Patent application number | Description | Published |
20090014648 | Particle beam device and method for use in a particle beam device - A particle beam device includes a movable carrier element with at least one receiving element for receiving a specimen and in which the receiving element is situated on the carrier element. In various embodiments, the receiving element may be situated removably on the carrier element and/or multiple receiving elements may be situated on the carrier element in such a way that a movement of the carrier element causes a movement of the multiple receiving elements in the same spatial direction or around the same axis. The carrier element may be movable in three spatial directions situated perpendicular to one another and rotatable around a first axis which is parallel to an optical axis of the particle beam device and around a second axis which is situated perpendicular to the optical axis. A method for using the particle beam device in connection with specimen study and preparation is also disclosed. | 01-15-2009 |
20120112063 | METHOD AND APPARATUS FOR GENERATING THREE-DIMENSIONAL IMAGE DATA - A method and an apparatus for generating three-dimensional image data of a sample are disclosed. A first particle beam is provided for exposing a surface and a second particle beam is provided for generating an image of the surface are used. By moving the sample, it suffices if the first particle beam and/or the second particle beam are initially focused once on a surface of the sample that has already been exposed. Because all further exposed surfaces are always located in the same position, refocusing the first particle beam and/or the second particle beam is no longer required. | 05-10-2012 |
20120205538 | PARTICLE BEAM DEVICE AND METHOD FOR PROCESSING AND/OR ANALYZING A SAMPLE - A particle beam device and method for processing and/or for analyzing a sample are provided. A sample carrier is arranged at a first position, in which a sample surface is oriented parallel to a first beam axis of a first particle beam column. The sample carrier is rotatable from the first position into a second position, in which the sample surface is oriented perpendicular to a second beam axis of a second particle beam column. The first and second beam axes intersect at a coincidence point. In the first position a distance between the coincidence point and the first particle beam column is greater than a distance between the sample surface and the first particle beam column. In the second position a distance between the coincidence point and the second particle beam column is greater than a distance between the sample surface and the second particle beam column. | 08-16-2012 |
20120305765 | PARTICLE BEAM DEVICE AND METHOD FOR USE IN A PARTICLE BEAM DEVICE - A particle beam device includes a movable carrier element with at least one receiving element for receiving a specimen and in which the receiving element is situated on the carrier element. In various embodiments, the receiving element may be situated removably on the carrier element and/or multiple receiving elements may be situated on the carrier element in such a way that a movement of the carrier element causes a movement of the multiple receiving elements in the same spatial direction or around the same axis. The carrier element may be movable in three spatial directions situated perpendicular to one another and rotatable around a first axis which is parallel to an optical axis of the particle beam device and around a second axis which is situated perpendicular to the optical axis. A method for using the particle beam device in connection with specimen study and preparation is also disclosed. | 12-06-2012 |
20150036122 | FIB-SEM ARRAY TOMOGRAPHY - Methods and devices for magnified imaging of three-dimensional samples are disclosed. The methods include imaging sample sections of a sample section series using a first particle-optical device. Coordinates of the imaged sample point are acquired and stored in such a way that the coordinates of the imaged sample point can be associated with the respective image of this sample point. The method also includes selecting a volume of interest (VOI), and transmitting the coordinates of the selected VOI to a second particle-optical device. In addition, the method includes imaging the selected VOI by means of the second particle-optical device. A plurality of planes of a sample section are imaged in order to obtain a 3D image of the selected VOI. | 02-05-2015 |
Patent application number | Description | Published |
20120023154 | RAPID CLIENT-SIDE COMPONENT PROCESSING BASED ON COMPONENT RELATIONSHIPS - A client database manager can cause a memory of a client device on a client side of a network to store a first component, a second component, and a relationship value representing a dependent relationship between the first component and the second component. A client processing module can cause a processor to receive, after the storing, a request to process the first component at the client device. The client database manager can send to the server side of the network a request for an update of at least one of the first component or the second component. The client processing module can cause the processor to process at the client device, before receiving a response to the request for the update from the server side of the network, at least a portion of the first component and at least a portion of the second component based on the relationship value. | 01-26-2012 |
20120023421 | MODEL FOR EXTENSIONS TO SYSTEM PROVIDING USER INTERFACE APPLICATIONS - A customized application that is declared based on an abstract class definition derived from a declared host component model associated with a host software application implementing business processes and providing a graphical display associated with a user interface (UI) for a user in a client program executing on a client frontend device storing metadata associated with the UI for the client frontend device may be initiated, the metadata including a declaration of the declared host component model and a declaration of the abstract class definition. Access to data and functionality of the host software application may be obtained via the customized application. Customized output may be provided that is different from host output provided by the host software application, the customized output generated by accessing, via the abstract class definition, the declared host component model, for accessing the same data and functionality that is accessed by the host software application. | 01-26-2012 |
