Patent application number | Description | Published |
20080211502 | METHOD FOR AUTOMATIC COIL SELECTION IN A MAGNETIC RESONANCE APPARATUS - In a method for coil selection of a magnetic resonance apparatus, a determination of coil positions of the multiple coil devices of the magnetic resonance apparatus is made and a determination is also made of a number of coil groups, wherein a coil group is composed of at least one coil device. One or more coil groups is associated with positions of the support device, and the coil group that is associated with a position of the support device includes the coil devices that are suitable for use in that associated position of the support device. A control of one of the multiple coil groups dependent on the position of the support device. | 09-04-2008 |
20080211503 | METHOD AND CONTROL DEVICE FOR POSITION DETERMINATION OF ACQUISITION DEVICES FOR A MAGNETIC RESONANCE SYSTEM - In a method and a corresponding control device for automatic position determination in at least one spatial direction of at least two acquisition devices, wherein more acquisition devices than acquisition channels are present, a position measurement for one of the acquisition devices is implemented with an acquisition channel in a first step and a position measurement for another of the acquisition devices with the same acquisition channel is implemented in a second step. The position of the respective acquisition devices is determined based on these position measurements. | 09-04-2008 |
20090012736 | MAGNETIC RESONANCE SYSTEM AND METHOD FOR SPATIALLY-DEPENDENT ADJUSTMENT OF SYSTEM PARAMETERS - A method for spatially-dependent adjustment of system parameters of a magnetic resonance apparatus given continuous movement of an examination subject through a measurement volume of the magnetic resonance apparatus includes the following steps: (a) starting a measurement in the measurement volume of the magnetic resonance apparatus with a system parameter set, wherein the examination subject is located at a first position, (b) acquisition of measurement data, (c) storage of the system parameter values of the system parameter set with a respective position of the examination subject in a magnetic resonance apparatus at the point in time of a use of the respective system parameter of the system parameter set during the measurement, (d) evaluation of the acquired measurement data in regards to the effect achieved with the employed system parameter values, (e) adaptation of the system parameter values of the system parameter set under consideration of the evaluation of the last measurement such that, assuming idealized relationships between the system parameters and the respective effect, the respective effect corresponds to a target value, (f) starting a new measurement in the measurement volume of the magnetic resonance apparatus with the system parameter set with the adapted system parameter values, wherein the examination subject is located at an altered position, and (g) repetition of the steps b) through f) until the examination subject to be examined was completely examined. | 01-08-2009 |
20100274118 | PROCESS AND CONTROL DEVICE FOR OPERATING A MAGNETIC RESONANCE IMAGING SCANNER - In a magnetic resonance imaging system having a scanner having a magnetic field system, a radio frequency system and a control device, and a method for operating such a system, the control device generates a control signal sequence on the basis of a control protocol for the purpose of executing a number of scan procedures and a number of adjustments for adjusting the magnetic field system and/or the radio frequency system, at least the scan procedures are predetermined by the control protocol. The control protocol furthermore contains a number of local scan transition indicators assigned to the scan procedures, and on the basis of the scan transition indicators, in each case the control device checks to determine if, directly prior to a scan procedure, an adjustment may be applied. The control signal sequence is then automatically generated by the control device such that, if for a scan procedure the necessary adjustment may not be applied prior to that scan procedure, then the relevant adjustment will be executed in advance and/or adjustment parameter values from previously executed existing adjustments will be used. | 10-28-2010 |
20110043204 | MAGNETIC RESONANCE SYSTEM AND METHOD FOR COMPUTERIZED RULE-BASED CONTROL THEREOF - In a magnetic resonance system according to a measurement protocol defined in advance and comprising multiple acquisition parameters, wherein given a non-compliance with at least one limit value (which is automatically established before the beginning of a subject-specific measurement data acquisition)—in particular a SAR limit value and/or a magneto-stimulation limit value and/or a hardware limit value—by the measurement protocol, an adaptation of at least one acquisition parameter ensues using at least one (in particular user-defined) protocol-specific rule for compliance with the limit value, and the measurement data acquisition ensues automatically according to the adapted acquisition parameters. | 02-24-2011 |
