Systems (100) and methods (900) for controlling movement of an articulating arm having a plurality of joints. The methods comprise: receiving, by the controller, a command to perform a task by the articulating arm; ranking movements of the joints based on how much each said joint needs to move at a first time in order to follow the command; selecting a first subset of joints with top-ranked movements from the plurality of joints, where the subset of joints comprises less than a total number of joints contained in the plurality of joints; and causing only the joints of the first subset to move during a first timeslot of a plurality of timeslots.

An apparatus for controlling one or more operations performed by a robotic device in response to a status of a power source includes: a monitoring unit configured to monitor one or more parameters associated with the power source that provides power to the robotic device and to determine one or more performance indicators for the power source based on one or more of the parameters, a processor configured to, under instruction of a program that defines a plurality of modes for one or more operations performed by the robotic device when reacting to a stimulus, assign one of the plurality of modes to an operation of the robotic device in response to one or more of the performance indicators for the power source, where an amount of energy required from the power source to perform the operation varies according to which mode is assigned to the operation, and a control unit configured to control the robotic device to perform the operation in accordance with the mode assigned to the operation when reacting to the stimulus.

Systems (100) and methods (900) for controlling movement of an articulating arm having a plurality of joints. The methods comprise: receiving, by the controller, a command to perform a task by the articulating arm; ranking movements of the joints based on how much each said joint needs to move at a first time in order to follow the command; selecting a first subset of joints with top-ranked movements from the plurality of joints, where the subset of joints comprises less than a total number of joints contained in the plurality of joints; and causing only the joints of the first subset to move during a first timeslot of a plurality of timeslots.

The present approach relates to integrated planning of robot navigation and manipulator motion in performing tasks. In particular, as discussed herein sensor information, such as visual information, may be used for the robot to locate a target object when it arrives at a working location. Adjustments may be made based on this information that may include moving the robot and planning a manipulator arm motion.

An apparatus for controlling one or more operations performed by a robotic device in response to a status of a power source includes: a monitoring unit configured to monitor one or more parameters associated with the power source that provides power to the robotic device and to determine one or more performance indicators for the power source based on one or more of the parameters, a processor configured to, under instruction of a program that defines a plurality of modes for one or more operations performed by the robotic device when reacting to a stimulus, assign one of the plurality of modes to an operation of the robotic device in response to one or more of the performance indicators for the power source, where an amount of energy required from the power source to perform the operation varies according to which mode is assigned to the operation, and a control unit configured to control the robotic device to perform the operation in accordance with the mode assigned to the operation when reacting to the stimulus.

The present approach relates to integrated planning of robot navigation and manipulator motion in performing tasks. In particular, as discussed herein sensor information, such as visual information, may be used for the robot to locate a target object when it arrives at a working location. Adjustments may be made based on this information that may include moving the robot and planning a manipulator arm motion.

An air-conditioning system includes air-conditioning apparatuses each including an air-conditioning device involved in air conditioning of an air-conditioned space, and a centralized management remote controller configured to perform rotation control in which an operating state of each of the air-conditioning apparatuses is controlled by being set to be switched for each rotation time. The centralized management remote controller includes a centralized management remote controller communication unit configured to communicate with the air-conditioning device connected by a communication line, and a centralized management remote controller control unit configured to set the rotation time depending on an air conditioning load of each of the air-conditioning apparatuses based on data transmitted from the air-conditioning device through communications with the centralized management remote controller communication unit when the centralized management remote controller control unit sets the operating state of each of the air-conditioning apparatuses.