公开(公告)号：US09064254B2

公开(公告)日：2015-06-23

申请号：US13474014

申请日：2012-05-17

Applicant: Erik Todeschini ,  Stephen Patrick Deloge ,  Timothy Meier ,  Donald Anderson ,  Benjamin Hejl ,  Thomas Koziol

Inventor： Erik Todeschini ,  Stephen Patrick Deloge ,  Timothy Meier ,  Donald Anderson ,  Benjamin Hejl ,  Thomas Koziol

IPC: G06F17/00 ,  G06Q20/32 ,  G06Q30/04

CPC classification number: G06F17/30876 ,  G06K7/1443 ,  G06K7/1447 ,  G06Q20/3274 ,  G06Q30/04 ,  G06Q2220/00 ,  H04L9/0861 ,  H04L9/3263 ,  H04L63/06 ,  H04L63/0823 ,  H04L63/0869 ,  H04L2209/24 ,  H04L2209/64

Abstract: A data decoding system can comprise one or more computers communicatively coupled to a network. The computers can execute at least one decoding process. The decoding process can be configured, responsive to receiving a decoding request comprising an image of decodable indicia, to locate the decodable indicia within the image, and to decode the decodable indicia into a decoded message. The decoding process can be further configured, responsive to completing a decoding operation, to transmit to the client the decoded message and/or the decoding operation completion code.

Abstract translation: 数据解码系统可以包括通信地耦合到网络的一个或多个计算机。 计算机可以执行至少一个解码过程。 解码处理可以响应于接收到包括可解码标记的图像的解码请求来定位图像内的可解码标记，并且将可解码标记解码为解码消息。 响应于完成解码操作，可以进一步配置解码处理，以向客户端发送解码消息和/或解码操作完成代码。

公开(公告)号：US09092683B2

公开(公告)日：2015-07-28

申请号：US13545454

申请日：2012-07-10

Applicant: Thomas Koziol ,  Daniel Yeakley ,  Erik Todeschini ,  Stephen Patrick Deloge ,  Benjamin Hejl

Inventor： Thomas Koziol ,  Daniel Yeakley ,  Erik Todeschini ,  Stephen Patrick Deloge ,  Benjamin Hejl

IPC: G06K7/00 ,  G06K7/10

CPC classification number: H04B5/0062 ,  G06K7/0004 ,  G06K7/10851 ,  G06K7/1443 ,  G06K7/1495

Abstract: A data decoding system can comprise a client computer including an imaging device and one or more servers executing at least one decoding process. The client computer can be configured to acquire an image of decodable indicia and to process the acquired image by: (i) identifying one or more areas of interest within the image; (ii) cropping the image based on the identified areas of interest; (iii) clipping one or more images from the image based on the identified areas of interest; (iv) increasing or reducing a pixel resolution of at least part of the image; (v) converting the image to a grayscale image or to a monochrome image; and/or (vi) compressing the image using a compression algorithm. The decoding process can be configured, responsive to receiving a decoding request comprising the processed image, to decode the decodable indicia and to transmit the decoding operation result to the client computer.

Abstract translation: 数据解码系统可以包括包括成像设备和执行至少一个解码过程的一个或多个服务器的客户端计算机。 客户端计算机可以被配置为获取可解码标记的图像并且通过以下步骤来处理所获取的图像：（i）识别图像内的一个或多个感兴趣区域; （ii）根据所识别的感兴趣区域对图像进行裁剪; （iii）基于所识别的感兴趣的区域从图像剪切一个或多个图像; （iv）增加或减少图像的至少一部分的像素分辨率; （v）将图像转换成灰度图像或单色图像; 和/或（vi）使用压缩算法压缩图像。 解码处理可以响应于接收到包括经处理的图像的解码请求来解码可解码的标记并且将解码操作结果发送到客户端计算机来配置。

