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公开(公告)号:KR1020130034987A
公开(公告)日:2013-04-08
申请号:KR1020110099172
申请日:2011-09-29
Applicant: 서강대학교산학협력단
Abstract: PURPOSE: An ultrasound imaging system and an ultrasound image generation method are provided to understand a location in which HIFU energy is focused in advance using ultrasound energy in the range not affecting a human body. CONSTITUTION: An ultrasound imaging system for obtaining a HIFU focus image includes a HIFU transmission beam former(100) transmitting, focusing and delaying a HIFU transmission signal having a frequency simultaneously in the ultrasound image converter frequency response range and the HIFU converter frequency response range; a HIFU converter(110) transmitting the transmitted, focused and delayed HIFU transmission signal to a target object; an ultrasound image converter(120) receiving the ultrasound signal received from the target object; an image reception beam former(130) generating synthetic beam by receiving, focusing and delaying the received ultrasound signal and an ultrasound image generation unit(140) generating an ultrasound image from the generated synthetic beam. [Reference numerals] (100) HIFU transmission beam former; (110) HIFU converter; (120) Ultrasound image converter; (130) Image reception beam former; (140) Ultrasound image generation unit; (150) Display unit; (160) Focus control unit; (170) Input unit; (AA) Target object;
Abstract translation: 目的:提供超声成像系统和超声波图像生成方法,以便在不影响人体的范围内使用超声波能量来预先知道HIFU能量聚焦的位置。 构成:用于获得HIFU对焦图像的超声波成像系统包括HIFU发送波束成形器(100),其在超声波图像转换器频率响应范围和HIFU转换器频率响应范围内同时发送,聚焦和延迟具有频率的HIFU发送信号; HIFU转换器(110)将发送的,聚焦的和延迟的HIFU发送信号发送到目标对象; 接收从目标物体接收的超声信号的超声波图像转换器(120) 通过接收,聚焦和延迟所接收的超声信号产生合成束的图像接收波束形成器(130)和从所生成的合成波束产生超声波图像的超声波图像生成单元(140)。 (附图标记)(100)HIFU透射束形成器; (110)HIFU转换器; (120)超声图像转换器; (130)图像接收波束形成器; (140)超声图像生成单元; (150)显示单元; (160)对焦控制单元; (170)输入单元; (AA)目标物体;
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公开(公告)号:KR1020120096736A
公开(公告)日:2012-08-31
申请号:KR1020110016006
申请日:2011-02-23
Applicant: 서강대학교산학협력단
Abstract: PURPOSE: A method and apparatus for focusing an ultrasonic beam are provided to reduce delay time data to be downloaded by decreasing an operation quality to calculate delay time. CONSTITUTION: An ultrasonic transducer(130) receives an ultrasonic signal reflected from an object. A data buffer unit(160) stores a plurality of channel data generated from the ultrasonic signal. A delay time operating unit(170) operates delay time applied to the plurality of the channel data. A beam former(180) generates a synthetic beam by synthesizing the plurality of the channel data. A channel aligning unit(140) aligns the channel data.
Abstract translation: 目的:提供一种用于聚焦超声波束的方法和装置,通过降低操作质量来计算延迟时间来减少要下载的延迟时间数据。 构成:超声波换能器(130)接收从物体反射的超声波信号。 数据缓冲器单元(160)存储从超声波信号生成的多个通道数据。 延迟时间操作单元(170)操作施加到多个通道数据的延迟时间。 波束形成器(180)通过合成多个通道数据来生成合成波束。 信道对齐单元(140)对准信道数据。
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公开(公告)号:KR1020120086598A
公开(公告)日:2012-08-03
申请号:KR1020110007933
申请日:2011-01-26
Applicant: 서강대학교산학협력단
IPC: A61B8/00
Abstract: PURPOSE: An apparatus and a method for adaptive dynamic quadrature demodulation are provided to reduce the energy loss of a signal during a quadrature demodulation process by accurately converting a biased signal component into a base band signal. CONSTITUTION: A frequency estimation unit(110) estimates changes in the center frequency of a received ultrasound signal according to the propagation depth. A dynamic quadrature demodulation unit(120) implements dynamic quadrature demodulation using the estimated changes. A dynamic filter(130) determines the specification of a filter from the center frequency estimated by the frequency estimation unit, where the specification includes a cut-off frequency of a low-pass filter.
