Techniques for limiting motion of a first structure include a manipulator supported by the first structure, a second structure supporting the first structure, and a processor. The processor is configured to, in response to entering a first mode, determine, relative to the first structure, a first position of a reference location on entry into the first mode, the reference location being associated with a link of the manipulator; and while in the first mode: detect a manual movement of the reference location to a second position relative to the first structure, wherein a difference between the first and second positions comprises a displacement having first and second components in respective different first and second directions; and, in response, command the second structure to move relative to the reference location in the first direction so as to reduce the first component while not changing the second component.

A modular system of plastic walls having embedded and coextensive electrically conductive components configured to electrically connect with each other when the walls are mated. The walls have joining edges that form joint seams with other walls when joined together to create an enclosure. When enough walls are used to surround a storage space, a Faraday cage is created. The walls additionally have portions of tortuous paths at each joining edge that mate with a complementary portion of a tortuous path of another wall when the walls are joined together. A torturous path seal is thereby created at each joint seam. The plastic walls can be configured in a multiplicity of combinations to create various enclosures necessary for RFID-enabled storage and tracking of medical articles. Containers, enclosures, cabinets, and drawers of differing heights and sizes can be made and they may be stacked or otherwise assembled.

A modular system of plastic walls having embedded and coextensive electrically conductive components configured to electrically connect with each other when the walls are mated. The walls have joining edges that form joint seams with other walls when joined together to create an enclosure. When enough walls are used to surround a storage space, a Faraday cage is created. The walls additionally have portions of tortuous paths at each joining edge that mate with a complementary portion of a tortuous path of another wall when the walls are joined together. A torturous path seal is thereby created at each joint seam. The plastic walls can be configured in a multiplicity of combinations to create various enclosures necessary for RFID-enabled storage and tracking of medical articles. Containers, enclosures, cabinets, and drawers of differing heights and sizes can be made and they may be stacked or otherwise assembled.

A system and method for a cabinet. The cabinet has at least two mounts. The cabinet further has at least two covers. The covers are releasably couple to the mounts. When the covers are coupled there is an opening between adjacent covers which houses an item which can be retrieved through the opening. The covers can have tabs which couple with slots in the mounts. The result is an interchangeable cabinet which allows the user to change the contents being housed by moving the covers and adjusting the size of the opening to account for larger or smaller contents.

Techniques for controlling a system include a first structural means supporting a manipulating means, a second structural means supporting the first structural means, and a processing means. The processing means is configured to determine, relative to the first structural means, a first position of a reference location on the system entering into the first mode, the reference location being associated with a linking means of the manipulating means; and while the system in the first mode: detect a manual movement of the reference location that causes a first displacement of the reference location from the first position in a first direction and a second displacement of the reference location from the first position in a second direction,; and, in response, command the second structural means to move relative to the reference location in the first direction so as to reduce the first component while not changing the second component.

Techniques for controlling a system include a first structural means supporting a manipulating means, a second structural means supporting the first structural means, and a processing means. The processing means is configured to determine, relative to the first structural means, a first position of a reference location on the system entering into the first mode, the reference location being associated with a linking means of the manipulating means; and while the system in the first mode: detect a manual movement of the reference location that causes a first displacement of the reference location from the first position in a first direction and a second displacement of the reference location from the first position in a second direction,; and, in response, command the second structural means to move relative to the reference location in the first direction so as to reduce the first component while not changing the second component.

A modular system of medical article containers is used to form enclosures of selectable storage space. The containers are each RF shielded and include an interconnect wall for connecting to another container to form the enclosure. The interconnect walls have a complementary design. The interconnect seam of two containers includes an electrically conductive component that also interconnects the RF shields of the two containers together. The interconnect seam also includes a tortuous path seal for greater RF shielding of the enclosure. The walls of the containers include a substrate of non-electrically conductive material for weight reduction and an electrically conductive element that is coextensive with the substrate. One embodiment is a plastic substrate with a metallic mesh. The enclosure provides a Faraday cage about the interconnected containers. Enclosures of differing heights and sizes can be made, and they may be stacked or otherwise assembled.

A modular system of medical article containers is used to form enclosures of selectable storage space. The containers are each RF shielded and include an interconnect wall for connecting to another container to form the enclosure. The interconnect walls have a complementary design. The interconnect seam of two containers includes an electrically conductive component that also interconnects the RF shields of the two containers together. The interconnect seam also includes a tortuous path seal for greater RF shielding of the enclosure. The walls of the containers include a substrate of non-electrically conductive material for weight reduction and an electrically conductive element that is coextensive with the substrate. One embodiment is a plastic substrate with a metallic mesh. The enclosure provides a Faraday cage about the interconnected containers. Enclosures of differing heights and sizes can be made, and they may be stacked or otherwise assembled.

A cart for supporting one or more instruments during a computer-assisted remote procedure can comprise a base; a steering interface having a portion configured to be grasped by a user; a sensor mechanism configured to detect a force applied to the steering interface by a user; and a switch operable between an engaged position and a disengaged position. The cart may further include a drive system comprising a control module operably coupled to receive an input from the sensor mechanism in response to the force applied to the steering interface and, on the condition that the switch is in the engaged position, to output a movement command based on the received input from the sensor mechanism. A driven wheel mounted to the base of the cart may be configured to impart motion to the cart in response to the movement command.

A cart for supporting one or more instruments during a computer-assisted remote procedure can comprise a base; a steering interface having a portion configured to be grasped by a user; a sensor mechanism configured to detect a force applied to the steering interface by a user; and a switch operable between an engaged position and a disengaged position. The cart may further include a drive system comprising a control module operably coupled to receive an input from the sensor mechanism in response to the force applied to the steering interface and, on the condition that the switch is in the engaged position, to output a movement command based on the received input from the sensor mechanism. A driven wheel mounted to the base of the cart may be configured to impart motion to the cart in response to the movement command.