Provided is a refrigerator. The refrigerator is characterized by enabling at least a part of a refrigerator door to be selectively transparent by a user's operation, such that the user sees through an inside of the refrigerator while the refrigerator door is closed.

Multipurpose systems can include networked devices configured to include microphones, motion sensors, video cameras, touchscreens, optical sensors, speakers, or other suitable devices. The networked devices can include networking capabilities that enable the networked device to communicate with target devices and other networked devices. A system of networked devices can identify a target location or a target device by analyzing audio signals received at microphones of the networked devices. For example, a plurality of networked devices can identify a particular networked device that is in closest proximity to a user by analyzing an audio intensity of an audio signal received at the plurality of networked devices. The identified networked device can serve as a master device that can control a state of target devices.

Multipurpose systems can include networked devices configured to include microphones, motion sensors, video cameras, touchscreens, optical sensors, speakers, or other suitable devices. The networked devices can include networking capabilities that enable the networked device to communicate with target devices and other networked devices. A system of networked devices can identify a target location or a target device by analyzing audio signals received at microphones of the networked devices. For example, a plurality of networked devices can identify a particular networked device that is in closest proximity to a user by analyzing an audio intensity of an audio signal received at the plurality of networked devices. The identified networked device can serve as a master device that can control a state of target devices.

Solar-powered lighting devices that may be portable and/or collapsible are described. The devices may include a housing including a first wall, a second wall, and one or more side walls between the first wall and the second wall, at least one solar panel to generate solar energy, and a rechargeable battery to store the solar energy generated. The devices may include a plurality of operating modes for controlling lights within the housing, and a microprocessor for controlling the operating modes.

Solar-powered lighting devices that may be portable and/or collapsible are described. The devices may include a housing including a first wall, a second wall, and one or more side walls between the first wall and the second wall, at least one solar panel to generate solar energy, and a rechargeable battery to store the solar energy generated. The devices may include a plurality of operating modes for controlling lights within the housing, and a microprocessor for controlling the operating modes.

The present invention provides a luminaire (1), in particular a street lamp. The luminaire comprises at least one lighting means (5), such as at least one light emitting diode, at least one sensor unit (15) including an acoustic sensor (2) configured to measure environmental sound, and further comprising a processing unit (3). The processing unit (3) is configured to identify an environmental situation of the luminaire (1), in particular the street condition at the street lamp, on the basis of at least one characteristic of the measured environmental sound, such as the amplitude, frequency or pattern of the measured environmental sound and/or control information for controlling light emission.

The present invention provides a luminaire (1), in particular a street lamp. The luminaire comprises at least one lighting means (5), such as at least one light emitting diode, at least one sensor unit (15) including an acoustic sensor (2) configured to measure environmental sound, and further comprising a processing unit (3). The processing unit (3) is configured to identify an environmental situation of the luminaire (1), in particular the street condition at the street lamp, on the basis of at least one characteristic of the measured environmental sound, such as the amplitude, frequency or pattern of the measured environmental sound and/or control information for controlling light emission.

A spectral power distribution (SPD) fusion lighting apparatus includes a first visible light source with a first SPD, a second visible light source with a second SPD, a driver circuit, and a controller. The first SPD is different than the second SPD markedly in a 50 nm wavelength range. The controller toggles the turning on of the first visible light and the second visible light at a frequency greater than 25 Hz. The first visible light source is turned on during one half of the duty cycle, whereas the second visible light source is turned on during the other half of the duty cycle. The first visible light source and the second visible light emit similar light outputs and have similar chromaticity coordinates on the CIE 1931 color space chromaticity diagram. In some embodiments a sound wave generator is used to generate a sound wave at the same frequency.

Method of using stereo recording to control the flashing of multiple lamps includes steps of: recording sound sources generated by stereo sound source venue or an electronic device and storing the recorded analog signal in audio signal sampling unit of signal processing device, then amplifying analog signal converting into a digital signal, then separating digital signal into left and right channel signals and enhancing sound signal and then converting sound signal into a light flashing formula to obtain a light flashing parameter value, and then transmitting control commands to a left/right lamp driving unit and a central lamp driving unit respectively according to light flashing parameter value, and then left side lamps, central lamp and right side lamps respectively form staggered flashing according to light flashing parameter value of the operation control unit, so that the flashing light set produces light changes corresponding to the music rhythm and vocals.

Method of using stereo recording to control the flashing of multiple lamps includes steps of: recording sound sources generated by stereo sound source venue or an electronic device and storing the recorded analog signal in audio signal sampling unit of signal processing device, then amplifying analog signal converting into a digital signal, then separating digital signal into left and right channel signals and enhancing sound signal and then converting sound signal into a light flashing formula to obtain a light flashing parameter value, and then transmitting control commands to a left/right lamp driving unit and a central lamp driving unit respectively according to light flashing parameter value, and then left side lamps, central lamp and right side lamps respectively form staggered flashing according to light flashing parameter value of the operation control unit, so that the flashing light set produces light changes corresponding to the music rhythm and vocals.