A massage chair includes a back massage system and a thigh massage system with a roller mechanism configured to move a roller in a three dimensional orbital motion. The roller mechanism is driven by a single motor that can change the direction in operation. Also included is a roller motion drive element within the roller mechanism. A shaft is configured to pass through the roller motion drive element in an offset non-perpendicular angle relative to the end face thereby forming an angle between the shaft and the end face that is less than 85 degrees. The offset causes the orbital motion of the roller when rotated. The electronics of the massage chair facilitate facial recognition and a medical assessment device to detect bodily characteristics. The backrest of the massage chair can elongate to stretch the user. A plurality of airbags are also available for the twisting of the user.

A method for operating a vehicle seat of a motor vehicle with electric seat adjustment is provided. The method includes the steps of importing a measurement data set that is representative of an initial sitting position of a person sitting on the vehicle seat, evaluating the measurement data set in order to determine a target sitting position data set for a target sitting position, and evaluating at least the measurement data set and the target sitting position data set in order to determine a transfer data set for transferring the initial sitting position into the target sitting position at a rate of change below a perception threshold.

A reconfigurable apparatus for seating a user and having: a frame; a seat movable relative to the frame between: a) a first position in which the seat resides with no user sitting on the seat; and b) a loaded position; a back rest with a changeable angular orientation relative to the frame; and an adjusting assembly having a plurality of gears that move relative to each other as an incident of the seat moving from the first position into the loaded position to thereby cause an increase in resistance to changing of the angular orientation of the back rest.

An electrically adjustable seating device includes at least one sensor element, a processor, a memory unit and at least one electromechanical actuator. The at least one sensor element is designed to detect predetermined seating parameter data relating to a person sitting on the seating device and to transmit the data to the processor. The processor is designed to determine person parameter data, relating to the person, from the seating parameter data, to extract control data, which are associated with the person parameter data, from the memory unit and to control the at least one electromechanical actuator on the basis of the control data.

A chair, comprising, a backrest, a seat coupled with the backrest, a column coupled with the seat, a linkage statically attached to the backrest and rotatably attached below the seat, a leaf spring statically attached at one end and in direct contact with the linkage to provide a resistance to tilting of the backrest relative to the column, a first structure fixed to the column. A portion of the first structure has an arc shape that includes one or more teeth, and a second structure in contact with the first structure. The chair is configured such that, when a weight is applied to the seat, one or more teeth of the second structure move along the one or more teeth of the first structure to shorten a working length of the leaf spring and provide an increased resistance to tilting of the backrest relative to the column.

An user interaction system for performing interaction with a user based on recognition of a sitting posture of the user includes a posture recognition seat including a posture recognition sensor for recognition the sitting posture of the user, and at least one communication module for communication with an external device, a posture mimicking animated device including a communication module for performing communication with the communication module of the posture recognition seat, wherein the posture mimicking animated device visually mimics the sitting posture of the user or visually or audibly guide the sitting posture of the user, in accordance with state information about the sitting posture of the user determined based on a sensing result obtained by the posture recognition sensor, and a mobile application installed in a communication device possessed by the user, wherein the mobile application receives synchronized information related to the sitting posture of the user via communication with the posture recognition seat, and generates user interaction information corresponding to the received information and displays the user interaction information on an application screen.

Surgical robotic systems including a user console for controlling a robotic arm or a surgical robotic tool are described. The user console includes components designed to automatically adapt to anthropometric characteristics of a user. A processor of the surgical robotic system is configured to receive anthropometric inputs corresponding to the anthropometric characteristics and to generate an initial console configuration of the user console based on the inputs using a machine learning model. Actuators automatically adjust a seat, a display, or one or more pedals of the user console to the initial console configuration. The initial console configuration establishes a comfortable relative position between the user and the console components. Other embodiments are described and claimed.

A furniture system includes an office productivity structure (OPS). The furniture system also includes a sensor coupled to the OPS, the sensor operable to detect occupancy of the OPS and generate an output signal indicative of the occupancy; and a processor coupled to the sensor. The processor is operable to receive the output signal generated by the sensor, determine, based on the output signal, that the OPS is occupied, and, in response to determining that the OPS is occupied, generate a command to initiate at least one action associated with the OPS or an operator of the OPS.

The present invention relates to a flexible pressure-sensing pad and manufacturing method thereof. The flexible pressure-sensing pad includes a first fabric substrate layer, a second fabric substrate layer, and a fabric barrier layer provided between the first fabric substrate layer and the second fabric substrate layer. The first fabric substrate layer includes a first electrode and the second fabric substrate layer includes a second electrode. The fabric barrier layer has multiple through holes. The first electrode and the second electrode are electrically connected with a controller. Compared with the current pressure-sensing pad, the present invention is thinner and more flexible, has superior breathability and waterproofness, does not generate an irritating noise, creates a quiet recuperative environment for patients and can sense an external force over the entire pressure sensing pad without any blind spots, thereby providing better user experience.

A power seat system includes: a motor that changes a position of a power seat by performing a rotational operation; a Hall sensor that senses a change in Hall voltage according to the rotation of the motor and outputs a pulse signal; and a motor reverse rotation detection unit that monitors outputs from the motor and the Hall sensor, and detects an occurrence of a reverse pulse according to a motor reverse rotation when a motor current overshooting section and a change in pulse signal value are simultaneously detected in accordance with stop of the motor.