Shigehiro Miyatake

Transparent thin film transistors using ZnO as an active channel layer and their electrical properties

Bottom-gate-type thin film transistors using ZnO as an active channel layer (ZnO–TFT) have been constructed. The ZnO layers were deposited using pulsed laser deposition at 450 °C at an oxygen pressure of 3 m Torr, and the material that was formed had a background carrier concentration of less than 5×1016 cm−3. A double layer gate insulator consisting of SiO2 and SiNx was effective in suppressing leakage current and enabling the ZnO–TFT to operate successfully. The Ion/Ioff ratio of ZnO–TFTs fabricated on Si wafers was more than 105 and the optical transmittance of ZnO–TFTs fabricated on glass was more than 80%. These results show that it is possible to fabricate a transparent TFT that can even be operated in the presence of visible light.

Thin observation module by bound optics (TOMBO) : concept and experimental verification

A compact image-capturing system called TOMBO (an acronym for thin observation module by bound optics) is presented in which the compound-eye imaging system is utilized to achieve a thin optical configuration. The captured multiple images are processed to retrieve the image of the target object. For image retrieval, two kinds of processing method are considered: image sampling and backprojection. Computer simulations and preliminary experiments were executed on an evaluation system to verify the principles of the system and to clarify the issues related to its implementation.

Reconstruction of a high-resolution image on a compound-eye image-capturing system.

The authors have proposed an architecture for a compact image-capturing system called TOMBO (thin observation module by bound optics), which uses compound-eye imaging for a compact hardware configuration [Appl. Opt. 40, 1806 (2001)]. The captured compound image is decomposed into a set of unit images, then the pixels in the unit images are processed with digital processing to retrieve the target image. A new method for high-resolution image reconstruction, called a pixel rearrange method, is proposed. The relation between the target object and the captured signals is estimated and utilized to rearrange the original pixel information. Experimental results show the effectiveness of the proposed method. In the experimental TOMBO system, the resolution obtained is four times higher than that of the unit image that did not undergo reconstruction processing.

Image reconstruction for thin observation module by bound optics by using the iterative backprojection method

A method for reconstructing high-spatial-resolution images in an imaging system known as thin observation module by bound optics (TOMBO) is reported. We investigate a novel procedure combining a pixel-rearrangement method and iterative backprojection (IBP). Pixel rearrangement has been used until now in TOMBO, and IBP is a digital superresolution technique. We verify the effectiveness of the combined procedure with simulated and experimental results.

Multispectral imaging using compact compound optics

A very thin image capturing system called TOMBO (thin observation module by bound optics) is developed with compound-eye imaging and digital post-processing. As an application of TOMBO, a multispectral imaging system is proposed. With a specific arrangement of the optical system, spatial points can be observed by multiple photodetectors simultaneously. A filter array inserted in front of the image sensor enables observation of the spectrum of the target. The captured image is reconstructed by a modified pixel rearranging method extended to treat multi-channel spectral data, in which pixels in the captured image are geometrically rearranged onto a multi-channel virtual image plane. Experimental results of the image reconstruction show the effectiveness of the proposed system.

Color imaging with an integrated compound imaging system

Color-imaging methods with an integrated compound imaging system called TOMBO (Thin observation module by bound optics) are presented. The TOMBO is a compact optoelectronic imaging system for image capturing based on compound-eye imaging and post digital processing. First, a general description of the TOMBO system is given, and then two configurations for color imaging are described. Experimental comparison of these configurations is made by use of an experimental TOMBO system. The characteristics and the performance on the proposed methods are briefly discussed.

Bimodal fingerprint capturing system based on compound-eye imaging module

A compact imaging system called TOMBO (Thin Observation Module by Bound Optics) is proposed in which a microlens array is used for thin hardware configuration. This paper describes a fingerprint-capturing module as an application of the TOMBO. Experimental results by the TOMBO prototype system are shown to clarify the applicability of the TOMBO to the fingerprint capturing. Different types of biometrics, i.e., fingerprint and face images, are captured by the same hardware, which shows the extendability of the system for multimodal identification.

Compact image capturing system based on compound imaging and digital reconstruction

A compact image capturing system called TOMBO (thin observation module by bound optics) is developed with compound-eye imaging and post digital processing. To demonstrate effectiveness of the TOMBO architecture, several prototype systems have been constructed with a refractive microlens array and a CMOS (complementary metal oxide semiconductor) image sensor. As a new algorithm for image reconstruction, the pixel rearrange method has been developed. With several test targets, the characteristics of the prototype systems are evaluated.

Transversal-readout architecture for CMOS active pixel image sensors

Novel architecture for CMOS active pixel image sensors (APSs), which eliminates the vertically striped fixed pattern noise (FPN), is presented. There are two kinds of FPN for CMOS APSs. One originates from the pixel-to-pixel variation in dark current and source-follower threshold voltage, and the other from the column-to-column variation in column readout structures. The former may become invisible in the future due to process improvements. However, the latter, which results in a vertically striped FPN, is and will be conspicuous without some subtraction because of the correlation in the vertical direction. The pixel consists of a photodiode, a row- and column-reset transistor, a source-follower input transistor, and a column-select transistor instead of the row-select transistor found in conventional CMOS APSs. The column-select transistor is connected to a signal line that runs horizontally instead of vertically. An experimentally fabricated 320/spl times/240-pixel CMOS APS employing the transversal-readout architecture exhibited neither vertically nor horizontally striped FPN. A buried-photodiode device with the transversal-readout architecture is also proposed.

Thin observation module by bound optics (TOMBO): an optoelectronic image capturing system

A compact image capturing system called TOMBO (thin observation module by bound optics) is presented, in which a compound-eye imaging optics is utilized for very thin system configuration. The captured multiple images are processed to retrieve the object image. An experimental system was constructed for verifying the principle and clarifying the issues related on the implementation. For the retrieve, two kinds of processing are considered: simple sampling and back projection methods. The TOMBO system is an instance of opto- electronic hybrid system providing excellent features based on opto-electronic cooperation.