A programmable motion robotic system is disclosed that includes a plurality of arm sections that are joined one to another at a plurality of joints to form an articulated arm, and a hose coupling an end effector of the programmable motion robotic system to a vacuum source. The hose is attached to at least one arm section of the articulated arm by a pass-through coupling that permits the hose to pass freely through the coupling as the plurality of arm sections are moved about the plurality of joints.

A robot programming device capable of easily checking interference between a robot and peripheral equipment, by which the interference can be easily avoided automatically or manually. The programming device has: a simulation executing part which executes a simulation of motions of peripheral equipment and a robot hand based on a control signal; a signal setting part which sets the control signal for executing the simulation, with respect to a teaching point or a trajectory between the teaching points included in a predetermined robot operation program or a program template, the control signal being set as attribute data of each teaching point or each trajectory; a moving part which moves the robot to the teaching point or the trajectory; and a display setting part which determines as to whether the workpiece is displayed or hidden, with respect to the teaching point or the trajectory to which the robot is moved.

Methods, apparatus, systems, and computer-readable media are provided for calculating a trajectory corridor for a robot end effector. In some implementations, a seed path may be determined between first and second sites that is traversable by a reference point associated with an end effector of a robot. Then, a trajectory corridor may be calculated that encompasses and expands the seed path. In some implementations, a plurality of candidate paths may be determined through the trajectory corridor that are traversable by the reference point. In some implementations, a candidate path that satisfies a criterion may be selected.

An intelligent motion control system for devices moving in a locality includes a number of intelligent motion bodies and a server. The server includes a storage module, a task assigning module, a path planning module, and a communication module. The storage module stores a map and a path planning rule. The task assigning module assigns a motion task to each intelligent motion body. The path planning module plans a moving path for each intelligent motion body according to the map, the motion task, and the path planning rule. The communication module transmits the moving path to the intelligent motion body. The intelligent motion body moves according to the moving path and can provide feedback to the server as to any obstacles in the moving path. An intelligent motion control method is also disclosed.

A numerical controller and a robot controller share interpolation level move data obtained by recording position information for each interpolation period of a robot in association with an index. Based on the interpolation level move data, a preceding position of the robot after the passage of a time (lead time) for calculating a next preceding position since a reference time for interference check is calculated. And, based on the robot preceding position and a preceding position (machine preceding-position) of an axis of the machine after the passage of the lead time, interference between a machine and the robot is checked.

The interference determination device includes a distance measurement unit measuring a distance to an object contained in a workspace of a robot; a decimation unit decimating point cloud data obtained by the distance measurement unit, based on a range and a number of points of the point cloud data obtained by the distance measurement unit; an extraction unit extracting point cloud data, contained in a determination region encompassing a robot region that corresponds to a model of the robot positioned in the workspace, from point cloud data after being decimated by the decimation unit; and a determination unit determining that the robot interferes with the object when the point cloud data extracted by the extraction unit is located inside the robot region.

A mobile robot employing a method and a system for localizing the mobile robot using external surveillance cameras acquires images from the surveillance cameras installed indoors adjacent to each other, recognizes objects included in the images by removing shadows from the images and performing a homography scheme, and avoids the recognized objects. The mobile robot employing the method and the system for localizing the mobile robot using the external surveillance cameras enables rapider localization and lower price as compared with a conventional image-based autonomous robot, so that the commercialization of a service robot is accelerated.

Devices, systems, and methods for avoiding collisions between manipulator arms using a null-space are provided. In one aspect, the system calculates an avoidance movement using a relationship between reference geometries of the multiple manipulators to maintain separation between reference geometries. In certain embodiments, the system determines a relative state between adjacent reference geometries, determines an avoidance vector between reference geometries, and calculates an avoidance movement of one or more manipulators within a null-space of the Jacobian based on the relative state and avoidance vector. The joints may be driven according to the calculated avoidance movement while maintaining a desired state of the end effector or a remote center location about which an instrument shaft pivots and may be concurrently driven according to an end effector displacing movement within a null-perpendicular-space of the Jacobian so as to effect a desired movement of the end effector or remote center.

A mobile robot employing a method and a system for localizing the mobile robot using external surveillance cameras acquires images from the surveillance cameras installed indoors adjacent to each other, recognizes objects included in the images by removing shadows from the images and performing a homography scheme, and avoids the recognized objects. The mobile robot employing the method and the system for localizing the mobile robot using the external surveillance cameras enables rapider localization and lower price as compared with a conventional image-based autonomous robot, so that the commercialization of a service robot is accelerated.

An operation instruction list including starting points and ending points of trajectories of a plurality of robot arms is generated (a trajectory definition data generation process). Order of generation of trajectories is determined in accordance with the operation instruction list (a generation order determination process). A trajectory of a specific robot arm included in the operation instruction list is generated in accordance with a starting point and an ending point such that the trajectory avoids obstacle spaces registered in the obstacle memory when trajectories of other robot arms are generated (a trajectory generation process). A sweeping space in which a structure of the arm sweeps when the robot arm is operated along the generated trajectory is added to the obstacle memory as an obstacle space to be avoided by the other robot arm (an obstacle registration process).