Described is a system for monitoring deflection of turbine blades of a wind turbine comprising a tower. The system comprises a position detecting apparatus mounted to the wind turbine comprising a plurality of position detection components each collecting data regarding a field of detection through which a segment of the turbine blades passes, wherein the position detection components are monitoring distinct fields of detection to collect distances of a plurality of segments of each one of the turbine blades travelling through the fields of detection. The system further comprises a deflection controller configured to receive the collected distances and to determine deflection of the turbine blades accordingly. An associated method comprises collecting distances of a plurality of distinct segments of the turbine blades when the turbine blades travel within a plurality of fields of detections, and processing the collected distances to determine clearance between the turbine blades and the tower.

Described is a system for monitoring deflection of turbine blades of a wind turbine comprising a tower. The system comprises a position detecting apparatus mounted to the wind turbine comprising a plurality of position detection components each collecting data regarding a field of detection through which a segment of the turbine blades passes, wherein the position detection components are monitoring distinct fields of detection to collect distances of a plurality of segments of each one of the turbine blades travelling through the fields of detection. The system further comprises a deflection controller configured to receive the collected distances and to determine deflection of the turbine blades accordingly. An associated method comprises collecting distances of a plurality of distinct segments of the turbine blades when the turbine blades travel within a plurality of fields of detections, and processing the collected distances to determine clearance between the turbine blades and the tower.

In one embodiment, a server configured to dynamically configure a personal control panel receives an indication of a detection of a user within a meeting room, where the meeting room includes a plurality of controllable components. The server then requests information about the plurality of controllable components within the meeting room. The server configures the personal meeting room control panel of the user based on the information about the plurality of controllable components within the meeting room.

In one embodiment, a server configured to dynamically configure a personal control panel receives an indication of a detection of a user within a meeting room, where the meeting room includes a plurality of controllable components. The server then requests information about the plurality of controllable components within the meeting room. The server configures the personal meeting room control panel of the user based on the information about the plurality of controllable components within the meeting room.

Provided is a sensor package in a refrigerator configured to provide information related to refrigerated food. The sensor package may include a body having a mark classified by a type of food allocated to the sensor package and indicating the type of food of a food to which the sensor package is coupled, a battery, an operation switch, a memory configured to store food information corresponding to the type of food corresponding to the mark, a sensor communication module that communicates with a display provided in the refrigerator, a sensing module that senses state information associated with the food, and a sensor control module that controls the sensor communication module to initiate communication between the sensor package and the display of the refrigerator based on the state information sensed by the sensing module.

Provided is a sensor package in a refrigerator configured to provide information related to refrigerated food. The sensor package may include a body having a mark classified by a type of food allocated to the sensor package and indicating the type of food of a food to which the sensor package is coupled, a battery, an operation switch, a memory configured to store food information corresponding to the type of food corresponding to the mark, a sensor communication module that communicates with a display provided in the refrigerator, a sensing module that senses state information associated with the food, and a sensor control module that controls the sensor communication module to initiate communication between the sensor package and the display of the refrigerator based on the state information sensed by the sensing module.

Apparatuses, systems, and methods for providing load disaggregation, remote monitoring, and controlling a plurality of loads are provided. The apparatus may include a universal embedded metering and control system (UEMCS) and a universal storage and renewable energy interface (USREI). The UEMCS may include a main device engine, a communication module coupled to the main device engine, a multiplexer coupled to the main device engine, a plurality of current sensors coupled to the multiplexer, and at least one voltage sensor coupled to the main device engine. The USREI may be coupleable to at least one of the plurality of current sensors, coupled to at least one renewable energy source, and configured to provide energy output by the at least one renewable energy source to the UEMCS for output to at least one of the plurality of loads.

Apparatuses, systems, and methods for providing load disaggregation, remote monitoring, and controlling a plurality of loads are provided. The apparatus may include a universal embedded metering and control system (UEMCS) and a universal storage and renewable energy interface (USREI). The UEMCS may include a main device engine, a communication module coupled to the main device engine, a multiplexer coupled to the main device engine, a plurality of current sensors coupled to the multiplexer, and at least one voltage sensor coupled to the main device engine. The USREI may be coupleable to at least one of the plurality of current sensors, coupled to at least one renewable energy source, and configured to provide energy output by the at least one renewable energy source to the UEMCS for output to at least one of the plurality of loads.

An intelligent digital assistant device receives an indication of an installation status of a consumable component of an Indoor Air Quality (IAQ) component. The IAQ component configured to alter the quality of air entering, leaving, or circulating within a building via an HVAC system, wherein the installation status of the consumable component is determined by a component sensor coupled to the IAQ component and transmitted to the wireless user device via a wireless transmitter integrated in the IAQ component. The intelligent digital assistant device receives information regarding properties of the consumable component, wherein the properties of the consumable component are determined by the component sensor and transmitted to the intelligent digital assistant device via the wireless transmitter of the IAQ component. The intelligent digital assistant device monitors the properties of the consumable component, and notifies a user when the consumable component requires maintenance or replacement.

An intelligent digital assistant device receives an indication of an installation status of a consumable component of an Indoor Air Quality (IAQ) component. The IAQ component configured to alter the quality of air entering, leaving, or circulating within a building via an HVAC system, wherein the installation status of the consumable component is determined by a component sensor coupled to the IAQ component and transmitted to the wireless user device via a wireless transmitter integrated in the IAQ component. The intelligent digital assistant device receives information regarding properties of the consumable component, wherein the properties of the consumable component are determined by the component sensor and transmitted to the intelligent digital assistant device via the wireless transmitter of the IAQ component. The intelligent digital assistant device monitors the properties of the consumable component, and notifies a user when the consumable component requires maintenance or replacement.