A robot is obtained by a multiple of arm units being continuously connected. Interlocked arm units have mutually coaxial and perfectly circular end faces in a connection portion thereof. One arm unit drives another arm unit so as to rotate centered on an axial line of the connection portion. The robot may include a unit having a curved external form as the arm unit.

A traveling system for a handling device with at least one guide element, with at least one carriage body, which is moveable by the guide element in a guided way in at least one plane of movement and on which or upon which at least one handling device can be fixed or is fixed, with at least one drive element by means of which the carriage body is driveable for a movement at least along the guide element, and with at least one cable guide that is connected to the carriage body, which includes a cable guide housing which includes a plurality of housing elements linked to each other, where two adjacent housing elements are movable relative to one another and about a common axis of rotation. At least one cable is also arranged or can be arranged, which is connectible or connected with one end to the handling device.

The present disclosure illustrates a map creation system and a method for a movable robot. The map creation system includes a movable robot and a display device. The movable robot includes a robot body; a driving unit driving the robot body to move in a space; an image capturing unit capturing a image in the space; a sampling unit sampling in the space to obtain a sample; a control unit controlling the operation of the driving unit, the image capturing unit and the sampling unit; and a power supply unit supplying an electrical power to each unit. The display device displays the received image and marks a location in the space where the sample is obtained on the image, and synchronously displays a movement trace of the movable robot in the space according to the driving instructions of the driving unit.

Disclosed is a continuum manipulator that comprises of an assembly of vertebra-like modules fabricated using two curved links and twelve strings and actuated using Motor-Tendon Actuators. The modules being modeled as tensegrity structures having a polyhedron shape. The vertices and edges of the tensegrity structure polyhedron correspond to the holes and strings or links of the structure. Also disclosed is a mobile continuum manipulator that includes a control unit and wheels or mobile legs.

A snake-like robot includes a first link having a first distal end, a first proximal end, and a first longitudinal axis extending between the first distal end and the first proximal end. A second link has a second proximal end, a second distal end operatively coupled to the first proximal end, and a second longitudinal axis extending between the second proximal end and the second distal end. Rotation of the first link relative to the second link alternatively performs the following effects: elongation of the robot; pivoting of the first longitudinal axis relative to the second longitudinal axis; and rotation of the first longitudinal axis relative to the second longitudinal axis.

A flexible tool comprising: a plurality of rigid members spaced along a longitudinal axis; a plurality of flexible members extending between the plurality of rigid members and being arranged to enable the plurality of rigid members to diverge from the longitudinal axis and define a work volume for the flexible tool, at least some of the plurality of flexible members being unevenly spaced around the longitudinal axis, and/or a physical characteristic of at least some of the plurality of flexible members varying along the longitudinal axis, to cause the work volume and/or stiffness of the flexible tool to be asymmetric relative to the longitudinal axis.

Embodiments described herein relate to expandable robotic arms. According to some embodiments, the robotic arm may include a series of expandable segments connected to each other. Further, each of the expandable segments may be individually controlled to expand and/or tilt with one or two tilt degrees of freedom. In operation, the robotic arm may expand sequentially segment by segment from a proximal most segment to a distal most segment to reach a target position and orientation from an initial position and orientation. A variety of methods and algorithms for pathfinding and otherwise operating such a robotic arm are also described.

A material-mapped actuator useful as, or as part of, a soft robot along with automated methods of design and manufacture. The actuator exhibits mechanical properties that spatially vary along a coordinate system of the actuator. The actuator body has an initial shape with a corresponding initial map of mechanical attributes consisting of locally-varying stiffness at each point in a volume of the actuator body. The actuator is configured to change to a different shape or distribution of mechanical properties upon being activated by an actuation medium. The map of mechanical attributes influences and determines the new shape or distribution. The material-mapped actuator can incorporate a spatially-varying distribution of mechanical properties that dictates multiple desired shapes as the actuation medium is applied, including an actuation sequence in which the actuator transitions from a first shape to a desired intermediate shape(s), and from the intermediate shape to a desired final shape.

A continuum robot having at least two independently manipulatable bendable section for advancing the robot through a passage, without contacting fragile elements within the passage, wherein the robot incorporates control algorithms that enable the continuum robot to operate and advance into the passage, as well as the systems and procedures associated with the continuum robot and said functionality.

A method of jointed device movement inside a body comprising: measuring movement of at least one input object portion; mapping the measured input object portion movement to a jointed device portion movement; and moving the device portion according to mapped measured movements.