Methods and systems are described for communicating action instructions between a home automation system and a mobile robotic device. In some embodiments, methods may comprise receiving, from a first device, information regarding a delivery of a package to a first location, determining that a mobile robotic device and the first device are part of a predetermined group of devices operating in a neighborhood network, transporting, by the mobile robotic device, the package to a drop-off location, and initiating a notification for the first device based at least in part on transporting the package.

Implementations generally relate to systems, apparatuses, and methods for a residential sensor device platform. In some implementations, a system includes a plurality of sensor devices. Each of the plurality of sensor devices includes a first transceiver operative to support uplink communication with a wireless router, a second transceiver operative to support mesh link communication with other sensor devices of the plurality of sensor devices, an electrical control, a sensor operative to sense a condition of a living space, and a processor. The processor is operative to communicate with the wireless router, communicate with the other sensor devices of the plurality of sensor devices, and receive the sensed condition of the living space. Processors of the plurality of sensor devices are operative to select a master sensor device, wherein the master sensor device maintains communication with the wireless router, and wherein the other sensor devices of the plurality of sensor devices form a wireless mesh network.

An air-conditioning apparatus support system has a smartphone including a GPS, a camera, a communication unit that communicates with a center computer, a screen, and a control unit. When the control unit is activated at a location at which the air-conditioning apparatus is installed, the control unit executes a step of assuming a location detected by the GPS to be the location at which the air-conditioning apparatus is installed and causing the center computer to register the location, and, after registration has been made, when the control unit is activated at the location at which the air-conditioning apparatus is installed, in the case where the air-conditioning apparatus is registered in the center computer, the control unit causes the screen to display information about the air-conditioning apparatus.

A communicative building management system (BMS) can enable replication of data from computer systems that may potentially be affected by various external events. The BMS is coupled to environmental sensors and configured to receive sensor signals and communicate with one or more computer systems implementing a service. The BMS notifies a console system administrating a service that one or more computer systems implementing the service are affected by a data center event based on signals received from one or more sensor devices associated with a zone including the affected computer systems. A console system commands replication of data stored on the affected computer systems to separate computer systems based at least in part on the notification from the BMS indicating the computer systems are affected by the data center event.

Methods and systems are described for robot transportation of objects into or out of a home automation system. One example may include determining, by a mobile robotic device, that an object is available to cross a boundary of the home automation system. The method may include deactivating at least a portion of the home automation system. The method also include retrieving, by the mobile robotic device, the object and transporting, by the mobile robotic device, the object across the boundary. The method further includes leaving, by the mobile robotic device, the object at a drop-off location. The method may also include reactivating at least the portion of the home automation system.

Disclosed are a method, system and apparatus for adjusting a sleep environment. The method comprises the following steps: a data acquisition structure (10) acquiring data of user sleep and sending same to a data analysis server (11) (S1); the data analysis server (11) analyzing and processing the received data of the user sleep to obtain sleep information of a user and environment information of a sleep environment of the user, and sending the sleep information of the user and the environment information of the sleep environment of the user to an adjusting server (12) (S3); the adjusting server (12) generating, according to the received sleep information of the user and environment information of the sleep environment of the user, a corresponding environment control instruction, and sending the environment control instruction to a local server (13) (S15); and an adjustor (14) controlling and regulating, according to the received environment control instruction, the illumination intensity of an LED lamp (15), the volume of an audio player (16) and the rotational speed of a fan (17) (S9).

This home-automation system for a building comprises: home-automation equipment, distributed within areas of the building; and a communication network, to which the home-automation equipment is connected, and authorizing an inter-communication of the home-automation equipment according to a predefined communication protocol. The communication network is a hard-wired hierarchical network comprising: a first network of rank n; a plurality of sub-networks of lower hierarchical rank n−1, connected to the first network, each sub-network being associated with an area and containing at least one of the home-automation equipment items; each sub-network of the lower hierarchical rank n−1 being hooked up to the first network of rank n by a network equipment item.

A universal system and method for controlling existing garage doors via existing garage door openers. The system includes a module operable both manually and automatically to control the existing garage door, Wifi communication circuitry to receive instructions wirelessly from a remote, circuitry for automatic and remote control of the garage door and circuitry for pushing garage door status information.

Systems and methods for providing network connectivity and remote monitoring, optimization, and control of pool/spa equipment are provided. “Internet-of-Things” (IoT) functionality is provided for pool and spa equipment in a flexible and cost-effective manner. Network connectivity and remote monitoring/control of pool and spa equipment is provided by various components such as a network communication and local control subsystem installed in pool/spa equipment, and other components. Also disclosed are various control processes (“pool logic”) which can be embodied as software code installed in any of the various embodiments of the present disclosure.