A robot control system includes a relative relationship calculating section configured to calculate a relative relationship between a first member and a second member at least at one of a plurality of points based on data acquired by a vision sensor, a contact point determination section configured to determine a contact point between the first member and the second member based on the calculated relative relationship, a control point setting section configured to set a control point based on the determined contact point, and a fitting control section configured to control fitting of the plurality of points based on the set control point.

A method, system and computer program product are provided for correction of automated insertion of a wire contact into a target hole of a connector. Methods include controlling a robot having an end-effector to: align the wire contact with the target hole of the connector; advance the wire contact toward and into the target hole of the connector; cease insertion in response to a force between the wire contact and the connector exceeding a predefined value; determining a depth of insertion; in response to the depth of insertion being above a predefined depth, perform a pull test on the inserted wire contact; in response to the depth of insertion being below a predetermined depth, identify an error condition using visual feedback; determine a number of corrective operations performed and perform error correction if the number is below a predefined number, while withdrawing the wire contact otherwise.

A method, system and computer program product are provided for correction of automated insertion of a wire contact into a target hole of a connector. Methods include controlling a robot having an end-effector to: align the wire contact with the target hole of the connector; advance the wire contact toward and into the target hole of the connector; cease insertion in response to a force between the wire contact and the connector exceeding a predefined value; determining a depth of insertion; in response to the depth of insertion being above a predefined depth, perform a pull test on the inserted wire contact; in response to the depth of insertion being below a predetermined depth, identify an error condition using visual feedback; determine a number of corrective operations performed and perform error correction if the number is below a predefined number, while withdrawing the wire contact otherwise.

A modular wire processing center comprises a plurality of individual processing modules that are controlled by a central control unit. The plurality of processing modules includes an automatic crimper and at least two further processing modules selected from the group of an automatic cutter, a marking system, a stripping unit, a terminal feeding device, a wire feeding unit and a wire discharging/bundling unit. The processing modules are designed as independently operable individual processing units and are positioned with the control unit on a mobile platform.

A robot control system includes a relative relationship calculating section configured to calculate a relative relationship between a first member and a second member at least at one of a plurality of points based on data acquired by a vision sensor, a contact point determination section configured to determine a contact point between the first member and the second member based on the calculated relative relationship, a control point setting section configured to set a control point based on the determined contact point, and a fitting control section configured to control fitting of the plurality of points based on the set control point.

A modular wire processing center comprises a plurality of individual processing modules that are controlled by a central control unit. The plurality of processing modules includes an automatic crimper and at least two further processing modules selected from the group of an automatic cutter, a marking system, a stripping unit, a terminal feeding device, a wire feeding unit and a wire discharging/bundling unit. The processing modules are designed as independently operable individual processing units and are positioned with the control unit on a mobile platform.