Abstract: A barcode imaging reader includes a housing, a window in the housing, and an imaging sensor having an array of photosensitive elements for capturing light passing through the window. The barcode imaging reader further includes an illumination arrangement for emitting an illumination light from the housing interior to illuminate a barcode target object spaced from the housing. The illumination arrangement includes (i) an illumination source within the housing operative to generate the illumination light during imaging capture, (ii) a first mirror having a shape of a toroidal surface with predominantly concave surface, and (iii) a second mirror having a shape of a toroidal surface with predominantly convex surface.

Abstract: A method includes the following: (1) detecting light from a target object to capture multiple images of the target object while substantially maintaining the distance between the target object and the imaging lens arrangement that is configured to have a focus position thereof changed with a lens-driving-parameter; (2) processing the at least one of the multiple images to determine a feature-size in an aiming pattern; (3) processing at least two of the multiple images to find an optimal lens-driving-parameter that results in the maximum image sharpness; and (4) storing both the feature-size and the optimal lens-driving-parameter into a memory.

Abstract: The present disclosure provides systems and methods for detecting attacks against authentication mechanisms that generate Transport Layer Security (TLS) tunnels using a server public key. Such attacks can include misconfigured wireless local area network (WLAN) clients that fail to authenticate the server public key prior to creating the TLS tunnels and exchanging credentials. In an exemplary embodiment, an intrusion detection system (IDS) or intrusion prevention system (IPS) is aware of the server public key and monitors for authentication handshakes to detect invalid keys.

Abstract: An apparatus includes an illumination lens, an illumination light source for generating illumination light, and a prism made of optical transparent material. The first section on the first surface of the prism has a length that is at least four times as long as its width. The first surface of the prism includes a second section adjacent to the first section for defining the edge of an aperture. The third surface of the prism is configured to reflect the illumination light received from the first section onto the second surface of the prism. At least a portion of the illumination light received from the first section passes through both the second surface of the prism and the illumination lens for projecting illumination light onto a target object within an imaging field of view.

Abstract: A wireless scanning system for obtaining data related to items includes a radio frequency identification (RFID) reader configured to interrogate RFID tags and obtain tag data from interrogated RFID tags, and a mobile wireless device that is incapable of interrogating RFID tags. The system uses a device RFID tag in close proximity to the mobile wireless device, where the device RFID tag is configured to convey data that identifies the mobile wireless device when interrogated by the RFID reader. When the mobile wireless device is within close proximity to an item of interest having a corresponding item RFID tag, the RFID reader interrogates the device RFID tag and the item RFID tag. Thereafter, the RFID reader routes the item tag data in a manner destined for the mobile wireless device. This system enables the mobile wireless device to obtain the item tag data even though the mobile wireless device has no native RFID reader capabilities.

Abstract: A method and system for locationing of a mobile device (100) within an environment includes light sources (116) disposed within the environment and modified to provide a plurality of unique identity patterns (202) associated with particular locations within the environment. A camera (106) and image processor (102) of the mobile device can obtain images of a modified light source (200) and recognize the unique identity patterns in the image and a horizontal and vertical angle of a position of the light source in the image from a center position. An accelerometer (300) can capture the gravity vectors of the camera. A locationing engine (102, 130) can determine a location of the mobile device using the unique optical pattern, gravity vectors, and the horizontal and vertical angles.

Abstract: A controlled area containing items associated with radio frequency identification (RFID) tags is monitored with an RFID tag reader having a phased antenna array for generating a multitude of beams to interrogate the tags in the controlled area, and with a controller for collecting data from the interrogated tags, for automatically configuring the beams based on the collected data, and for processing the configured beams to optimize the monitoring of the controlled area.

Abstract: A method and system for orientation compensation of a mobile device within an environment includes providing a plurality of reference markers having straight edges and having a defined, regular orientation with respect to the environment. Information about the orientation of the reference markers is supplied to a mobile device operating within the environment. An orientation sensor disposed within the mobile device estimates an orientation of the mobile device. An image of one reference marker is captured, and at least one edge of that reference marker is located. The estimated orientation is compensated by correcting for the reference marker orientation and aligning the corrected estimated orientation to the at least one edge of the reference marker that is closest to being parallel to the corrected estimated orientation.

Abstract: An apparatus includes a battery in the housing, a first light indicator operative to emit light in a first color with the duration of a first time period after a predetermined triggering event, and a second light indicator operative to emit light in a second color with the duration of a second time period after the predetermined triggering event. The ratio between the first time period and the second time period monotonically depends upon a state of charge on the battery.

Abstract: A method includes transmitting from at least one of the imaging sensors to a controller a short frame data that is collected by the at least one of the imaging sensors when the illumination source is activated to provide the illumination light toward the target object with a first illumination level. The method further includes transmitting subsequently from the at least one of the imaging sensors to the controller a regular frame data that is collected by the at least one of the imaging sensors when the illumination source is activated to provide the illumination light toward the target object with a second illumination level that is determined based upon the short frame data. The size of the regular frame data being at least 50 times larger than the size of the short frame data.

