A detection and transmission system includes a first detection and transmission device and a second detection and transmission device. The second detection and transmission device is disposed in a first direction from the first detection and transmission device. The first detection and transmission device generates a first sound signal toward the first direction when detecting a first moving object. The second detection and transmission device generates a second sound signal when receiving the first sound signal.

Apparatus for detecting a presence of a target in a room is disclosed. The apparatus includes a motion-sensitive passive infrared (PIR) sensor, an imaging sensor, and a control unit. The PIR sensor is adapted to provide a motion signal, while the imaging sensor is adapted to generate at least a first image and a second image. The control unit is adapted to provide either a first signal or a second signal, depending on the strength of the motion and a comparison of the first and second images, where the first signal indicates a presence of the target and the second signal indicates an absence of the target. Also disclosed are a system for controlling lighting in a room, a method for detecting a presence of a target in a room, and a corresponding use of an apparatus for controlling lighting in a room.

The invention relates to the field of security, more particularly, to a lighting system with monitoring and alarm function. the illuminating module can supply sufficient light for the monitoring are of the monitoring module, so as to improve the clarity of the monitoring data collected by the monitoring module, and the mobile terminal can control the monitoring module and the illuminating module by the control instruction remotely, to provide convenience for user's remote operation; in addition, the mobile terminal can acquire the illuminating information and the monitoring data easily, which realizes user's remote monitoring, and facilities users to grasp the situation of monitoring area, and when huge amount of smog appears or some human activities appearing at a region that should have no people in monitoring area during monitor process, it will promptly reminds uses, which provides a good security effect.

An electrical wiring device includes a manually adjustable switch, a light emitting diode (LED), a light level sensor, and a microcontroller. The wiring device also optionally includes an occupancy sensor. Light level is sensed through a light pipe and light is emitted by the LED through the same light pipe. When the manually adjustable switch is positioned to energize a load, the LED is deactivated and ambient light level is sensed by light sensors through the light pipe. The ambient light level is compared to a minimum ambient light level to determine if the load will be energized. Alternatively, the LED is deactivated and the ambient light level is sensed through the light pipe when the switch is positioned to de-energize the load. This ambient light level is stored and compared to the minimum ambient light level at a time when the switch is later positioned to energize the load.

Embodiments of the present invention relate to a controller (1) for use with a mechanical switch (2). The controller (1) comprises at least one sensor (9), an actuator and at least one attachment member (5) suitable for attaching the controller (1) to the mechanical switch (2) such that the actuator is brought into contact with the mechanical switch (2). The actuator is arranged to operate the mechanical switch (2) in response to a signal from the at least one sensor (9), in use.

The disclosure discloses a multi-source homework lamp comprising: a first lampshade and a second lampshade connected to a shaft, wherein the first lampshade and the second lampshade are rotatable around the shaft; main lights disposed inside each of the lampshades; and a control unit for controlling the luminance of the main lights and controlling the rotation of the first lampshade and the second lampshade, thereby controlling the angle between the two. In the multi-source homework lamp according to the disclosure, by a design of the two-piece main lights with the angle being variable, the illuminance is caused to be more uniform, and the illumination range and the illumination luminance of the homework lamp may be adjusted more conveniently.

A system and method for automatic path light control based on a detected size and classification of motion around the device using passive infrared (PIR) sensor technologies and distributed classification algorithms, and on detected light levels in and around the path area using ambient light sensor (ALS) technologies. By using such sensor data, the path light does not need to be maintained at a fixed value, which may be inadequate or inefficient at times, nor require constant user adjustments. Implementations of the disclosed subject matter enable automatic path light control that can be dynamic and automatically adjusted to fit the environment, the current user characteristics and the current user movements through the environment.

A control apparatus includes a sensor and a control circuit. The sensor obtains a thermal pattern formed by a plurality of thermo-elements arranged in an appliance control device, a temperature of heat generated by each of the plurality of thermo-elements being controllable. The control circuit controls an appliance in accordance with the thermal pattern obtained by the sensor.

A motion sensor for detection motion of humans is provided. The motion sensor contains a near infrared (NIR) low resolution image sensor that captures image frames in the near infrared spectrum and a sensor that detects the amount of visible light. In addition, a processor is connected to the visible light sensor and the NIR motion sensor. The processor is configured to receive the amount of visible light from the visible light sensor and the images from the NIR low resolution image sensor. The processor is further configured to compare the image frames to detect motion; the sensitivity of the detection of motion is determined by the amount of visible light detected by the visible light sensor. The output has two or modes based on the detection of motion by the processor.

A method, apparatus, and system for security and/or automation systems, for adjusting a home environment. Some method embodiments involving a lighting system may include receiving data relating to an occupant of a home from a sensor, analyzing the data, identifying the occupant based at least in part on the analyzing, and initiating an adjustment of the lighting system based at least in part on the identifying. One such embodiment may also include searching a catalog of occupant profiles, and comparing the data with the catalog of occupant profiles. Some other method embodiments may initiate adjustments to an environment based on an occupant's preferences (whether those preferences are already included in a profile, or determined by analysis) such as for example the occupant's lighting preferences (in an embodiment involving a lighting system). One method embodiment may also include correlating data relating to the occupant with the occupant's profile.