Abstract: A technique for operating an ad-hoc wireless communication network includes providing 400 a plurality of price checking stations 102 having wireless communication capabilities, designating 402 one of the price checking stations 102 as a master station in the ad-hoc network, and designating the remaining stations as slave stations 100, and communicating with devices 104-110 deployed in the network using the wireless communications capabilities of the price checking stations 100, 102.
Type:
Grant
Filed:
June 25, 2010
Date of Patent:
July 24, 2012
Assignee:
Symbol Technologies, Inc.
Inventors:
Thomas K. Roslak, Luis F. Llamas Martinez Garza, Patrick S. Riechel
Abstract: Apparatus and methods are provided for balancing a load across access devices in a wireless network. A method comprises receiving an association request at a first access device of a plurality of access devices, and determining, in response to the association request, if the first access device is the least-loaded access device among the plurality of access devices. The method further comprises granting the association request if the first access device is the least-loaded access device. If the first access device is not the least-loaded access device, the method may further comprise denying the association request.
Abstract: Illumination driver circuit for using in an imaging-based barcode reader is configured to provide the driving current for the illumination source with a Buck regulator when the driving current is above a threshold current value and to provide the driving current for the illumination source with a linear regulator when the driving current is not above the threshold current value. The threshold current value is substantially close to the smallest current the Buck regulator operative to provide when operating in a continuous mode.
Abstract: The present invention relates generally to methods and systems for determining a class of power delivered via power sourcing equipment (“PSE”) utilizing power over Ethernet (“POE”) technology. Described is a method including operating an network device at a first power setting, increasing a power requirement of the network device, detecting a second power setting based on an amount of power available from a power source, the second power setting being greater than the first power setting, determining whether one or more resources of the network device is operable at the second power setting, operating the network device at the second power setting if the one or more resources is operable, and activating an alert if the one or more resources is not operable.
Type:
Grant
Filed:
July 30, 2008
Date of Patent:
July 17, 2012
Assignee:
Symbol Technologies, Inc.
Inventors:
Edward W. Geiger, Julie Hanh Phan, Patrick Wallace
Abstract: Techniques are provided for selecting one of a plurality of clock signals used to drive a bus of a WLAN-enabled device having a WLAN radio module coupled to the bus and designed to operate over a plurality of WLAN channels. A network infrastructure device, such as an access point or port, is provided that comprises a WLAN radio module, a PCI bus coupled to the WLAN radio module, a look up table (LUT) and a processor. The WLAN radio module designed to operate over a plurality of WLAN channels in a first frequency band. The LUT comprises a plurality of entries. Each entry comprises: a particular one of the WLAN channels and a corresponding one of a first clock signal having a first clock frequency and a second clock signal having a second clock frequency that is to be selected.
Type:
Grant
Filed:
August 27, 2009
Date of Patent:
July 17, 2012
Assignee:
Symbol Technologies, Inc.
Inventors:
Ed Geiger, Vinh Le, Nhan Nguyen, Julie Phan
Abstract: A system, techniques, and apparatus for detecting rogue RFID readers are disclosed. The system detects unauthorized reader to tag communication, and with multiple detectors, provides location information concerning one or more unauthorized readers. The system can detect high power commands of an unauthorized reader(s) in predefined areas and be integrated with an article surveillance system.
Abstract: A wearable mobile computer communicates with a headset worn by an operator using a communication channel established between the computer and a radio frequency identification (“RFID”) tag located in the headset. The headset may be configured for receive only (voice travels only from the computer to the headset) or configured for two-way voice communication. For two-way communication backscatter from the RFID tag is used to carry voice signals.
Type:
Grant
Filed:
December 20, 2007
Date of Patent:
July 10, 2012
Assignee:
Symbol Technologies, Inc.
Inventors:
Mark Duron, Thomas Wulff, Russell Calvarese, Robert Sandler
Abstract: Described are a device and a method for canceling a magnetic field and/or an electric field emitted from a device. The device includes a housing including an inner wall and an outer wall, a sense coil located within the inner wall of the housing in proximity to a user's ear, the sense coil sensing a magnitude, polarization and a polarity of an inbound magnetic field within the housing, and an induction coil located between the outer wall and the inner wall of the housing, the induction coil generating an outbound magnetic field having the same polarization and an opposing polarity to the polarity of the inbound magnetic field. The method includes sensing, by a sensing coil, a magnitude and a polarity of an inbound magnetic field, the sensing coil located within a housing of a device, and applying a current to an induction coil to generate an outbound magnetic field having an opposing polarity to the polarity of the inbound magnetic field, the induction coil located within the housing of the device.
Abstract: A method and apparatus of driving a motor in a light scanning arrangement. The method includes the following steps: (1) driving a drive coil with a drive signal to oscillate a scan mirror and a light beam reflected from the scan mirror; (2) generating a feedback signal having zero crossings during oscillation of the scan mirror by a feedback coil in proximity to the drive coil; (3) integrating the feedback signal to generate an integrated feedback signal; and (4) processing the integrated feedback signal to generate a periodic drive signal that has the same time period as the feedback signal.
