Abstract: An umbrella clamp that includes an adjustable, flexibly-resilient clamp having a cam lever, the clamp detachably secured around an umbrella post, the clamp further includes a flange and anchor assembly, and one or more shock absorber elements. The clamp includes a flange with a series of holes, each of the holes are configured for securing one end of a cable, the opposing end of the cable is affixed to a weighted article (such as a bag filled with sand) and one or more friction pads disposed along the inner surface of the clamp body.

Abstract: A vehicle data communication system including a first vehicle subsystem; a second vehicle subsystem; and a data communication cable assembly including a first connector connected to the first vehicle subsystem; a second connector connected to the second vehicle subsystem; and a cable including opposite ends securely attached to the first and second connectors, respectively, wherein the cable comprises one or more optical transmission mediums configured to transmit a first optical data signal from the first connector to the second connector. The vehicle data communication system may include a set of cascadable cable assemblies for transmission of optical data signals between the first and second vehicle subsystems.

Abstract: Various implementations of a data communication cable assembly are disclosed that improve the transmission of data signals that traverse long distances. Some cable assembly implementations are configured to transmit data signals via one or more electrical wire mediums and one or more signal extenders that modify the data signals for improved transmission between devices over one or more electrical wire mediums. Other cable assembly implementations are configured to transmit data signals via one or more optical transmission mediums and optical-to-electrical and electrical-to-optical converters for improved transmission of the data signals between devices. Other cable assembly implementations are configured for cascading or daisy-chaining together for transmitting data signals between devices in the optical and/or electrical domain.

Abstract: Various implementations of a data communication cable assembly are disclosed that improve the transmission of data signals that traverse long distances. Some cable assembly implementations are configured to transmit data signals via one or more electrical wire mediums and one or more signal extenders that modify the data signals for improved transmission between devices over one or more electrical wire mediums. Other cable assembly implementations are configured to transmit data signals via one or more optical transmission mediums and optical-to-electrical and electrical-to-optical converters for improved transmission of the data signals between devices. Other cable assembly implementations are configured for cascading or daisy-chaining together for transmitting data signals between devices in the optical and/or electrical domain.

Abstract: Various implementations of a data communication cable assembly are disclosed that improve the transmission of data signals that traverse long distances. Some cable assembly implementations are configured to transmit data signals via one or more electrical wire mediums and one or more signal extenders that modify the data signals for improved transmission between devices over one or more electrical wire mediums. Other cable assembly implementations are configured to transmit data signals via one or more optical transmission mediums and optical-to-electrical and electrical-to-optical converters for improved transmission of the data signals between devices. Other cable assembly implementations are configured for cascading or daisy-chaining together for transmitting data signals between devices in the optical and/or electrical domain.

Abstract: A data and power communication cable that provides galvanic isolation between data-signal related circuitry and power-signal related circuitry present at both ends of the cable. The cable includes a first connector configured to mate with a first device to receive data and power signals therefrom; a first galvanic-isolating device configured to generate a galvanic-isolated data signal based on the data signal; a second galvanic-isolating device configured to generate a galvanic-isolated power signal based on the power signal; a second connector configured to mate with a second device to provide the galvanic-isolated data signal and the galvanic-isolated power signal thereto; a first set of communication mediums to route the data signal or the galvanic-isolated data signal from the first connector to the second connector; and a second set of communication mediums to route the power signal or the galvanic-isolated power signal from the first connector to the second connector.

Abstract: Various implementations of a data communication cable assembly are disclosed that improve the transmission of data signals that traverse long distances. Some cable assembly implementations are configured to transmit data signals via one or more electrical wire mediums and one or more signal extenders that modify the data signals for improved transmission between devices over one or more electrical wire mediums. Other cable assembly implementations are configured to transmit data signals via one or more optical transmission mediums and optical-to-electrical and electrical-to-optical converters for improved transmission of the data signals between devices. Other cable assembly implementations are configured for cascading or daisy-chaining together for transmitting data signals between devices in the optical and/or electrical domain.

