An apparatus for driving an articulating probe comprises an elongate probe constructed and arranged to articulate in at least one predetermined degree of motion and to transition from a flexible state to a rigid state, and a force transfer mechanism constructed and arranged to apply a force to the probe. The force is selected from the group consisting of a force that causes probe to articulate in the at least one predetermined degree of motion and a force that causes the probe to transition from the flexible state to the rigid state. The base structure is attached to portion of the force transfer mechanism and the elongate probe; the base structure comprising one or more stabilizing elements constructed and arranged to resist undesired movement of the probe caused by force from the force transfer mechanism.

A device sized and shaped for insertion into a body comprising: at least one mechanical limb comprising: a support segment; a first flexible section extending from the support segment and terminating in a coupling section; and a second flexible section extending from the coupling section and terminating in a tool or a connector for a tool; wherein a long axis of one or more of the flexible sections is bendable in a single bending plane; wherein a long axis length of the first flexible section is at least double a maximum extent of the first flexible section perpendicular to a flexible section long axis; wherein a long axis length of the second flexible section is at least double a maximum extent of the second flexible section perpendicular to a flexible section long axis.

A robotic snake comprising a plurality of friction anchors, a plurality of segments and a plurality of servo motors are disclosed. Each of the plurality of segments includes a first link and a second link connected at a first joint, a third link connected to the first link at a second joint, a fourth link connected to the second link at a third joint, a fifth link connected to the third link at a fourth joint. The simultaneous rotation of third link and fourth link of each of the plurality of segments results in a translational movement and/or a rotational movement. A plurality of servo motors is configured to rotate plurality of joints. The fifth link of one segment and first link of next segment of the each of the plurality of segments act as a quaternary link serially connects each of the plurality of segments.

A device sized and shaped for insertion into a body comprising: at least one mechanical limb comprising: a support segment; a first flexible section extending from the support segment and terminating in a coupling section; and a second flexible section extending from the coupling section and terminating in a tool or an connector for a tool; wherein one or more of the flexible sections is bendable by at least 120; wherein a long axis length of the first flexible section is at least double a maximum extent of the first flexible section perpendicular to a flexible section long axis; wherein a long axis length of the second flexible section is at least double a maximum extent of the second flexible section perpendicular to a flexible section long axis.

An articulating probe, comprises a first mechanism including a first link comprising a first longitudinal axis, a first articulation surface and a first motion-limiting element; and a second link comprising a second longitudinal axis, a second articulation surface and a second motion-limiting element. An articulation joint comprises the first articulation surface and the second articulation surface and constructed and arranged to allow two degree-of-freedom articulation of the second link relative to the first link. A motion resisting assembly comprises the first motion limiting element and the second motion limiting element, wherein the motion resisting assembly is constructed and arranged to resist rotation of the second link about the second longitudinal axis relative to the first longitudinal axis of the first link.

A device sized and shaped for insertion into a body comprising: at least one mechanical limb comprising: a support segment; a first flexible section extending from the support segment and terminating in a coupling section; and a second flexible section extending from the coupling section and terminating in a tool or an connector for a tool; wherein one or more of the flexible sections is bendable by at least 120; wherein a long axis length of the first flexible section is at least double a maximum extent of the first flexible section perpendicular to a flexible section long axis; wherein a long axis length of the second flexible section is at least double a maximum extent of the second flexible section perpendicular to a flexible section long axis.

In order to prevent swiveling of unintended joint pieces and enhance positioning and motion reproducibility of a distal end portion, a bending mechanism includes: a plurality of joint pieces connected in series along the longitudinal axis; a plurality of elongated tension-transmissions that transmit tensions for individually driving the joint pieces; and at least one guide having guide channels that movably support the tension-transmissions in the longitudinal direction thereof and that guide the tension-transmissions along curved paths extending around the longitudinal axis.

A system for controlling the movement of a steerable multi-linked device may include a steerable multi-linked device, a feeder mechanism releasably connected to the steerable multi-linked device and a controller device. The steerable multi-linked device may include a first link, a plurality of intermediate links, and a second link movably coupled to a second one of the intermediate links. A first one of the intermediate links may be movably coupled to the first link. The controller device may be configured to control movement of the multi-linked device via the feeder mechanism.

A serpentine body includes a first portion, a first wheel coupled to the first portion, a second portion, a second wheel coupled to the second portion, and at least one sensor coupled to the first portion and/or the second portion. The first wheel is rotatable in a first direction. The second wheel is rotatable in a second direction opposite the first direction when the first wheel rotates in the first direction.

A robotic snake comprising a plurality of friction anchors, a plurality of segments and a plurality of servo motors are disclosed. Each of the plurality of segments includes a first link and a second link connected at a first joint, a third link connected to the first link at a second joint, a fourth link connected to the second link at a third joint, a fifth link connected to the third link at a fourth joint. The simultaneous rotation of third link and fourth link of each of the plurality of segments results in a translational movement and/or a rotational movement. A plurality of servo motors is configured to rotate plurality of joints. The fifth link of one segment and first link of next segment of the each of the plurality of segments act as a quaternary link serially connects each of the plurality of segments.