摘要:
This invention provides an image processing device and an image processing method capable of implementing pattern matching based on an edge code at relatively high speed with a smaller circuit configuration. In the image processing device according to the present embodiment, an information amount of a valid zone is diffused over an entire edge code image. In other words, the amount of information used in the entire edge code image is compressed by reducing the number of bits to assign to each pixel and effectively using the number of bits assigned to each pixel as a whole. If a valid zone for an edge EDG1, the following invalid zone in which the invalid edge code value continues, and the following valid zone for an edge EDG2 appear in a profile of the edge code value, increase/decrease information from the edge code value contained in the valid zone for the edge EDG1 to the edge code value contained in the valid zone for the edge EDG2 is assigned to the element corresponding to the invalid zone.
摘要:
This invention provides an image processing device and an image processing method capable of implementing pattern matching based on an edge code at relatively high speed with a smaller circuit configuration. In the image processing device according to the present embodiment, an information amount of a valid zone is diffused over an entire edge code image. In other words, the amount of information used in the entire edge code image is compressed by reducing the number of bits to assign to each pixel and effectively using the number of bits assigned to each pixel as a whole. If a valid zone for an edge EDG1, the following invalid zone in which the invalid edge code value continues, and the following valid zone for an edge EDG2 appear in a profile of the edge code value, increase/decrease information from the edge code value contained in the valid zone for the edge EDG1 to the edge code value contained in the valid zone for the edge EDG2 is assigned to the element corresponding to the invalid zone.
摘要:
An image processing apparatus according to an aspect of the invention includes an LCD touch panel and a central control circuit. The LCD touch panel includes a display unit and an input unit. The central control circuit which is of an image processing unit performs a searching process for searching a portion having high similarity between a registered image and a processing target image and a registering process for producing and registering the registered image. The central control circuit deals with an input image as the processing target image when the searching process is to be performed, the central control circuit causes the display unit to display the input image when the registering process is performed, and the image processing unit draws an image used to produce the registered image unit based on operation of the input unit while overlapping the image with the input image displayed on the display.
摘要:
To enables realization of an image data collection function, a bank switch function and the like at low cost in a juxtaposedly placed type sensor system for handling an image, such as a visual sensor or a displacement sensor, by introduction of the minimum required number of new units into an existing system. A first operation of storing image data acquired by a sensor controller from a sensor head and/or measurement data obtained by processing the image data, into a non-volatile record medium of a data storage unit, and/or a second operation of writing the setting data having been stored into the non-volatile record medium of the data storage unit, on a bank memory inside the sensor controller unit, are made possible.
摘要:
The present invention aims to solve problems involved in the formation of a conductive or insulating layer in a pattern form by photolithography, i.e., an environmental problem associated with handling a solvent and a problem associated with wastewater treatment in the development with an aqueous alkaline solution. A method for forming a conductive layer (an anode bus 3) or an insulating layer (a barrier 1) on a glass substrate by photolithography using a photosensitive slurry solution prepared by mixing a low-melting glass powder as a binder and a conductive or insulating powder into a PVA-based, water-soluble photosensitive solution, wherein the content of B.sub.2 O.sub.3 component in the whole low-melting glass powder is closely regulated to not more than 6% by weight. This enables coating without gelation of PVA. Unlike the conventional photolithography using a solvent type photosensitive slurry, the method of the present invention can solve the environmental problem associated with handling a solvent and the problem associated with wastewater treatment in the development with an aqueous alkaline solution.
摘要翻译:本发明的目的在于解决通过光刻技术形成图形形式的导电或绝缘层所涉及的问题,即在用碱性水溶液进行显影时与处理溶剂有关的环境问题和与废水处理有关的问题。 通过光刻法在玻璃基板上形成导电层(阳极母线3)或绝缘层(阻挡层1)的方法,使用通过混合低熔点玻璃粉末作为粘合剂而制备的感光浆料溶液和导电或绝缘 粉末成为PVA系的水溶性感光性溶液,其中,全部低熔点玻璃粉末中的B 2 O 3成分的含量被严格控制在6重量%以下。 这使得涂层不会凝胶化PVA。 与使用溶剂型感光浆料的常规光刻不同,本发明的方法可以解决与碱性溶液的显影相关的处理溶剂和与废水处理有关的问题的环境问题。
摘要:
There is provided a method for producing a photoelectric conversion device in which an object to be processed is processed by directing a light beam to a position determined based on information including temperature information and distortion information acquired in advance. There is also provided a light beam irradiation processing apparatus including a control portion capable of controlling a light beam generating portion and a drive portion in such a manner that a light beam can be directed to a position determined based on information including temperature information acquired by a temperature information acquiring portion and distortion information stored therein.
摘要:
The production process of the invention comprises a first step of hydrodesulfurizing of catalytically-cracked gasoline so as to result in an olefin hydrogenation rate of no greater than 25 mol % in the catalytically-cracked gasoline, a total sulfur content of no greater than 20 ppm by weight based on the product oil weight, a sulfur content derived from thiophenes and benzothiophenes of no greater than 5 ppm by weight and a sulfur content derived from thiacyclopentanes of no greater than 0.1 ppm by weight, and a second step of further hydrodesulfurizing of the product oil obtained by the first step so as to result in a total of no greater than 30 mol % for the olefin hydrogenation rate in the first step and the olefin hydrogenation rate in the second step, a total sulfur content of no greater than 10 ppm by weight based on the product oil weight, and a sulfur content derived from thiols of no greater than 5 ppm by weight.
摘要:
A displacement sensor includes: a light projecting element for illuminating a measurement aim object at a predetermined angle with light; a light receiving element for receiving a reflected light from the measurement aim object illuminated with light; an automatic measurement aim region setting device for automatically setting measurement regions for respective acquired two reflecting surfaces by automatically increasing a light emitting quantity of the light projecting element by a predetermined quantity at a time from a predetermined value of the light projecting element till two or more reflecting surfaces of the measurement aim object are acquired on the light receiving element; and a displacement measuring device performing desired measurement of displacement based on a received light image on the light receiving element.
摘要:
A semiconductor device is formed using a BARC (bottom antireflective coating) that minimizes the formation of fences around the via holes. The BARC is formed from an organic antireflective layer over an inorganic antireflective layer. The organic antireflective layer also covers the internal surface of the via hole. Subsequent treatment with dilute aqueous or organic solvent leaves a thinned organic antireflective layer and a plug of organic material at the bottom of the via hole. The resulting semiconductor is free from the via hole fence formation that characterizes the conventional art technology.
摘要:
A measurement instrument includes a measurement value acquiring portion for acquiring a measurement value in a predetermined period, and a measurement timing acquiring portion for acquiring measurement timing information. The measurement timing information is a measurement start timing, and the measurement timing information is added to the measurement value acquired in a predetermined period, corresponding to elapsed timing information which is calculated from the measurement period, based on the measurement start timing. In addition, a plurality of the measurement values added by the measurement timing information are digitally outputted collectively. In addition, an identification number of an applicable measurement instrument which number is owned by the measurement instrument is further added to the measurement value.