A seat cushion includes a plurality of inflatable cells, a pumping mechanism, and a manifold or valve system fluidly between the pumping mechanism and the inflatable cells. The manifold or the valve system, which may include a clutch and a motor, connect the pumping mechanism with the inflatable cells such that a plurality of zones are created. A valve assembly can include a plurality of valves and is adjustable among at least three valve configurations to vary fluid connections to the inflatable cells to produce rearwardly advancing waves. The pumping action produced by the inflation and deflation of the inflatable cells assists in pumping blood in a user's legs back toward the heart.

A seat cushion includes a plurality of inflatable cells, a pumping mechanism, and a manifold or valve system fluidly between the pumping mechanism and the inflatable cells. The manifold or the valve system, which may include a clutch and a motor, connect the pumping mechanism with, the inflatable cells such that a plurality of zones are created. A valve assembly can include a plurality of valves and is adjustable among at least three valve configurations to vary fluid connections to the inflatable cells to produce rearwardly advancing waves. The pumping action produced by the inflation and deflation of the inflatable cells assists in pumping blood in a user's legs back toward the heart.

A freestanding system for applying traction to a patient independent of a table or bed includes a base including a body and a stabilizer arm moveably coupled to the body, wherein the stabilizer arm has a first end pivotally coupled to the body and a second end distal the body, and wherein the stabilizer arm is configured to pivot about the corresponding first end, and a pad coupled to the second end of the stabilizer arm, wherein the pad includes a suction device configured to releasably secure the second end of the corresponding stabilizer arm to the ground, wherein the pads are configured to maintain the position of the system in response to the application of traction to the patient.

Disclosed is a walking assistance method and apparatuses, wherein a walking assistance apparatus is configured to adaptively control at least one of a length or a stiffness based on a gait motion of a user to assist an upper body of the user.

A system for supporting and manipulating a leg of a patient, the system including a base configured to be releasably secured to the ground, a first elongate guide rail coupled to the base, wherein the first elongate guide rail has a longitudinal axis, a boot moveably coupled to the first elongate guide rail, wherein the boot is configured to receive and retain at least a portion of a foot of the patient, a drape hanger assembly coupled to the base and configured to support a drape, wherein the drape hanger assembly includes a pair of drape hangers oriented parallel to the longitudinal axis of the first elongate guide rail, wherein the pair of drape hangers are disposed on opposite sides of the first elongate guide rail in top view, and a drape attached to each drape hanger and positioned between the boot and the first elongate guide rail.

Provided is a method of operating a smart massage service of a smart massage chair by using a computer system including at least one smart massage chair terminal, a user terminal, and a server computer connected through a network, including: receiving registration application information from the smart massage chair terminal or the user terminal; transmitting registration completion information to the smart massage chair terminal or the user terminal once a smart massage chair terminal of a company of interest or an authorized massage chair terminal of another company is confirmed by using the registration application information; receiving content request information from the registered smart massage chair terminal or the registered user terminal; and transmitting content information corresponding to the content request information to the smart massage chair terminal or the user terminal.

A user of a haptic stimulation device may control the performance of the device using a control application connected to the device via a short range wireless communication protocol. The haptic stimulation device user may request, through the control application, remote control of the haptic stimulation device by a user of a web browser. The control application may then request a unique web browser session key for a web page with controls for the haptic stimulation device. Once the control application has received the requested session key, the session key may be provided to the web browser user in any manner that is convenient (e.g., via e-mail). The control application may then receive a command, from the web browser user via the controls on the web page, to perform a selected haptic stimulation effect or haptic stimulation routine. The control application may then control the haptic stimulation device performance accordingly.

A method of connecting a user device anonymously to a remote operator, via an intermediate anonymizing server is described. In this way, a remote operator may control the device, without the remote operator knowing the identity of the owner or of user of the device. A remote operator might provide medical support or entertainment. The user of the device is provided with a connection key, which is then further given by the user to a desired remote operator. Both the user and the remote operator provide the anonymizing server with the connection key. The anonymizing server opens a chat room uniquely associated with the connection key. Electronic connectivity is provided by forwarding messages between the user device and the remote operator through the chat room. No other access to the chat room is permitted. The anonymizing server does not store the connection key. No user application is required.

A medical device system is disclosed that includes a wearable harness worn, during use, on a torso of a subject. Engines coupled to the wearable harness may apply an oscillation force to at least one treatment area of the subject in order to mobilize at least some secretions in an airway within the subject substantially adjacent to the at least one treatment area. The wearable harness may be secured on the subject using one or more straps coupled to the wearable harness. A controller may determine a tension force applied by at least one of the straps by receiving, measurements of at least one property from a force sensing element (e.g., a force sensor) integrated with the strap. The tension force may also be correlated to forces being applied to the subject by the engines.

Systems/methods for user control of a vending massage chair. The methods comprise: detecting, by the vending massage chair, when a mobile communication device is located in proximity to the vending massage chair; triggering operations by the vending massage chair to relinquish operational control to the mobile communication device, in response to a detection that the mobile communication device is proximate to the vending massage chair; receiving, by the vending massage chair, a wireless signal that was transmitted from the mobile communication device; performing operations, by the vending massage chair, to relinquish control of at least one massage chair operation to the mobile communication device in response to a reception of the wireless signal; and performing the at least one massage chair operation by the vending massage chair in response to a wireless command issued by the mobile communication device.