Systems and methods for mounting a robotic arm for use in robotic-assisted surgery, including a mobile shuttle that includes a support member for mounting the robotic arm that extends at least partially over a gantry of an imaging device. Further embodiments include a mounting apparatus for mounting a robotic arm to a base or support column of an imaging device, to a patient table, to a floor or ceiling of a room, or to a cart that extends over the top surface of the patient table.

Systems and methods for mounting a robotic arm for use in robotic-assisted surgery, including a mobile shuttle that includes a support member for mounting the robotic arm that extends at least partially over a gantry of an imaging device. Further embodiments include a mounting apparatus for mounting a robotic arm to a base or support column of an imaging device, to a patient table, to a floor or ceiling of a room, or to a cart that extends over the top surface of the patient table.

A robotic system for applying a volatile fluid to a work-piece comprising a support structure configured to mount at least one spray nozzle while facilitating motion of the nozzle in multiple degrees of freedom. An encoder senses a position of the spray nozzle and issues a position signal indicative thereof. A pneumatically-driven motor effects displacement of the spray nozzle on the support structure along each degree of freedom. A controller disposed outside the boundaries defined by the structural support, is responsive to the position signals for controlling the pneumatically-driven motor to displace the spray nozzle while dispensing the volatile fluid. The pneumatically driven motor and the isolated spatial position of the controller prohibits a source of ignition for the volatile fluid sprayed by the nozzle.

A robotic fastening system is operative to autonomously fasten a first subassembly to a second subassembly at a plurality of fastening sites. A set of actuators arranged to move a fastening tool to the various ones of the fastening sites. A proximity sensor is fixed proximate the fastening tool and movable with the fastening tool. A controller circuit is operative to individually control each of the set of actuators and to read an output of the proximity sensor, where the controller circuit is programmed to execute a fastening-tool movement routine to move the fastening tool to a first one of the fastening sites.

A robotic fastening system is operative to autonomously fasten a first subassembly to a second subassembly at a plurality of fastening sites. A set of actuators arranged to move a fastening tool to the various ones of the fastening sites. A proximity sensor is fixed proximate the fastening tool and movable with the fastening tool. A controller circuit is operative to individually control each of the set of actuators and to read an output of the proximity sensor, where the controller circuit is programmed to execute a fastening-tool movement routine to move the fastening tool to a first one of the fastening sites.

The present disclosure provides a method and system by which a precise amount of a viscous fluid sealing compound can be dispensed at required locations through computer vision-based observation of the fluid deposited, its rate and amount of deposition and location; and that the dispensed fluid may be accurately shaped through robotic or other special purpose mechanism motion. The invention enables instant quality inspection of the dispensing process in terms of the locations, amounts and shapes of newly created seals.

The present disclosure provides a method and system by which a precise amount of a viscous fluid sealing compound can be dispensed at required locations through computer vision-based observation of the fluid deposited, its rate and amount of deposition and location; and that the dispensed fluid may be accurately shaped through robotic or other special purpose mechanism motion. The invention enables instant quality inspection of the dispensing process in terms of the locations, amounts and shapes of newly created seals.

A manufacturing system includes a stator base, a plurality of movers, one or more end effectors, and a controller. The stator base has a planar stator surface covering an array of electrical coils configured to generate an electromagnetic field. The movers each contain multiple permanent magnets configured to cause the movers to levitate and move relative to the stator surface in response to the electromagnetic field. The end effectors are coupled to the movers, and each end effector perform one or more functions in relation to a material sheet. The controller activates the electrical coils in a manner causing independent, coordinated movement of the movers over the stator surface, and causing the end effectors to engage with and operate on the material sheet.

A manufacturing system includes a stator base, a plurality of movers, one or more end effectors, and a controller. The stator base has a planar stator surface covering an array of electrical coils configured to generate an electromagnetic field. The movers each contain multiple permanent magnets configured to cause the movers to levitate and move relative to the stator surface in response to the electromagnetic field. The end effectors are coupled to the movers, and each end effector perform one or more functions in relation to a material sheet. The controller activates the electrical coils in a manner causing independent, coordinated movement of the movers over the stator surface, and causing the end effectors to engage with and operate on the material sheet.

Thus, there is disclosed an autonomous robotic construction system comprising at least one frame comprising at least one substantially horizontal track and at least one set of substantially vertical track; at least one nozzle; at least one movable device coupled to the frame and configured to move said nozzle around said frame; at least one pump configured to pump building materials through said at least one nozzle; and at least one computer system comprising at least one microprocessor configured to control said at least one nozzle, said at least one movable device and said at least one pump to control deposition of any building materials on a site.