公开(公告)号：US20080000980A1

公开(公告)日：2008-01-03

申请号：US11478321

申请日：2006-06-29

Applicant: Benjamin Hejl ,  John F. Bonanno ,  John T. Deal ,  Nancy A. Smith

Inventor： Benjamin Hejl ,  John F. Bonanno ,  John T. Deal ,  Nancy A. Smith

IPC: G06K7/10

CPC classification number: G06K7/10861 ,  G06K7/10851

Abstract: A scan mode indication method, computer-readable medium, apparatus, processor, and system are provided. In one embodiment, the method scans code using a scan mode and transmits a mode output signal indicative of the scan mode. In various embodiments, the mode output signal is an audio output signal. The audio output signal can be at least one audio tone or at least one word. In yet other embodiments, a computer-readable medium, an apparatus, a processor, and a system are also provided which perform similar features recited by the above method.

Abstract translation: 提供扫描模式指示方法，计算机可读介质，装置，处理器和系统。 在一个实施例中，该方法使用扫描模式扫描码，并发送指示扫描模式的模式输出信号。 在各种实施例中，模式输出信号是音频输出信号。 音频输出信号可以是至少一个音频音调或至少一个单词。 在其他实施例中，还提供了执行由上述方法所述的相似特征的计算机可读介质，设备，处理器和系统。

公开(公告)号：US20070114287A1

公开(公告)日：2007-05-24

申请号：US11505489

申请日：2006-08-15

Applicant: David Wilz ,  Garrett Russell ,  Mark Schmidt ,  Mikhail Veksland ,  William Martin ,  Patrick Giordano ,  Shane Edmonds ,  Kevin DiPlacido ,  Shawn Defoney ,  Stephen Colavito ,  Donald Hudrick ,  James Osborn ,  Thomas Amundsen ,  Benjamin Hejl

Inventor： David Wilz ,  Garrett Russell ,  Mark Schmidt ,  Mikhail Veksland ,  William Martin ,  Patrick Giordano ,  Shane Edmonds ,  Kevin DiPlacido ,  Shawn Defoney ,  Stephen Colavito ,  Donald Hudrick ,  James Osborn ,  Thomas Amundsen ,  Benjamin Hejl

IPC: G06K7/10

CPC classification number: G06K7/10 ,  B82Y15/00 ,  G06K7/10554 ,  G06K7/10564 ,  G06K7/10584 ,  G06K7/10594 ,  G06K7/10603 ,  G06K7/10613 ,  G06K7/10663 ,  G06K7/10673 ,  G06K7/10693 ,  G06K7/10702 ,  G06K7/10792 ,  G06K7/10801 ,  G06K7/10811 ,  G06K7/10851 ,  G06K7/10861 ,  G06K7/10871 ,  G06K7/10881 ,  G06K7/10891 ,  G06K7/109 ,  G06K7/14 ,  G06K2207/1012

Abstract: A multi-mode laser-based bar code symbol reading device having a hand-supportable housing with a light transmission aperture, wherethrough visible light can exit and enter the hand-supportable housing. A laser scanning engine, disposed within the hand-supportable housing, is controlled to selectively operate in either an omni-directional reading mode or a uni-directional bar code reading mode. In the omni-directional bar code reading mode, the laser scanning engine projects pattern through the light transmission aperture, an omni-directional laser scanning pattern producing multiple laser scanning lines with substantially uniform spatial and temporal intensity characteristics at any given scanning plane parallel to the light transmission aperture within the working distance of the system, and detects and decodes bar code symbols on objects passing through the omni-directional scanning pattern, and produces symbol character data representative of decoded bar code symbols. In the uni-directional bar code reading mode, the laser scanning engine projects through the light transmission aperture, a visible stroboscopically-pulsed omni-directional laser scanning pattern, against a single laser scanning line having substantially uniform spatial and temporal intensity characteristics at any given scanning plane parallel to the light transmission aperture within the working distance of the system, and detects and decodes bar code symbols on objects passing through the single laser scanning line, and produces symbol character data representative of decoded bar code symbols. A manually-actuatable data transmission switch, integrated with said hand-supportable housing, produces an activation signal in response to the manual-actuation of the data transmission switch. A data transmission subsystem, disposed in the hand-supportable housing, operates under control of control circuitry to communicate the symbol character data produced by the laser scanning engine to a host device operably coupled to the bar code symbol reading device. The control circuitry enables communication of symbol character data produced by the laser scanning engine in the uni-directional bar code reading mode of operation to the host device in response to the activation signal produced by the data transmission switch, and the control circuitry enables communication of symbol character data produced by the laser scanning engine in the omni-directional reading mode of operation to the host device irrespective of the activation signal produced by the data transmission switch.

