A robot system, comprising a robot capable of gait or gait-like operations, stance or stance-like operations, or a combination of these. The robot can comprise at least one ground-contacting appendage configured to facilitate locomotion of the robot. The system can further comprise a sole supported on the ground-contacting appendage that is operable to interface with a ground surface. The sole can comprise a robot interface facilitating attachment of the sole to the robot, a first sole component having a ground-contacting surface, the first sole component defining a first compliant zone, and a second sole component having a ground-contacting surface, the second sole component defining a second compliant zone. The first sole component can comprise a compliance the same or different than the second sole component.

A holding arm for medical purposes, in particular for holding surgical mechatronic assistance systems and/or surgical instruments, includes a proximal end for attaching the holding arm to a base and a distal end for receiving a surgical mechatronic assistance system and/or surgical instrument; at least one first and one second arm segment, wherein the first arm segment is connected to a first joint and the second arm segment is connected to a second joint, wherein each joint is releasable and lockable. An operating unit is provided for bringing the holding arm into a desired pose, wherein the operating unit is adapted to release the associated joint upon contact between an operator and one of the first and second arm segments. A corresponding method is also provided.

A balancer abnormality detection system includes: a robot; a motor configured to operate the robot; a balancer provided in the robot and configured to generate assist torque which assists power of the motor with force generated by elastic bodies; and a controller configured to detect abnormality of the balancer by measuring a current value of the motor operated to keep a posture of the robot during standby of the robot and comparing the current value with a current command value of the motor necessary for keeping the posture of the robot.

The invention relates to a method and a device (1) for compensating the weight (G) acting on a manipulator (2), wherein a variable counterforce (F) is generated, wherein the counterforce (F) generated is applied to the manipulator (2) by means of a supporting kinematic system (12) that contacts the manipulator in a force application region (22), and wherein a value of the counterforce (F) corresponds at least substantially to a value of the weight (G) acting on the force application region on account of acceleration due to gravity, and the counterforce (F) is directed at least substantially parallel and in the opposite direction to the acceleration due to gravity. The invention also relates to a system comprising a device (1) and a manipulator (2).

Methods, apparatus, and computer readable media applicable to balancing robots. Some implementations are directed to maintaining a given end effector pose (relative to a world frame) of an end effector of a balancing robot when there is a disturbance to a balancing base of the balancing robot. Some implementations are additionally or alternatively directed to transitioning a balancing robot from a fallen configuration to a balanced configuration. Some implementations are additionally or alternatively directed to mitigating the risk that a balancing robot will fall when interacting with actuable environmental objects (e.g., doors) and/or to lessen the disturbance to a balancing base when interacting with actuable environmental objects.

An exoskeleton worn by a human user consists of a rigid pelvic harness, worn about the waist of the user, and exoskeleton leg structures, each of which extends downwardly alongside one of the human user's legs. The leg structures include hip, knee, and ankle joints connected by adjustable length thigh and shin members. The hip joint that attaches the thigh structure to the pelvic harness includes a passive spring or an active actuator to assist in lifting the exoskeleton and the human user with respect to the ground surface upon which the user is walking and to propel the exoskeleton and human user forward. A controllable damper operatively arrests the movement of the knee joint at controllable times during the walking cycle and a spring located at the ankle and foot member stores and releases energy during walking.

New multi-computers architecture allows protection of personal computer by the combined hardware and software means reinforcing online security to the safety level not achievable using software security means alone. The disclosed system encompasses intermediate lock-computer and unidirectional internal interfaces based on novel principles providing complete security while sending information to world wide web and reliable filtering out of unwanted software while receiving information from Internet. One of the key principles underlying the present invention is physical separation of dataflow from web-connected computer to intermediate lock-computer to the main personal computer and the counter dataflow from main computer to lock-computer to web-connected computer. The interfaces in direct data flow from Internet to personal computer and in the counter dataflow may be based on different physical and system principles including novel two-dimensional image-based interface. Effectively, the disclosed methods and apparatuses provide five levels of computer defense, including four principally new levels of defense.

An artificial foot and ankle joint consists of a curved leaf spring foot member having a heel extremity and a toe extremity, and a flexible elastic ankle member that connects the foot member for rotation at the ankle joint. An actuator motor applies torque to the ankle joint to orient the foot when it is not in contact with the support surface and to store energy in a catapult spring that is released along with the energy stored in the leaf spring to propel the wearer forward. A ribbon clutch prevents the foot member from rotating in one direction beyond a predetermined limit position. A controllable damper is employed to lock the ankle joint or to absorb mechanical energy as needed. The controller and sensing mechanisms control both the actuator motor and the controllable damper at different times during the walking cycle for level walking, stair ascent, and stair descent.

A holding arm for medical purposes, in particular for holding surgical mechatronic assistance systems and/or surgical instruments, includes a proximal end for attaching the holding arm to a base and a distal end for receiving a surgical mechatronic assistance system and/or surgical instrument; at least one first and one second arm segment, wherein the first arm segment is connected to a first joint and the second arm segment is connected to a second joint, wherein each joint is releasable and lockable. An operating unit is provided for bringing the holding arm into a desired pose, wherein the operating unit is adapted to release the associated joint upon contact between an operator and one of the first and second arm segments. A corresponding method is also provided.

Implementations relate to a counterbalance mechanism including a force transformation mechanism that provides a drive ratio. In some implementations, a counterbalance apparatus includes a spring, a first tension element, a second tension element, a force transformation mechanism coupled to the spring by the first tension element and coupled to the second tension element, and a plurality of counterbalance pulleys coupled to the second tension element. At least one of the counterbalance pulleys is coupled to a load that is moveable with reference to a mechanical ground, and a force provided by the spring is modified in magnitude by the force transformation mechanism and is applied to the load via the second tension element. The force transformation mechanism includes a plurality of elements and the modification of the force is based on a drive ratio of the elements of the force transformation mechanism.