Abstract: A data capture terminal for, and a method of, automatically capturing data from targets located within a range of working distances from the terminal, employ a controller for automatically controlling a set of focal parameters of an imaging assembly, for storing one of the focal parameters of the imaging assembly upon a successful data capture from a first target, and for automatically selecting a subset of the focal parameters determined from the stored focal parameter to capture data from a second target. The subset is smaller than the set of the focal parameters and corresponds to a restricted zone within the range of working distances to enhance data capture performance of the terminal.
Abstract: An apparatus operative to decode a barcode on a target object includes a mirror located within the housing at a position generally facing both the curved window and the imaging lens arrangement of the scan engine. The curved window is configured to operate together with the mirror to direct any of the illumination light reflected by the curved window away from the imaging lens arrangement to avoid the detrimental hot spots in the image.
Abstract: A bar code reader 10 includes a housing 20 including one or more transparent windows H, V and defining a housing interior region. As a target object is swiped or presented in relation to the transparent windows an image of the target object is captured. Cameras C1-C6 have an image capture sensor array with a global shutter is positioned within the housing interior region for capturing an image of a bar code within a camera field of view. All the cameras produce images in a sequential manner during an image frame time period. An image processing system has a processor for decoding a bar code carried by the target object. The processing system responds to signals from a light sensor to terminate object illumination when an adequate image exposure has transpired.
Type:
Application
Filed:
March 5, 2012
Publication date:
June 28, 2012
Applicant:
Symbol Technologies, Inc.
Inventors:
Edward D. Barkan, Bradley S. Carlson, Mark Drzymala
Abstract: Illumination driver circuit for using in an imaging-based barcode reader is configured to provide the driving current for the illumination source with a Buck regulator when the driving current is above a threshold current value and to provide the driving current for the illumination source with a linear regulator when the driving current is not above the threshold current value. The threshold current value is substantially close to the smallest current the Buck regulator operative to provide when operating in a continuous mode.
Abstract: An exemplary imaging based barcode reader has an imaging system that includes a photosensitive array, a focusing lens fixed with respect to the light detecting array which creates an image of a target object on the light detecting array; and an aperture stop fixed in relation to the focusing lens having an opening that allows light from the target object to impinge upon the lens for focusing onto the light detecting array. The focusing lens has a surface facing the aperture stop that is toroidal and in one exemplary embodiment approximates a cylinder that balances or optimizes. Astigmatism of the lens in the imaging plane located in the close proximity to the photosensitive array.
Abstract: An aiming light assembly supported by a mobile imaging reader projects an aiming light pattern on a symbol. A controller modulates the aiming light pattern to render the aiming light pattern more visibly discernible to an operator, especially in a brightly lit ambient environment, to enable the operator to position the aiming light pattern on the symbol prior to reading.
Abstract: Methods and apparatus for scanning objects using an imaging scanner comprising a housing, a circuit board comprising a mounted imaging sensor and an optical module positioned in front of the imaging sensor, creating at least part of an optical path between the optical module and the sensor. In an embodiment, the circuit board is positioned in the housing and the imaging sensor is tilted with respect to the optical path.
Abstract: Described is a system comprising a first wireless device and a second wireless device. The first device has access to a packet routing table which includes data indicative of a packet transmission path in a wireless mesh communications network. The second wireless device is communicatively coupled to the first device and has access to the routing table. Upon receipt of a packet by the first device which is addressed to the second device, the first device determines, as a function of at least one of (i) the routing table and (ii) a first identifier of the second device, a second identifier of a third wireless device to receive the packet directly from the first device. At least one of the first, second and third devices updates the routing table.
Type:
Grant
Filed:
November 30, 2005
Date of Patent:
June 19, 2012
Assignee:
Symbol Technologies, Inc.
Inventors:
Robert Beach, Dean Kawaguchi, Ramesh Sekhar
Abstract: A system for staging a mobile device is described. The system includes a mobility services platform (MSP) server for generating a staging profile. A voice staging server is coupled to the MSP server through a network. The voice staging server selects the staging profile. The mobile device is configured to connect to the voice staging server. The voice staging server transmits audio data representing the staging profile to the mobile device. The mobile device decodes the audio data to apply the staging profile to the mobile device.
Type:
Application
Filed:
December 14, 2010
Publication date:
June 14, 2012
Applicant:
Symbol Technologies, Inc.
Inventors:
Avinash Sanka, Allan Herrod, Subramani Jagadeesan
Abstract: An apparatus for capturing images of a target object having a barcode. The apparatus includes a portable housing configured for standing on top of a flat surface and a window on the portable housing. The apparatus also includes an imaging system configured to capture a first image of the target object within a first field of view through the window and to capture a second image of the target object within a second field of view through the window. The first field of view and the second field of view overlap with each other at a reference plane that is substantially parallel to the front face and located within a working distance of the imaging system.