Abstract: The present invention discloses a wetsuit that may be worn by a user for providing torso support when user is lying prone on a board while engaging in aquatic sports. The wetsuit includes a torso wedge, which is generally aligned proximal the width of a costal arch of the user lower rib cage, critical in supporting the torso of the user. In general, the torso wedge is configured to provide a wedge-like angle between the board and the user's chest when the user is in a prone position on the board, thereby elevating the torso of the user.
Abstract: An inspection and adjustment of a liquid crystal module have required a number of processes, which has been inefficient. According to the present invention, OSD image data is stored in a ROM 42 of a liquid crystal module 10, and the liquid crystal module 10 can independently display a plurality of test patterns simply by receiving a remote-control signal from a remote-control signal transmitter 60. Therefore, simply by putting the liquid crystal module on an inspection line 70, at each inspection station 71, a display pattern necessary for each inspection and adjustment is automatically switched and shown. Therefore, the inspection and adjustment of the liquid crystal module can be conducted without a process of connecting an exclusive substrate 110 and an image data generator 120 which used to be required only during the inspection and adjustment of each liquid crystal module 10 and a process for a worker to operate a prescribed device every time the type of inspection changes.
Abstract: The infrared imaging apparatus comprises a CCD sensor 13 having sensitivities in the infrared region and visible region; three color filters FR, FG, FB each transmitting visible light in a specific wavelength region and infrared light in a specific wavelength region; and an infrared transmission filter 12 for allowing infrared light to pass through while removing visible light, wherein the CCD sensor 13 is configured to generate an imaging signal based on the infrared light passing through each of the color filters, the infrared imaging apparatus enabling the provision of the infrared imaging apparatus picking up the infrared light as the imaging light using the CCD sensor and the color filters as they are in the general imaging apparatus. As a result, a color imaging signal depending on the spectral distribution in the infrared region can be obtained without an expensive infrared CCD.