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公开(公告)号:US12136424B2
公开(公告)日:2024-11-05
申请号:US18094056
申请日:2023-01-06
Applicant: Teledyne Instruments, Inc.
Inventor: Ken Scussel , Thomas W. Altshuler , Andrey K. Morozov , Michael J. Coryer
Abstract: Disclosed is a diver's voice communication system which utilizes AI speech recognition, speech-to-text conversion with the ability to adapt to diver speech distortion resulting from hyperbaric helium-oxygen conditions and text transmission using underwater acoustic digital communication. Additionally, the communication system provides the ability to use speech commands in a digital form to control underwater autonomous devices. Further, the digital communication system provides the ability to track and communicate with a large number of divers or with select divers from a large group.
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公开(公告)号:US20150128842A1
公开(公告)日:2015-05-14
申请号:US14504101
申请日:2014-10-01
Applicant: Teledyne Instruments, Inc.
Inventor: Douglas C. Webb , Mark Belcher , Lawrence Bovie , Robert Correllus , Andrew Elskamp , Hugh E. Fargher , Thomas Patterson , Ernest Petzrick , David Pingal , Daniel Ryan , Andrew Sealey , Clyde Streeter , James Truman , William Wallace , Steven Arruda , Robert G. Melvin, II , Thomas W. Altshuler
CPC classification number: B63G8/24 , B63B22/18 , B63B2211/02 , B63G8/001 , B63G2008/004 , G01C13/00
Abstract: In various embodiments a variable buoyancy profiling float is disclosed. The variable buoyancy profiling float may comprise a spherical glass housing comprising a first hemisphere and a second hemisphere. The first and second hemispheres may be coupled by a partial vacuum within the spherical glass housing. A buoyancy system may be located at least partially within the spherical glass housing. The buoyancy system may be configured to provide variable buoyancy control to the variable buoyancy profiling float. A sensor bundle may be mounted to the spherical glass housing and may be configured to measure at least one environmental parameter.
Abstract translation: 在各种实施例中,公开了可变浮力轮廓浮子。 可变浮力轮廓浮子可以包括包括第一半球和第二半球的球形玻璃壳体。 第一和第二半球可以通过球形玻璃外壳内的部分真空联接。 浮力系统可以至少部分地位于球形玻璃外壳内。 浮力系统可以被配置为向可变浮力轮廓浮子提供可变的浮力控制。 传感器束可以安装到球形玻璃外壳上,并且可以被配置成测量至少一个环境参数。
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公开(公告)号:US09168990B2
公开(公告)日:2015-10-27
申请号:US14504101
申请日:2014-10-01
Applicant: Teledyne Instruments, Inc.
Inventor: Douglas C. Webb , Mark Belcher , Lawrence Bovie , Robert Correllus , Andrew Elskamp , Hugh E. Fargher , Thomas Patterson , Ernest Petzrick , David Pingal , Daniel Ryan , Andrew Sealey , Clyde Streeter , James Truman , William Wallace , Steven Arruda , Robert G. Melvin, II , Thomas W. Altshuler
CPC classification number: B63G8/24 , B63B22/18 , B63B2211/02 , B63G8/001 , B63G2008/004 , G01C13/00
Abstract: In various embodiments a variable buoyancy profiling float is disclosed. The variable buoyancy profiling float may comprise a spherical glass housing comprising a first hemisphere and a second hemisphere. The first and second hemispheres may be coupled by a partial vacuum within the spherical glass housing. A buoyancy system may be located at least partially within the spherical glass housing. The buoyancy system may be configured to provide variable buoyancy control to the variable buoyancy profiling float. A sensor bundle may be mounted to the spherical glass housing and may be configured to measure at least one environmental parameter.
Abstract translation: 在各种实施例中,公开了可变浮力轮廓浮子。 可变浮力轮廓浮子可以包括包括第一半球和第二半球的球形玻璃壳体。 第一和第二半球可以通过球形玻璃外壳内的部分真空联接。 浮力系统可以至少部分地位于球形玻璃外壳内。 浮力系统可以被配置为向可变浮力轮廓浮子提供可变的浮力控制。 传感器束可以安装到球形玻璃外壳上,并且可以被配置成测量至少一个环境参数。
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公开(公告)号:US20240233730A1
公开(公告)日:2024-07-11
申请号:US18094056
申请日:2023-01-06
Applicant: Teledyne Instruments, Inc.
Inventor: Ken Scussel , Thomas W. Altshuler , Andrey K. Morozov , Michael J. Coryer
CPC classification number: G10L15/26 , A61B5/0002 , G08C23/02 , G10L13/00 , H04B11/00 , H04B13/02 , H04Q9/00
Abstract: Disclosed is a diver's voice communication system which utilizes AI speech recognition, speech-to-text conversion with the ability to adapt to diver speech distortion resulting from hyperbaric helium-oxygen conditions and text transmission using underwater acoustic digital communication. Additionally, the communication system provides the ability to use speech commands in a digital form to control underwater autonomous devices. Further, the digital communication system provides the ability to track and communicate with a large number of divers or with select divers from a large group.
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