Patents by Inventor Dieter Böing
Dieter Böing has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9636077Abstract: A method is disclosed for automatically selecting a scanning protocol for a tomographic recording of an X-ray image of a patient in that at least one patient-specific value is retrieved in the internal memory of a first computer. The patient-specific value can in particular be a measure of the anticipated X-ray absorption by the patient. The method includes automatically comparing the patient-specific value with retrievably stored reference values, wherein one scanning protocol can be associated with each reference value. Finally, a scanning protocol is automatically selected by way of the first computer using the comparison. Selection is simplified by automation of selection of the scanning protocol since no manual selection of the scanning protocol has to be made. Automatic selection of a suitable scanning protocol is also quicker than a manual selection.Type: GrantFiled: September 16, 2014Date of Patent: May 2, 2017Assignee: SIEMENS AKTIENGESELLSCHAFTInventors: Christoph Braun, Dieter Böing, Christiane Koch, Robert Lapp, Michael Scheuering, Martin Sedlmair, Grzegorz Soza
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Publication number: 20150085971Abstract: A method is disclosed for automatically selecting a scanning protocol for a tomographic recording of an X-ray image of a patient in that at least one patient-specific value is retrieved in the internal memory of a first computer. The patient-specific value can in particular be a measure of the anticipated X-ray absorption by the patient. The method includes automatically comparing the patient-specific value with retrievably stored reference values, wherein one scanning protocol can be associated with each reference value. Finally, a scanning protocol is automatically selected by way of the first computer using the comparison. Selection is simplified by automation of selection of the scanning protocol since no manual selection of the scanning protocol has to be made. Automatic selection of a suitable scanning protocol is also quicker than a manual selection.Type: ApplicationFiled: September 16, 2014Publication date: March 26, 2015Inventors: Christoph BRAUN, Dieter BÖING, Christiane KOCH, Robert LAPP, Michael SCHEUERING, Martin SEDLMAIR, Grzegorz SOZA
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Patent number: 8483799Abstract: A method and a system are disclosed for computed tomography illustration of the movement of a heart in the cardiac cycle with the aid of a spiral CT. In the method, a patient is administered a contrast medium via an electronically controllable apparatus. A stationary prescan of a cardiac artery is carried out in order to determine the sufficient filling of the artery with the automatically applied contrast medium. When a sufficient contrast medium filling is detected, the current heart rate of the heart being examined is measured, and a maximum possible feed rate for a spiral scan and a duration of the spiral scan are determined on the basis of the current heart rate. Subsequently, the spiral scan is carried out over the heart region with the maximum possible feed rate.Type: GrantFiled: April 18, 2006Date of Patent: July 9, 2013Assignee: Siemens AktiengesellschaftInventors: Dieter Böing, Axel Kuettner, Johann Uebler
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Patent number: 8000510Abstract: In a method and control device to control a slice image acquisition system, a scan protocol is initially selected from a number of scan protocols, and then an automatic control of the slice image acquisition system (13) ensues on the basis of the selected scan protocol by automatic receipt of previous information regarding the examination subject, automatic synchronization of the previous information with information regarding scan protocol-specific parameters of scan protocols, and automatic selection of the scan protocol, from among the number of scan protocols, that has parameters exhibiting the greatest compatibility with the received previous information according to an established rule.Type: GrantFiled: August 12, 2009Date of Patent: August 16, 2011Assignee: Siemens AktiengesellschaftInventors: Dieter Boeing, Bernhard Krauss, Stefan Kaepplinger, Bernhard Schmidt
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Patent number: 7970192Abstract: A method is described for controlling an imaging modality. The method includes acquiring data specific to an examination object and automatically selecting a raw data record from a number of raw data records on the basis of the data specific to the examination object. The method further includes producing an image on the basis of the selected raw data record and by using a selected control parameter set. The produced image is then output to a user. Thereafter, a change command of the user is detected, for altering the control parameter set, or detecting a confirmation command for confirming the control parameter set. Next, the control parameter set is changed in accordance with a detected change command. The method then includes repeating the method steps of producing, outputting, detecting and changing with the respectively current, changed control parameter set until a confirmation signal is detected.Type: GrantFiled: January 30, 2006Date of Patent: June 28, 2011Assignee: Siemens AktiengesellschaftInventors: Dieter Boeing, Gabriel Haras
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Patent number: 7903859Abstract: An imaging method and system allow duplicated repetition of a procedure to acquire image data from the interior of the body of a patient and to generate an image of the interior of the body of the patient with an initial imaging modality, that is operated using patient-specific examination parameters to implement a procedure to acquire the image data and generate the image. The patient-specific examination parameters are electronically stored, and are electronically retrieved to implement a duplicate of the aforementioned procedure in an imaging modality-assisted follow-up examination.Type: GrantFiled: June 6, 2008Date of Patent: March 8, 2011Assignee: Siemens AktiengesellschaftInventors: Dieter Boeing, Heinz-Peter Engels
