Abstract: The invention relates to a method to assist with using a pendula seating device, said device comprising a spherical foot, a seating portion, a body being secured at a first end to said foot and at a second end to the seating portion and a position-measurement sensor being secured to said device. The invention also relates to a remote electronic object carrying out said method by the processing unit thereof, the remote electronic object also comprising output means and means ensuring communication with said seating device. Said electrical object also comprises a memory of programs comprising instructions of a computer program product the execution or interpretation of which by the processing unit causes the implementation of the assistance method.

Abstract: The invention relates to a method to assist with using a pendula seating device, said device comprising a spherical foot, a seating portion, a body being secured at a first end to said foot and at a second end to the seating portion and a position-measurement sensor being secured to said device. The invention also relates to a remote electronic object carrying out said method by the processing unit thereof, the remote electronic object also comprising output means and means ensuring communication with said seating device. Said electrical object also comprises a memory of programs comprising instructions of a computer program product the execution or interpretation of which by the processing unit causes the implementation of the assistance method.

Abstract: Disclosed herein is a dynamic pendula stool possessing a foot, a leg secured to the foot, and a seat secured to the top end of the leg. The leg has a telescopic column that includes a lower part secured to a spherical foot with a diameter of 20-cm or less and an upper part with a free end having an articulation. The articulation has three degrees of freedom and is secured to the underside of the seat so that when a user rests against the seat, the leg forms an angle between 30 and 90 degrees with respect to the horizontal, thereby allowing an isometric contraction of the muscle groups of the lower limbs and of the abdominal girdle in the seated position. The stool is further provided with one or more sensors configured to send data signals to a remote electronic device.

Abstract: Disclosed herein is a dynamic pendula stool possessing a foot, a leg secured to the foot, and a seat secured to the top end of the leg. The leg has a telescopic column that includes a lower part secured to a spherical foot with a diameter of 20-cm or less and an upper part with a free end having an articulation. The articulation has three degrees of freedom and is secured to the underside of the seat so that when a user rests against the seat, the leg forms an angle between 30 and 90 degrees with respect to the horizontal, thereby allowing an isometric contraction of the muscle groups of the lower limbs and of the abdominal girdle in the seated position. The stool is further provided with one or more sensors configured to send data signals to a remote electronic device.