Abstract: Various implementations of a data communication cable assembly are disclosed that improve the transmission of data signals that traverse long distances. Some cable assembly implementations are configured to transmit data signals via one or more electrical wire mediums and one or more signal extenders that modify the data signals for improved transmission between devices over one or more electrical wire mediums. Other cable assembly implementations are configured to transmit data signals via one or more optical transmission mediums and optical-to-electrical and electrical-to-optical converters for improved transmission of the data signals between devices. Other cable assembly implementations are configured for cascading or daisy-chaining together for transmitting data signals between devices in the optical and/or electrical domain.

Abstract: Various implementations of a data communication cable assembly are disclosed that improve the transmission of data signals that traverse long distances. Some cable assembly implementations are configured to transmit data signals via one or more electrical wire mediums and one or more signal extenders that modify the data signals for improved transmission between devices over one or more electrical wire mediums. Other cable assembly implementations are configured to transmit data signals via one or more optical transmission mediums and optical-to-electrical and electrical-to-optical converters for improved transmission of the data signals between devices. Other cable assembly implementations are configured for cascading or daisy-chaining together for transmitting data signals between devices in the optical and/or electrical domain.

Abstract: A data and power communication cable that provides galvanic isolation between data-signal related circuitry and power-signal related circuitry present at both ends of the cable. The cable includes a first connector configured to mate with a first device to receive data and power signals therefrom; a first galvanic-isolating device configured to generate a galvanic-isolated data signal based on the data signal; a second galvanic-isolating device configured to generate a galvanic-isolated power signal based on the power signal; a second connector configured to mate with a second device to provide the galvanic-isolated data signal and the galvanic-isolated power signal thereto; a first set of communication mediums to route the data signal or the galvanic-isolated data signal from the first connector to the second connector; and a second set of communication mediums to route the power signal or the galvanic-isolated power signal from the first connector to the second connector.

Abstract: A data and power communication cable that provides galvanic isolation between data-signal related circuitry and power-signal related circuitry present at both ends of the cable. The cable includes a first connector configured to mate with a first device to receive data and power signals therefrom; a first galvanic-isolating device configured to generate a galvanic-isolated data signal based on the data signal; a second galvanic-isolating device configured to generate a galvanic-isolated power signal based on the power signal; a second connector configured to mate with a second device to provide the galvanic-isolated data signal and the galvanic-isolated power signal thereto; a first set of communication mediums to route the data signal or the galvanic-isolated data signal from the first connector to the second connector; and a second set of communication mediums to route the power signal or the galvanic-isolated power signal from the first connector to the second connector.

Abstract: Methods and systems for alerting a driver of a vehicle of parking conditions within a predetermined distance of a destination. The system includes a transceiver of the vehicle configured to receive, from one or more other vehicles, parking condition data including one or more indicators of parking conditions within the predetermined distance of the destination. The system also includes an electronic control unit (ECU) of the vehicle connected to the transceiver. The ECU is configured to determine a parking congestion level based on the parking condition data. The ECU is also configured to determine whether the parking congestion level exceeds a threshold parking congestion level. The ECU is also configured to instruct an output device to alert the driver of parking congestion near the destination when the parking congestion level exceeds the threshold parking congestion level.

Abstract: A fire-retardant data communication cable assembly including an outer coaxial jacket made out of fire-retardant material (e.g., Flourinated Ethylene Propylene (FEP)) coaxially enclosing optical and wire communication mediums, metal (e.g., copper) braid, metal (e.g., aluminum) foil, drain wire, and aramid fibers for substantially the entire length of the cable; a tube made out of fire-retardant material (e.g., Ethylene Tetrafluoroethylene (ETFE) or polyolefin) coaxially enclosing one or more optical communication mediums (e.g., optical fibers) and one or more aramid fibers for substantially the entire length of the cable; a fire-retardant coating (e.g., FEP) coaxially disposed over each of the one or more wire mediums for substantially the entire length of the cable.

