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1. 发明申请

US20210200429A1 INTERFACE AND METHOD FOR SELF-CORRECTING A TRAVEL PATH OF A PHYSICAL OBJECT 有权
公开(公告)号：US20210200429A1
公开(公告)日：2021-07-01
申请号：US16724320
申请日：2019-12-22
申请人： Michelle M Kassatly , Danielle M Kassatly , Gabrielle M Kassatly , L. Samuel A Kassatly
发明人： Michelle M Kassatly , Danielle M Kassatly , Gabrielle M Kassatly , L. Samuel A Kassatly
IPC分类号： G06F3/0484
摘要： An interface for use on board a physical object, such as a vehicle, a projectile, a drone, etc., that travels autonomously under the influence of undetermined external forces that affect its travel path. During travel, the interface collects travel data, and automatically and dynamically executes a sequence of executable commands or functions using the collected data, in order to adjust deviations of the travel path relative to a predetermined travel path. The interface stores the travel data as a graphical data layer, which is superposed onto a graphical function layer for determining the travel path deviation and for dynamically executing corrective commands. The graphical function layer includes a graphical executable grid that defines a plurality of executable outlines or cells. Different executable commands or functions are embedded within the plurality of executable outlines or cells. The interface autonomously selects the desired sequence executable commands based on the location of the physical object along travel path and its deviation from the predetermined travel path. Such autonomous selection of the sequence of executable commands is effected by the sequential graphical intersections of the graphical data layer with the executable outlines or cells of the graphical function layer. Each such graphical intersection executes a command that is embedded with the intersected executable outline using the data embedded within the intersected graphical data representation. An autonomous self-correcting mechanism responds to the execution of the commands and redresses the travel path of the physical object. The interface may be used in a multi-dimensional space.

2. 发明申请

US20110071444A1 Discontinuous Positive Airway Pressure Device And Method Of Reducing Sleep Disordered Breathing Events 有权
标题翻译：不连续的正气道压力装置和减少睡眠紊乱呼吸事件的方法
公开(公告)号：US20110071444A1
公开(公告)日：2011-03-24
申请号：US12564561
申请日：2009-09-22
申请人： L. Samuel A. KASSATLY , Michelle M. KASSATLY , Danielle M. KASSATLY , Gabrielle M. KASSATLY
发明人： L. Samuel A. KASSATLY , Michelle M. KASSATLY , Danielle M. KASSATLY , Gabrielle M. KASSATLY
IPC分类号： A61M16/00 , A61H1/00 , A61N1/08
CPC分类号： A61N1/3601 , A61B5/0809 , A61B5/087 , A61B5/415 , A61B5/4514 , A61B5/4519 , A61B5/4818 , A61H21/00 , A61H23/0236 , A61N1/0546 , A61N1/0548 , A61N1/08
摘要： A Discontinuous Positive Airway Pressure (DPAP) device and method of using the same for reducing sleep disordered breathing events, such as sleep apnea and snoring. The DPAP device provides selective excitation to the pharyngeal conduit or another muscle or cartilage along the respiratory path, a predetermined period of time before the end of the expiration stage, in order to prematurely reverse the respiratory cycle before the total collapse of the pharyngeal conduit, thus enabling the inhalation stage to reopen and refill the pharyngeal conduit.
摘要翻译：一种不连续的正气道压力（DPAP）装置及其使用方法，用于减少睡眠呼吸障碍，如睡眠呼吸暂停和打鼾。 DPAP装置在呼吸道结束之前的预定时间段内向咽喉导管或沿着呼吸路径的另一肌肉或软骨提供选择性激发，以便在咽喉导管完全塌陷之前过早地逆转呼吸周期，从而使得吸入阶段可以重新打开和重新填充咽喉导管。

