Abstract: A method includes obtaining an image of a machine-readable data representation that is located on a physical object using a camera of an electronic device. The machine-readable data representation includes an encoded form of a data value. The method further includes decoding the machine-readable data representation to determine the data value, whereby the data value includes a content identifier and a content source identifier. The method also includes selecting a content source based on the content source identifier, obtaining a content item and content location information based on the content identifier from the content source, determining a content position and a content orientation for the content item relative to the physical object based on the content location information, and displaying a representation of the content item using the electronic device according to the content position and the content orientation.

Abstract: Systems and method for remotely capturing a barcode and local decoding. The barcode may be captured using a remote imaging sensor. Images captured may be transmitted to a mobile scanner with an incorporated decoder. Additionally, inputs to the mobile scanner may facilitate moving the remote imaging sensor in three-dimensional space. Some embodiments also include a pointer device that may non-destructively mark a position for the remote imaging sensor to target. An image or series of image may be transmitted to the mobile scanner. When an image includes a barcode, the mobile scanner may decode the barcode and provide confirmation feedback.

Abstract: The present invention provides multispecific antibodies that bind to EGFR and CD28 (EGFR×CD28) as well as anti-EGFR antibodies. Such antibodies may be combined with a further therapeutic agent such as an anti-PD1 antibody. Methods for treating cancers (e.g., EGFR-expressing cancer) by administering the antibodies (e.g., and combinations thereof with anti-PD1) are also provided. The EGFR×CD28 antibodies of the present invention embody a tumor-targeted immunotherapeutic modality combined with PD-1 inhibition. These bispecific antibodies bind a tumor-specific antigen (TSA) (EGFR) with one arm and the co-stimulatory receptor, CD28, on T-cells with the other arm. Combination therapy with PD-1 inhibitors specifically potentiated intra-tumoral T cell activation, promoting an effector memory-like T cell phenotype without systemic cytokine secretion in a variety of syngeneic and human tumor xenograft models.

Abstract: Implants, devices, systems and methods for maintaining, correcting and/or fusing joint deformities are disclosed. The implant including a first member, a second member, and a coupling member with a first end and a second end, wherein the first end engages the first member and the second end engages the second member. Methods of using the implants for maintaining, correcting and/or fusing joint deformities are also disclosed.

Abstract: Systems, methods, and apparatus for inband telemetry for a virtual transponder are disclosed. A disclosed method for inband telemetry for a virtual transponder comprises transmitting, by a payload antenna on a vehicle, a payload signal to a hosted receiving antenna. The method further comprises transmitting, by the payload antenna, a hosted telemetry signal to the hosted receiving antenna. In one or more embodiments, the hosted telemetry signal and the payload signal are transmitted on the same frequency band.

Abstract: Systems and method for remotely capturing a barcode and local decoding. The barcode may be captured using a remote imaging sensor. Images captured may be transmitted to a mobile scanner with an incorporated decoder. Additionally, inputs to the mobile scanner may facilitate moving the remote imaging sensor in three-dimensional space. Some embodiments also include a pointer device that may non-destructively mark a position for the remote imaging sensor to target. An image or series of image may be transmitted to the mobile scanner. When an image includes a barcode, the mobile scanner may decode the barcode and provide confirmation feedback.

Abstract: Systems, methods, and apparatus for inband telemetry for a virtual transponder are disclosed. A disclosed method for inband telemetry for a virtual transponder comprises transmitting, by a payload antenna on a vehicle, a payload signal to a hosted receiving antenna. The method further comprises transmitting, by the payload antenna, a hosted telemetry signal to the hosted receiving antenna. In one or more embodiments, the hosted telemetry signal and the payload signal are transmitted on the same frequency band.

Abstract: Systems, methods, and apparatus for inband telemetry for a virtual transponder are disclosed. A disclosed method for inband telemetry for a virtual transponder comprises transmitting, by a payload antenna on a vehicle, a payload signal to a hosted receiving antenna. The method further comprises transmitting, by the payload antenna, a hosted telemetry signal to the hosted receiving antenna. In one or more embodiments, the hosted telemetry signal and the payload signal are transmitted on the same frequency band.

Abstract: A mobile device and methods that support performing a warm swap of a battery of a mobile device are provided herein. A processor of the mobile device may initiate a warm swap procedure in response to receiving a request from a user operating the mobile device. The processor generate a first notification signal to indicate to the user to wait before removing the battery from the mobile device. In response to execution of the warm swap procedure, the processor generates a second notification signal to indicate to the user that the battery of the mobile device is safe to be warm swapped with a charged battery.

Abstract: A method for forming a solar cell including steps of (1) providing a semiconductor wafer having an upper surface; (2) applying an electrical contact material to the upper surface, the electrical contact material forming an electrically conductive grid that includes grid lines extending from a bus bar; (3) forming an isolation channel in the semiconductor wafer to define a solar cell portion and a wing portion, wherein the wing portion is electrically isolated from the solar cell portion, and wherein the wing portion is substantially free of the electrical contact material; (4) submerging the semiconductor wafer in a solvent, wherein formation of metal dendrites on the grid lines of the electrically conductive grid is inhibited; and (5) separating the solar cell portion from the wing portion.