20120023484 | AUTOMATION OF TESTING FOR USER INTERFACE APPLICATIONS - A host software application implementing business processes and providing a graphical display associated with a user interface (UI) for a user in a client program executing on a client frontend device that is separate from a backend device storing metadata associated with the UI may be initiated. An automation graphical symbol may provide the user with an option to initiate a test on events of the host software application, during execution of the host software application. A request from the user may be received, to initiate a test on events of the host software application. Information may be received from the user indicating one or more selected specific events for performing the test. The test may be initiated on the selected specific events, based on a state of execution of the host software application at an initial time of the user indicating the selected specific events for performing the test. | 01-26-2012 |
20120030591 | LOGICAL DATA MODEL ABSTRACTION IN A PHYSICALLY DISTRIBUTED ENVIRONMENT - A component object binds business driven services to a graphical user interface (GUI). The object includes a data model, view model and controller. The view model graphically presents, and the controller manipulates data used by the object. The controller includes an event handler that respond to events generated within the GUI and binds data used by the object to a data source which can be another component object or a remotely located source. The event handler can call a local script to calculate the value of a data element within the object. The component object can be instantiated on a client, and can be configured to communicate with a corresponding component object on a server. The client and server component objects can exchange only that data that needs to be exchanged to maintain the current state of a user interface in the client computer. | 02-02-2012 |
20120030664 | PROCESSING OF SOFTWARE OBJECTS MOVED INTO A DROPZONE REGION OF AN APPLICATION - A non-transitory computer-readable storage medium storing code representing instructions that when executed are configured to cause a processor to perform a process. The code can comprise code to receive, on a client side of a network, an indicator that a first software object has been moved from a first application into a dropzone region of a second application. The code can include code to receive an indicator that a second software object has been moved into the dropzone region of the second application, and code to access a plurality of dropzone conditions. The code can include code to determine that a dropzone condition from the plurality of dropzone conditions has been satisfied based on the first software object and the second software object both being moved into the dropzone region, and code to send to a server side of a network an indicator that the dropzone condition has been satisfied. | 02-02-2012 |
20120102406 | COMPOSITION MODEL FOR COMPONENTS OF A USER INTERFACE FRAMEWORK FOR WEB APPLICATIONS - Various embodiments of systems and methods for a composition model for components of a user interface framework for Web applications are described. The methods include a loosely coupled method and a tightly coupled method for composing components in a UI framework. The loosely coupled method includes triggering a navigation pipe from an out-port of a first component to an in-port of a second component and defining a context mapping between a first set of parameters of the out-port of the first component and a second set of parameters of the in-port of the second component. The tightly coupled method includes exposing a binding reference from the first component to the second component and specifying a first data model entity from the first component to be bound to a second data model entity of the second component via a binding contract. | 04-26-2012 |
20120102414 | DISTRIBUTED CONTROLLER OF A USER INTERFACE FRAMEWORK FOR WEB APPLICATIONS - Various embodiments of systems and methods for improved user interface framework for Web applications are described herein. The UI framework is based on the MVC architectural pattern. An additional controller, a server controller, is included in the server part of the user interface framework runtime. A client controller is running at the client side of the user interface framework runtime. The client controller and the server controller form one logical synchronized controller. The server controller ensures that all needed controller calculations, which would lead to additional roundtrips between the client side and the server side, can be done on the server side. Thus, exact one roundtrip between client side and backend for every user interaction and transporting only the bare minimum of data needed to render the current UI state is achieved. | 04-26-2012 |
20120151439 | LIFECYCLE STABLE USER INTERFACE ADAPTATIONS - Various embodiments of systems and methods for lifecycle stable user interface adaptations are described herein. All adaptations done by partners/key users/end users to a user interface of a computer software application are preserved during the lifecycle of the application. In one aspect, the adaptations are persisted as additional metadata used for the generation of the user interface. In another aspect, the lifecycle stability is achieved by attaching the adaptations to semantically coherent set of fields placed in the UI that reappear in future releases of the computer software application. | 06-14-2012 |
20120166461 | LAYERING CONCEPT FOR A REPOSITORY OF A USER INTERFACE FRAMEWORK FOR WEB APPLICATIONS - Various embodiments of systems and methods for a layering concept for a repository of a user interface framework for Web applications are described herein. The content of a repository provided by different parties (e.g., vendor, partner, customer, user, etc.) is separated. The separation is achieved by assigning solutions to the parties that store content in the repository. Simplified access to the repository is achieved by layering the solutions in a stack and implementing a layer strategy for the layers and their order of access. | 06-28-2012 |
20120166977 | USER PROGRAMMING ACCESS TO DATA MODEL IN USER INTERFACE DESIGN - Various embodiments of systems and methods for user programming access to data model in user interface design are described herein. User interface modeling is merged with a scripting language for additional functionalities. In one aspect, scripting enhances the dynamic access to the whole user interface model. In another aspect, additional controller and navigation logic is exposed by means of script inputs. A user can model, bind and run advanced logic through runtime declaration. | 06-28-2012 |
20120166983 | INTEGRATED METADATA AND NESTED AUTHORIZATIONS IN A USER INTERFACE FRAMEWORK - Various embodiments of systems and methods for integrated metadata and nested authorizations in a user interface framework are described herein. User interface components metadata and authorization metadata are stored in one integrated entity. The primary user interface application components have authorization metadata and are checked at runtime for accessibility to the user interface application for a given user. The user interface framework ensures the security of the embedded user interface components via nested authorizations using metadata relations. The metadata relations are used for runtime authorization and policy generation. Generic user interface components are aggregated at runtime. | 06-28-2012 |