3. 发明授权

US5157491A Method and apparatus for video broadcasting and teleconferencing 失效
标题翻译：视频广播和电话会议的方法和装置
公开(公告)号：US5157491A
公开(公告)日：1992-10-20
申请号：US573539
申请日：1990-08-27
申请人： L. Samuel A. Kassatly
发明人： L. Samuel A. Kassatly
IPC分类号： H04N7/08 , H04N7/15 , H04N7/58 , H04N9/804 , H04N9/82
CPC分类号： H04N7/08 , H04N21/2365 , H04N21/4347 , H04N7/0806 , H04N7/15 , H04N9/8042 , H04N9/8227
摘要： A video teleconferencing network among several remote sites includes a central switching system for receiving and processing signals from the remote sites. Video cameras are located at each one of the remote sites for generating video signals. Each camera includes an optical system having a plurality of lens systems for processing colors of different frequencies. Each one of the lens systems includes a shutter for generating amplitude vectorial signals proportional to the amplitude of the color signal being processed by the lens system. Each one of the lens systems further includes means responsive to the frequency of the corresponding color being processed by the particular lens system, for generating vectorial signals proportional to the frequency of the color signal being processed by the lens system. A modular monitor has a relatively small size liquid crystal modular screen, for use by an individual user to display texts and graphics. The modular screen includes a plurality of modules selectively engageable to one another, by the individual user, to form a single unitary screen. A user station is adapted to be coupled to the single unitary screen, for controlling the display of information thereon.
摘要翻译：几个远程站点之间的视频电话会议网络包括用于从远程站点接收和处理信号的中央交换系统。视频摄像机位于每个远程站点，用于产生视频信号。每个相机包括具有用于处理不同频率的颜色的多个透镜系统的光学系统。每个透镜系统包括用于产生与透镜系统正在处理的彩色信号的幅度成比例的幅度矢量信号的快门。每个透镜系统还包括响应于由特定透镜系统处理的相应颜色的频率的装置，用于产生与透镜系统正在处理的彩色信号的频率成比例的矢量信号。模块化显示器具有相对较小尺寸的液晶模块屏幕，供个人用户使用以显示文本和图形。模块化屏幕包括由个体用户可选地彼此接合的多个模块，以形成单一的整体屏幕。用户站适于耦合到单一的单一屏幕，用于控制其上的信息的显示。

4. 发明授权

US11435739B2 Interface and method for controlling the operation of an autonomously travelling object 有权
公开(公告)号：US11435739B2
公开(公告)日：2022-09-06
申请号：US17318954
申请日：2021-05-12
申请人： L. Samuel A Kassatly , Gabrielle M Kassatly , Michelle M Kassatly
发明人： L. Samuel A Kassatly , Gabrielle M Kassatly , Michelle M Kassatly
IPC分类号： G06F3/048 , G05D1/00 , G06F3/0484 , G06F3/04886
摘要： An interface autonomously collects input data to control the operation or travel path of an object, includes a plurality of independently operating sensors that detect the occurrence of an event. A master fractal controller initiates a space-variant fractalization protocol in order to collect the input data related to the detected event. In response to the input, the master fractal controller sends control signals to a servient controller to control the operation or travel path of the object. The master fractal controller initiates the space-variant fractalization protocol by identifying or defining a fractal space, and by further initiating sub-servient fractals in sub-servient spaces, within which an intersection of a graphical function layer that includes an executable grid with a graphical data layer causes a command or function be executed within the sub-servient fractal space.

5. 发明授权

US11048407B1 Interface and method for self-correcting a travel path of a physical object 有权
公开(公告)号：US11048407B1
公开(公告)日：2021-06-29
申请号：US16724320
申请日：2019-12-22
申请人： Michelle M Kassatly , Danielle M Kassatly , Gabrielle M Kassatly , L. Samuel A Kassatly
发明人： Michelle M Kassatly , Danielle M Kassatly , Gabrielle M Kassatly , L. Samuel A Kassatly
IPC分类号： G06F3/048 , G06F3/0488 , G06K9/00
摘要： An interface for use on board a physical object, such as a vehicle, a projectile, a drone, etc., that travels autonomously under the influence of undetermined external forces that affect its travel path. During travel, the interface collects travel data, and automatically and dynamically executes a sequence of executable commands or functions using the collected data, in order to adjust deviations of the travel path relative to a predetermined travel path. The interface stores the travel data as a graphical data layer, which is superposed onto a graphical function layer for determining the travel path deviation and for dynamically executing corrective commands. The graphical function layer includes a graphical executable grid that defines a plurality of executable outlines or cells. Different executable commands or functions are embedded within the plurality of executable outlines or cells. The interface autonomously selects the desired sequence executable commands based on the location of the physical object along travel path and its deviation from the predetermined travel path. Such autonomous selection of the sequence of executable commands is effected by the sequential graphical intersections of the graphical data layer with the executable outlines or cells of the graphical function layer. Each such graphical intersection executes a command that is embedded with the intersected executable outline using the data embedded within the intersected graphical data representation. An autonomous self-correcting mechanism responds to the execution of the commands and redresses the travel path of the physical object. The interface may be used in a multi-dimensional space.

