A computerized method performed by a processor, an apparatus and a computer program product the method comprising: receiving a model associating motion parameters of an action performed by a subject with a score, the model based at least partially on data obtained in a controlled environment while performing a task on a first time period; determining action parameters during motion of the subject within an uncontrolled environment on a second time period; and providing the action parameters to the model, to obtain an assessment of an expected score for the subject performance of the task as would be performed by the subject in the controlled environment.

A computerized method performed by a processor, an apparatus and a computer program product the method comprising: receiving a model associating motion parameters of an action performed by a subject with a score, the model based at least partially on data obtained in a controlled environment while performing a task on a first time period; determining action parameters during motion of the subject within an uncontrolled environment on a second time period; and providing the action parameters to the model, to obtain an assessment of an expected score for the subject performance of the task as would be performed by the subject in the controlled environment.

A surveying instrument for executing a relocation functionality, which determines first coordinates of a stationary target point associated with the start signal, in response to a start signal, a first actuator and a second actuator are controlled such that the stationary target point remains within a detection area of a tracking unit of the surveying instrument, determines second coordinates of the stationary target point, receives an end signal, wherein the second coordinates of the stationary target point are associated with the end signal, and based at least in part on the first and second coordinates of the stationary target point, and determines a relative pose of the surveying instrument with respect to a first setup location and a second setup location, wherein the first setup location is associated with the first coordinates and the second setup location is associated with the second coordinate.

A surveying instrument for executing a relocation functionality, which determines first coordinates of a stationary target point associated with the start signal, in response to a start signal, a first actuator and a second actuator are controlled such that the stationary target point remains within a detection area of a tracking unit of the surveying instrument, determines second coordinates of the stationary target point, receives an end signal, wherein the second coordinates of the stationary target point are associated with the end signal, and based at least in part on the first and second coordinates of the stationary target point, and determines a relative pose of the surveying instrument with respect to a first setup location and a second setup location, wherein the first setup location is associated with the first coordinates and the second setup location is associated with the second coordinate.

An electronic device is provided. The electronic device includes a display, a communication circuit, and at least one processor configured to recognize a user's initial posture based on at least one of motion sensor signals of a first external electronic device and a second external electronic device received through the communication circuit, control the first external electronic device to receive a first motion sensor signal, obtain the user's workout data based on the first motion sensor signal when the initial posture satisfies a designated condition, control the second external electronic device to receive a second motion sensor signal when the user's movement is not recognized based on the first motion sensor signal and obtain the user's workout data based on the second motion sensor signal, and provide the workout data through at least one of the display or the first external electronic device.

An electronic device is provided. The electronic device includes a display, a communication circuit, and at least one processor configured to recognize a user's initial posture based on at least one of motion sensor signals of a first external electronic device and a second external electronic device received through the communication circuit, control the first external electronic device to receive a first motion sensor signal, obtain the user's workout data based on the first motion sensor signal when the initial posture satisfies a designated condition, control the second external electronic device to receive a second motion sensor signal when the user's movement is not recognized based on the first motion sensor signal and obtain the user's workout data based on the second motion sensor signal, and provide the workout data through at least one of the display or the first external electronic device.

A system including a self-adjusting chair is provided. The system includes a chair that is configured to be adjustable to an occupant. The system also includes a plurality of sensors, wherein each sensor of the plurality of sensors is configured to measure a characteristic of the occupant and to transmit a signal that indicates the characteristic of the occupant. In addition, the system includes a plurality of actuators, wherein each actuator of the plurality of actuators is configured to adjust a property of the chair. Further, the system includes a controller that is configured to receive at least one signal from at least one sensor of the plurality of sensors and to instruct at least one actuator of the plurality of actuators to adjust at least one property of the chair based on at least one characteristic of the occupant.

A system including a self-adjusting chair is provided. The system includes a chair that is configured to be adjustable to an occupant. The system also includes a plurality of sensors, wherein each sensor of the plurality of sensors is configured to measure a characteristic of the occupant and to transmit a signal that indicates the characteristic of the occupant. In addition, the system includes a plurality of actuators, wherein each actuator of the plurality of actuators is configured to adjust a property of the chair. Further, the system includes a controller that is configured to receive at least one signal from at least one sensor of the plurality of sensors and to instruct at least one actuator of the plurality of actuators to adjust at least one property of the chair based on at least one characteristic of the occupant.

A stroller rocking device including at least one motorized element (10) provided with a top plate (20) that moves in a to-and-fro movement relative to a stationary plate (30) positioned on the ground, the outer face of the top plate (20) being suitable for receiving a wheel of the stroller. The device is capable of automatically starting the to-and-fro movement by a deliberate gesture by the user consisting in pushing the stroller in such a way as to drive the top plate (20) of the motorized element (10).

A stroller rocking device including at least one motorized element (10) provided with a top plate (20) that moves in a to-and-fro movement relative to a stationary plate (30) positioned on the ground, the outer face of the top plate (20) being suitable for receiving a wheel of the stroller. The device is capable of automatically starting the to-and-fro movement by a deliberate gesture by the user consisting in pushing the stroller in such a way as to drive the top plate (20) of the motorized element (10).