Patent application number | Description | Published |
20090274352 | THREE-DIMENSIONAL MICROSCOPIC MAGNETIC RESONANCE ANGIOGRAPHY - A method comprises performing a first T2-weighted imaging (T2WI) on a subject; injecting the subject with a contrast agent after performing the first T2WI; and waiting a predetermined period of time before performing a second T2WI on the subject. The first T2WI and second T2WI are then co-registered. The co-registered first T2WI and co-registered second T2WI are then trimmed. A ΔR | 11-05-2009 |
20090278538 | METHOD AND APPARATUS FOR SIMULTANEOUSLY ACQUIRING MULTIPLE SLICES/SLABS IN MAGNETIC RESONANCE SYSTEM - Provided is a method for simultaneously acquiring magnetic resonance slices/slabs of a subject. The method comprises steps as follows. First, apply one or more than one RF pulse, which carries at least two frequency components, and a slice/slab selection magnetic field gradient so that at least two slices/slabs of the subject respectively corresponding to the at least two frequency components are excited simultaneously. Second, apply a spatial encoding magnetic field gradient. Third, apply a slice/slab separation magnetic field gradient so as to separate the at least two slices/slabs. The method according to the present invention can be used to acquire data for simultaneously reconstructing multiple slices/slabs. The method is compatible with existing MRI systems. | 11-12-2009 |
20100145179 | HIGH-DENSITY MICRO ELECTRODE ARRAY AND SERIAL CONTROL METHOD THEREOF - Each micro electrode of a high-density micro electrode array is connected to the same conducting wire. Serial switches enable sequential electrical connection of the micro electrode array. Given reasonable temporal resolution, the separation interval of two consecutive instances of the same micro electrode entering the ON state matches the temporal resolution. The micro electrode array has simple layout and small area, thereby maximizing the number of micro electrodes installed per unit area. | 06-10-2010 |
20100148773 | WIDEBAND MAGNETIC RESONANCE IMAGING APPARATUS AND METHOD - A magnetic resonance imaging (MRI) method is provided, including the steps of generating a wideband RF signal that has a plurality of frequency bands respectively corresponding to a plurality of different kinds of nuclei, to simultaneously excite the different kinds of nuclei, detecting a wideband responsive RF signal that has a plurality of frequency bands respectively emitted by the different kinds of nuclei, and reconstructing magnetic resonance images for the different kinds of nuclei based on the wideband responsive RF signal. An MRI apparatus employing the MRI method is also provided. | 06-17-2010 |
20110056228 | COOLING APPARATUS FOR NUCLEAR MAGNETIC RESONANCE IMAGING RF COIL - The present invention discloses a cooling apparatus for Nuclear Magnetic Resonance Imaging (NMRI) RF coils comprising a base, a cup, an input tube and an output tube. The input tube and the output tube are connected to the cup, in which the base and the cup are tightly sucked together to form a vacuum space by the vacuum caused by the negative pressure when the air is drawn out. The vacuum is able to block the conduction of low temperature. The base, the cup, the input tube and the output tube may be made of heat-isolation materials with high strength of hardness. The main objective of the present invention is to provide a low temperature system for long time use by the protection of a vacuum space; therefore the particular RF coil is used to retrieve NMRI signals. By reducing the resistance, the noise is therefore restrained, and the signal-to-noise ratio is enhanced to achieve high resolution and the scanning time is significantly reduced. | 03-10-2011 |
20110254550 | SIMULTANEOUS DIFFUSION IMAGING OF MULTIPLE CROSS SECTIONS - A diffusion imaging method is provided. The diffusion imaging method includes performing a plurality of data collection sequences. Each data collection sequence includes applying an excitation radio frequency signal and a selection gradient. The excitation radio frequency signal includes a first set of frequency bands selected to simultaneously excite a first nuclei type in a plurality of cross sections of a subject. Each data collection sequence further includes applying a diffusion gradient during formation of a magnetic resonance signal, applying a spatial encoding gradient during formation of the magnetic resonance signal, and while acquiring the magnetic resonance signal, applying a separation gradient to change a frequency separation between portions of the magnetic resonance signal. The diffusion imaging method further includes computationally determining a diffusion image of each of the plurality of cross sections. | 10-20-2011 |
20130043866 | METHOD AND APPARATUS FOR ENHANCING SIGNAL IN MAGNETIC RESONANCE IMAGING - A method and an apparatus for enhancing signals in magnetic resonance imaging are provided. The method includes the following steps. Applying one or more than one RF pulse, which carries at least two frequency components, and a slice/slab selection gradient to a subject, so that at least two slices/slabs of the subject respectively corresponding to the at least two frequency components are excited simultaneously. Applying a plurality of spatial encoding gradients and one or more than one separation gradients for separating the at least two slices/slabs. Receiving a plurality of responsive RF signals excited from the subject. The responsive RE signals are restored according to a signal restoration function. | 02-21-2013 |
20140312899 | METHOD AND APPARATUS FOR SINGLE CARRIER WIDEBAND MAGNETIC RESONANCE IMAGING (MRI) DATA ACQUISITION - A method and apparatus for single carrier wideband magnetic resonance imaging (MRI) data acquisition are provided. The method includes the following steps: exciting a slice or slab with the use of RF pulse and a slice/slab selection gradient; applying a phase encoding gradient along a phase encoding direction and reducing a FOV along the phase encoding direction by a factor of W through k-space subsampling; applying a frequency encoding gradient along a frequency encoding direction and increasing a FOV along the frequency encoding direction by a factor of W | 10-23-2014 |
Patent application number | Description | Published |
