Abstract:
A treadmill (M, N) and a control method for controlling the treadmill belt thereof are provided. The treadmill (M, N) includes a treadmill belt (20, 20', 20"), a first sensor (51, 51', 51"), an image sensor (53, 53', 53"), and a controller (30, 30', 30", 70, 70', 70"). The first sensor (51, 51', 51") retrieves a light pattern or the image sensor (53, 53', 53") measures the characteristic properties of the image (191, 192, 231) of the user so as to control the treadmill belt (20, 20', 20"). The light pattern can be generated by a signal member, which can be disposed on a side or both sides of the treadmill belt (20, 20', 20").
Abstract:
A treadmill (M, N) and a control method for controlling the treadmill belt thereof are provided. The treadmill (M, N) includes a treadmill belt (20, 20', 20"), a first sensor (51, 51', 51"), an image sensor (53, 53', 53"), and a controller (30, 30', 30", 70, 70', 70"). The first sensor (51, 51', 51") retrieves a light pattern or the image sensor (53, 53', 53") measures the characteristic properties of the image (191, 192, 231) of the user so as to control the treadmill belt (20, 20', 20"). The light pattern can be generated by a signal member, which can be disposed on a side or both sides of the treadmill belt (20, 20', 20").
Abstract:
There is provided an auto detection system including a thermal detection device and a host. The host controls an indication device to indicate a prompt message or detection results according to a slope variation of voltage values or 2D distribution of temperature values detected by the thermal detection device, wherein the voltage values include the detected voltage of a single pixel or the sum of detected voltages of multiple pixels of a thermal sensor.
Abstract:
An optical decoding device, comprising: an image sensor, configured to sense first sensing images and second sensing images; a processing circuit, configured to determine a relative movement between the optical decoding device and an object according to the first sensing images; and a decoding device, configured to decode the second sensing images in a first mode to generate a decoding result and does not decode the second sensing images in a second mode. The decoding device switches between the first mode and the second mode according to the relative movement, thus can save power. A barcode, a color code which can be provided on a curved surface and an invisible code are also disclosed. An electrical cigarette lighter using the optical decoding device to provide heat is also disclosed.
Abstract:
A portrait image processing method, applying to a portrait image processing device, comprising: (a) acquiring a BVP (Blood Volume Pulse) signal of a user; (b) acquiring blood flow distribution of a specific portion of a user; (c) capturing an image of a specific portion of the user; and (d) adjusting the image of the specific portion according to the BVP signal and the blood flow distribution. A portrait image processing device, which comprises a camera and a processing circuit, is also disclosed. The processing circuit can acquire BVP signals from an image captured by the camera or from a PPG sensor.
Abstract:
A method of a signal transmission device includes: providing at least one delay line circuit having a plurality of first delay units connected in series; providing a control voltage as a supply voltage provided for a first delay unit of the at least one delay line circuit; and adjusting the control voltage to maintain a delay amount of the first delay unit at a specific delay amount when a variation of the delay amount of the first delay unit occurs.
Abstract:
There is provided a cleaning robot including a light source module and an image sensor. The light source module projects a horizontal line pattern toward a moving direction. The image sensor captures, toward the moving direction, an image of the horizontal line pattern. The light source module is arranged below the image sensor so as to eliminate the interference from second reflection.