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Patent number: 7840047Abstract: Provided is a method for generating views of tomographic image data. At least one view of an object area is generated by image filtering from tomographic CT image data by using a modulation transfer function and coordinate information. A filter algorithm is used for the image filtering and, if appropriate, further view parameters required for generating the view may be stored in a view file assigned to the CT image data. The view file is called up, and the filter algorithm as well as, if appropriate, the further view parameters are applied to the CT image for the purpose of renewed generation of the view.Type: GrantFiled: April 5, 2007Date of Patent: November 23, 2010Assignee: Siemens AktiengesellschaftInventors: Dieter Böing, Gregor Malischnig
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Patent number: 7822170Abstract: A method and a tomographic system are disclosed for displaying tomographic records of a patient. In at least one embodiment, the method includes scanning the patient with the aid of a tomographic system having one system axis, determining at least one topogram, calculating three-dimensional image data records including a multiplicity of slice images on a plane or volume data records, and outputting at least one slice image of the patient. In at least one embodiment, the orientation of individual body zones relative to the system axis of the tomographic system is automatically determined from the at least one topogram, and slice images of the body zones are calculated from the three-dimensional image data records, the slice planes of which are at a defined solid angle to the previously determined orientation of the scanned body zones.Type: GrantFiled: May 20, 2008Date of Patent: October 26, 2010Assignee: Siemens AktiengesellschaftInventors: Gabriel Haras, Peter Aulbach, Dieter Böing
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Patent number: 7747406Abstract: In a method to test a clinical and/or medical-technical system and a method for controlling medical-technical examination workflows in a clinical and/or medical-technical system, medical examination workflows in the appertaining system are simulated. For this purpose, a process workflow plan is selected from a number of process workflow plans dependent on an examination task, each of the process workflow plans including a number of linked process units with which system component of the system are respectively associated. Each process workflow plan also includes an input parameter set, an output parameter set and a transfer function that is dependent on the examination task and/or the associated system component. Respective output parameter values and/or performance data for the individual process units are then determined from a number of input parameter values for the appertaining process units on the basis of the transfer function.Type: GrantFiled: June 29, 2006Date of Patent: June 29, 2010Assignee: Siemens AktiengesellschaftInventors: Dieter Böing, Gregor Malischnig
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Publication number: 20100153132Abstract: A method and apparatus is provided for analysis of the utilization of a technical medical device, such as a computer tomography, by a medical facility is provided. Recording of the use of the device is performed with time stamp information and a comparison of the use is performed by a programmed computer device to other users of similar equipment or to similar users of different equipment. Optimization of use, such as through the purchase if different equipment and/or software or upgrades to the equipment and/or software is proposed.Type: ApplicationFiled: February 24, 2010Publication date: June 17, 2010Inventors: Axel Barth, Dieter Böing, Gregor Malischnig
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Publication number: 20100040268Abstract: In a method and control device to control a slice image acquisition system, a scan protocol is initially selected from a number of scan protocols, and then an automatic control of the slice image acquisition system (13) ensues on the basis of the selected scan protocol by automatic receipt of previous information regarding the examination subject, automatic synchronization of the previous information with information regarding scan protocol-specific parameters of scan protocols, and automatic selection of the scan protocol, from among the number of scan protocols, that has parameters exhibiting the greatest compatibility with the received previous information according to an established rule.Type: ApplicationFiled: August 12, 2009Publication date: February 18, 2010Inventors: Dieter Boeing, Bernhard Krauss, Stefan Kaepplinger, Bernhard Schmidt
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Patent number: 7526063Abstract: A system is disclosed for generating, evaluating and distributing computer-tomographical 4D representations of the heart of a patient. The system includes a cardio CT appliance, where a first low-resolution reconstruction of cardio recordings in a multiplicity of cycle phases of the cardiac cycle and subsequent volume rendering of these cardio recordings for 3D representation and examination of the clarity of motion of the representation in the individual cycle phases are performed. This representation is used to select one or two cycle phases with a relatively reduced or even minimal lack of clarity of motion. High-resolution representations of the heart are reconstructed for these selected one or two cycle phases, with the computation and control unit transmitting only the high-resolution representations of the selected cycle phases with a relatively reduced lack of clarity of motion to the at least one workstation as still images, and the workstation being used to perform the evaluation.Type: GrantFiled: April 18, 2006Date of Patent: April 28, 2009Assignee: Siemens AktiengesellschaftInventors: Dieter Böing, Axel Kuettner, Johann Uebler
