Abstract: A system and method for reducing an electrical load in a facility with a building automation system, includes first receiving information for a demand response event from an automated demand response server at an automated demand response client. After receipt of a new demand response event, the system determines a plurality of devices of the building automation system to be controlled during the demand response event. Next, the system prepares a schedule of control actions for the plurality of devices during the demand response event. The system then sends control messages to the building automation system to execute the control actions for the plurality of devices according to the schedule of control actions for the demand response event.

Abstract: A computer-implemented method for managing and controlling multiple automation components coupled via a building automation network. The computer implemented method includes receiving, via the building automation network, a first operational schedule from a first automation device where the first operational schedule is formatted according to a first protocol, receiving, via the building automation network, a second operational schedule from a second automation device where the second operational schedule is formatted according to a second protocol, converting the received second operational schedule from the second protocol to the first protocol, generating a unified schedule that includes the first operational schedule and the converted second operational schedule, and displaying the unified schedule in a user accessible manner.

Abstract: A system and method for reducing an electrical load in a facility with a building automation system, includes first receiving information for a demand response event from an automated demand response server at an automated demand response client. After receipt of a new demand response event, the system determines a plurality of devices of the building automation system to be controlled during the demand response event. Next, the system prepares a schedule of control actions for the plurality of devices during the demand response event. The system then sends control messages to the building automation system to execute the control actions for the plurality of devices according to the schedule of control actions for the demand response event.

Abstract: A system and method for reducing an electrical load in a facility with a building automation system, includes first receiving information for a demand response event from an automated demand response server at an automated demand response client. After receipt of a new demand response event, the system determines a plurality of devices of the building automation system to be controlled during the demand response event. Next, the system prepares a schedule of control actions for the plurality of devices during the demand response event. The system then sends control messages to the building automation system to execute the control actions for the plurality of devices according to the schedule of control actions for the demand response event.

Abstract: A system and method for reducing an electrical load in a facility with a building automation system, includes first receiving information for a demand response event from an automated demand response server at an automated demand response client. After receipt of a new demand response event, the system determines a plurality of devices of the building automation system to be controlled during the demand response event. Next, the system prepares a schedule of control actions for the plurality of devices during the demand response event. The system then sends control messages to the building automation system to execute the control actions for the plurality of devices according to the schedule of control actions for the demand response event.

Abstract: A computer-implemented method for managing and controlling multiple automation components coupled via a building automation network. The computer implemented method includes receiving, via the building automation network, a first operational schedule from a first automation device where the first operational schedule is formatted according to a first protocol, receiving, via the building automation network, a second operational schedule from a second automation device where the second operational schedule is formatted according to a second protocol, converting the received second operational schedule from the second protocol to the first protocol, generating a unified schedule that includes the first operational schedule and the converted second operational schedule, and displaying the unified schedule in a user accessible manner.