Patent application number | Description | Published |
20090086018 | PROCESSING METHOD OF IMAGE ACQUIRING IN BODY LUMEN, CAPSULE ENDOSCOPE AND CAPSULE ENDOSCOPE SYSTEM USING IT - The present invention relates to a method for processing an image in a capsule endoscope and capsule endoscope system that processes an internal human body image acquired by a capsule type endoscope swallowable into a human body. The present invention includes a step (a) of acquiring a light emitting image consecutively in a light emitting mode, a step (b) of acquiring a no-light image in a no-light mode after elapse of a prescribed time, and a step (c) of correcting the light emitting image acquired in the step (a) using the no-light image acquired in the step (b). According to the present invention, noises attributed to dark-current and heat occurring in an image of taking an internal human body can be corrected and a quality of an internal human body image can be enhanced using an effective part of a no-light image only in removing dark-current noise and thermal noise. | 04-02-2009 |
20090102518 | DEVICE FOR GENERATING A SIGNAL AND METHOD FOR CONTROLLING OPERATION OF THE SAME - The present invention relates to a device for generating a signal and method for controlling operation of the same. The present invention provides a device for generating a signal, which includes an electrode ( | 04-23-2009 |
20100168517 | ENDOSCOPE AND A METHOD FOR FINDING ITS LOCATION - An endoscope and method for determining a position of an endoscope body within the human body are disclosed. The endoscope ( | 07-01-2010 |
20120200318 | DEVICE FOR GENERATING A SIGNAL - The present invention relates to a device for generating a signal and method for controlling operation of the same. The present invention provides a device for generating a signal, which includes an electrode, if connected to an external power source, supplied with a voltage from the external power source, a signal generating unit having a plurality of terminals, the signal generating unit deciding whether to operate the device according to a size of a voltage applied to a first terminal among a plurality of the terminals, the signal generating unit outputting a prescribed signal according to the decision, and a control circuit, if the electrode is connected to a plurality of the terminals, controlling a voltage applied to a plurality of the terminals. Accordingly, the present invention is able to control whether to operate a signal generating device using an external power source. | 08-09-2012 |
Patent application number | Description | Published |
20090034327 | THERMAL-EMITTING MEMORY MODULE, THERMAL-EMITTING MODULE SOCKET, AND COMPUTER SYSTEM - The invention provides a thermal-emitting memory module, a thermal-emitting module socket, and a computer system comprising the thermal-emitting memory module and the thermal-emitting module socket. An embodiment of the thermal-emitting module includes: a module substrate having electrically-conductive traces; and a semiconductor device disposed on the module substrate and coupled to the electrically-conductive traces, the module substrate including a thermal-emitting component disposed in proximity of the semiconductor device without directly contacting the semiconductor device. | 02-05-2009 |
20130242680 | MEMORY MODULES - A memory module includes a command/address (CA) register, memory devices, and a module resistor unit mounted on a circuit board. The centrally disposed CA register drive the memory devices one or more internal CA signal(s) to arrangements of memory devices using multiple CA transmission lines, wherein the multiple internal CA transmission lines are commonly terminated in the module resistor unit. | 09-19-2013 |
20130313714 | SEMICONDUCTOR DEVICE HAVING ENHANCED SIGNAL INTEGRITY - A semiconductor includes a first signal line commonly connected to a plurality of semiconductor devices and a second signal line commonly connected to one or more of the plurality of semiconductor devices. The first signal line has a first impedance per unit length, the second signal line has a second impedance per unit length, the second impedance per unit length is greater than the first impedance per unit length, and the first signal line has a longer routing length than the first signal line. Widths of the signal lines may be set to reduce a difference in the impedances. | 11-28-2013 |