Nakanishi, Nara
Atsushi Nakanishi, Nara JP
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20120038694 | DISPLAY DEVICE AND DISPLAY CONTROL METHOD - Provided are a display device and a display control method capable of reducing a visually unpleasant sensation that is experienced by a user. This display device includes a display panel ( | 02-16-2012 |
20130314459 | DISPLAY DEVICE AND DISPLAY METHOD - A display device includes: a display panel divided into divided regions including mutually adjacent first and second divided regions; a backlight portion having light source portions emitting light with a predetermined luminance distribution; a determination portion determining emission luminance for each divided region; a backlight driver driving the light source portions; a storage storing a division number; a setting portion dividing the divided regions to generate sub-regions, and setting the emission luminance of the sub-regions to that of the divided region; a linear interpolation portion performing linear interpolation using the emission luminance of the first and second sub-regions, to calculate an estimated value of the emission luminance distribution of the backlight portion in a region from the first to second sub-region; a signal correction portion correcting an image signal on the basis of the estimated value; and a panel driver driving the pixels of the display panel. | 11-28-2013 |
Hiroyasu Nakanishi, Nara JP
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20120066384 | HOME APPLIANCE MONITORING SYSTEM - A home appliance monitoring system includes: a plurality of home systems respectively including a central managing device configured to collect monitoring information from a home appliance; and a center server connected to the central managing device of each home system. The center server calculates the current load amount, and sends an activating instruction signal or a deactivating instruction signal to each central managing device on the basis of the current load amount. The central managing device sets its communication status to an activated status in response to receiving the activating instruction signal, and sets its communication status to a deactivated status in response to receiving the deactivating instruction signal. The home system stores the monitoring information while the communication status is the deactivated status. The home system sends the stored monitoring information to the center server when the communication status is switched from the deactivated status to the activated status. The home system sends the monitoring information to the center server while the communication status is the activated status. The center server stores the monitoring information received from the home system. | 03-15-2012 |
20120096107 | HOME APPLIANCE MANAGING SYSTEM - The home appliance managing system includes a plurality of central managing devices and a center server. The center server is connected to the plurality of the central managing devices, and stores plural data used at home appliances. When the central managing device stores predetermined data requested by the home appliance, the central managing device sends the predetermined data to the home appliance. When the central managing device does not store the predetermined data, the central managing device requests the predetermined data from the center server. The center server sends the predetermined data to the central managing device in response to the request from the central managing device. The central managing device sends the predetermined data received from the center server to the home appliance and stores the same data. The center server selects the cache data from the plural data on the basis of the data previously sent to the central managing device, and sends the cache data to the central managing device. The central managing device stores the cache data received from the center server. | 04-19-2012 |
Ken Nakanishi, Nara JP
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20090014725 | Ion doping apparatus, ion doping method, semiconductor device and method of fabricating semiconductor device - An ion doping apparatus includes: a chamber | 01-15-2009 |
Kenji Nakanishi, Nara JP
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20090034027 | ORIGINAL TRANSPORT AND READING APPARATUS, READING POSITION ADJUSTMENT METHOD OF ORIGINAL TRANSPORT AND READING APPARATUS, AND IMAGE FORMING APPARATUS - An original transport and reading apparatus includes an original transport apparatus having a transport path, a first image reading unit that reads an image of an original facing the original transport apparatus, and a second image reading unit that is arranged inside the original transport apparatus and reads an image of the original. The second image reading unit includes a light source, a turning mirror, a lens, an image sensor, and a rotation support shaft, and is accommodated and held by a unit casing. The rotation support shaft performs support so as to allow rotation of the second image reading unit centered on a rotational fulcrum that is arranged along a reading light path for reading an image at a second reading position. Furthermore, a curved original guide having a guiding surface that is curved is arranged in a position corresponding to the light source. | 02-05-2009 |
Kentaro Nakanishi, Nara JP
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20090020822 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes an n-type MIS transistor and a p-type MIS transistor. The n-type MIS transistor includes a first gate electrode formed on a first active region and a first sidewall formed on the side face of the first gate electrode. The p-type MIS transistor includes a second gate electrode formed on a second active region, a second sidewall formed on the side face of the second gate electrode and strain layers formed in the second active region. The second sidewall has a smaller thickness than the first sidewall. | 01-22-2009 |
20090032878 | Semiconductor device and fabrication method thereof - A semiconductor device comprises a first gate electrode formed on a first region of a semiconductor substrate, a first impurity layer formed at least below both ends of the first gate electrode in the first region, a first side wall formed on both side surfaces of the first gate electrode, and a second impurity layer formed on both sides of the first side wall as viewed from the first gate electrode in the first region. The first impurity layer includes a first-conductivity type first impurity and a first-conductivity type second impurity having a larger mass number than that of the first impurity. | 02-05-2009 |
20110163388 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes an n-type MIS transistor and a p-type MIS transistor. The n-type MIS transistor includes a first gate electrode formed on a first active region and a first sidewall formed on the side face of the first gate electrode. The p-type MIS transistor includes a second gate electrode formed on a second active region, a second sidewall formed on the side face of the second gate electrode and strain layers formed in the second active region. The second sidewall has a smaller thickness than the first sidewall. | 07-07-2011 |
20150084106 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING THE DEVICE - A solid-state imaging device includes unit pixels formed on a semiconductor substrate. Each of the unit pixels includes a photoelectric converter, a floating diffusion, a pinning layer, and a pixel transistor. The pixel transistor includes a gate electrode formed on the semiconductor substrate, a source diffusion layer, and a drain diffusion layer. At least one of the source diffusion layer or the drain diffusion layer functions as the floating diffusion. The pinning layer is covered by the floating diffusion at a bottom and a side at a channel of the pixel transistor. A conductivity type of the floating diffusion is opposite to that of the pinning layer. | 03-26-2015 |