There is provided a method for configuration of a camera which is a replacement for one of a plurality of cameras in a network. The method comprises inter alia detecting that a new camera has connected to the network; determining that the new camera is a replacement for a particular camera among one or more candidate cameras if property data of the new camera matches property data of the particular camera; and configuring the new camera based on configuration settings corresponding to the particular camera.

Zero touch configuration support for a universal serial bus (USB) modem is described herein. For example, as described herein, an identifier of a modem connected to an access point may be determined. Location information corresponding to the access point may also be determined. Based on the identifier of the modem and the location information, the access point may select a particular configuration, for the modem, where the particular configuration is suitable for a geographical location associated with the location information.

Systems and methods for provisioning a component of an HVAC system are presented. A provisioning device, such as a smartphone, is used to scan HVAC component information obtained from a tag on each component and wirelessly transfers the information to a thermostat or HVAC system controller. The thermostat or system controller automatically configures itself to control the equipment based on the details in the tag which are transmitted to the thermostat. The label may include barcode or textual information, which is decoded by software executing in the provisioning device, the thermostat, or a server computer in communication with the provisioning device or the thermostat. In embodiments, the HVAC component information is transmitted to a web services application to facilitate the installation, support, maintenance, and repair of the HVAC system.

Methods for configuring a monitoring device to communicate with a service server are provided. The method includes the monitoring device sending a message including a monitoring device identifier used by a control server to identify the service server associated with the monitoring device, receiving one or more service server addresses associated with the identified service sever from the control server, and establishing a service connection between the monitoring device and the identified service server using the one or more addresses received from the control server. A control server adapted to configure a monitoring device in a monitoring system and a method for configuring the control server are also provided.

Methods and devices for an automated Internet of Things (IoT) certification service to verify plug and play capabilities of one or more IoT devices for use with a cloud service provider may include receiving a device identification of an IoT device to certify with the cloud service provider. The methods and devices may include receiving a selection of one or more certification tests to perform to plug and play capabilities of the IoT device. The methods and devices may include performing the one or more certification tests. The methods and devices may include generating a device certification for the plug and play capabilities of the IoT device in response to the one or more certification tests passing.

A building management system including a system manager, a zone coordinator, and one or more zone controllers configured to monitor and control building zones. The system manager includes a system bus datalink having an active node table stored therein. The zone coordinator includes a second system bus datalink and a zone bus datalink. A system bus connects the first system bus datalink to the second system bus datalink. A zone bus connects the zone bus datalink to the one or more zone controllers. The active node table includes a plurality of nodes, each node representing a system bus device communicating on the system bus. The system manager is configured to monitor the active node table for new nodes and to identify a new system bus device communicating on the system bus in response to a determination that the active node table includes a new node.

Systems and methods for managing a network are described. A view of current state of the network is maintained where the current state of the network characterizes network topology and network constituents, including network entities and network elements residing in or on the network. Events are announced that correspond to changes in the state of the network and one or more network elements can be configured accordingly. Methods for managing network traffic are described that ensure forwarding and other actions taken by network elements implement globally declared network policy and refer to high-level names, independently of network topology and the location of network constituents. Methods for discovering network constituents are described, whereby are automatically configured. Routing may be performed using ACL and packets can be intercepted to permit host to continue in sleep mode. The methods are applicable to virtual environments.

A configured mode of operation of a wireless sensor node unit can selectively activate a first subset of sensor channels of data and selectively deactivate a second subset of sensor channels of data. The configured mode of operation customizes the sensor functionality in the wireless sensor node unit in support of the delivery of data streams to customers.

A network can operate a WiFi access point with credentials. An unconfigured device can support a Device Provisioning Protocol (DPP), and record bootstrap public keys and initiator private keys. The network can record bootstrap public and responder private keys and operate a DPP server. A responder proxy can establish a secure and mutually authenticated connection with the network. The network can (i) derive responder ephemeral public and private keys, (ii) record the initiator bootstrap public key, and (iii) select a responder mode for the responder. The network can derive an encryption key with at least the (i) recorded the initiator bootstrap public key and (ii) derived responder ephemeral private key. The network can encrypt credentials using at least the derived encryption key and send the encrypted credentials through the responder proxy to the initiator, which can forward the encrypted credentials to the device, thereby supporting a device configuration.

The present invention relates to a method of remotely configuring access to at least one home automation device (D) that is part of a home-automation installation (Su), the home automation installation comprising at least one home automation device (D) and at least one central control unit (U), and the method being performed by a first remote access service (Svc1) carried out by a management unit (Sv) and comprising the following steps: receiving (ECfSvc12) an information message (MIn) relating to the presence of the home automation device (D) from a central control unit (U) to which the device (D) is linked; determining (ECfSvc13) a second service (Svc2) associated with the type of home automation device (D) for which remote access must be configured with corresponding access rules; configuring (ECfSvc110) an access rights reference system in order to accept at least one control command (MCa) from the second service (Svc2) or transmitting monitoring data (MSa) to the second service (Svc2) on behalf of the home automation device (D). The invention also relates to a control and monitoring method.