公开(公告)号：US20100120602A1

公开(公告)日：2010-05-13

申请号：US12270258

申请日：2008-11-13

Applicant: Dong-Sil Park ,  Jian Wu ,  Mamatha Nagesh ,  Sundeep Kumar ,  Craig Stringer ,  Digamber Porob ,  Vinayak Hassan Vishwanath

Inventor： Dong-Sil Park ,  Jian Wu ,  Mamatha Nagesh ,  Sundeep Kumar ,  Craig Stringer ,  Digamber Porob ,  Vinayak Hassan Vishwanath

IPC: C03C8/02

CPC classification number: C03C3/064 ,  C03C3/093 ,  C03C4/20 ,  C03C8/24 ,  H01M2/08 ,  H01M10/39 ,  H01M10/3909 ,  H01M10/3963

Abstract: A sealing glass for an energy storage device is provided. The sealing glass includes silicon dioxide, boron oxide, aluminum oxide, sodium oxide and zirconium oxide. Methods for preparing the sealing glass and the energy storage device incorporating the sealing glass are also provided.

Abstract translation: 提供一种用于储能装置的密封玻璃。 密封玻璃包括二氧化硅，氧化硼，氧化铝，氧化钠和氧化锆。 还提供了制备密封玻璃的方法和包含密封玻璃的储能装置。

公开(公告)号：US20100086846A1

公开(公告)日：2010-04-08

申请号：US12245428

申请日：2008-10-03

Applicant: Sundeep Kumar ,  Mamatha Nagesh ,  Digamber Porob ,  Vinayak Hassan Vishwanath

Inventor： Sundeep Kumar ,  Mamatha Nagesh ,  Digamber Porob ,  Vinayak Hassan Vishwanath

IPC: H01M2/08 ,  C03C8/00

CPC classification number: H01M2/08 ,  C03C3/15 ,  C03C4/20 ,  C03C8/24

Abstract: A sealing glass composition includes from about 10 molar percent to about 30 molar percent barium oxide, from about 15 molar percent to about 30 molar percent aluminum oxide, from about 40 molar percent to about 60 molar percent boron oxide and from about 1 molar percent to about 20 molar percent yttrium oxide. Methods for preparing the sealing glass and a sodium battery cell are also provided.

Abstract translation: 密封玻璃组合物包括约10摩尔％至约30摩尔％的氧化钡，约15摩尔％至约30摩尔％的氧化铝，约40摩尔％至约60摩尔％的氧化硼和约1摩尔％ 约20摩尔％的氧化钇。 还提供了制备密封玻璃和钠电池的方法。

公开(公告)号：US06206288B1

公开(公告)日：2001-03-27

申请号：US09175607

申请日：1998-10-20

Applicant: Robert May ,  Stephen M. Osterweil ,  Sundeep Kumar ,  Hal Charych ,  Vadim R. Gololobov

Inventor： Robert May ,  Stephen M. Osterweil ,  Sundeep Kumar ,  Hal Charych ,  Vadim R. Gololobov

IPC: G06K710

CPC classification number: G06K7/10792 ,  G06K7/10861

Abstract: A method of reading bar code symbols includes determining one or more parameters based upon the quantity and/or quality of the data which is being acquired, and providing the user with information concerning that parameter. The parameter may, for example, be the rate at which code words in the symbol are being read, and that information may be passed to the user by way of an LED which flashes at a rate which varies with the data acquisition rate. For a given bar code symbol being read, the rate of flashing varies with the position of the bar code reader with respect to the symbol. To improve the data acquisition rate, the user simply moves and/or rotates the bar code reader with respect to the symbol in a direction which causes the rate of flashing to increase. The invention extends to a bar code reader having means for providing an indication to a user of the relative suitability, for optimal reading of a symbol, of the current position of the reader.

