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公开(公告)号:US08825817B1
公开(公告)日:2014-09-02
申请号:US13424089
申请日:2012-03-19
申请人: Avinash Jaisinghani , Reto Kramer , Christopher Whitaker , Nishanth Shankaran , Jaykumar H. Gosar , Jeffrey L. Baker , Daniel Osiecki , Danny Rabbani , Prashant Jayaraman , Venkates P. Balakrishnan , Adam M. Thomas
发明人: Avinash Jaisinghani , Reto Kramer , Christopher Whitaker , Nishanth Shankaran , Jaykumar H. Gosar , Jeffrey L. Baker , Daniel Osiecki , Danny Rabbani , Prashant Jayaraman , Venkates P. Balakrishnan , Adam M. Thomas
IPC分类号: G06F15/177
CPC分类号: H04L47/762 , G06F8/65 , H04L41/0816
摘要: Techniques are described that enable a user to upgrade a stack of resources by providing a template that reflects the desired end state of the stack. Upon receiving a new template, the system automatically detects changes that should be performed and determines the order in which the changes should be performed. The system can also detect if the desired changes to the stack are a result of direct modifications; because parameters to the resources have changed; or the changes are indirectly caused by other dependency/attribute changing. Additionally, the system determines whether the changes require creating new resources or if the changes can be made to the resources live. In case of replacement of resources, the system will first create the new resource, move that new resource into the stack and remove the old resource(s). In case of failures, the system ensures that the stack rolls back to the initial state.
摘要翻译: 描述了使得用户能够通过提供反映堆栈的期望结束状态的模板来升级资源堆栈的技术。 系统收到新模板后,会自动检测应执行的更改,并确定应执行更改的顺序。 系统还可以检测对堆栈的所需更改是否是直接修改的结果; 因为资源的参数已经改变了; 或更改间接地由其他依赖/属性更改引起。 此外,系统确定更改是否需要创建新资源,或者是否可以对资源进行更改。 在更换资源的情况下,系统将首先创建新资源,将该新资源移入堆栈并删除旧的资源。 在故障的情况下,系统确保堆栈回滚到初始状态。
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公开(公告)号:US20110214500A1
公开(公告)日:2011-09-08
申请号:US13041046
申请日:2011-03-04
申请人: Ramon Cabrera , Zhivko Grozev , Alexander Kovachev , Daryl B. Slocum , Adam Jackson , Daniel Osiecki
发明人: Ramon Cabrera , Zhivko Grozev , Alexander Kovachev , Daryl B. Slocum , Adam Jackson , Daniel Osiecki
IPC分类号: G01C13/00
CPC分类号: G01C13/00 , G01D11/245 , G01N33/1886 , G01N2001/021
摘要: An underwater sensor device comprises a submersible housing including one or more housing components, one or more sensors for monitoring and collecting water characteristics, a controller for controlling operations of the one or more sensors and an graphical user interface mounted to the housing that displays the water environmental data. The housing defines a channel that extends through one of the housing components, and at least one of the sensors is mounted to the housing and extends into the channel. The controller is disposed within the housing and is operatively connected to the one or more sensors.
摘要翻译: 水下传感器装置包括一个包括一个或多个壳体部件的潜水壳体,用于监测和收集水特性的一个或多个传感器,用于控制所述一个或多个传感器的操作的控制器和安装到壳体上的图形用户界面, 环境数据。 壳体限定了延伸穿过壳体部件中的一个的通道,并且至少一个传感器安装到壳体并延伸到通道中。 控制器设置在壳体内并且可操作地连接到一个或多个传感器。
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公开(公告)号:US08272262B2
公开(公告)日:2012-09-25
申请号:US13041046
申请日:2011-03-04
申请人: Ramon Cabrera , Zhivko Grozev , Alexander Kovachev , Daryl B. Slocum , Adam Jackson , Daniel Osiecki
发明人: Ramon Cabrera , Zhivko Grozev , Alexander Kovachev , Daryl B. Slocum , Adam Jackson , Daniel Osiecki
IPC分类号: G01C13/00
CPC分类号: G01C13/00 , G01D11/245 , G01N33/1886 , G01N2001/021
摘要: An underwater sensor device comprises a submersible housing including one or more housing components, one or more sensors for monitoring and collecting water characteristics, a controller for controlling operations of the one or more sensors and an graphical user interface mounted to the housing that displays the water environmental data. The housing defines a channel that extends through one of the housing components, and at least one of the sensors is mounted to the housing and extends into the channel. The controller is disposed within the housing and is operatively connected to the one or more sensors.
摘要翻译: 水下传感器装置包括一个包括一个或多个壳体部件的潜水壳体,用于监测和收集水特性的一个或多个传感器,用于控制所述一个或多个传感器的操作的控制器和安装到壳体上的图形用户界面, 环境数据。 壳体限定了延伸穿过壳体部件中的一个的通道,并且至少一个传感器安装到壳体并延伸到通道中。 控制器设置在壳体内并且可操作地连接到一个或多个传感器。
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