Patent application number | Description | Published |
20120327439 | METHOD FOR SELECTING INTERPRETERS FOR PDF DIRECT PRINTING - A method implemented in a printer for PDF direct printing. The printer includes a PDF interpreter such as APPE (Adobe PDF Print Engine), and at least one other interpreter also capable of interpreting PDF data, such as a PostScript interpreter. The printer automatically selects either APPE or the PS interpreter or both to interpret a PDF document. If the PDF document is PDF/VT, PDF/X-4 or later, then APPE is selected. If the PDF document is not one of these versions but contains transparency data, APPE is selected to interpret the pages containing transparency data, and the other pages may be interpreted using the PS interpreter. If the PDF document is not one of the above versions and contains no transparency data, the PS interpreter is selected. Other factors such as the busy status of the interpreters may be considered in making the selection. | 12-27-2012 |
20140092410 | METHOD FOR PRINTING PDF FILES CONTAINING CORRUPTED PAGES - A method for print portable document format (PDF) files with corrupted pages, comprising the steps of rasterizing images of non-corrupt pages but not corrupted pages of a PDF file, printing only non-corrupt pages of the PDF file, gathering and recording file and page information including which pages are non-corrupt pages and which pages are corrupted pages in the PDF file, allowing correction of the corrupted pages of the PDF file for reprint, retrieving saved file and page information for reprint of the PDF file. Based on the file and page information retrieved and print options and merge mode selected, the reprint process proceeds with rasterizing images of the corrected corrupted pages, and printing the corrected corrupted pages while merging with the already-printed non-corrupt pages to produce a complete set of print out of all non-corrupt pages and corrected corrupted pages of the PDF file in a correct sequence according to the file and page information retrieved. | 04-03-2014 |
Patent application number | Description | Published |
20150149774 | RIGHTS MANAGEMENT SYSTEM AND METHOD INTEGRATED WITH EMAIL TRANSMISSION OF DOCUMENTS - A rights management system and method allow users to easily associate rights management policies with documents send via email from a client (e.g. a computer or scanner). The client transmits email recipient information, including the attention type (“to,” “cc” or “bcc”) for each recipient, to a rights management server. The server stores multiple rights management policies each specifying access rights (e.g. view, edit, print) granted to specified users, and stores an attention-right rule defining a correspondence between access rights and attention types. Based on the recipient information from the client, and applying the attention-rights rule, the server selects an appropriate policy or creates a new one if an appropriate policy does not exist, and transmits the policy, a document ID and an encryption key to the client. The client encrypts the document, adds metadata to the document, and sends the email with the attached document to a mail server. | 05-28-2015 |
20150248195 | USER INTERFACE METHOD FOR MODIFYING A SELECTION LIST OF ITEMS TO ADD OR REMOVE ITEMS WHILE INDICATING ORIGINAL SELECTION - A user interface display method implemented on a computer-controlled device to allow an operator to define a list of selected items among a plurality of items available for selection. The operator starts by selecting a pre-existing list containing a number of selected items. A modified list is generated which initially contains the same items as the pre-existing list. The device displays all of the items available for selection, as well as first and second indications associated with each item initially in the modified list. Then, in response to operator inputs to add items to (or remove items from) the modified list, second indications are displayed (or removed from display) in association with the items to be added (or removed), without changing the display of any of the first indications and any of the plurality of items. The modified list is saved without changing the pre-existing list. | 09-03-2015 |
Patent application number | Description | Published |
20100190919 | RESIN MATERIAL FOR OPTICAL PURPOSES, AND OPTICAL ELEMENT UTILIZING THE SAME - Disclosed is a resin material for optical purposes, which has high light permeability and high refractive index stability against temperature variation. Also disclosed is an optical element utilizing the resin material. The resin material for optical purposes comprises a curable resin and an inorganic microparticle comprising two or more metal oxides having different refractive indexes and dispersed in the curable resin, wherein the inorganic microparticle has a refractive index distribution, has the surface treated with a surface-treating agent, and is at least partially modified with a surface-modifying agent having a polymerizable functional group, and wherein the refractive index of the curable resin after being cured (nh) and the refractive index of the inorganic microparticle (ng) meet the requirement represented by the formula (1). | 07-29-2010 |
