| HITACHI ALOKA MEDICAL, LTD. Patent applications |
| Patent application number | Title | Published |
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| 20120121150 | ULTRASONIC IMAGE PROCESSING APPARATUS - There is provided an ultrasound image processing apparatus which displays an ultrasonic image with a higher resolution. In a received frame, a first pixel array, a second pixel array, and a third pixel array are defined in depths different from each other. For each pixel of interest on the first pixel array, a pattern matching process is applied between the first pixel array and the second pixel array, to calculate a mapping address on the second pixel array for the pixel of interest. In addition, for each pixel of interest on the third pixel array, a pattern matching process is applied between the third pixel array and the second pixel array, to calculate a mapping address on the second pixel array for each pixel of interest. The second pixel array is re-constructed into a high-density pixel array using pixel values and mapping addresses of a plurality of pixels of interest. | 05-17-2012 |
| 20120121149 | ULTRASONIC IMAGE PROCESSING APPARATUS - There is provided an ultrasound image processing apparatus which displays an ultrasonic image with a higher resolution. For each pixel of interest on a previous frame, a pattern matching process is applied between the previous frame and a current frame, to calculate, for each pixel of interest, a mapping address to the current frame as a movement destination or a two-dimensional movement vector. The mapping address includes an integer value and a fractional value. The current frame is re-constructed into a high-density frame including a plurality of interpolation lines based on an original group of pixels of the current frame and an additional group of pixels defined by a pixel value and the mapping address of each pixel of interest on the previous frame. In generation of the mapping address, a sub-pixel process is applied. | 05-17-2012 |
| 20120108978 | TISSUE INSERTION TYPE ULTRASONIC PROBE - There is provided an ultrasonic probe for supporting spine surgery which can execute both inspection by tactile sense and inspection by ultrasound diagnosis. A front-end component provided at a front end of an insertion unit. The front-end component comprises a metal component and a resin component, and the metal component comprises a tactile member and an anchor. The resin component comprises a cap portion and a surrounding portion. An insertion portion in the front-end component is inserted into a front end portion of a pipe. The anchor and the front end portion are in close proximity with a certain distance therebetween, such that insulation is secured and vibration transmitted from a head can be transmitted from the anchor to the pipe in a superior manner. | 05-03-2012 |
| 20120108977 | TISSUE INSERTION TYPE ULTRASONIC PROBE - An ultrasonic probe for supporting spine surgery serving as a tissue insertion type ultrasonic probe comprises an insertion unit and an operation unit. On a front end portion of the insertion unit, a tactile member and a transducer unit are provided. The insertion unit comprises a pipe, and a sheath tube provided outside of the pipe. An FPC board serving as a line sheet is provided in the pipe. The FPC board is inserted in a rounded shape similar to a tube along an inner wall surface of the pipe. A large number of signal lines are formed on the FPC board through printing. A ground cable is provided in an inside space of the FPC board. In the operation unit, a rear end portion of the FPC board and a front end portion of another FPC board are connected by thermo compression bonding. | 05-03-2012 |
| 20120095346 | ULTRASONIC DIAGNOSIS APPARATUS - There is provided an ultrasonic diagnosis apparatus capable of reducing an unnecessary signal component in a reception signal. A sign data array formed of a plurality of sign data items arranged in an element arranging direction is extracted from a plurality of element reception signals having been subjected to delay processing but having not been subjected to summing processing. A factor computing unit computes a first factor indicating a level of sign coherence in the sign data array and a second factor indicating a sign transit density in the sign data array. The factor computing unit then computes a factor (evaluation value) for adjusting gain of the reception signal, based on the first factor and the second factor. | 04-19-2012 |
| 20110311114 | ULTRASOUND DIAGNOSTIC APPARATUS - A position information attaching unit ( | 12-22-2011 |