20090079691 | CURSOR POSITIONING METHOD BY A HANDHELD CAMERA - A method for positioning a cursor on a computer screen by a handheld camera shooting continuous images to detect movements of user's hand is disclosed. In a preferred embodiment, the camera is disposed in a handheld device such as laser pointer. The camera shoots a set of serial images of a locale scene and instantly sends to a computer. The computer selects particular feature spots within a first image and records their positions in the image. The computer then search the feature spots in a second image next to the first image. If one of the feature spots can be searched out, a movement of the handheld device can be obtained by calculating relatively positional change of the feature spot in between the two images. The computer can drive the cursor to move correspondingly. If no feature spots can be searched out, the computer abandons the selected feature spots and then selects new feature spots in the second image and search the new feature spots in a third image. | 03-26-2009 |
20120235682 | METHOD AND APPARATUS FOR ACQUIRING MAGNETIC RESONANCE IMAGING SIGNALS - A method for acquiring MRI signals includes: applying one or more than one RF pulse, which carries at least two frequency components, and a slice/slab selection gradient to a subject, so that at least two slices/slabs of the subject respectively corresponding to the at least two frequency components are excited simultaneously; applying a plurality of spatial encoding gradients; applying a plurality of separation gradients for separating the at least two slices/slabs; and applying at least one coherent refocusing gradient between the plurality of separation gradients. | 09-20-2012 |
20140292326 | Method and Apparatus for 3D Magnetic Resonance Imaging - The present invention discloses a 3-dimension magnetic resonance imaging method which comprises: applying a slab selection gradient to a subject; transmitting a radiofrequency pulse to the subject, and exciting a slab of the subject to produce magnetic resonance signals with a continuous frequency bandwidth; performing a spatial encoding gradient across three dimensions to encode the magnetic resonance signals, wherein an equivalent encoded field of view which along the selected acceleration direction is controlled by the spatial encoding gradient, and the equivalent encoded field of view is shorter than the excited slab size of the subject; applying a separation gradient along with the spatial encoding gradient; and receiving and reconstructing the encoded magnetic resonance signals to produce 3D images. | 10-02-2014 |
Patent application number | Description | Published |
20130144618 | METHODS AND ELECTRONIC DEVICES FOR SPEECH RECOGNITION - A disclosed embodiment provides a speech recognition method to be performed by an electronic device. The method includes: collecting user-specific information that is specific to a user through the user's usage of the electronic device; recording an utterance made by the user; letting a remote server generate a remote speech recognition result for the recorded utterance; generating rescoring information for the recorded utterance based on the collected user-specific information; and letting the remote speech recognition result rescored based on the rescoring information. | 06-06-2013 |
20130218573 | VOICE COMMAND RECOGNITION METHOD AND RELATED ELECTRONIC DEVICE AND COMPUTER-READABLE MEDIUM - An electronic device for browsing a document is disclosed. The document being browsed includes a plurality of command-associated text strings. First, a text string selector of the electronic device selects a plurality of candidate text strings from the command-associated text strings. Afterward, an acoustic string provider of the electronic device prepares a candidate acoustic string for each of the candidate text strings. Thereafter, a microphone of the electronic device receives a voice command. Next, a speech recognizer of the electronic device searches the candidate acoustic strings for a target acoustic string that matches the voice command, wherein the target acoustic string corresponds to a target text string of the candidate text strings. Finally, a document browser of the electronic device executes a command associated with the target text string. | 08-22-2013 |
20140075570 | METHOD, ELECTRONIC DEVICE, AND MACHINE READABLE STORAGE MEDIUM FOR PROTECTING INFORMATION SECURITY - An embodiment of the invention provides an electronic device. The electronic device is configured to protect a set of private data of an authorized user of the electronic device. The electronic device includes a biometric sampler, a biometric authenticator, and a data provider. The biometric sampler is configured to covertly collect a set of biometric samples from a current user of the electronic device. The biometric authenticator is configured to covertly use the set of biometric samples of the current user and a set of biometric data of the authorized user to verify whether the current user is the authorized user. The data provider is configured to give the current user access to a set of fake data instead of the set of private data if the current user is not the authorized user. | 03-13-2014 |
20140249820 | VOICE CONTROL DEVICE AND METHOD FOR DECIDING RESPONSE OF VOICE CONTROL ACCORDING TO RECOGNIZED SPEECH COMMAND AND DETECTION OUTPUT DERIVED FROM PROCESSING SENSOR DATA - A voice control device has a speech command recognizer, a sensor data processor and a decision making circuit. The speech command recognizer is arranged for performing speech command recognition to output a recognized speech command. The sensor data processor is arranged for processing sensor data generated from at least one auxiliary sensor to generate a detection output. The decision making circuit is arranged for deciding a response of the voice control device according to the recognized speech command and the detection output. The same speech command is able to trigger difference responses according to the detection output (e.g., detected motion). Besides, an adaptive training process may be employed to improve the accuracy of the sensor data processor. Hence, the voice control device may have improved performance of the voice control feature due to a reduce occurrence probability of miss errors and false alarm errors. | 09-04-2014 |