Abstract translation: 读取条形码符号的方法包括基于所获取的数据的数量和/或质量来确定一个或多个参数，以及向用户提供关于该参数的信息。 该参数可以是例如符号中的代码字被读取的速率，并且该信息可以通过以随数据获取速率而变化的速率闪烁的LED传递给用户。 对于正在读取的给定条形码符号，闪烁速率随着条形码读取器相对于符号的位置而变化。 为了提高数据采集速率，用户简单地使条形码读取器相对于符号沿着使闪烁速率增加的方向移动和/或旋转。 本发明扩展到条形码读取器，其具有用于向用户提供用于读取器的当前位置的相对适合性（用于符号的最佳读取）的指示的装置。

公开(公告)号：US6047892A

公开(公告)日：2000-04-11

申请号：US115355

申请日：1998-07-14

Applicant: Frederick Schuessler ,  Kevin Hunter ,  Sundeep Kumar ,  Cary Chu

Inventor： Frederick Schuessler ,  Kevin Hunter ,  Sundeep Kumar ,  Cary Chu

IPC: G06K19/06 ,  G06K7/10

CPC classification number: G06K19/06037

Abstract: A electro-optical memory includes a substrate on which is printed (or otherwise inscribed) a complex symbol or "label" or "bar code" of a high density two-dimensional symbology. The bar code contains component symbols or "codewords" which are placed in row and column formation, with a variable number of codewords per row, and a variable number of rows. The symbology utilizes implicit bar code encoding scheme for implicit encoding the number of rows and the number of columns of codewords, as well as a predetermined amount of error correction. The symbology is capable of supporting a fixed number of bar code variants, with each variant having a predetermined number of rows and columns of codewords, and a predetermined error correction capability. For some codewords the implicit encoding scheme is combined with a gray coding scheme to reduce the inter-row codeword crosstalk. Systems are used for printing and decoding the bar codes of the invented symbology in applications where improved storage density and tight real estate requirements are of utmost importance. A memory may be used in conjunction with a scanner and a suitable control system in a number of applications, e.g., robotics operations or automated object searching.

Abstract translation: 电光存储器包括其上印有（或以其它方式内接）高密度二维符号系统的复合符号或“标签”或“条形码”的基板。 条形码包含以行和列形成的分量符号或“码字”，每行可变数量的码字和可变数量的行。 该符号系统利用隐式条形码编码方案对行数和码字列的数量进行隐式编码，以及预定量的纠错。 符号系统能够支持固定数量的条形码变体，每个变体具有预定数量的行和行的码字以及预定的纠错能力。 对于一些码字，隐式编码方案与灰度编码方案相结合以减少行间码字串扰。 系统用于在改进的存储密度和紧密的房地产要求至关重要的应用中对本发明的符号系统的条形码进行打印和解码。 存储器可以与多个应用中的扫描器和合适的控制系统结合使用，例如机器人操作或自动对象搜索。

公开(公告)号：US5576528A

公开(公告)日：1996-11-19

申请号：US363472

申请日：1994-12-23

Applicant: Steven M. Chew ,  Sundeep Kumar ,  Michael O'Haire

Inventor： Steven M. Chew ,  Sundeep Kumar ,  Michael O'Haire

IPC: G06K19/06 ,  G06F7/12

CPC classification number: G06K19/06037 ,  G06K2019/06225

Abstract: A method and apparatus for increasing the information density of a bar code symbol by generating multiple constituent bar code symbols, wherein each one is formed in a different color selected from a group of various primary colors, and overlaying each differently colored symbol on top of each other, thus forming an aggregate bar code symbol of various colors. In areas where the differently colored bars overlap each other, colors distinct from those in the original group of colors are formed. The aggregate bar code symbol is scanned by a solid state imaging device, and the scanned image is resolved by image processing techniques into the three constituent bar code symbols of the various colors. Each bar code symbol is then individually processed and decoded in accordance with the particular symbology used to encode the constituent bar code symbols. As a result of the present invention, multiple bar code symbols are printed in the space normally required by one bar code symbol, and each constituent symbol is separated by color resolution and decoded to form the original data. Thus, the information density of the bar code system is increased without the need for a new symbology. In addition, a single bar code symbol may be divided into multiple portions of substantially the same size and printed substantially over each other in different colors, thus producing a single compacted bar code symbol with increased information density. The compacted bar code symbol may be recovered by scanning and resolving the symbol back into its constituent portions, concatenating the portions together, and decoding the resulting bar code symbol in accordance with standard techniques.