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Publication number: 20090016584Abstract: In a method and control equipment to control a medical technological imaging system to produce image data, several measuring request signals are transferred to the medical technological imaging system and, depending on the measuring request signals, the medical technological system is controlled to acquire raw data in a combined measurement of a subject for the different measuring request signals. For each of the measuring request signals, image data are reconstructed on the basis of the raw data. The respective sets of image data (reconstructed for the individual measuring request signals are combined in separate studies allocated to the individual measuring request signals and are stored in a storage unit and/or transferred to a diagnostic station.Type: ApplicationFiled: July 11, 2008Publication date: January 15, 2009Inventors: Dieter Boeing, Till Hoenig
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Publication number: 20080310698Abstract: A CT- or MRT-assisted image acquisition, image archiving and image rendering system allows generation, storage, post-processing, retrieval and graphical visualization of computed or magnetic resonance tomography image data that, for example, can be used in the clinical field in the framework of radiological slice image diagnostics as well as in the framework of interventional radiology. Moreover, a method implemented by this system allows reproduction of patient-specific examination parameters of an initial examination implemented by means of computed or magnetic resonance tomography imaging in the framework of CT or MRT follow-up examinations (“follow-ups”), for example in a post-operative tumor examination implemented under slice image monitoring in connection with a histological tissue sample extraction (biopsy) implemented under local anesthesia or a minimally-invasive intervention implemented for tumor treatment.Type: ApplicationFiled: June 6, 2008Publication date: December 18, 2008Inventors: Dieter Boeing, Heinz-Peter Engels
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Publication number: 20070239012Abstract: In a method and system for controlling an examination process that includes medical imaging, which initially a first examination-relevant item of information is input and, based on this first information, first measures of the examination process are automatically established. A first segment of the examination process is subsequently automatically controlled according to at least one part of the first measures. During this first segment or subsequently, a second item of information is input and, based on this second information as well as on the first segment of the examination process, second measures are automatically established. A second segment of the examination process is automatically controlled according to at least one part of these second measures. In the system, an input unit allows input of the information, and a computer automatically establishes the measures, and a control unit controls the examination process.Type: ApplicationFiled: March 15, 2007Publication date: October 11, 2007Inventors: Dieter Boeing, Gabriel Haras
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Publication number: 20060193437Abstract: A method is described for controlling an imaging modality. The method includes acquiring data specific to an examination object and automatically selecting a raw data record from a number of raw data records on the basis of the data specific to the examination object. The method further includes producing an image on the basis of the selected raw data record and by using a selected control parameter set. The produced image is then output to a user. Thereafter, a change command of the user is detected, for altering the control parameter set, or detecting a confirmation command for confirming the control parameter set. Next, the control parameter set is changed in accordance with a detected change command. The method then includes repeating the method steps of producing, outputting, detecting and changing with the respectively current, changed control parameter set until a confirmation signal is detected.Type: ApplicationFiled: January 30, 2006Publication date: August 31, 2006Inventors: Dieter Boeing, Gabriel Haras
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Publication number: 20050110748Abstract: In a tomography-capable imaging examination apparatus, and an operating method therefor, an operator first determines a desired scan volume of the examination subject, and then, controlled by the computer device, a raw data set, having data allocated to different directions, is acquired in the scan volume. For planning the subsequent calculation of the resulting image—keeping pace with the scan or immediately after its termination—the computer device calculates and displays a graphic overview representation of the subject of examination from the raw data. The overview representation contains three-dimensional information about the scan volume. In this volume, the operator selects a diagnostically relevant region of representation. Using an image calculation algorithm, the computer device calculates a diagnostically relevant resulting image in the selected region of representation. The quantity of data thus is reduced immediately upon its origination.Type: ApplicationFiled: September 24, 2004Publication date: May 26, 2005Inventors: Dieter Boeing, Lutz Gundel, Helmut Kropfeld, Heiko Mehldau, Dirk Roscher, Werner Schmidt, Christoph Taegert-Kilger, Johann Uebler