公开(公告)号：US07097105B2

公开(公告)日：2006-08-29

申请号：US10684273

申请日：2003-10-11

Applicant: David M. Wilz, Sr. ,  Garrett Russell ,  Mark C. Schmidt ,  Mikhail Veksland ,  William Martin ,  Patrick Giordano ,  Shane Edmonds ,  Kevin DiPlacido ,  Shawn Defoney ,  Stephen Colavito ,  Donald Hudrick ,  James Osborn ,  Thomas Amundsen ,  Benjamin Hejl

Inventor： David M. Wilz, Sr. ,  Garrett Russell ,  Mark C. Schmidt ,  Mikhail Veksland ,  William Martin ,  Patrick Giordano ,  Shane Edmonds ,  Kevin DiPlacido ,  Shawn Defoney ,  Stephen Colavito ,  Donald Hudrick ,  James Osborn ,  Thomas Amundsen ,  Benjamin Hejl

IPC: G06K7/10 ,  G06K9/22

CPC classification number: G06K7/10 ,  B82Y15/00 ,  G06K7/10554 ,  G06K7/10564 ,  G06K7/10584 ,  G06K7/10594 ,  G06K7/10603 ,  G06K7/10613 ,  G06K7/10663 ,  G06K7/10673 ,  G06K7/10693 ,  G06K7/10702 ,  G06K7/10792 ,  G06K7/10801 ,  G06K7/10811 ,  G06K7/10851 ,  G06K7/10861 ,  G06K7/10871 ,  G06K7/10881 ,  G06K7/10891 ,  G06K7/109 ,  G06K7/14 ,  G06K2207/1012

Abstract: A multi-mode laser-based bar code symbol reading device having a hand-supportable housing with a light transmission aperture, wherethrough visible light can exit and enter the hand-supportable housing. A laser scanning engine, disposed within the hand-supportable housing, is controlled to selectively operate in either an omni-directional reading mode or a uni-directional bar code reading mode. In the omni-directional bar code reading mode, the laser scanning engine projects pattern through the light transmission aperture, an omni-directional laser scanning pattern producing multiple laser scanning lines with substantially uniform spatial and temporal intensity characteristics at any given scanning plane parallel to the light transmission aperture within the working distance of the system, and detects and decodes bar code symbols on objects passing through the omni-directional scanning pattern, and produces symbol character data representative of decoded bar code symbols. In the uni-directional bar code reading mode, the laser scanning engine projects through the light transmission aperture, a visible stroboscopically-pulsed omni-directional laser scanning pattern, against a single laser scanning line having substantially uniform spatial and temporal intensity characteristics at any given scanning plane parallel to the light transmission aperture within the working distance of the system, and detects and decodes bar code symbols on objects passing through the single laser scanning line, and produces symbol character data representative of decoded bar code symbols. A manually-actuatable data transmission switch, integrated with said hand-supportable housing, produces an activation signal in response to the manual-actuation of the data transmission switch. A data transmission subsystem, disposed in the hand-supportable housing, operates under control of control circuitry to communicate the symbol character data produced by the laser scanning engine to a host device operably coupled to the bar code symbol reading device. The control circuitry enables communication of symbol character data produced by the laser scanning engine in the uni-directional bar code reading mode of operation to the host device in response to the activation signal produced by the data transmission switch, and the control circuitry enables communication of symbol character data produced by the laser scanning engine in the omni-directional reading mode of operation to the host device irrespective of the activation signal produced by the data transmission switch.