Abstract translation: 一种用于通过生成多个组成条形码符号来增加条形码符号的信息密度的方法和装置，其中每一个都以不同的原色组合选择的不同颜色形成，并且将每个不同颜色的符号覆盖在每个 从而形成各种颜色的聚集条形码符号。 在不同颜色的条重叠的区域中，形成与原始颜色组不同的颜色。 聚合条形码符号由固态成像装置扫描，并且扫描图像通过图像处理技术解析成各种颜色的三个组成条形码符号。 然后根据用于编码组成条形码符号的特定符号系统对每个条形码符号进行单独处理和解码。 作为本发明的结果，在通常由一个条形码符号需要的空间中打印多个条形码符号，并且每个构成符号通过颜色分辨率分离并被解码以形成原始数据。 因此，条形码系统的信息密度增加，而不需要新的符号系统。 此外，单个条形码符号可以被划分成大致相同尺寸的多个部分，并且以不同的颜色基本上彼此印刷，从而产生具有增加的信息密度的单个压实的条形码符号。 压缩的条形码符号可以通过将符号扫描并分解回其组成部分，将这些部分连接在一起，并根据标准技术对所得到的条形码符号进行解码来恢复。

公开(公告)号：US20110223475A1

公开(公告)日：2011-09-15

申请号：US12720874

申请日：2010-03-10

Applicant: Digamber Gurudas Porob ,  Dong-Sil Park ,  Sundeep Kumar ,  Atanu Saha

Inventor： Digamber Gurudas Porob ,  Dong-Sil Park ,  Sundeep Kumar ,  Atanu Saha

IPC: H01M2/08 ,  B32B38/00

CPC classification number: H01M2/08

Abstract: A seal structure is provided for an energy storage device. The seal structure includes a sealing glass joining an ion-conducting first ceramic to an electrically insulating second ceramic, wherein the ion-conducting first ceramic has an anode surface defining an anode compartment and a cathode surface defining a cathode compartment, wherein the sealing glass has an exposed portion, wherein the exposed portion is open to one or more of the anode compartment and the cathode compartment, wherein the exposed portion of the sealing glass is coated with a coating composition comprising one or more of boria, alumina, titania, zirconia, yttria, and ceria. Methods for forming the seal structure and article made therefrom are also provided.

Abstract translation: 为能量存储装置提供密封结构。 密封结构包括将离子导电的第一陶瓷与电绝缘的第二陶瓷接合的密封玻璃，其中离子传导的第一陶瓷具有限定阳极室的阳极表面和限定阴极室的阴极表面，其中密封玻璃具有 暴露部分，其中暴露部分对阳极室和阴极室中的一个或多个开放，其中密封玻璃的暴露部分涂覆有包含一种或多种氧化硼，氧化铝，二氧化钛，氧化锆， 氧化钇和二氧化铈。 还提供了形成密封结构和由其制成的制品的方法。

公开(公告)号：US20110040694A1

公开(公告)日：2011-02-17

申请号：US12854838

申请日：2010-08-11

Applicant: Andrew Paul Kurtzig ,  Emily Allison Su-Ian Reber Porter ,  Sundeep Kumar

Inventor： Andrew Paul Kurtzig ,  Emily Allison Su-Ian Reber Porter ,  Sundeep Kumar

IPC: G06Q99/00 ,  G06N5/02

CPC classification number: G06Q10/10 ,  G06Q10/101 ,  G06Q30/0185 ,  G06Q30/0206 ,  G06Q30/0207 ,  G06Q30/0283 ,  G06Q40/12 ,  G06Q50/01 ,  H04M3/51

Abstract: In exemplary embodiments, an apparatus and method for providing expert quality control on a consultation system is provided. Feedback is received for an expert. The feedback may be from users of the consultation system, other experts on the consultation system, or third-parties with relevant expertise and may comprise direct and indirect feedback. Adjustment factors are recorded for the expert. The adjustment factors comprise public and non-public actions associated with the expert. The expert is then evaluated using the feedback and the adjustment factors.