6. 发明申请

US20170172249A1 Footwear Auxiliaries for Synchronously Toning Leg Muscles in Order to Straighten Back Posture 审中-公开
公开(公告)号：US20170172249A1
公开(公告)日：2017-06-22
申请号：US15453993
申请日：2017-03-09
申请人： Danielle M. KASSATLY , Michelle M. KASSATLY , L Samuel A. KASSATLY , Gabrielle M. Kassatly
发明人： Danielle M. KASSATLY , Michelle M. KASSATLY , L Samuel A. KASSATLY , Gabrielle M. Kassatly
IPC分类号： A43B13/20 , A43B7/00
CPC分类号： A43B13/20 , A43B7/00 , A61M16/0051 , A61M16/0069 , A61M16/024 , A61M16/0493 , A61M16/107 , A61M16/20 , A61M2016/0021 , A61M2016/0027 , A61M2205/8256 , H01M10/46 , H02J7/35 , H02J50/10 , H02J50/30
摘要： A footwear effects toning of the leg muscles. It includes two soles and a redress mechanism contained within each of the soles for redressing the positions of the soles, in order to adjust corresponding feet positions by toning the leg muscles. A shock absorbing pebble for use within the soles, includes an elastic membrane that deforms under pressure, and that defines two chambers that are connected by means of a gas permeable membrane. In a balanced position, the first chamber is filled with a mixture of gas along with fluid, and the second chamber is filled with gas. As an external force is applied to the membrane, gas molecules are forced into the second chamber, inflating it until equilibrium is achieved, thus dampening the external force.

7. 发明授权

US11768489B2 Controller and method for correcting the operation and travel path of an autonomously travelling vehicle 有权
公开(公告)号：US11768489B2
公开(公告)日：2023-09-26
申请号：US17818514
申请日：2022-08-09
申请人： L Samuel A Kassatly
发明人： L Samuel A Kassatly
IPC分类号： G06F3/048 , G05D1/00 , G06F3/0484 , G06F3/04886
CPC分类号： G05D1/0038 , G06F3/0484 , G06F3/04886
摘要： A method of using a fractalization protocol to control the operation or travel path of a vehicle during travel or flight, includes a plurality of sensors that detect the occurrence of an event or travel path deviation. A master fractal controller initiates a space-variant fractalization protocol in order to collect the input data related to the detected event. In response to the input data, if the master space-variant fractalization protocol detects a deficiency in data resolution of the collected input data it identifies the slave controllers that are relevant to compensate for such deficiency. The master space-variant fractalization protocol then initiates slave fractals that correspond to the identified slave controllers for collecting additional input data and that define adjustable slave fractalization protocols. The space-variant fractalization protocol then causes the slave fractalization protocols to collect the additional input data.

8. 发明授权

US08215302B2 Discontinuous positive airway pressure device and method of reducing sleep disordered breathing events 有权
标题翻译：不连续的正气道压力装置和减少睡眠呼吸事件紊乱的方法
公开(公告)号：US08215302B2
公开(公告)日：2012-07-10
申请号：US12564561
申请日：2009-09-22
申请人： L. Samuel A Kassatly , Michelle M Kassatly , Danielle M Kassatly , Gabrielle M Kassatly
发明人： L. Samuel A Kassatly , Michelle M Kassatly , Danielle M Kassatly , Gabrielle M Kassatly
IPC分类号： A61M16/00 , A62B7/00
CPC分类号： A61N1/3601 , A61B5/0809 , A61B5/087 , A61B5/415 , A61B5/4514 , A61B5/4519 , A61B5/4818 , A61H21/00 , A61H23/0236 , A61N1/0546 , A61N1/0548 , A61N1/08
摘要： A Discontinuous Positive Airway Pressure (DPAP) device and method of using the same for reducing sleep disordered breathing events, such as sleep apnea and snoring. The DPAP device provides selective excitation to the pharyngeal conduit or another muscle or cartilage along the respiratory path, a predetermined period of time before the end of the expiration stage, in order to prematurely reverse the respiratory cycle before the total collapse of the pharyngeal conduit, thus enabling the inhalation stage to reopen and refill the pharyngeal conduit.
摘要翻译：一种不连续的正气道压力（DPAP）装置及其使用方法，用于减少睡眠呼吸障碍，如睡眠呼吸暂停和打鼾。 DPAP装置在呼吸道结束之前的预定时间段内向咽喉导管或沿着呼吸路径的另一肌肉或软骨提供选择性激发，以便在咽喉导管完全塌陷之前过早地逆转呼吸周期，从而使得吸入阶段可以重新打开和重新填充咽喉导管。