公开(公告)号：US20140014724A1

公开(公告)日：2014-01-16

申请号：US13545454

申请日：2012-07-10

Applicant: Thomas Koziol ,  Daniel Yeakley ,  Erik Todeschini ,  Stephen Patrick Deloge ,  Benjamin Hejl

Inventor： Thomas Koziol ,  Daniel Yeakley ,  Erik Todeschini ,  Stephen Patrick Deloge ,  Benjamin Hejl

IPC: G06K7/10 ,  G06K7/01

CPC classification number: H04B5/0062 ,  G06K7/0004 ,  G06K7/10851 ,  G06K7/1443 ,  G06K7/1495

Abstract: A data decoding system can comprise a client computer including an imaging device and one or more servers executing at least one decoding process. The client computer can be configured to acquire an image of decodable indicia and to process the acquired image by: (i) identifying one or more areas of interest within the image; (ii) cropping the image based on the identified areas of interest; (iii) clipping one or more images from the image based on the identified areas of interest; (iv) increasing or reducing a pixel resolution of at least part of the image; (v) converting the image to a grayscale image or to a monochrome image; and/or (vi) compressing the image using a compression algorithm. The decoding process can be configured, responsive to receiving a decoding request comprising the processed image, to decode the decodable indicia and to transmit the decoding operation result to the client computer.

Abstract translation: 数据解码系统可以包括包括成像设备和执行至少一个解码过程的一个或多个服务器的客户端计算机。 客户端计算机可以被配置为获取可解码标记的图像并且通过以下步骤来处理所获取的图像：（i）识别图像内的一个或多个感兴趣区域; （ii）根据所识别的感兴趣区域对图像进行裁剪; （iii）基于所识别的感兴趣的区域从图像剪切一个或多个图像; （iv）增加或减少图像的至少一部分的像素分辨率; （v）将图像转换成灰度图像或单色图像; 和/或（vi）使用压缩算法压缩图像。 解码处理可以响应于接收到包括经处理的图像的解码请求来解码可解码的标记并且将解码操作结果发送到客户端计算机来配置。

公开(公告)号：US07431215B2

公开(公告)日：2008-10-07

申请号：US11505489

申请日：2006-08-15

Applicant: David M. Wilz, Sr. ,  Garrett Russell ,  Mark C. Schmidt ,  Mikhail Veksland ,  William Martin ,  Patrick Giordano ,  Shane Edmonds ,  Kevin DiPlacido ,  Shawn Defoney ,  Stephen Colavito ,  Donald Hudrick ,  James Osborn ,  Thomas Amundsen ,  Benjamin Hejl

Inventor： David M. Wilz, Sr. ,  Garrett Russell ,  Mark C. Schmidt ,  Mikhail Veksland ,  William Martin ,  Patrick Giordano ,  Shane Edmonds ,  Kevin DiPlacido ,  Shawn Defoney ,  Stephen Colavito ,  Donald Hudrick ,  James Osborn ,  Thomas Amundsen ,  Benjamin Hejl

IPC: G06K7/10 ,  G06K9/22

CPC classification number: G06K7/10 ,  B82Y15/00 ,  G06K7/10554 ,  G06K7/10564 ,  G06K7/10584 ,  G06K7/10594 ,  G06K7/10603 ,  G06K7/10613 ,  G06K7/10663 ,  G06K7/10673 ,  G06K7/10693 ,  G06K7/10702 ,  G06K7/10792 ,  G06K7/10801 ,  G06K7/10811 ,  G06K7/10851 ,  G06K7/10861 ,  G06K7/10871 ,  G06K7/10881 ,  G06K7/10891 ,  G06K7/109 ,  G06K7/14 ,  G06K2207/1012