Abstract translation: 在示例性实施例中，提供了一种用于在咨询系统上提供专家质量控制的装置和方法。 收到专家意见。 反馈意见可能来自咨询系统的用户，咨询系统的其他专家或具有相关专业知识的第三方，可能包括直接和间接的反馈。 记录专家的调整因素。 调整因素包括与专家有关的公共和非公共行动。 然后使用反馈和调整因素评估专家。

公开(公告)号：US07395970B2

公开(公告)日：2008-07-08

申请号：US10837911

申请日：2004-05-03

Applicant: Paul Poloniewicz ,  Mehul Patel ,  Sundeep Kumar ,  Joseph Cai ,  Duanfeng He

Inventor： Paul Poloniewicz ,  Mehul Patel ,  Sundeep Kumar ,  Joseph Cai ,  Duanfeng He

IPC: G06K7/10

CPC classification number: G07G1/0054 ,  G06K7/10722 ,  G06K7/10732

Abstract: A bar code scanning system and method for reading and processing bar code symbology uses a scanning station installed above the check-out stand and a receiving station at some distance away from the scanning station. The scanning station projects light onto a surface of the check-out stand. The projected light can have a well defined border indicating where a user should place items to be scanned. Alternatively, a pattern coincident with the projected light can be projected onto the surface and which includes a target indicating where items should be placed for scanning. Light reflected by items in the target region is processed to decode optical symbology on the item and produce a signal that is representative of said sensed symbology. Information about the scanned item can be processed and displayed by the receiving station for use in, e.g., a point-of-sale transaction. The system can also be configured to capture images of a user's payment card for use in payment processing and to store images of at least selected scanned items for use in subsequent processes.

Abstract translation: 条形码扫描系统和读取和处理条形码符号系统的方法使用安装在退房台上方的扫描台和距离扫描站一定距离的接收站。 扫描台将光投射到退房台的表面上。 投影光可以有一个明确定义的边界，指示用户应该放置要扫描的物品的位置。 或者，与投影光一致的图案可以投影到表面上，并且其包括指示应该放置物品以进行扫描的目标。 处理由目标区域中的项目反射的光，以对该物品上的光学符号进行解码，并产生代表所述检测到的符号系统的信号。 关于被扫描物品的信息可以被接收站处理和显示，以用于例如销售点交易。 该系统还可以被配置为捕获用于用于支付处理的用户的支付卡的图像，并且存储用于后续处理的至少所选扫描项目的图像。

公开(公告)号：US5705800A

公开(公告)日：1998-01-06

申请号：US614840

申请日：1996-03-05

Applicant: Paul Dvorkis ,  Edward Barkan ,  Harold Charych ,  James Giebel ,  Stephen Osterweil ,  Sundeep Kumar ,  John Barile ,  Paul R. Poloniewicz ,  Anthony D. Biuso ,  Steven M. Chew

Inventor： Paul Dvorkis ,  Edward Barkan ,  Harold Charych ,  James Giebel ,  Stephen Osterweil ,  Sundeep Kumar ,  John Barile ,  Paul R. Poloniewicz ,  Anthony D. Biuso ,  Steven M. Chew

IPC: G06K7/10 ,  G06K7/14

CPC classification number: G06K7/10851 ,  G06K7/10564 ,  G06K7/10584 ,  G06K7/10633 ,  G06K7/10643 ,  G06K7/10653 ,  G06K7/10673 ,  G06K7/10693 ,  G06K7/10722 ,  G06K7/10811 ,  G06K7/10871 ,  G06K7/10881 ,  G06K7/10891 ,  G06K7/109 ,  G06K7/14 ,  G06K7/1417 ,  G06K7/1456 ,  G06K2207/1011 ,  G06K2207/1016 ,  G06K2207/1017 ,  G06K2207/1018