Abstract: A method and apparatus for projecting illumination patterns from barcode readers. The apparatus includes a housing, an invisible illumination light source, and a visible illumination light source. The housing comprises a first window located in a generally horizontal plane and a second window located in a generally upright plane that intersects the generally horizontal plane. The invisible illumination light source is operative to project an invisible illumination pattern that is at least partially incident upon the first window or the second window after the invisible illumination pattern is projected out of the housing. The visible illumination light source operative to project a visible illumination pattern out of the housing, and the visible illumination pattern has a visible center ray propagating in a direction different from the invisible center ray of the invisible illumination pattern.

Abstract: An apparatus for and method of electro-optically reading targets arbitrarily oriented in a workstation, such as a dual window workstation, employs a solid-state imager for capturing return light from the targets over a field of view. The imager has an array of sensors arranged along mutually perpendicular array axes. An optical system splits the field of view into a plurality of subfields of view that extend through a workstation window to a target. One subfield is optically configured to enable the imager to capture light from the target along one array axis. Another subfield is optically configured to enable the imager to capture light from the target along the other array axis. A controller processes the captured light in both the one and the other subfields to enable the reading of the arbitrarily oriented target in the workstation independently of target orientation relative to the array axes.

Abstract: An imaging reader for, and a method of, imaging symbols of different symbologies and a receipt acknowledgment, include a solid-state imager having an array of image sensors for capturing return light from the symbols of different symbologies and the receipt acknowledgment over a field of view, and a controller operatively connected to the imager. The controller is automatically configured for detecting a symbol having a specific symbology, for decoding the symbol having the specific symbology, for processing the receipt acknowledgment only when the symbol having the specific symbology has been detected and decoded, and for decoding symbols having symbologies different from the specific symbology when the symbol having the specific symbology has not been detected.

Abstract: Infrared light, which is non-readily visible, illuminates at least part of a field of view containing indicia to be electro-optically read. Visible light illuminates another field of view containing the same indicia. The indicia is read by image capture by the illumination light from one of the illuminated fields of view. The use of IR light minimizes an adverse reaction due to only using bright visible light. The use of visible light enables thermally printed indicia, which is not readily readable by IR light, to be read.

Abstract: A device and method performs a predefined functionality. The method includes generating a first view including selectable elements corresponding to a predefined functionality with first position data and first orientation data shown on a display device. The method includes determining a movement of the display device relative to a user. The method includes generating a second view including at least one of the selectable elements with second position data and second orientation data based on the first image data and the movement data, the second position and orientation data being the same as the first position and orientation data, respectively, relative to the user. The method includes selecting one of the at least one of the selectable elements of the second view as a function of the second position data and the second orientation data and executing the predefined functionality corresponding to the selected one of the selectable elements.

Abstract: A mobile device is described. The mobile device includes a housing having a pistol grip portion. A display is coupled to the housing such that the display is viewable by a user of the mobile device when the pistol grip portion is held in a hand of the user. A trigger-like control switch is located on the pistol grip portion of the mobile device. A pointing device is located on the trigger-like control switch such that the pointing device is accessible to an index finger of a hand of the user when the pistol grip portion is held in the hand of the user. The pointing device controls at least one function of the mobile device.

Abstract: The method of constructing a bi-optical workstation for imaging barcodes includes forming a window sheet by joining at least four rectangular-shaped sapphire sheets together with the area of the window sheet substantially equal to the sum of the areas of the at least four rectangular-shaped sapphire sheets. The method also includes constructing a first window on the housing with the first window located in a generally horizontal plane and constructing a second window on the housing with the second window located in a generally upright plane that intersects the generally horizontal plane. At least one of the first window and the second window comprises the window sheet formed by the at least four rectangular-shaped sapphire sheets.

Abstract: A system for, and a method of, configuring an electro-optical reader as a keyboard device having a selected keyboard layout containing keyboard layout data, encode each of a plurality of configuration symbols with a symbol sequence number, a total number of the configuration symbols, and a fractional amount of the keyboard layout data. During a configuration procedure, all the configuration symbols are electro-optically scanned and decoded, and the symbol sequence number, the total number of the configuration symbols, and the fractional amount of the keyboard layout data are extracted for each configuration symbol. The keyboard layout data for all the configuration symbols are linked in a sequence determined by each symbol sequence number and the total number of the configuration symbols. All the keyboard layout data is processed to configure the reader during the configuration procedure.

Abstract: Wireless networking systems and methods are provided for “staging” a wireless communication device (WCD). The WCD is designed to communicate over the air with a wireless communication station via RF signals. Network infrastructure (NI) that receives a call from the WCD (via the wireless communication station), can authenticate the WCD. Once authenticated, the NI can communicate an RF signal that includes the encrypted staging data to the WCD over an RF channel. The staging data can include settings for the WCD and/or a list of software packages to be installed on the WCD and their respective server locations. When the WCD receives the RF signal, the WCD can convert (e.g., decode) the received RF signal to generate digital data. The WCD can then decrypt the digital data to generate decrypted staging data that can be used to stage the WCD.

Abstract: A system for automatically activating a function of a mobile device with a remote device is described. The system includes a first device having an illumination component for generating illumination having a signature. A second mobile device includes a display and a light sensor. A function of the second mobile device is activated in response to the light sensor receiving the illumination having the signature.