公开(公告)号：US20210298584A1

公开(公告)日：2021-09-30

申请号：US17342667

申请日：2021-06-09

Applicant: OLYMPUS CORPORATION

Inventor： Junichi TASHIRO

IPC: A61B1/045 ,  H04N7/18 ,  H04N5/77 ,  A61B1/04 ,  A61B1/00

Abstract: An image recording apparatus includes a processor. The processor records setting information corresponding to at least one of a procedure or a scene during the procedure, sets a color to be detected from a fluorescent image and a detection level based on the setting information, detects a level of the set color from the fluorescent image inputted, and outputs signals to start and stop recording of the inputted fluorescent image by comparing the detected level of the color with a threshold based on the detection level.

公开(公告)号：US20200297202A1

公开(公告)日：2020-09-24

申请号：US16896633

申请日：2020-06-09

Applicant: OLYMPUS CORPORATION

Inventor： Junichi TASHIRO ,  Hideyuki KUGIMIYA

IPC: A61B1/045 ,  G06F3/16 ,  H04N5/232 ,  A61B1/00

Abstract: An endoscope system includes: a processor configured to perform image processing on endoscopic image data, the processor being connectable with multiple peripherals, the processor being configured to receive an input of a first audio command; a terminal device configured to wirelessly communicate with the processor and receive an input of a second audio command; a setting circuit configured to, in a case where the processor and the terminal device can communicate with each other, make a setting such that the first audio command that is receivable by the processor and the second audio command that is receivable by the terminal device differ from each other at least partly; and a first communication controller configured to, when the first audio command or the second audio command serves as an instruction to record the endoscopic image data, transmit the endoscopic image data to the terminal device.

公开(公告)号：US20160241647A1

公开(公告)日：2016-08-18

申请号：US15140834

申请日：2016-04-28

Applicant: OLYMPUS CORPORATION

Inventor： Makoto KASUMI ,  Hideki TASHIRO ,  Junichi TASHIRO

IPC: H04L29/08 ,  G06T7/00 ,  H04L12/26 ,  H04N7/18

CPC classification number: H04L67/12 ,  A61B1/00006 ,  A61B1/00016 ,  A61B1/00045 ,  A61B1/00057 ,  G06T7/0002 ,  H04L43/08 ,  H04L67/1095 ,  H04N7/18 ,  H04N7/183

Abstract: A wireless image transfer system includes an image quality judgement unit configured to judge reception states of a first image transmitted in a first frequency band by a first image wireless block and a second image transmitted in a second frequency band by a second image wireless block and image qualities of the received images; and a second control unit configured to sort the reception states into a good state, a bad state, and an intermediate state, select a first image signal in the good state, steadily operate the second image wireless block and periodically operate the first image wireless block in the bad state, and select an image with a better quality from the first image signal and a second image signal and output the selected image in the intermediate state.

Abstract translation: 无线图像传送系统包括图像质量判断单元，被配置为通过第一图像无线块和第二图像无线块和图像来判断在第二频带中发送的第一图像的第一图像的接收状态 接收图像的质量; 以及第二控制单元，被配置为将接收状态分类为良好状态，坏状态和中间状态，选择处于良好状态的第一图像信号，稳定地操作第二图像无线块并周期性地操作第一图像无线块 处于不良状态，并从第一图像信号和第二图像信号中选择具有更好质量的图像，并输出中间状态的所选图像。

公开(公告)号：US20200322512A1

公开(公告)日：2020-10-08

申请号：US16906641

申请日：2020-06-19

Applicant: OLYMPUS CORPORATION

Inventor： Susumu AONO ,  Toshiaki WATANABE ,  Satoshi TAKEKOSHI ,  Masakazu MIZOGUCHI ,  Junichi TASHIRO

IPC: H04N5/225 ,  H04N5/76 ,  A61B1/045 ,  A61B1/04

Abstract: An endoscope system is provided with: a processor; a light source; and an image pickup device. The processor performs control for causing reflected light images corresponding to a predetermined period before start of the fluorescence occurrence period during the fluorescence non-occurrence period, among the reflected light images, to be recorded to the first storage medium; and, furthermore, performs control for causing the reflected light images to be recorded to the first storage medium during an after-end-of-fluorescence-occurrence period corresponding to a predetermined period with an end of the fluorescence occurrence period as a start point, and performs control for causing the reflected light images not to be recorded to the first storage medium during the fluorescence non-occurrence period after an end of the after-end-of-fluorescence-occurrence period.

