A mobile robot system has a robot body attached to a mobile base. The robot body has a torso, a first robotic arm mechanically coupled to the torso, a first robotic leg, and a second robotic leg. The first robotic leg and the second robotic leg are controllably actuatable to enable the robot body to execute bipedal walking. The mobile base has a platform to receive a lower end of the first robotic leg and a lower end of the second robotic leg, at least one wheel and a controllable steering mechanism to enable the mobile base to travel both while the robot body is positioned on the platform and while the robot body is not positioned on the platform. The mobile base also has a plurality of components, at least one of which operable to support at least one function of the robot body.

A mobile robot system has a robot body attached to a mobile base. The robot body has a torso, a first robotic arm mechanically coupled to the torso, a first robotic leg, and a second robotic leg. The first robotic leg and the second robotic leg are controllably actuatable to enable the robot body to execute bipedal walking. The mobile base has a platform to receive a lower end of the first robotic leg and a lower end of the second robotic leg, at least one wheel and a controllable steering mechanism to enable the mobile base to travel both while the robot body is positioned on the platform and while the robot body is not positioned on the platform. The mobile base also has a plurality of components, at least one of which operable to support at least one function of the robot body.

A device for allowing work to be carried out on or about an object includes at least one gripping arrangement. The at least one gripping arrangement is configured to grip and traverse the object so as to reach a desired location on the object and to anchor the device thereto for allowing the work to be carried out.

A device for allowing work to be carried out on or about an object includes at least one gripping arrangement. The at least one gripping arrangement is configured to grip and traverse the object so as to reach a desired location on the object and to anchor the device thereto for allowing the work to be carried out.

A hybrid vehicle is provided. The hybrid vehicle may comprise a variable geometry chassis and a plurality of leg-wheel components coupled to the variable geometry chassis. The plurality of leg-wheel components may be collectively operable to provide wheeled locomotion and walking locomotion. The variable geometry chassis may comprise a plurality of components. The plurality of components may comprise a main component, a plurality of bridge components, and a plurality of end components. The main component may be coupled to an end component of the plurality of end components via a bridge component of the plurality of bridge components. The variable geometry chassis may be configurable into one or more of an arch configuration, a flat configuration, and a tub configuration.

A hybrid vehicle is provided. The hybrid vehicle may comprise a variable geometry chassis and a plurality of leg-wheel components coupled to the variable geometry chassis. The plurality of leg-wheel components may be collectively operable to provide wheeled locomotion and walking locomotion. The variable geometry chassis may comprise a plurality of components. The plurality of components may comprise a main component, a plurality of bridge components, and a plurality of end components. The main component may be coupled to an end component of the plurality of end components via a bridge component of the plurality of bridge components. The variable geometry chassis may be configurable into one or more of an arch configuration, a flat configuration, and a tub configuration.

A hybrid vehicle is provided. The hybrid vehicle may comprise a chassis and a plurality of leg-wheel components coupled to the chassis. The plurality of leg-wheel components may be configured to be collectively operable to provide wheeled locomotion and walking locomotion.

A hybrid vehicle is provided. The hybrid vehicle may comprise a chassis and a plurality of leg-wheel components coupled to the chassis. The plurality of leg-wheel components may be configured to be collectively operable to provide wheeled locomotion and walking locomotion.

Systems and methods for operating a hybrid vehicle are provided. The method may comprise receiving, at a human-machine interface (HMI), a selection of at least one hybrid vehicle of a plurality of hybrid vehicles. The HMI may comprise a processor and a memory, and each hybrid vehicle, of the plurality of hybrid vehicles, may be configured to perform wheeled and walking locomotion. The method may further comprise rendering, at the HMI, a graphical user interface (GUI) based on the selection of the at least one hybrid vehicle, and receiving, at the HMI, one or more commands. The one or more commands may be configured to dictate an operation of one or more hybrid vehicles of the selection of the at least one hybrid vehicle.

Systems and methods for operating a hybrid vehicle are provided. The method may comprise receiving, at a human-machine interface (HMI), a selection of at least one hybrid vehicle of a plurality of hybrid vehicles. The HMI may comprise a processor and a memory, and each hybrid vehicle, of the plurality of hybrid vehicles, may be configured to perform wheeled and walking locomotion. The method may further comprise rendering, at the HMI, a graphical user interface (GUI) based on the selection of the at least one hybrid vehicle, and receiving, at the HMI, one or more commands. The one or more commands may be configured to dictate an operation of one or more hybrid vehicles of the selection of the at least one hybrid vehicle.