9. 发明授权

US5508733A Method and apparatus for selectively receiving and storing a plurality of video signals 失效
标题翻译：用于选择性地接收和存储多个视频信号的方法和装置
公开(公告)号：US5508733A
公开(公告)日：1996-04-16
申请号：US17030
申请日：1993-02-12
申请人： L. Samuel A. Kassatly
发明人： L. Samuel A. Kassatly
IPC分类号： H04N7/08 , H04N7/15 , H04N7/58 , H04N9/804 , H04N9/82 , H04N7/14 , H04N7/015 , H04N7/26
CPC分类号： H04N7/08 , H04N21/2365 , H04N21/4347 , H04N7/0806 , H04N7/15 , H04N9/8042 , H04N9/8227
摘要： Video receiving method and apparatus, are responsive to requests from a selector unit (240), for identifying channels (1 through n), in a transmitter system (204), containing video signals to be sent from the transmitter system (204) to one or more receiver systems (202). The receiving method includes steps of having the receiver system (202) select (94) one or more channels. The receiver system generates (90) signals identificative of the selected channels, and sends (29) the channel identifying signals to the transmitter system (204). The transmitter system uses the channel identifying signals to selectively identify the channels to be transmitted to the receiver system (202). The transmitter system compresses (17, 19, 21) and multiplexes (25) the signals of the channels selected by the receiver system (202). The receiver system (202) receives (75) the compressed and multiplexed signals, and stores (35, 37, 39) the received signals.
摘要翻译：视频接收方法和装置响应于来自选择器单元（240）的请求，用于识别发射机系统（204）中的信道（1至n），其包含要从发射机系统（204）发送到一个的视频信号或更多的接收机系统（202）。接收方法包括使接收机系统（202）选择（94）一个或多个信道的步骤。接收机系统产生（90）识别所选择的信道的信号，并将信道识别信号（29）发送到发射机系统（204）。发射机系统使用信道识别信号来选择性地识别要发射到接收机系统（202）的信道。发射机系统压缩（17,19,21）并复用（25）由接收机系统（202）选择的信道的信号。接收机系统（202）接收（75）压缩和复用的信号，并存储（35,37,39）所接收的信号。

10. 发明申请

US20220390941A1 CONTROLLER AND METHOD FOR CORRECTING THE OPERATION AND TRAVEL PATH OF AN AUTONOMOUSLY TRAVELLING VEHICLE 有权
公开(公告)号：US20220390941A1
公开(公告)日：2022-12-08
申请号：US17818514
申请日：2022-08-09
申请人： L Samuel A Kassatly
发明人： L Samuel A Kassatly
IPC分类号： G05D1/00 , G06F3/0484 , G06F3/04886
摘要： A method of using a fractalization protocol to control the operation or travel path of a vehicle during travel or flight, includes a plurality of sensors that detect the occurrence of an event or travel path deviation. A master fractal controller initiates a space-variant fractalization protocol in order to collect the input data related to the detected event. In response to the input data, if the master space-variant fractalization protocol detects a deficiency in data resolution of the collected input data it identifies the slave controllers that are relevant to compensate for such deficiency. The master space-variant fractalization protocol then initiates slave fractals that correspond to the identified slave controllers for collecting additional input data and that define adjustable slave fractalization protocols. The space-variant fractalization protocol then causes the slave fractalization protocols to collect the additional input data.

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