20110118586 | MEDICAL IMAGING APPARATUS CONTROLLER AND METHOD THAT ACCOMMODATE DIFFERENT CONTROL PROGRAM VERSIONS - In a method, a system and a computer program product to control a medical imaging apparatus or to extend a control method for such an apparatus, the divided into different segments. A physical segment includes all control modules that are dependent on the platform of the medical apparatus. A logical segment includes all control modules that are independent of a platform. The logical segment of the control method is swapped out to an additionally provided auxiliary control computer while the physical segment remains on the (previous) control computer. At the previous control computer a data transfer module is provided that receives data of the auxiliary control computer and relays it to the medical apparatus for control. The auxiliary control computer advantageously possesses standardized interfaces. | 05-19-2011 |
20140046617 | DEVICE, METHOD AND SYSTEM TO CONTROL AN IMAGING SYSTEM - A control device of an imaging system has a computer with communication interfaces for central control of the imaging system, and components each having a communication interface for local control of units of the imaging system. The communication interfaces of the components are respectively connected via a connection with an interface of the computer, and a transmitting component, among the components transfers data via the computer to a receiving component, among the components, for the exchange of information between the components. | 02-13-2014 |
20140066745 | MEDICAL IMAGING SYSTEM AND METHOD USING DIFFERENT COMPUTERS FOR CONTROL OF DATA ACQUISITION AND FOR IMAGE RECONSTRUCTION - An imaging system, includes an imaging installation or an imaging scanner to generate raw data; a first computer that is connected with the imaging installation or the imaging scanner for controlling the imaging installation or the imaging scanner, a memory to store the generated raw data; and a second computer to calculate an image from the stored raw data. | 03-06-2014 |
20140067310 | DEVICE, METHOD AND SYSTEM TO CONTROL IMAGING METHODS AND SYSTEMS - A computer-implemented method for operating an imaging system, includes in a processor, receiving a measurement task, generating a description of the measurement task in the processor from a sequence accessed by the processor, translating the generated description into instructions, and executing the instructions in an imaging installation of the system. An imaging system is configured to execute such a method, and a non-transitory, computer-readable data storage medium is encoded with programming instructions that cause the method to be executed. | 03-06-2014 |
20140286554 | METHOD AND APPARATUS FOR MAGNETIC RESONANCE TOMOGRAPHY IMAGE RECONSTRUCTION - In a method and apparatus for determining an image from measurement data from a magnetic resonance tomography a first step can be executed in parallel for multiple subsets of the measurement data in multiple instances, wherein the individual instances each allocate distinct resources. A second step is executed, which allocates predetermined resources and executes a maximum predetermined number of instances from the first step, using the predetermined resources. | 09-25-2014 |
20150071518 | METHOD, DEVICE AND SYSTEM FOR OBTAINING A MEDICAL IMAGE DATA SET - In a method, device and system for obtaining a medical image data set, a raw data stream is produced by a data acquisition device, the raw data stream including at least digital data of a medical raw data image set. The raw data stream is provided to a data compression device, wherein it is compressed. The compressed raw data stream is transferred to a data decompression device, wherein it is decompressed. The decompressed raw data stream is transferred to an image calculation tool, which produces a medical image data set operating on the decompressed raw data stream. | 03-12-2015 |
20150091574 | Scaling of Local Coils of a Magnetic Resonance Imaging Scanner - A scaling unit ( | 04-02-2015 |
20150160318 | Signal Selection for the capture of Received Signals for Reception Antennas - The embodiments relate to signal selection devices for reception antennas. The signal selection device includes a plurality of signal inputs for the reception of signals from the reception antennas via an interface arrangement, and a plurality of signal outputs for the output of altered signals from the reception antennas. The signal selection device is used for selecting/reducing received signals from the reception antennas and forwarding them to an image processing device. The signal selection device contains a plurality of A/D converter chips, a plurality of digital selection chips, and at least physical and/or logical portions of a control unit. The received signals from the reception antennas are fed into the plurality of A/D converter chips via a plurality of signal inputs, are converted into digital data streams, and are supplied to the digital selection chips via signal outputs of the A/D converter chips. | 06-11-2015 |
