A robotic grasping system can include a three-dimensional (3D) printed joint, a stiff portion coupled with the 3D-printed joint, internal tubes within the 3D-printed joint, a bellows coupled with the 3D-printed joint and at least one of the internal tubes, and a pressure source configured to cause the internal tubes to pressurize or depressurize the bellows.

An insertion tool with a flexible spine and a method for forming thereof are provided. A method includes placing a plurality of links, a flexible spine, and a line assembly into a channel of a fixturing assembly, pulling, via the line assembly, the plurality of links into a tensioned state in the channel, and affixing the flexible spine to each of the plurality of links while in the tensioned state. An insertion tool comprising a plurality of links arranged in a sequence, a flexible spine affixed to three or more links of the plurality of links, and a line assembly inserted through line guides in each of the plurality of links, the line assembly being configured to actuate the plurality of links from a free state to a tensioned state.

A suction box for a gripper includes: a first part made of composite material, a second part made of composite material, the second part including orifices, and a third part connected, on the one hand, to the first part and, on the other hand, to the second part to form at least one cavity of the suction box. The third part is made of composite material. The first part and the third part are connected to each other by bonding. The second part and the third part are connected to each other by bonding.

An automated robot design pipeline facilitates the overall process of designing robots that perform various desired behaviors. The disclosed pipeline includes four stages. In the first stage, a generative engine samples a design space to generate a large number of robot designs. In the second stage, a metric engine generates behavioral metrics indicating a degree to which each robot design performs the desired behaviors. In the third stage, a mapping engine generates a behavior predictor that can predict the behavioral metrics for any given robot design. In the fourth stage, a design engine generates a graphical user interface (GUI) that guides the user in performing behavior-driven design of a robot. One advantage of the disclosed approach is that the user need not have specialized skills in either graphic design or programming to generate designs for robots that perform specific behaviors or express various emotions.

An insertion tool with a flexible spine and a method for forming thereof are provided. A method includes placing a plurality of links, a flexible spine, and a line assembly into a channel of a fixturing assembly, pulling, via the line assembly, the plurality of links into a tensioned state in the channel, and affixing the flexible spine to each of the plurality of links while in the tensioned state. An insertion tool comprising a plurality of links arranged in a sequence, a flexible spine affixed to three or more links of the plurality of links, and a line assembly inserted through line guides in each of the plurality of links, the line assembly being configured to actuate the plurality of links from a free state to a tensioned state.

Sensor devices including force sensors and robots incorporating the same are disclosed. In one embodiment, a sensor device includes an inflatable diaphragm operable to be disposed on a member, and an array of force sensors disposed about the inflatable diaphragm, wherein the array of force sensors provides one or more signals indicative of a location of contact between an object and the inflatable diaphragm.

Sensors having a deformable layer and an outer cover layer and robots incorporating the same are disclosed. In one embodiment, a sensor includes an inflatable diaphragm operable to be disposed on a member, wherein the inflatable diaphragm includes a port. The sensor further includes an outer cover layer disposed around the inflatable diaphragm, wherein the outer cover layer is fabricated from a material having a strength of greater than or equal to 35 cN/dtex, and a pressure sensor fluidly coupled to the port and operable to detect a pressure within the inflatable diaphragm.

A robot has a robotic arm, including a base with a base contact surface and an end-effector that is connected to the base by joints which can be adjusted by robotic arm joint drives such that the end-effector has at least five, and in particular at least six, actuated degrees of freedom with respect to the base. The robot further includes a robot joint module with a first contact surface that can be fastened—in particular, releasably—to the base contact surface, a second contact surface for fastening the robot to a stationary environment or mobile platform, and at least one robot joint module drive for pivoting the first contact surface relative to the second contact surface about a pivot axis, so that the end-effector has at least six, and in particular at least seven, actuated degrees of freedom with respect to the second contact surface, and in particular with respect to the stationary environment or mobile platform.

Robots and sensor systems having a compliant member for maintaining the position of a sensor are disclosed. In one embodiment, a robot includes a rigid surface, one or more compliant members attached to the rigid surface, and a sensor device. The sensor device includes an inflatable diaphragm operable to be disposed around the one or more compliant members, the inflatable diaphragm having a port, and a pressure sensor fluidly coupled to the port and operable to detect a pressure within the inflatable diaphragm. The one or more compliant members prevent lateral movement and rotational movement of the sensor device.

Pressure sensors and robots incorporating pressure sensors are disclosed. In one embodiment, a pressure sensor device includes a base layer, a deformable layer bonded to the base layer such that the base layer and the deformable layer define at least one inflatable chamber, and at least one pressure sensor fluidly coupled to the at least one inflatable chamber and operable to produce a signal indicative of a pressure within the at least one inflatable chamber.