Abstract translation: 目的:提供一种用于自适应动态正交解调的装置和方法,以通过将偏置的信号分量精确地转换为基带信号来减少在正交解调处理期间的信号的能量损失。 构成:频率估计单元(110)根据传播深度估计接收到的超声波信号的中心频率的变化。 动态正交解调单元(120)使用估计的改变来实现动态正交解调。 动态滤波器(130)从由频率估计单元估计的中心频率确定滤波器的规格,其中该规格包括低通滤波器的截止频率。
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公开(公告)号:KR1020120010012A
公开(公告)日:2012-02-02
申请号:KR1020100071455
申请日:2010-07-23
Applicant: 서강대학교산학협력단
Abstract: PURPOSE: An apparatus and a method for HIFU therapy are provided to enable a user to operate without damaging blood vessel and internal organs. CONSTITUTION: An apparatus for HIFU therapy comprises: a HIFU treatment transducer(141) which transmits high intensity focused ultrasound in order to focus energy on a treatment position; a B-mode signal processing unit(150) which forms a B-mode video signal; an ultrasonic wave signal processing unit(130) which generates an ultrasound image treatment position image; an image integration unit(160) which outputs a signal of a combined image of a B-mode focused image and a treatment position image; and a system controller(110) which calibrates the focal point of high intensity focused ultrasound.
Abstract translation: 目的:提供用于HIFU治疗的装置和方法,以使用户能够在不损伤血管和内脏的情况下操作。 构成:用于HIFU治疗的装置包括:HIFU治疗换能器(141),其传送高强度聚焦超声以将能量聚焦在治疗位置; 形成B模式视频信号的B模式信号处理单元(150); 产生超声波图像处理位置图像的超声波信号处理部(130) 输出B模式聚焦图像和处理位置图像的组合图像的信号的图像合成单元(160); 以及校准高强度聚焦超声的焦点的系统控制器(110)。
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公开(公告)号:KR101974484B1
公开(公告)日:2019-09-05
申请号:KR1020170054488
申请日:2017-04-27
Applicant: 서강대학교산학협력단
IPC: A61B34/30 , A61B17/3205 , A61B8/08
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Patent Agency Ranking
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公开(公告)号:KR101568682B1
公开(公告)日:2015-11-12
申请号:KR1020140011682
申请日:2014-01-29
Applicant: 서강대학교산학협력단
IPC: H04R17/00
Abstract: 본발명은혈관삽입형초음파변환자의제조방법및 혈관삽입형초음파변환자구조체에관한것으로서, 초음파변환자의제조방법은, 미리설정된두께에따라래핑(lapping)된압전소자를형성하고, 압전소자의래핑된면에전도성물질을증착시키고, 전도성물질이증착된압전소자의전면과후면을캐스팅(casting)함으로써각각정합층과후면층을형성하고미리설정된두께에따라래핑하며, 정합층, 압전소자및 후면층이적층된소자를 IVUS(intravascular ultrasound)를위한임계크기이하가되도록적층방향에따라절삭(dicing)함으로써단일소자(single element)를제작한다.
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公开(公告)号:KR1020150090721A
公开(公告)日:2015-08-06
申请号:KR1020140011682
申请日:2014-01-29
Applicant: 서강대학교산학협력단
IPC: H04R17/00
CPC classification number: A61B8/12 , B06B1/0644 , H01L41/083
Abstract: 본발명은혈관삽입형초음파변환자의제조방법및 혈관삽입형초음파변환자구조체에관한것으로서, 초음파변환자의제조방법은, 미리설정된두께에따라래핑(lapping)된압전소자를형성하고, 압전소자의래핑된면에전도성물질을증착시키고, 전도성물질이증착된압전소자의전면과후면을캐스팅(casting)함으로써각각정합층과후면층을형성하고미리설정된두께에따라래핑하며, 정합층, 압전소자및 후면층이적층된소자를 IVUS(intravascular ultrasound)를위한임계크기이하가되도록적층방향에따라절삭(dicing)함으로써단일소자(single element)를제작한다.