20150219453 | Acceleration of Stationary Alignment Measurements - The embodiments relate to a method for the optimization of alignment measurements in which a MR facility is configured to a measurement object. First alignment measurements are carried out while the measurement object is being moved through the MR facility, wherein at least one MR system parameter of the MR facility is configured to the measurement object of the first alignment measurements. A second alignment measurement is also carried out in which the measurement object is stationary in a fixed position in the MR facility, wherein the second alignment measurement includes an iterative alignment method in which the at least one MR system parameter for the recording of MR signals of the measurement object is iteratively configured to the measurement object in the fixed position in the MR facility, wherein for the iterative alignment method the aligned MR system parameter is chosen from the aligned MR system parameters. | 08-06-2015 |
20150226822 | METHOD AND APPARATUS FOR AUTOMATED DETERMINATION OF THE RESONANCE FREQUENCIES OF PROTONS FOR MAGNETIC RESONANCE EXAMINATIONS - In a method and magnetic resonance system for the automated determination of the resonance frequency or resonance frequencies of protons for magnetic resonance examinations, at least one signal is acquired and Fourier transform to a spectrum. An automated analysis of the spectrum, that has three resonance peaks, is made with at least two cross-correlation coefficients of at least one model spectrum being determined with the measured spectrum. Depending on the values of the cross-correlation coefficients, the resonance frequency is or resonance frequencies are determined. | 08-13-2015 |
20150260818 | Operating a Magnetic Resonance Tomograph - A method for operating a magnetic resonance tomograph having at least one receiving antenna, at least one converter device for analog/digital conversion and a programmable computing device is provided. The method includes generating, with the converter device, digital measured values by digitizing the analog reception signal from the receiving antenna and/or at least one analog signal derived from the reception signal. A time-coding device adds an item of time information that describes the recording time of the measured values to each of the digital measured values or to groups of measured values including a plurality of the digital measured values in order to generate a time-coded data stream. The programmable computing device processes the time-coded data stream further. | 09-17-2015 |
20150297148 | Magnetic Resonance Facility with a Display Apparatus - A magnetic resonance facility has a main magnet unit with a cylindrical patient accommodation region, and an optical display apparatus with at least one display unit disposed within the patient accommodation region in a region viewable by a patient positioned therein for the magnetic resonance measurement. The display apparatus is shaped at least partially to follow the boundary of the patient accommodation region. | 10-22-2015 |
20150346309 | SYSTEM CALIBRATION IN AN MR SYSTEM - In a method for making calibration measurements in a magnetic resonance (MR) system, in order to acquire an MR image of an examination subject, wherein the MR unit has a computer for operating the MR scanner, and a system control computer designed to control multiple system components of the MR scanner, a preparation step is executed by the computer to prepare a first calibration step, in which a first parameter of a system component is matched to the examination subject via the system control computer, and to prepare a second calibration step, in which a second parameter of a system component is matched to the examination subject via the system control computer. The first calibration step is executed by the system control computer as is the second calibration step. The preparation step is executed by the computer to prepare one of the first or second calibration steps before one of the calibration steps is initiated by the system control computer. | 12-03-2015 |
20160091585 | METHOD AND MEDICAL IMAGING APPARATUS OF DETERMINING TIME WINDOWS IN A SCAN SEQUENCE - In a method for determining time windows in a scan sequence, in which values of setting parameters of a scan can be changed during a current scan without adversely affecting the scan data obtained with the scan, comprising the following a scan sequence is loaded into a control computer, that then determines the time windows in the scan sequence in which values of setting parameters can be changed during a current scan, on the basis of an analysis of useful coherences in the scan sequence. The determined time windows are stored or processed so as to be available to operate an imaging apparatus to execute the scan sequence. | 03-31-2016 |
