Various embodiments of the present technology generally relate to robotics and prosthetics. More specifically, some embodiments of the present technology relate to multi-modal fingertip sensors with proximity, contact, and for localization capabilities. Various embodiments of the present technology provide for a novel multi-modal tactile sensor which comprises an infrared proximity sensor and a barometric pressure sensor embedded in an elastomer layer. Signals from both of these sensors can be fused to measure proximity (0-10 mm), contact (0N), force (0-50N) and localize impact at five spatial locations and three angles of incidence. Gaussian processes in a regression setting can be used to obtain calibrated force measurements with an R-squared value of 0.99. Supervised machine learning approaches can be used to localize the position and direction of probing with classification accuracies of 96% and 89% respectively.

An improvement to a prosthetic device which provides a spring member between first and second structural members that are rotatably connected to one another, the spring member providing predictable resistance as it is compressed by the rotation of the first and second structural members with respect to each other. The known resistance of the spring is used as an input to a model controlling a motor control circuit to provide counter-torque as rotational torque is applied to compress the spring.

A prosthetic arm apparatus including a plurality of segments that provide a user of the prosthetic arm apparatus with substantially the same movement capability and function as a human arm. The segments are connectable to one another and connectable to a prosthetic support apparatus that may be adorned by the user. Some segments may provide movement about more than one axis using a single actuator. The prosthetic arm apparatus may include a user interface incorporated therein and may include one or more communication systems for communicating with external devices.

The invention relates to a method for controlling an orthopedic joint of a lower extremity in at least one degree of freedom by means of an adjustable actuator for adjusting an orthopedic apparatus to walking situations that differ from walking on a plane. Said orthopedic apparatus comprises top connecting means to a limb and an orthopedic element that is hingedly arranged distal to the connecting means. The method encompasses the following steps: —several parameters (A) of the orthopedic apparatus are sensed by means of sensors; —the sensed parameters are compared with criteria (K) that have been established based on several parameters and/or parameter curves and are stored in a computer unit; —a criterion is selected that is suitable on the basis of the determined parameters and/or parameter curves; and —resistances to movements, extents of movements, driving forces, and/or the progresses thereof are adjusted in accordance with the selected criterion in order to control special functions (5) that differ from walking on a plane.

An orthotic or prosthetic joint device with an upper part and a lower part arranged in a hinged manner on the latter, and a fastening member for securing the joint device on a user. The device includes at least one hydraulics unit positioned between the upper part and the lower part, which hydraulics unit has a piston that is movable in a housing with an extension chamber and a flexion chamber and that is coupled to the upper part or the lower part. The hydraulics unit is assigned a pressure supply device with a pump and a pressure accumulator via which the piston, controlled by a control device, is subjected to a pressure. The pump can be operated in generator mode, the pressure accumulator can be coupled drivingly to the pump, and the hydraulic fluid can be conveyed by the pressure accumulator through the pump to the hydraulics unit.

An energy storing prosthetic knee actuator and method of using such an energy storing prosthetic knee actuator comprising a hydraulic or pneumatic cylinder with a piston and a piston rod, wherein the piston and the hydraulic or pneumatic cylinder are movable with respect to each other, an energy storage accumulator and a control valve provided in piping connecting the hydraulic or pneumatic cylinder with the energy storage accumulator for controlling an exchange of fluid or gas between the accumulator and the cylinder, wherein the cylinder and the piston are connected to a user's upper leg and lower leg respectively or vice versa, and wherein the actuator is arranged to close the control valve when the user is sitting down and to open the control valve when the user is going to stand or is standing up.

A prosthesis that can be actuated by external force includes a prosthesis shaft and an exoprosthesis with at least one prosthesis motor that can be activated by a prosthesis control device and a joint. The prosthesis control device includes a housing, a microcontroller and display device, so that a gripping process can be replicated by the prosthesis motor controllable by the prosthesis control device and parameters of the gripping process are displayed on a display, in which case recording and evaluation of the electromyography signals are dispensed with. The display displays the chosen parameters of an imminent gripping process and the prosthesis control device includes an input device by which a desired gripping force and/or gripping time can be actively set on the microcontroller before performance of the gripping process by a prosthesis wearer directly on the prosthesis control device and can be readjusted during the gripping process.

An actuator includes a plurality of power transmitters configured to transmit power sequentially, and an elastic element configured to connect a first power transmitter and a second power transmitter that are adjacent to each other and perform a coaxial rotation motion, among the plurality of power transmitters.

A prosthetic valve leaflet is placed across a bar, and the bar is positioned such that the leaflet drapes over the bar and blocks a beam of light emitted by a light source. While the leaflet remains draped over the bar, the bar is elevated at least until the leaflet stops blocking the beam. An elevation of the bar from the beam at which the leaflet stopped blocking the beam is identified. Other embodiments are also described.

The apparatus for evaluating force control ability according to an embodiment includes: a display unit configured to display a target force direction; a measuring unit configured to measure a direction and magnitude of a force applied by a user; and a processing unit configured to evaluate force control ability of the user by comparing the measured force direction with the target force direction and comparing the measured force magnitude with a predetermined reference force magnitude.