摘要:
An image processing device includes a multiplier 1 for multiplying a pixel signal P(x) by a weighting factor α0 (0≦α0≦1), a delay element 2 for delaying the pixel signal P(x) which has not been multiplied yet by the weighting factor α0 by the multiplier 1 by one pixel, and a multiplier 3 for multiplying the pixel signal P(x−1) delayed by the delay element 2 by a weighting factor α1 (0≦α1≦1), the total sum of the weighting factors α0 and α1 being larger than 1 and smaller than an upper limit αmax. An adder 4 adds the multiplication result α0·P(x) of the multiplier 1 and the multiplication result α1·P(x−1) of the multiplier 3, and a limiter 5 limits the addition result P′(x) of the adder 4 in such a way that P′(x) falls within a maximum density value Pmax.
摘要:
An image processing device includes a multiplier 1 for multiplying a pixel signal P(x) by a weighting factor α0 (0≦α0≦1), a delay element 2 for delaying the pixel signal P(x) which has not been multiplied yet by the weighting factor α0 by the multiplier 1 by one pixel, and a multiplier 3 for multiplying the pixel signal P(x−1) delayed by the delay element 2 by a weighting factor α1 (0≦α1≦1), the total sum of the weighting factors α0 and α1 being larger than 1 and smaller than an upper limit αmax. An adder 4 adds the multiplication result α0·P(x) of the multiplier 1 and the multiplication result α1·P(x−1) of the multiplier 3, and a limiter 5 limits the addition result P′(x) of the adder 4 in such a way that P′(x) falls within a maximum density value Pmax.
摘要:
An image processing device includes a car navigation processing unit 12 for processing a WQVGA signal, a TV receiving processing unit 15 for processing an NTSC signal, and an image resolution converting unit 17 which carries out an image resolution conversion of the NTSC signal from the TV receiving processing unit 15 to a WQVGA signal. The TV receiving processing unit 15 includes a pixel aspect ratio converting unit 104 for carrying out a pixel aspect ratio conversion of character data acquired from a WQVGA-ready character-font set 2, and a graphics/TV image compositing unit 106 for compositing an output from the pixel aspect ratio converting unit 104 with the NTSC signal, and for outputting a composite signal to the image resolution converting unit 17.
摘要:
A display unit has an image presentation section 10 for receiving a plurality of monomedia data and presentation style data describing a presentation style of a frame of each of the individual monomedia data, for generating scaling/combining control information 111 for combining the individual monomedia data, and for generating a composite video frame 103 by combining the individual monomedia data; an image enhancing section 20 for obtaining a correction target region of designated monomedia data in the composite video frame 103 in response to the scaling/combining control information 111, for generating correction data by obtaining interframe difference in the correction target region, and for generating a display video frame 104 by carrying out image enhancing processing of the correction target region in response to the correction data generated; and an image display section 30 for displaying the display video frame 104.
摘要:
A display unit has an image presentation section 10 for receiving a plurality of monomedia data and presentation style data describing a presentation style of a frame of each of the individual monomedia data, for generating scaling/combining control information 111 for combining the individual monomedia data, and for generating a composite video frame 103 by combining the individual monomedia data; an image enhancing section 20 for obtaining a correction target region of designated monomedia data in the composite video frame 103 in response to the scaling/combining control information 111, for generating correction data by obtaining interframe difference in the correction target region, and for generating a display video frame 104 by carrying out image enhancing processing of the correction target region in response to the correction data generated; and an image display section 30 for displaying the display video frame 104.
摘要:
Provided are a lens driving device, a camera module and a camera-mounted device which can perform translational deviation correction in addition to angular deviation correction. The lens driving device is provided with: an image-capturing unit which captures a subject image formed by a lens unit; a driving unit for translational deviation correction which performs translational deviation correction by shaking the lens unit within a plane perpendicular to an optical axis, on the basis of a detection signal from a translational deviation detecting unit that detects a translational deviation; and a driving unit for angular deviation correction which performs angular deviation correction by integrally tilting the image-capturing unit and the driving unit for translational deviation correction, on the basis of a detection signal from an angular deviation detecting unit that detects an angular deviation.
摘要:
In a reservoir tank (5) of the present invention, a hydraulic fluid movement deterring wall (26) is disposed integrally with an upper half body (9) and extending toward a radial direction center of a cylindrical upper half body neck section (24) on a curved portion at a boundary between an inner peripheral surface (24a) of the cylindrical upper half body neck section (24) and an inner surface (25a1) of a ceiling portion (25a) of an upper half body trunk section (25) or on the inner peripheral surface (24a) of the upper half body neck section (24). The movement of the hydraulic fluid frontward (toward a hydraulic fluid inlet (10)) in a hydraulic fluid storage chamber 13 at a time when the reservoir tank (5) is tilted frontward is controlled by this hydraulic fluid movement deterring wall (26).
摘要:
Provided is a microphone capable of reducing a plane area seen from above, and further increasing a capacity of a back chamber of an acoustic sensor. An interposer 52 is mounted on a top surface of a circuit board 43, and an acoustic sensor 51 is mounted on the top surface thereof. A signal processing circuit 53 is accommodated in a space 70 provided in the interposer 52, and mounted on the circuit board 43. The acoustic sensor 51 is connected to the circuit board 43 through a wiring structure provided in the interposer 52. The acoustic sensor 51, the interposer 52 and the like are covered by a cover 42 put on the top surface of the circuit board 43. In the cover 42, a sound introduction hole 48 is opened in a position opposed to the front chamber of the acoustic sensor 51. The interposer 52 is formed with a ventilation notch 71 for acoustically communicating a space below a diaphragm 56 of the acoustic sensor 51 with a space inside the cover 42 and outside the interposer 52.
摘要:
An RFID module including an antenna element forming an RFID antenna; an RFID circuit block to which the antenna element is connected; and a first resonance frequency adjustment circuit having an element that includes a drain terminal connected to the antenna element, a gate terminal that is grounded, and a source terminal that is grounded, wherein a pull-up resistor is connected between the drain terminal and a power supply.
摘要:
A non-volatile storage system that performs a multi-stage programming process to program non-volatile storage to a set of data threshold voltage distributions. The multi-stage programming process includes performing a first stage of the multi-stage programming process to change threshold voltages of at least a subset of the non-volatile storage elements from an erased distribution to one or more intermediate distributions, performing an intermediate stage of the multi-stage programming process to change threshold voltages of at least some of the non-volatile storage elements to appropriate distributions of the data threshold voltage distributions, and performing a later stage of the multi-stage programming process, after performing the intermediate stage of the multi-stage programming process, to tighten only a subset of the data threshold voltage distributions.