Abstract: Described is a hybrid lifevest enclosure having a base, a frame assembly, and an attachment member for coupling the base to the frame assembly. The base may be formed of a flexible material and the frame assembly may be formed of a rigid material. The hybrid lifevest enclosure may comprise a sealed configuration in which the base is coupled to the frame assembly in a manner that prevents insertion of a foreign object having a length of 9.9 cm and a diameter of 0.9 cm into the sealed configuration without evidence that the sealed configuration has been unsealed. The hybrid lifevest enclosure may also comprise a sealed configuration that complies with Design for Safety requirements.

Abstract: A system for docking and charging micro-mobility electric vehicles is provided. The system may be used for docking and charging a plurality of micro-mobility electric vehicles. The system includes a vehicle coupling mechanism and a hub. The vehicle coupling mechanism is associated with a vehicle and includes a docking member. The hub includes a station comprising a hub coupling mechanism and a hub component assembly. The hub coupling mechanism includes a receptacle for receiving the docking member. The hub component assembly comprises a locking assembly, charging plungers, and induction sensors. When the receptacle receives the docking member, the charging plungers are moved towards the induction sensors, the locking assembly locks the vehicle in place, and the induction sensors sense a vehicle locked in the station and activate the hub to begin charging the vehicle.

Abstract: An induction-powered camera may be capable of being installed external to a building without any building alterations. The induction-powered camera may include a continuous power source. The induction-powered camera may transmit one or more images to a control panel associated with security and/or automation systems. The induction-powered camera may be movable and/or removable with undue burden. In one example, an apparatus for a security and/or automation system is described. The apparatus may include a first half of the apparatus and an electricity transmission unit positioned within the first half. An electricity receiving unit may be positioned a predetermined distance away from the electricity transmission unit. The electricity receiving unit proximate a second half of the apparatus and a camera may be proximate the second half of the apparatus, the camera powered by the electricity receiving unit.

Abstract: The disclosure may relate to an induction-powered camera capable of being installed external to a building without any building alterations. The induction-powered camera may include a continuous power source. The induction-powered camera may transmit one or more images to a control panel associated with security and/or automation systems. The induction-powered camera may be movable and/or removable with undue burden. In one embodiment, an apparatus for a security and/or automation system is described. The apparatus may include a first half of the apparatus and an electricity transmission unit positioned within the first half. An electricity receiving unit may be positioned a predetermined distance away from the electricity transmission unit. The electricity receiving unit proximate a second half of the apparatus and a camera may be proximate the second half of the apparatus, the camera powered by the electricity receiving unit.

Abstract: An induction-powered camera capable of being installed external to a building without any building alterations is described. The induction-powered camera may include a continuous power source. The induction-powered camera may transmit one or more images to a control panel associated with security and/or automation systems. The induction-powered camera may be movable and/or removable with undue burden. An apparatus for a security and/or automation system is described. The apparatus may include a first half of the apparatus and an electricity transmission unit positioned within the first half. An electricity receiving unit may be positioned a predetermined distance away from the electricity transmission unit. The electricity receiving unit proximate a second half of the apparatus and a camera may be proximate the second half of the apparatus, the camera powered by the electricity receiving unit.

Abstract: Methods and systems for routing messages are described. In one embodiment, the method includes generating a plurality of message exchanges of a message broker, generating a plurality of message queues of the message broker, and generating a first queue shard of a plurality of queue shards. In some embodiments, generating a first queue shard includes binding a first message exchange from the plurality of message exchanges with a first message queue from the plurality of message queues. In some embodiments, the method includes dedicating a first message server to the first queue shard. In some cases, the first message server includes a shared-nothing architecture.

Abstract: The disclosure may relate to an induction-powered camera capable of being installed external to a building without any building alterations. The induction-powered camera may include a continuous power source. The induction-powered camera may transmit one or more images to a control panel associated with security and/or automation systems. The induction-powered camera may be movable and/or removable with undue burden. In one embodiment, an apparatus for a security and/or automation system is described. The apparatus may include a first half of the apparatus and an electricity transmission unit positioned within the first half. An electricity receiving unit may be positioned a predetermined distance away from the electricity transmission unit. The electricity receiving unit proximate a second half of the apparatus and a camera may be proximate the second half of the apparatus, the camera powered by the electricity receiving unit.