Abstract: An automatically-activated bar code reading system including: a visible laser light source, scanning element and a plurality of stationary mirrors. When arranged in a first configuration, the visible laser light source, scanning element and plurality of stationary mirrors cooperate to produce a visible omni-directional laser scanning pattern with multiple laser scanning lines having substantially uniform spatial and temporal intensity characteristics at a given scanning plane parallel to a scanning window within a working distance of the system. When the visible laser light source, the scanning element and the plurality of stationary mirrors are arranged in a second configuration, these components cooperate to produce a visible omni-directional laser scanning pattern having temporally varying intensity characteristics, against a single visible laser scanning line having substantially uniform spatial and temporal intensity characteristics, at a given scanning plane parallel to the scanning window within the working distance of the system.

Abstract translation: 一种自动激活的条形码读取系统，包括：可见激光光源，扫描元件和多个静止反射镜。 当以第一构造布置时，可见激光光源，扫描元件和多个静止镜协作以产生具有多个激光扫描线的可见的全向激光扫描图案，其具有在给定扫描平面处具有基本均匀的空间和时间强度特性的平行 到系统工作距离内的扫描窗口。 当可见激光光源，扫描元件和多个静止反射镜被布置成第二配置时，这些部件协作以产生具有时间上变化的强度特性的可见全能激光扫描图案，针对具有 在系统的工作距离内与扫描窗口平行的给定扫描平面处的基本均匀的空间和时间强度特性。

公开(公告)号：US20080000975A1

公开(公告)日：2008-01-03

申请号：US11478373

申请日：2006-06-29

Applicant: Benjamin Hejl ,  John F. Bonanno ,  John T. Deal ,  Nancy A. Smith

Inventor： Benjamin Hejl ,  John F. Bonanno ,  John T. Deal ,  Nancy A. Smith

IPC: G06K7/10

CPC classification number: G06K7/10 ,  G07G1/0045

Abstract: A mode switch audible indication method, computer-readable medium, and apparatus are provided. In one embodiment, the method receives a switch scan mode signal and transmits an audio output signal in accordance with the switch scan mode signal. Thereafter, the method switches to a scan mode associated with the switch mode signal if the scan mode is not associated with the switch mode signal. In other embodiments, apparatuses and computer-readable medium, respectively, are also provided which perform similar features recited by the above method.

Abstract translation: 提供了模式切换声音指示方法，计算机可读介质和装置。 在一个实施例中，该方法接收切换扫描模式信号，并根据切换扫描模式信号发送音频输出信号。 此后，如果扫描模式不与开关模式信号相关联，则该方法切换到与开关模式信号相关联的扫描模式。 在其他实施例中，还提供了分别执行由上述方法所述的相似特征的装置和计算机可读介质。

公开(公告)号：US20130306720A1

公开(公告)日：2013-11-21

申请号：US13474014

申请日：2012-05-17

Applicant: Erik Todeschini ,  Stephen Patrick Deloge ,  Timothy Meier ,  Donald Anderson ,  Benjamin Hejl ,  Thomas Koziol

Inventor： Erik Todeschini ,  Stephen Patrick Deloge ,  Timothy Meier ,  Donald Anderson ,  Benjamin Hejl ,  Thomas Koziol

IPC: G06F17/30

CPC classification number: G06F17/30876 ,  G06K7/1443 ,  G06K7/1447 ,  G06Q20/3274 ,  G06Q30/04 ,  G06Q2220/00 ,  H04L9/0861 ,  H04L9/3263 ,  H04L63/06 ,  H04L63/0823 ,  H04L63/0869 ,  H04L2209/24 ,  H04L2209/64

Abstract: A data decoding system can comprise one or more computers communicatively coupled to a network. The computers can execute at least one decoding process. The decoding process can be configured, responsive to receiving a decoding request comprising an image of decodable indicia, to locate the decodable indicia within the image, and to decode the decodable indicia into a decoded message. The decoding process can be further configured, responsive to completing a decoding operation, to transmit to the client the decoded message and/or the decoding operation completion code.