Abstract translation: 本发明涉及一种用于制造血管内超声换能器和血管内超声换能器结构的方法。 根据超声波换能器的制造方法,以预定的厚度形成重叠的压电元件,在压电元件的搭接表面上沉积导电材料,并且将导电材料的导电材料的前表面和后表面 分别浇铸成匹配层和背面层。 匹配层和后表面层根据预定厚度进行研磨处理。 在堆叠方向上切割匹配层,压电元件和背面层的元件,以具有血管内超声(IVUS)以下的临界尺寸,从而制造单个元件。 根据本发明的实施例,超声波换能器具有高操作频率和超微型孔径,而不使用粘合剂并确保经济可行性。
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公开(公告)号:KR101533968B1
公开(公告)日:2015-07-06
申请号:KR1020140017102
申请日:2014-02-14
Applicant: 서강대학교산학협력단
Abstract: 본발명은멀티스케일기반초음파의료영상의화질개선방법및 시스템에관한것으로, 보다구체적으로는영상분해부가외부로부터초음파의료영상을수신하고, 수신한초음파의료영상을서로다른영상특징을갖도록복수개의스케일영역으로분해하는단계; 필터부가분해된복수개의스케일영역에대하여서로다른필터링을수행하는단계; 및영상합성부가필터링된복수개의스케일영역을합성하여초음파의료영상을재구성하는단계;를포함한다. 이러한구성에의해, 본발명의멀티스케일기반초음파의료영상의화질개선방법및 시스템은초음파의료영상을멀티스케일로분해한후, 서로다른필터링처리를통해스페클잡음을제거하여초음파의료영상의화질을개선할수 있는효과가있다.
Abstract translation: 本发明涉及基于多尺度的超声医学图像的图像质量改进方法和系统。 更具体地,图像质量改进方法包括:图像分解单元从外部接收超声医学图像并将其分解成多个刻度区域以允许接收的超声医学图像具有来自每个的不同图像特征的步骤 其他; 滤波器相对于分解的比例区域相互进行不同的滤波的步骤; 以及图像合成单元组合滤波的比例区域以重新配置超声医学图像的步骤。 根据上述结构,本发明的图像质量改进方法和系统可以将超声医学图像分解成多尺度,然后通过不同的滤波处理来消除斑点噪声,从而提高图像质量 的超声医学图像。
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公开(公告)号:KR1020150051435A
公开(公告)日:2015-05-13
申请号:KR1020130132885
申请日:2013-11-04
Applicant: 서강대학교산학협력단
Abstract: 대상체로부터반사된초음파에코신호에대해포락선검파(envelope detection)을수행하여포락선신호(envelope signal)를형성하는단계, 상기포락선신호를다수개의영역으로분할하고상기분할된영역별로 TGC 커브를생성하는단계, 상기영역별로생성된 TGC 커브들의평균을기초로최종 TGC 커브를취득하는단계, 상기최종 TGC 커브를상기포락선신호에반영하는단계및 상기최종 TGC 커브가반영된포락선신호에기초하여초음파영상을형성하는단계를포함하는초음파영상의화질개선방법이제안된다. 본발명에따르면영상의깊이(depth)별 TGC 값을자동으로적용하여균일한영상화질을제공함과동시에이로인한노이즈의증가를최소화할수 있다.
Abstract translation: 建议超声波图像的质量改进方法包括: 通过对从物体反射的超声回波信号进行包络检测来形成包络线信号的步骤; 将包络信号划分为多个区域并由分割区域形成TGC曲线的步骤; 基于由该区域产生的TGC曲线的平均值获得最终TGC曲线的步骤; 在包络信号上反映最终TGC曲线的步骤; 以及基于反映最终TGC曲线的包络信号形成超声波图像的步骤。 根据本发明,可以通过根据图像的深度应用TGC值来提供规则图像质量,并且可以最小化噪声的增加。
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