An approach to positioning one or more robotic arms in an assembly system may be described herein. For example, an apparatus may include a first robotic arm having a distal end and a proximal end. The distal end may be configured for movement and the proximal end may secure the first robotic arm. The apparatus may further include a camera connected with the distal end of the first robotic arm. The camera may be configured to capture image data of a marker connected with a second robotic arm and provide the image data to a computer. The computer may generate a set of instructions for the first robotic arm based on the image data of the marker. The movement of the first robotic arm may be caused by the computer according to the generated set of instructions.

A robotic system includes first and second manipulator assemblies in an operating environment and having separately movable bases. A processing unit is configured to receive first sensor data from a first plurality of sensors disposed on the first manipulator assembly, wherein the first sensor data provide spatial information about the operating environment external to the first manipulator assembly. A first spatial relationship of the second manipulator assembly relative to the first manipulator assembly is determined using data including the first sensor data. A first alignment relationship between the first and second manipulator assemblies is established based on the first spatial relationship. Based on the first alignment relationship, motion of the second manipulator assembly is commanded in response to a command from a first input device operable by an operator.

An approach to positioning one or more robotic arms in an assembly system may be described herein. For example, an apparatus may include a first robotic arm having a distal end and a proximal end. The distal end may be configured for movement and the proximal end may secure the first robotic arm. The apparatus may further include a camera connected with the distal end of the first robotic arm. The camera may be configured to capture image data of a marker connected with a second robotic arm and provide the image data to a computer. The computer may generate a set of instructions for the first robotic arm based on the image data of the marker. The movement of the first robotic arm may be caused by the computer according to the generated set of instructions.

A robotic system includes first and second manipulator assemblies in an operating environment and having separately movable bases. A processing unit is configured to receive first sensor data from a first plurality of sensors disposed on the first manipulator assembly, wherein the first sensor data provide spatial information about the operating environment external to the first manipulator assembly. A first spatial relationship of the second manipulator assembly relative to the first manipulator assembly is determined using data including the first sensor data. A first alignment relationship between the first and second manipulator assemblies is established based on the first spatial relationship. Based on the first alignment relationship, motion of the second manipulator assembly is commanded in response to a command from a first input device operable by an operator.

A robotic system includes first and second manipulator assemblies in an operating environment and having separately movable bases. A processing unit is configured to receive first sensor data from a first plurality of sensors disposed on the first manipulator assembly, wherein the first sensor data provide spatial information about the operating environment external to the first manipulator assembly. A first spatial relationship of the second manipulator assembly relative to the first manipulator assembly is determined using data including the first sensor data. A first alignment relationship between the first and second manipulator assemblies is established based on the first spatial relationship. Based on the first alignment relationship, motion of the second manipulator assembly is commanded in response to a command from a first input device operable by an operator.