Techniques are disclosed for facilitating image relay for wearable devices with thermal imaging devices attached thereto. In one example, a system includes an attachment configured to releasably couple to an exterior surface of a wearable apparatus. The attachment includes an infrared sensor assembly configured to capture a thermal image of a scene. The attachment further includes a display component configured to provide data indicative of the thermal image. The system further includes an optical relay component configured to couple to an interior surface of the wearable apparatus. The optical relay component is further configured to receive the data from the display component and relay the data within the wearable apparatus to facilitate presenting the data for viewing by a user while wearing the wearable apparatus. Related devices and methods are also provided.

A device for determining the temperature conductivity, the heat capacity and/or the thermal conductivity of a material sample. The device has a light emitter for exposing a front side of the sample to a light energy beam and a radiation detector for determining the temperature rise at a rear side of the sample facing away from the front side by detecting the radiation emitted there as a function of temperature, and a sample holder for holding the sample in a defined position.

An image forming apparatus includes a housing and a first process cartridge. The first process cartridge is attachable to and detachable from the housing. The first process cartridge includes a first photosensitive drum, a first developing roller, and a developing frame. The developing frame has a toner inlet opening. The toner cartridge has a toner supply opening. The toner cartridge is positioned above the developing frame such that the toner supply opening and the toner inlet opening face with each other in upward/downward direction. In the state where the first process cartridge to which the toner cartridge is attached is attached to the housing, the toner cartridge is incapable of being detached from the first process cartridge. In a state where the first process cartridge to which the toner cartridge is attached is detached from the housing, the toner cartridge is detachable from the first process cartridge.

There is provided a recognition system adaptable to a portable device or a wearable device. The recognition system senses a body heat using a thermal sensor, and performs functions such as the living body recognition, image denoising and body temperature prompting according to detected results.

A temperature-measuring device including a transmitter and a receiver. The transmitter is configured to measure the temperature of the material being contained in a container being revolved and/or rotated, and is configured to transmit data including a value of the measured temperature. The receiver is configured to receive the transmitted data. The transmitter is disposed in or on an upper lid detachably secured to the container, so that the transmitter can detect an incident light emitted from the material, and the transmitter can be revolved along with the container.

There is provided a human falling detection system including an image sensor, a thermal sensor and a microphone. The image sensor captures an image frame that is used to identify a face and a height-width ratio of a human image. The thermal sensor is used as a filter for filtering out a living body and captures a thermal image that is used to identify a height-width ratio of a human thermal image. The microphone records a time stamp of an abrupt sound appearing.

A long-wave infrared detecting element includes a magnetic field generator configured to generate a magnetic field; a substrate on the magnetic field generator; a superparamagnetic material layer disposed to be separated from the substrate and magnetized by the magnetic field generated by the magnetic field generator; a support unit on the substrate to support the superparamagnetic material layer such that the superparamagnetic material layer separated from the substrate, such that the support unit and the superparamagnetic material layer generate heat by absorbing infrared radiation from the outside; and a magneto-electric conversion unit that generates an electrical signal proportional to both a strength of the magnetic field generated by the magnetic field generator and the magnetization of the superparamagnetic material layer.

An object is a sunlight information provision system that allows a user to easily obtain more detailed sunlight information. A storage unit that stores date-and-time information, location information, and sunlight intensity information that is information regarding sunlight intensity at date and time indicated by the date-and-time information and location indicated by the location information in association with each other; a date-and-time information acquisition unit that acquires the date-and-time information; a location information acquisition unit that acquires the location information; a direction information acquisition unit that acquires the direction information; a first calculation unit that calculates the sunlight intensity information associated with sunlight inquiry information including the date-and-time information acquired by the date-and-time information acquisition unit, the location information acquired by the location information acquisition unit, and the direction information acquired by the direction information acquisition unit; a second calculation unit that calculates direction-specific sunlight intensity information by using a result of calculation of the first calculation unit; and a presentation unit that presents the direction-specific sunlight intensity information calculated by the second calculation unit to a user.

One embodiment can provide a heating system with thermal-visual-servo control. The system can include a heat source configured to emit localized heat to an object, a thermal camera configured to capture thermal images of the object, and a motion-control module coupled to the heat source and configured to control movement and focus of the heat source based on temperature information extracted from the thermal images, thereby facilitating controlled heating of the object.

According to an example aspect of the present invention, there is provided a detector comprising an optically absorbing membrane suspended over a cavity between the membrane and a substrate, the substrate comprised in the detector, and a thermoelectric transducer attaching the optically absorbing membrane over the cavity, wherein the optically absorbing membrane forms a contacting element between n-type and p-type thermoelectric elements of the thermoelectric transducer.