Abstract: A disclosed method for a virtual transponder comprises generating a configuration for a portion of a payload on a vehicle utilized by a host user by using an option for each variable(s) for a portion of the payload utilized by the host user. The method further comprises generating a configuration for a portion of the payload utilized by a hosted user by using an option for each variable(s) for a portion of the payload utilized by the hosted user. Also, the method comprises generating host commands for reconfiguring the portion of the payload utilized by the host user by using the configuration for the portion of the payload utilized by the host user. Further, the method comprises generating hosted commands for reconfiguring the portion of the payload utilized by the hosted user by using the configuration for the portion of the payload utilized by the hosted user.

Abstract: A method includes obtaining traffic demand data indicating user traffic demand through a communication system including a multistage interconnection network. The method also includes generating first path data based on the traffic demand data. The first path data represents a configuration of components of the multistage interconnection network to provide traffic paths through the multistage interconnection network. The method includes selectively generating second path data based on a determination that a potential failure of the multistage interconnection network cannot be isolated, based on the traffic paths, to a single component. The second path data represents a modified configuration of the components to provide the traffic paths and test paths through the multistage interconnection network to facilitate isolation of the failure of the multistage interconnection network to the single component.

Abstract: A method includes obtaining traffic demand data indicating user traffic demand through a communication system including a multistage interconnection network. The method also includes generating first path data based on the traffic demand data. The first path data represents a configuration of components of the multistage interconnection network to provide traffic paths through the multistage interconnection network. The method includes selectively generating second path data based on a determination that a potential failure of the multistage interconnection network cannot be isolated, based on the traffic paths, to a single component. The second path data represents a modified configuration of the components to provide the traffic paths and test paths through the multistage interconnection network to facilitate isolation of the failure of the multistage interconnection network to the single component.

Abstract: A quantum efficiency test controller (QETC) and related techniques for measuring quantum efficiency are described. The QETC performs one or more test iterations to obtain test results regarding quantum efficiency of a multijunction photovoltaic device (MPD) having a number N of photovoltaic junctions (N>0), where the QETC is associated with N bias light sources. During a test iteration, the QETC activates a grating monochromator to emit a first test probe of monochromatic light at a first wavelength; and while the grating monochromator is emitting the first test probe, iterates through and activates each of the N bias light sources to emit a corresponding bias band of wavelengths of light. After performing the test iteration(s), the QETC generates an output that is based on the test results related to the quantum efficiency of the MPD.

Abstract: A micro-concentrator solar array is provided, and includes a plurality of solar cells and a plurality of micro-electromechanical systems (MEMS) based reflectors. Each solar cell includes a focal point. The MEMS based reflectors are each selectively tiltable about at least one axis to reflect a beam of light onto the focal point of one of the solar cells.

Abstract: A low bandgap absorber region (LBAR) used in a laser power converter (LPC). The laser power converter is comprised of one or more subcells on a substrate, wherein at least one of the subcells has an emitter and base, with the low bandgap absorber region coupled between the emitter and base. The emitter and base are comprised of a material with a bandgap higher than a wavelength of incident laser light, and the low bandgap absorber region is comprised of a material with a bandgap lower than the emitter and base. The emitter and base are transparent to the incident laser light, and the low bandgap absorber region absorbs the incident laser light and generates a current in response thereto, such that the current is controlled by the material and thickness of the low bandgap absorber region. The low bandgap absorber region is configured to produce a current balanced to the subcells connected in series.

Abstract: A portable data terminal including a main housing, a landscape-oriented large display screen disposed on a top front portion of the main housing and extending nearly an entire width of the main housing, a keyboard disposed on top of the main housing and rearward to the display screen, and left and right battery housings serving as ergonomic handle grips disposed on an underside of the main housing to accommodate two-handed grasping of the device, the keyboard being constructed and arranged to receive input from a pair of thumbs while corresponding hands are grasping and supporting the main housing. In an embodiment, the main housing includes a central housing portion extending downwardly on the underside of the main housing and having an extended front face for containing a scan engine/data reading mechanism and first and second cameras positioned on opposite lateral sides of the scan engine.

Abstract: A mobile device and methods that support performing a warm swap of a battery of a mobile device are provided herein. A processor of the mobile device may initiate a warm swap procedure in response to receiving a request from a user operating the mobile device. The processor generate a first notification signal to indicate to the user to wait before removing the battery from the mobile device. In response to execution of the warm swap procedure, the processor generates a second notification signal to indicate to the user that the battery of the mobile device is safe to be warm swapped with a charged battery.

Abstract: In one aspect, optoelectronic devices are described herein. In some implementations, an optoelectronic device comprises a photovoltaic cell. The photovoltaic cell comprises a space-charge region, a quasi-neutral region, and a low bandgap absorber region (LBAR) layer or an improved transport (IT) layer at least partially positioned in the quasi-neutral region of the cell.