20110070402 | Optical Element, and Process for Producing Electronic Equipment using the Optical Element - Disclosed is an optical element comprising a functional layer composed mainly of an inorganic component on a surface thereof. The functional layer provided on the surface of the optical element is not broken or deformed even through a reflow treatment process. Also disclosed is a process for producing an electronic equipment, comprising placing an image pick-up device comprising the optical element together with an electronic component on a substrate and mounting the image pick-up device and the electronic component on the substrate by a reflow treatment process. The optical element comprises a base material containing a curing resin and inorganic fine particles and a functional layer composed mainly of an inorganic component provided on the surface of the base material. The optical element is characterized in that at least one type of inorganic fine particles is present on the surface of the base material, and the surface roughness is not less than 3 nm and not more than 100 nm. | 03-24-2011 |
20110262750 | Resin Material for Optical Use and Optical Device - Disclosed is a resin material for optical use, which has refractive index and transparency suitable for optical devices, while having extremely small change in refractive index dependent on temperature. In addition, the resin material for optical use is excellent in forming suitability and heat resistance after a reflow process. Also disclosed is an optical device using a resin material for optical use. Specifically disclosed is a transparent resin material for optical use which is composed of a curable resin containing inorganic fine particles whose surfaces are modified with an organic compound. This transparent resin material for optical use is characterized in that the inorganic fine particles are composed of an amorphous silica containing a metal oxide crystal, and have an average particle diameter of not less than 1 nm but more than 50 nm. | 10-27-2011 |
20110279024 | ORGANIC ELECTROLUMINESCENCE ELEMENT AND ILLUMINATION DEVICE USING THE SAME - Disclosed are an organic electroluminescence element with significantly improved light extraction efficiency and improved film properties and an illumination device that uses said element. The organic electroluminescence element has a transparent electrode, an organic electroluminescence layer, and a cathode sequentially stacked on a transparent base material. The element is characterized in that the transparent base material is a transparent resin film, there is a hard coat layer on both sides, the respective refractive indices satisfy the expressions (1)-(4), and there is a function to scatter light to the light emission side with respect to the organic electroluminescence layer. Expression (1): −0.2≦n(H1)−n(A)≦0.2, Expression (2): −0.1≦n(H1)−n(B)≦0.1, Expression (3): −0.1≦n(H2)−n(B)≦0.1, Expression (4): −0.1≦n(H1)−n(H2)≦0.1. In the expressions, n(A) is the refractive index of the transparent electrode; n(H1) is the refractive index of the hard coat layer (on the transparent electrode side); n(H2) is the refractive index of the hard coat layer (on the side opposite the transparent electrode); and n(B) is the refractive index of the transparent resin film. | 11-17-2011 |
20130062654 | LIGHT EXTRACTION SHEET, ORGANIC ELECTROLUMINESCENCE ELEMENT AND ILLUMINATION DEVICE - Disclosed is a novel light extraction sheet which not only improves light extraction efficiency but suppresses color change with the angle of observation, an organic EL dement employing this light extraction sheet, and art illumination device employing the element. The light extraction sheet is featured in that it comprises a transparent resin film and provided thereon, a light scatter layer containing a binder resin and light scattering particles with an average particle size of front 0.2 to 1.0 μm dispersed in the binder resin and a concavo-convex layer containing a binder resin and spherical particles with an. average particle size of from 3 to 10 μm. | 03-14-2013 |
20130100523 | NEAR-INFRARED REFLECTIVE FILM, METHOD FOR MANUFACTURING NEAR-INFRARED REFLECTIVE FILM, AND NEAR-INFRARED REFLECTOR - The present invention provides a near-infrared reflective film and a near-infrared reflector, which can be used over large areas and are flexible, and have low haze and high visible light transmittance. The near-infrared reflective film comprises at least one unit composed of a high refractive index layer and low refractive index layer on a substrate, and is characterized in that the refractive index difference between an adjacent high refractive index layer and low refractive index layer is at least 0.1, and said high refractive index layer contains at least one type of compound (A) selected from: 1) a rutile-type titanium oxide having a volume-average particle diameter of not more than 100 nm; 2) a water-soluble polymer; and 3) the following group of compounds. Group of compounds: a carboxyl group-containing compound, hydroxamic acids, pyridine derivatives. | 04-25-2013 |
20140313573 | OPTICAL REFLECTION FILM AND METHOD FOR PRODUCING SAME - Provided are an optical reflection film that uses an aqueous coating liquid for generating at refractive index, has a low production cost, is able to have a large area, and has a high coating film thermal stability, a method of manufacturing the optical reflection film, and an optical reflection body provided with the optical reflection film. | 10-23-2014 |
20140355107 | INFRARED SHIELDING FILM, HEAT REFLECTIVE LAMINATED GLASS USING SAME, AND METHOD FOR PRODUCING HEAT REFLECTIVE LAMINATED GLASS - An object of the present invention is to provide an infrared shielding film which has high infrared shielding effect for every incident angle of sunlight, and a laminated glass using the infrared shielding film. Provided is an infrared shielding film including at least one unit of a high refractive index layer and a low refractive index layer stacked, which is characterized in that the high refractive index layer includes at least one selected from the group consisting of a polyester, a polycarbonate, and a poly(meth)acrylate, and metal oxide particles. | 12-04-2014 |