Abstract: A scanner determines whether a target is a bar code symbol and, if so, whether that symbol is one-dimensional or two-dimensional. For two-dimensional symbols, the scanner aligns a scanning pattern with the symbol and expands the scanning pattern to reach only to the top and bottom edges of the symbol, not beyond. The scanner also has a microprocessor-control scanning engine that uses a coil to drive a scanning element and pick up feed back signals from the scanning element. A pulse-width-modulated regulator also provides fast and efficient operation for driving the coil. The scanning engine can also be designed to generate a pattern that precesses across the target, and a powerful interface to the scanning engine allows decoding and control logic to work efficiently with and independently of the scan engine.

Abstract translation: 扫描器确定目标是否是条形码符号，如果是，则该符号是一维还是二维。 对于二维符号，扫描仪将扫描图案与符号对齐，并扩展扫描图案，仅到达符号的顶部和底部边缘，而不是超过。 扫描仪还具有微处理器控制扫描引擎，其使用线圈驱动扫描元件并从扫描元件拾取反馈信号。 脉宽调制调节器还提供快速高效的驱动线圈的操作。 扫描引擎还可以被设计成生成跨越目标的模式，并且到扫描引擎的强大的接口允许解码和控制逻辑与扫描引擎有效并且独立于扫描引擎。

公开(公告)号：US5561283A

公开(公告)日：1996-10-01

申请号：US332581

申请日：1994-10-31

Applicant: Paul Dvorkis ,  Edward Barkan ,  Harold Charych ,  James Giebel ,  Stephen Osterweil ,  Sundeep Kumar ,  John Barile ,  Paul R. Poloniewicz ,  Anthony D. Biuso ,  Steven M. Chew

Inventor： Paul Dvorkis ,  Edward Barkan ,  Harold Charych ,  James Giebel ,  Stephen Osterweil ,  Sundeep Kumar ,  John Barile ,  Paul R. Poloniewicz ,  Anthony D. Biuso ,  Steven M. Chew

IPC: G06K7/10 ,  G06K7/14 ,  G06K7/16

CPC classification number: G06K7/10851 ,  G06K7/10564 ,  G06K7/10584 ,  G06K7/10633 ,  G06K7/10643 ,  G06K7/10653 ,  G06K7/10673 ,  G06K7/10693 ,  G06K7/10722 ,  G06K7/10811 ,  G06K7/10871 ,  G06K7/10881 ,  G06K7/10891 ,  G06K7/109 ,  G06K7/14 ,  G06K7/1417 ,  G06K7/1456 ,  G06K2207/1011 ,  G06K2207/1016 ,  G06K2207/1017 ,  G06K2207/1018

Abstract: A scanner determines whether a target is a bar code symbol and, if so, whether that symbol is one-dimensional or two-dimensional. For two-dimensional symbols, the scanner aligns a scanning pattern with the symbol and expands the scanning pattern to reach only to the top and bottom edges of the symbol, not beyond. The scanner also has a microprocessor-control scanning engine that uses a coil to drive a scanning element and pick up feed back signals from the scanning element. A pulse-width-modulated regulator also provides fast and efficient operation for driving the coil. The scanning engine can also be designed to generate a pattern that precesses across the target, and a powerful interface to the scanning engine allows decoding and control logic to work efficiently with and independently of the scan engine.

Abstract translation: 扫描器确定目标是否是条形码符号，如果是，则该符号是一维还是二维。 对于二维符号，扫描仪将扫描图案与符号对齐，并扩展扫描图案，仅到达符号的顶部和底部边缘，而不是超过。 扫描仪还具有微处理器控制扫描引擎，其使用线圈驱动扫描元件并从扫描元件拾取反馈信号。 脉宽调制调节器还提供快速高效的驱动线圈的操作。 扫描引擎还可以被设计成生成跨越目标的模式，并且到扫描引擎的强大的接口允许解码和控制逻辑与扫描引擎有效并且独立于扫描引擎。