Abstract: A system and method are provided for automatic optimization of vehicle RF audio systems. The method includes receiving first data describing a radio-frequency environment experienced by a radio system of a vehicle, the vehicle radio system comprising a processor and a memory storing code executable by the processor; receiving second data describing responses of one or more occupants of the vehicle to audio produced by the radio system; correlating the responses of one or more occupants of the vehicle with changes in the radio-frequency environment experienced by the radio system; generating a code update using the correlation of the responses with changes in the radio-frequency environment experienced by the radio system, and refreshing code stored in a memory of the vehicle according to the code update, wherein a processor in the vehicle executes the code.

Abstract: A system and method are provided for automatic optimization of vehicle RF audio systems. The method includes receiving first data describing a radio-frequency environment experienced by a radio system of a vehicle, the vehicle radio system comprising a processor and a memory storing code executable by the processor; receiving second data describing responses of one or more occupants of the vehicle to audio produced by the radio system; correlating the responses of one or more occupants of the vehicle with changes in the radio-frequency environment experienced by the radio system; generating a code update using the correlation of the responses with changes in the radio-frequency environment experienced by the radio system, and refreshing code stored in a memory of the vehicle according to the code update, wherein a processor in the vehicle executes the code.

Abstract: Methods and systems for alerting a driver of a vehicle of parking conditions within a predetermined distance of a destination. The system includes a transceiver of the vehicle configured to receive, from one or more other vehicles, parking condition data including one or more indicators of parking conditions within the predetermined distance of the destination. The system also includes an electronic control unit (ECU) of the vehicle connected to the transceiver. The ECU is configured to determine a parking congestion level based on the parking condition data. The ECU is also configured to determine whether the parking congestion level exceeds a threshold parking congestion level. The ECU is also configured to instruct an output device to alert the driver of parking congestion near the destination when the parking congestion level exceeds the threshold parking congestion level.

Abstract: An autonomous vehicle and method are provided. The autonomous vehicle includes a memory to store a three-dimensional (3D) rendering of an environment surrounding the autonomous vehicle; one or more sensors of the autonomous vehicle to collect real-time data describing the environment surrounding the autonomous vehicle; and a processor to (i) revise the 3D rendering according to the real-time data, and (ii) navigate the autonomous vehicle according to the revised 3D rendering.

Abstract: A method performed by a computing system includes receiving audio data from a plurality of vehicles. The audio data may include vehicle audio settings associated with a set of input parameters. The set of input parameters may include vehicle type. The method may further include analyzing the audio data to determine an audio setting trend for a subset of the plurality of vehicles. The method may further include transmitting to a destination vehicle, an audio setting profile based on the audio setting trend. The destination vehicle may be different than the plurality of vehicles. The destination vehicle may have at least one matching input parameter as the subset of the plurality of vehicles.

Abstract: A data communication cable that is capable of informing a user via light signals regarding any operational status of the cable and/or devices to which the cable is connected. The data communication cable includes a first connector configured to connect to a first device; a second connector configured to connect to a second device; one or more communication mediums configured to route a data signal and/or a power signal between the first and second devices; and one or more illumination fibers configured to emit light. The cable may further include a light driver circuit configured to generate a drive signal for the one or more illumination fibers based on detecting one or more events. Such events may include the cable receiving power, data signal activity or loss of signal activity in the one or more communications mediums, authentication or other operations performed between the first and second devices.

Abstract: A bidirectional data communications cable is disclosed. The cable includes first connector, second connector, and cable housing coupled to the first and second connectors. The first connector includes a controller configured to determine whether the first connector is connected to a data source or data sink. If connected to a data source, the controller configures a switch circuit to route a data signal from the data source to an optical modulator for modulating an optical signal for transmission from the first to the second connector via an optical fiber. If connected to a data sink, the controller configures the switch circuit to route a data signal from an optical demodulator to the data sink, the optical demodulator receiving an optical signal modulated with the data signal from the second connector via an optical fiber. The second connector is configured similar to the first connector. The cable housing encloses the optical fibers.