20160091586 | MEDICAL IMAGING APPARATUS HAVING MULTIPLE SUBSYSTEMS, AND OPERATING METHOD THEREFOR - In a method for operating a medical imaging apparatus having subsystems, a control protocol assigned to a scan sequence to be performed is provided to a control computer that determines sequence control data for the control protocol, which define different functional subsequences of the scan sequence. Different effective volumes are assigned to each functional subsequence, and current ambient conditions of the apparatus are determined for the sequence control data and associated effective volumes, for a series of states of physiological processes that occur during the scan sequence. Control signals for the scan sequence are determined from the sequence control data, the effective volumes and the current ambient conditions per observed state, that optimize the functional subsequences of the scan sequence locally. During the scan, at least one current state of the observed physiological processes is determined and the control signals used for the ongoing scan are determined from the stored control signals, dependent on the at least one current state. | 03-31-2016 |
20160091587 | MEDICAL IMAGING APPARATUS HAVING MULTIPLE SUBSYSTEMS, AND OPERATING METHOD THEREFOR - In a method for operating a medical imaging examination apparatus having multiple subsystems, current ambient conditions in a scan volume of the apparatus are determined and stored in a global ambient condition parameter set. A control computer starts a scan sequence according to a selected scan protocol, and sequence control data that define different functional sub-sequences for the respective subsystems are provided to the control computer. Different effective volumes are assigned to each functional sub-sequence, and respective current sub-regions in the effective volume associated with the respective sub-sequence are determined, in which a volume optimization is to take place. Control signals for the scan sequence are calculated using the sequence control data, the global ambient condition parameter set, and the determined current sub-regions of the affected volumes, in order to optimize the functional sub-sequences at least with regard to the current sub-region of the assigned effective volume. | 03-31-2016 |
20160091588 | MEDICAL IMAGING APPARATUS HAVING MULTIPLE SUBSYSTEMS, AND OPERATING METHOD THEREFOR - In a method for operating a medical imaging apparatus having subsystems, a control protocol assigned to a scan sequence to be performed is provided to a control computer that determines sequence control data for the control protocol, which define different functional subsequences of the scan sequence. Different effective volumes are assigned to each functional subsequence, and current ambient conditions of the apparatus are determined for the sequence control data and associated effective volumes, for a series of states of physiological processes that occur during the scan sequence. Control signals for the scan sequence are determined from the sequence control data, the effective volumes and the current ambient conditions per observed state, that optimize the functional subsequences of the scan sequence locally. During the scan, at least one current state of the observed physiological processes is determined and the control signals used for the ongoing scan are determined from the stored control signals, dependent on the at least one current state. | 03-31-2016 |
20160091589 | MEDICAL IMAGING APPARATUS HAVING MULTIPLE SUBSYSTEMS, AND OPERATING METHOD THEREFOR - In a method for operating a medical imaging apparatus having multiple subsystems, a control protocol assigned to a scan sequence to be performed is provided to a control computer that determines sequence control data for the control protocol, which define different functional subsequences of the scan sequence. Different effective volumes are assigned to each functional subsequence, and current ambient conditions of the apparatus are determined for the sequence control data and associated effective volumes. Control signals for the scan sequence are determined from the sequence control data, the effective volumes and the current ambient conditions that optimize the functional subsequences of the scan sequence locally, at least with regard to a sub-region of the respective effective volumes. During the scan, at least one change of a sub-region of a respective effective volume is determined and the control signals used for the ongoing scan are modified, dependent on the change, to maintain the aforementioned optimization. | 03-31-2016 |
20160091590 | MEDICAL IMAGING APPARATUS HAVING MULTIPLE SUBSYSTEMS, AND OPERATING METHOD THEREFOR - In a method for operating a medical imaging examination apparatus having multiple subsystems controlled by a control computer in a scan sequence, a control protocol for the scan is provided to the control computer, which determines sequence control data for the control protocol that define different functional subsequences of the scan, with different effective volumes assigned to each functional subsequence. Current ambient conditions of the apparatus are determined that are decisive for the determined relevant sequence control data and associated effective volumes. Control signals for the scan are determined from the sequence control data, the effective volumes and the current ambient conditions determined that optimize the functional subsequences of the scan. | 03-31-2016 |