公开(公告)号：US20180220872A1

公开(公告)日：2018-08-09

申请号：US15949215

申请日：2018-04-10

Applicant: OLYMPUS CORPORATION

Inventor： Junichi TASHIRO

IPC: A61B1/00 ,  G06T11/60

CPC classification number: A61B1/0002 ,  A61B1/00006 ,  A61B1/00009 ,  A61B1/00045 ,  A61B1/0005 ,  A61B1/045 ,  G06T11/60 ,  H04N21/41 ,  H04N21/4318 ,  H04N21/4334 ,  H04N21/44008 ,  H04N21/816

Abstract: A medical information recording device includes a first recording processing unit configured to record a moving image of a medical image in which a status information image is superimposed, a second recording processing unit configured to record a moving image of the medical image in which a portion of the status information image of the medical image is subjected to mask processing, an arbitration unit configured to control communication between a recording unit in which the medical image in which the status information image is superimposed and the medical image in which the portion of the status information image is subjected to mask processing are recorded, and the first recording processing unit and the second recording processing unit, and a load adjusting circuit configured to control the arbitration unit on the basis of load of the first recording processing unit and the second recording processing unit.

公开(公告)号：US20160261846A1

公开(公告)日：2016-09-08

申请号：US15153006

申请日：2016-05-12

Applicant: OLYMPUS CORPORATION

Inventor： Makoto KASUMI ,  Hideki TASHIRO ,  Junichi TASHIRO

IPC: H04N13/00 ,  A61B1/04 ,  H04N5/225 ,  A61B1/00 ,  H04N7/18 ,  H04N13/02

CPC classification number: H04N13/194 ,  A61B1/00006 ,  A61B1/00009 ,  A61B1/00016 ,  A61B1/00018 ,  A61B1/00048 ,  A61B1/0005 ,  A61B1/00193 ,  A61B1/04 ,  A61B1/05 ,  H04N5/225 ,  H04N7/18 ,  H04N7/183 ,  H04N13/178 ,  H04N13/261 ,  H04N13/356 ,  H04N2005/2255

Abstract: A wireless transfer system includes: a wireless transmission section including: an input section configured to receive, as an input signal, one of a first video signal provided with ancillary information including identification information of a high-definition 3D/2D video signal and a second video signal not including the identification information; a video signal extraction section configured to extract one of the high-definition video signal and the second video signal from the input signal; an ancillary information extraction section configured to extract the ancillary information; a wireless video transmitter configured to wirelessly transmit extracted one of the high-definition video signal and the second video signal; and the like; and a wireless reception section including: a wireless video receiver configured to receive wirelessly transmitted one of the high-definition video signal and the second video signal; a wireless ancillary information receiver configured to receive the wirelessly transmitted ancillary information; and the like.

Abstract translation: 无线传输系统包括：无线传输部分，包括：输入部分，被配置为接收提供有包括高分辨率3D / 2D视频信号的识别信息的辅助信息的第一视频信号和作为输入信号的第二视频信号的第二 视频信号不包括识别信息; 视频信号提取部，被配置为从所述输入信号中提取所述高清晰度视频信号和所述第二视频信号中的一个; 辅助信息提取部，被配置为提取辅助信息; 无线视频发送器，被配置为无线地传送所提取的所述高分辨率视频信号和所述第二视频信号之一; 等等; 以及无线接收部，包括：无线视频接收器，被配置为接收所述高分辨率视频信号和所述第二视频信号中的无线发送的一个; 无线辅助信息接收器，被配置为接收无线发送的辅助信息; 等等。

公开(公告)号：US20190089915A1

公开(公告)日：2019-03-21

申请号：US16197050

申请日：2018-11-20

Applicant: OLYMPUS CORPORATION

Inventor： Eiji FURUKAWA ,  Junichi TASHIRO

IPC: H04N5/341 ,  H04N9/73 ,  G06T9/20 ,  G06T7/33 ,  G06T9/00 ,  H04N19/124

CPC classification number: H04N5/341 ,  G06T7/337 ,  G06T9/008 ,  G06T9/20 ,  H04N9/735 ,  H04N19/105 ,  H04N19/119 ,  H04N19/124 ,  H04N19/14 ,  H04N19/176 ,  H04N19/182 ,  H04N19/186

Abstract: An image processing device includes a processor configured to: extract pixel blocks; detect pixels having a maximum value and a minimum value in each of the pixel blocks; calculate reference value candidates from the maximum and the minimum values; calculate an absolute difference value relative to each of the maximum value, the minimum value, and the reference value candidates; divide each of the pixel blocks into subblocks; select, as a reference value from among the reference value candidates in each of the subblocks, a reference value candidate close to the pixel values in which the pixels included in each of the subblocks are distributed; extract a closest difference value, the minimum value, and the reference value; quantize each of the closest difference values into a quantization value by using the difference value that is the largest from among the closest difference values; and code the quantization value.