Abstract: A robotic tool system includes a gripping mechanism having a pair of movable jaws that extend along a longitudinal axis. Each jaw has a convex inner surface relative to the axis that cooperate to define a first adaptor. A tool assembly includes a tool and a second adaptor connected to the tool and having a biconvex projection. The jaws are movable towards one another from a first condition spaced from the second adaptor to a second condition in which the first adaptor engages the second adaptor to securely fasten the tool assembly to the gripping mechanism.

Abstract: A robotic arm module includes a chassis having at least one arm pod. At least one arm connected to the chassis is movable between a stowed position within the at least one arm pod and a deployed position extending from the at least one arm pod. Each arm has a gripping mechanism for gripping articles of work. An attachment structure is configured to allow a host robot to grip and manipulate the robotic arm module. An electrical interface is configured to receive electronic signals in response to a user moving remote manipulators. The electronic signals cause the at least one arm to mimic the movement of the user moving the remote manipulators.

Abstract: A robotic arm module includes a chassis having at least one arm pod. At least one arm connected to the chassis is movable between a stowed position within the at least one arm pod and a deployed position extending from the at least one arm pod. Each arm has a gripping mechanism for gripping articles of work. An attachment structure is configured to allow a host robot to grip and manipulate the robotic arm module. An electrical interface is configured to receive electronic signals in response to a user moving remote manipulators. The electronic signals cause the at least one arm to mimic the movement of the user moving the remote manipulators.

Abstract: A robotic tool system includes a gripping mechanism having a pair of movable jaws that extend along a longitudinal axis. Each jaw has a convex inner surface relative to the axis that cooperate to define a first adaptor. A tool assembly includes a tool and a second adaptor connected to the tool and having a biconvex projection. The jaws are movable towards one another from a first condition spaced from the second adaptor to a second condition in which the first adaptor engages the second adaptor to securely fasten the tool assembly to the gripping mechanism.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles. Additionally, a bimodal conveyance mechanism readily converts between walking and rolling modes.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles. Additionally, a bimodal conveyance mechanism readily converts between walking and rolling modes.

Abstract: The present embodiments provide an integrated patient room having multiple features designed to enhance the safety, satisfaction and/or outcomes for a patient and/or caregiver. In one embodiment, the integrated patient room comprises at least one bed and at least one chair. The bed and the chair can each assume a wide range of positions, and can be pre-programmed into preferred positions. Further, the bed, chair, and/or other components in the patient room may be automatically synchronized with one another to facilitate transfer of a patient. A touch screen monitor with an intuitive graphical user interface may be employed as a communication portal. The functions of the bed, chair and/or other components in the room may be accessed and/or controlled through the communication portal.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles. Additionally, a bimodal conveyance mechanism readily converts between walking and rolling modes.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.

Abstract: A virtual wheel provides a leg pair as a conveyance mechanism for a land vehicle. The virtual wheel propels the vehicle across a surface using a repetitive motion of the legs that contact the ground as would a wheel, due to their geometry. Vehicle embodiments include at least two-, three-, four- and six-wheeled vehicles, both transverse and in-line. Additionally, the invention provides a bipedal walking robot. One embodiment provides a robotic mule—a payload-carrying vehicle. The invention combines the flexible mobility of bipedal vehicles with the stability and functionality of very large-wheeled vehicles.