit a status notification message whenever the status is changed, or when the status is changed to a set status. Also, after storing the state change information, the electronic device 1730 may transmit a state notification message for the state change information stored in each configuration cycle.
在操作S1707中,服务器1720可基于所接收的状态通知消息识别电子装置1730的状态。In operation S1707, the server 1720 may identify the status of the electronic device 1730 based on the received status notification message.
在操作S1709中,服务器1720可确定是否存在与识别出的电子装置的状态信息对应的映射关系。当存在映射关系时,在操作S1711中,可以将对应于映射关系的照明控制信息发送到照明装置1740。可以在多个照明装置中配置映射关系。在这种情况下,可以将控制信息发送到多个照明装置。In operation S1709, the server 1720 may determine whether there is a mapping relationship corresponding to the status information of the identified electronic device. When there is a mapping relationship, lighting control information corresponding to the mapping relationship may be transmitted to the lighting device 1740 in operation S1711. Mapping relationships can be configured in multiple lighting fixtures. In this case, control information can be sent to multiple lighting devices.
当不存在对应于识别信息的映射关系时,服务器可自己配置映射关系。此外,服务器可发送消息以请求向照明控制装置1710或用户设备配置映射关系。当服务器从照明控制装置或用户设备接收到映射关系的配置时,服务器可将对应的照明控制信息发送到所配置的照明装置。同时,当未配置映射关系时,服务器将状态确定为误差并且可以将告知误差的照明控制信息发送到一个或多个照明控制装置。When there is no mapping relationship corresponding to the identification information, the server can configure the mapping relationship by itself. In addition, the server may send a message to request to configure the mapping relationship to the lighting control device 1710 or the user equipment. When the server receives the configuration of the mapping relationship from the lighting control device or the user equipment, the server may send corresponding lighting control information to the configured lighting device. Meanwhile, when the mapping relationship is not configured, the server determines the status as an error and may transmit lighting control information informing of the error to one or more lighting control devices.
在操作S1713中,照明装置1740可基于所接收的照明控制信息来控制照明的开/关、颜色和调光。在操作S1715中,照明控制装置1740可另外将反馈信息发送到服务器1720。例如,当所配置的照明装置1740不能够执行通过照明控制信息指示的操作时,可发送其反馈信息,并且服务器可基于反馈信息修改或更新映射关系。此外,服务器可将反馈信息通知给用户。In operation S1713, the lighting device 1740 may control on/off, color, and dimming of lighting based on the received lighting control information. In operation S1715, the lighting control device 1740 may additionally transmit the feedback information to the server 1720. For example, when the configured lighting device 1740 cannot perform the operation indicated by the lighting control information, its feedback information may be sent, and the server may modify or update the mapping relationship based on the feedback information. In addition, the server may notify the user of feedback information.
虽然已参照本公开的各种实施方案展示并描述了本公开,但是本领域技术人员将理解,在不脱离如由随附权利要求书及其等同方案限定的本公开的精神和范围的情况下,可以在其中进行各种形式和细节上的改变。While the present disclosure has been shown and described with reference to various embodiments thereof, it will be understood by those skilled in the art that it does not depart from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. , in which various changes in form and detail can be made.
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