Systems and methods are provided for placing non-destructive marks onto a part via an end effector of a robot. One embodiment is a system comprising an end effector of a robot. The end effector includes an extendable punch that places targets onto a part, and supports that hold a strip of reflective adhesive tape between the punch and the part. Extending the punch cuts out a target from the strip and applies an adhesive side of the target to the part, and retracting the punch leaves a reflective side of the target visible on the part.

Working equipment includes a tool configured to work a structure at a working location thereon, with the structure having an applied marking at a known location with a known relationship with the working location. A computer system is configured to determine placement of the structure, and accordingly position the tool into at least partial alignment with the working location, and which in at least one instance, the tool is aligned with a second, offset location. A camera is configured to capture an image of the structure and including the marking, and further including the second location with which the tool is aligned. And the computer system is configured to process the image to locate the working location, reposition the tool from the second location and into greater alignment with the located working location, and control the repositioned tool to work the structure at the located working location.

The disclosed embodiments include systems and methods to provide customized product information for display. In one embodiment, the system includes a sensor positioned proximate a production line, where the production line is operable to transport an optical product and a product label along the production line, and where the sensor is operable to obtain identification information of the optical product from the product label. The system also includes a storage medium containing product information of the optical product and business rules for providing the product information of the optical product for display. The system further includes a processor operable to determine the identification of the optical product, obtain business rules based on the identification of the optical product, dynamically customize the product information of the optical product based on the business rules, and provide the customized product information for display on an electronic display positioned along the production line.

A method automatically controls stores for a processing line for containers pre-dosed with fluid products. The identifying code for each container is determined and then checked whether the container is necessary for production orders received. The container is introduced into a first store and the quantity and identifying codes of the containers in the first store are recorded. Production orders are checked for products yet to be started. The containers are picked up and sent towards a first manipulation station and at least one production order of a product is processed and the containers are sent towards different stations. Quality control inspection is conducted and if the product is compliant, introduced into a second store. Containers with non-compliant product are introduced into a control line. The quantity of containers in the second store is recorded and the containers are sent towards a packaging station to fulfill production orders.

A method automatically controls stores for a processing line for containers pre-dosed with fluid products. The identifying code for each container is determined and then checked whether the container is necessary for production orders received. The container is introduced into a first store and the quantity and identifying codes of the containers in the first store are recorded. Production orders are checked for products yet to be started. The containers are picked up and sent towards a first manipulation station and at least one production order of a product is processed and the containers are sent towards different stations. Quality control inspection is conducted and if the product is compliant, introduced into a second store. Containers with non-compliant product are introduced into a control line. The quantity of containers in the second store is recorded and the containers are sent towards a packaging station to fulfill production orders.

Working equipment includes a tool configured to work a structure at a working location thereon, with the structure having an applied marking at a known location with a known relationship with the working location. A computer system is configured to determine placement of the structure, and accordingly position the tool into at least partial alignment with the working location, and which in at least one instance, the tool is aligned with a second, offset location. A camera is configured to capture an image of the structure and including the marking, and further including the second location with which the tool is aligned. And the computer system is configured to process the image to locate the working location, reposition the tool from the second location and into greater alignment with the located working location, and control the repositioned tool to work the structure at the located working location.

The disclosed embodiments include systems and methods to provide customized product information for display. In one embodiment, the system includes a sensor positioned proximate a production line, where the production line is operable to transport an optical product and a product label along the production line, and where the sensor is operable to obtain identification information of the optical product from the product label. The system also includes a storage medium containing product information of the optical product and business rules for providing the product information of the optical product for display. The system further includes a processor operable to determine the identification of the optical product, obtain business rules based on the identification of the optical product, dynamically customize the product information of the optical product based on the business rules, and provide the customized product information for display on an electronic display positioned along the production line.

Systems and methods are provided for placing non-destructive marks onto a part via an end effector of a robot. One embodiment is a system comprising an end effector of a robot. The end effector includes an extendable punch that places targets onto a part, and supports that hold a strip of reflective adhesive tape between the punch and the part. Extending the punch cuts out a target from the strip and applies an adhesive side of the target to the part, and retracting the punch leaves a reflective side of the target visible on the part.

Working equipment includes a tool configured to work a structure at a working location thereon, with the structure having an applied marking at a known location with a known relationship with the working location. A computer system is configured to determine placement of the structure, and accordingly position the tool into at least partial alignment with the working location, and which in at least one instance, the tool is aligned with a second, offset location. A camera is configured to capture an image of the structure and including the marking, and further including the second location with which the tool is aligned. And the computer system is configured to process the image to locate the working location, reposition the tool from the second location and into greater alignment with the located working location, and control the repositioned tool to work the structure at the located working location.

A system and method facilitates brokered delivery of three-dimensional objects. A networked computing device sends an object description file to a broker with a request to initiate a rendering of an object defined by the object description file at a designated destination. The broker server relays the object description file to a rendering device at the designated destination, such as a three-dimensional printer, which commences rendering the object. Senders and recipients can register with the broker prior to transmission of the object description file. The broker can charge a fee associated with the transaction.