Abstract: According to some embodiments, a system for transmitting and rendering a visualization of at least one object is described herein. The system includes a web server having access to at least one web page that includes three-dimensional embedding (“3D embedding”) instructions for requesting at least one 3D visualization associated with an object; a client computer in the data communication with the at least one web server, the client computer configured to receive the at least one web page and execute the 3D-embedding instructions included therein to send a request for the visualization associated with the object; and a visualization server in data communication with the client computer configured to determine whether the visualization is available, and determine whether the client computer is operable to render the 3D visualization, and determine whether to provide the 3D visualization data to the client computer.

Abstract: According to one aspect, a system for transporting products that includes at least one picking robot including at least one robot processor, and at least one order-processing device including at least one order-processing processor in data communication with the at least one robot processor. At least one of the order-processing processor and the robot processor is configured to receive at least one order including at least one product to be picked, generate at least one picking itinerary based upon the at least one order and warehouse information, generate at least one travel path for the at least one robot based upon the picking itinerary, and direct the robot along the travel path.

Abstract: According to one aspect, a system for transporting products that includes at least one picking robot including at least one robot processor, and at least one order-processing device including at least one order-processing processor in data communication with the at least one robot processor. At least one of the order-processing processor and the robot processor is configured to receive at least one order including at least one product to be picked, generate at least one picking itinerary based upon the at least one order and warehouse information, generate at least one travel path for the at least one robot based upon the picking itinerary, and direct the robot along the travel path.

Abstract: According to some embodiments, a system for transmitting and rendering a visualization of at least one object is described herein. The system includes a web server having access to at least one web page that includes three-dimensional embedding (“3D embedding”) instructions for requesting at least one 3D visualization associated with an object; a client computer in the data communication with the at least one web server, the client computer configured to receive the at least one web page and execute the 3D-embedding instructions included therein to send a request for the visualization associated with the object; and a visualization server in data communication with the client computer configured to determine whether the visualization is available, and determine whether the client computer is operable to render the 3D visualization, and determine whether to provide the 3D visualization data to the client computer.

Abstract: According to some embodiments, a system for transmitting and rendering a visualization of at least one object is described herein. The system includes a web server having access to at least one web page that includes three-dimensional embedding (“3D embedding”) instructions for requesting at least one 3D visualization associated with an object; a client computer in the data communication with the at least one web server, the client computer configured to receive the at least one web page and execute the 3D-embedding instructions included therein to send a request for the visualization associated with the object; and a visualization server in data communication with the client computer configured to determine whether the visualization is available, and determine whether the client computer is operable to render the 3D visualization, and determine whether to provide the 3D visualization data to the client computer.

Abstract: According to one aspect, a system for transporting products that includes at least one picking robot including at least one robot processor, and at least one order-processing device including at least one order-processing processor in data communication with the at least one robot processor. At least one of the order-processing processor and the robot processor is configured to receive at least one order including at least one product to be picked, generate at least one picking itinerary based upon the at least one order and warehouse information, generate at least one travel path for the at least one robot based upon the picking itinerary, and direct the robot along the travel path.

Abstract: According to one aspect, a system for transporting products that includes at least one picking robot including at least one robot processor, and at least one order-processing device including at least one order-processing processor in data communication with the at least one robot processor. At least one of the order-processing processor and the robot processor is configured to receive at least one order including at least one product to be picked, generate at least one picking itinerary based upon the at least one order and warehouse information, generate at least one travel path for the at least one robot based upon the picking itinerary, and direct the robot along the travel path.

Abstract: According to one aspect, a system for transporting products that includes at least one picking robot including at least one robot processor, and at least one order-processing device including at least one order-processing processor in data communication with the at least one robot processor. At least one of the order-processing processor and the robot processor is configured to receive at least one order including at least one product to be picked, generate at least one picking itinerary based upon the at least one order and warehouse information, generate at least one travel path for the at least one robot based upon the picking itinerary, and direct the robot along the travel path.

Abstract: According to one aspect, a system for transporting products that includes at least one picking robot including at least one robot processor, and at least one order-processing device including at least one order-processing processor in data communication with the at least one robot processor. At least one of the order-processing processor and the robot processor is configured to receive at least one order including at least one product to be picked, generate at least one picking itinerary based upon the at least one order and warehouse information, generate at least one travel path for the at least one robot based upon the picking itinerary, and direct the robot along the travel path.

Abstract: According to some embodiments, a system for transmitting and rendering a visualization of at least one object is described herein. The system includes a web server having access to at least one web page that includes three-dimensional embedding (“3D embedding”) instructions for requesting at least one 3D visualization associated with an object; a client computer in the data communication with the at least one web server, the client computer configured to receive the at least one web page and execute the 3D-embedding instructions included therein to send a request for the visualization associated with the object; and a visualization server in data communication with the client computer configured to determine whether the visualization is available, and determine whether the client computer is operable to render the 3D visualization, and determine whether to provide the 3D visualization data to the client computer.

Abstract: A handheld electronic device includes a housing adapted to engage a holster, and a sensor having an input adapted to sense engagement of the housing with the holster and an output responsive to that engagement. The output includes an out-of-holster state and an in-holster state. A processor circuit includes a routine, an input receiving the sensor output and an output having a first intensity state and a second greater intensity state. A vibrator within the housing is adapted to vibrate the housing at a plurality of different intensities. The routine outputs to a control circuit the first intensity state when the sensed engagement includes the out-of-holster state, and the second greater intensity state when the sensed engagement includes the in-holster state. The control circuit activates the vibrator at a first intensity corresponding to the first intensity state and at a second greater intensity corresponding to the second greater intensity state.

Abstract: A handheld electronic device includes a housing adapted to engage a holster, and a sensor having an input adapted to sense engagement of the housing with the holster and an output responsive to that engagement. The output includes an out-of-holster state and an in-holster state. A processor circuit includes a routine, an input receiving the sensor output and an output having a first intensity state and a second greater intensity state. A vibrator within the housing is adapted to vibrate the housing at a plurality of different intensities. The routine outputs to a control circuit the first intensity state when the sensed engagement includes the out-of-holster state, and the second greater intensity state when the sensed engagement includes the in-holster state. The control circuit activates the vibrator at a first intensity corresponding to the first intensity state and at a second greater intensity corresponding to the second greater intensity state.