Abstract: A system for managing semiconductor production includes a conveyor to convey a wafer carrier to or from an overhead hoist transfer system. The system also includes a cross-system transport apparatus to transfer the wafer carrier between the conveyor and an overhead shuttle system.

Abstract: In an infrastructure that uses a mobile order fulfillment system, robotic drive units may be dispatched and instructed to bring inventory holders to a workstation where at least one of the inventory holders is packed and prepared for shipment. The robotic drive units are then instructed to move the prepared inventory holder to a transport vehicle such as a truck. Fiducial marks may be removably placed within the transport vehicle to aid navigation of the robotic drive units. At a destination facility, additional robotic drive units may be instructed to move the inventory holders from the truck and place the inventory holders at appropriate storage locations.

Abstract: A system is described for determining a relative location of a plurality of items upon a plurality of platforms. The system may include a memory, an interface, and a processor. The memory may store a first item, a second item, a first period of time and a second period of time. The interface may be operative to communicate with a user and an antenna. The antenna may be able to detect an item for a period of time. The processor may be operative to receive from the antenna, via the interface, the first item, the first period of time, the second item and the second period of time. The processor may determine whether the periods of time overlap. If the periods of time overlap the processor may communicate to the user that the items are upon the same platform, otherwise that the items are on consecutive platforms.

Abstract: Objects are sorted according to predetermined groups of sorting feature values. In particular, postal items are sorted according to groups of delivery addresses. A sorting system sorts the objects into a sequence so that all objects with sorting feature values belonging to the same predetermined value group are situated one directly behind another in this sequence. The sorting system has x1 storage subregions, x2 sorting subregions and a sorting plan. The objects are apportioned to the x1 storage subregions. For each storage subregion, an apportionment step is then carried out, in which the objects from this storage subregion are apportioned to the x2 sorting subregions. The apportionment steps are performed one after the other. Each apportionment step, is followed by a sorting and output step for each sorting subregion, in which the objects from this sorting subregion are brought into a sequence in accordance with the sorting feature values and this sequence is output.

Abstract: A system for automated inventory management and material handling removes the requirement to operate fully automatically or all-manual using conventional vertical storage and retrieval (S&R) machines. Inventory requests to place palletized material into storage at a specified lot location or retrieve palletized material from a specified lot are resolved into missions for autonomous fork trucks, equivalent mobile platforms, or manual fork truck drivers (and their equipment) that are autonomously or manually executed to effect the request. Automated trucks plan their own movements to execute the mission over the warehouse aisles or roadways sharing this space with manually driven trucks. Automated units drive to planned speed limits, manage their loads (stability control), stop, go, and merge at intersections according human driving rules, use on-board sensors to identify static and dynamic obstacles, and human traffic, and either avoid them or stop until potential collision risk is removed.

Abstract: In recent years, frames have gotten larger in size and thinner, and warping of the frames has posed a problem. If a warp of a frame is large, there is a high possibility that fetching the frame may fail. If fetching the frame fails, that is, if the frame cannot be fetched, the lead time of mounting gets longer. Further, the frame that cannot be fetched has to be manually removed by an operator. Therefore, a man-hour increases. According to the present invention, before a loader feeder fetches a frame from a frame magazine, a loader lifter is moved in a Y direction. Thereafter, the loader feeder fetches the frame from the frame magazine.

Abstract: A work picking system according to embodiments includes a three-dimensional measuring unit, a hand, a calculating unit, a determining unit, and an instructing unit. The three-dimensional measuring unit measures a three-dimensional shape of a work that is a gripping target. The hand is provided on a terminal movable unit of a multi-axis robot and includes a mechanism that changes a distance between gripping claws and a mechanism that changes a tip end direction of the gripping claws. The determining unit determines a tip end direction of the gripping claws based on the attitude of the work calculated by the calculating unit and a direction of a rotation axis of the terminal movable unit.

Abstract: An apparatus and a method for positioning electronic components to be transferred in relation to a discharging device. The discharging device includes a slide for at least one electronic component and a housing surrounding the slide. The electronic components are provided by a first carrier, which comprises a first side facing the discharging device and a second side facing away from the discharging device. An image data acquisition device captures image data of a region in which the slide is set up. A control determines positional data of the electronic component to be transferred and for generating control commands from the positional data. An actuator moves the first carrier and the discharging device in relation to each other in response to the control commands to change an offset between a longitudinal axis of the slide and a center axis of the electronic component.

Abstract: A control device (50) and a conveying method for conveying carriers (40 to 49) in a machine (1) are provided. The control device (50) comprises a determining unit (51) for determining the velocity of a carrier (40 to 49) in a first conveying device (10) in which carriers (40 to 49) are conveyed with magnetic force and with variable velocity for each carrier (40 to 49) from a first position to a second position different from the first position, and an evaluating unit (52) for evaluating the velocity of carriers (40 to 49) in a second conveying device (20) in which carriers (40 to 49) are conveyed from a second position to a third position different from the second position, wherein the determining unit (51) is arranged to determine the velocity of each carrier (40 to 49) in the first conveying device (10) on the basis of the evaluation result of the evaluating unit (52) so that the carriers (40 to 49) move continuously between the first and second conveying devices (10, 20).

Abstract: A system and method for determining a location of an unloaded unit of agricultural product and locating a desired unit of agricultural product or identifying a candidate unit of agricultural product as a function of sensing system information indicating contact of the unit with the ground or other surface onto which the unit is unloaded, global positioning system or other location system information identifying the contact or related location, and heading information, which information can then be used to discern the unit from others at the location for desired loading.

Abstract: A carrying device includes a rack and a platform. The platform that loads goods, is moveably arranged on a handle of the rack. The carrying device further includes a sensor that detects the goods loaded on the platform, a motor that is connected to the platform, and a controlling unit that controls the motor drive the platform to move relative to the handle with a predetermined distance, according to whether the sensor detects the goods loaded on the platform.

Abstract: The present invention is directed to a system and method for establishing and/or maintaining proper alignment of a transfer mechanism. More specifically, the present invention is directed to an alignment system and method having one or more of: (a) a laser alignment device operable to providing precise locational coordinates for alignment of a robotic transfer mechanism relative to a holding structure; (b) an alignment tool for aligning a laser alignment device relative to robotic transfer mechanism; (c) lead in ramps to properly guide an individual specimen container into a holding well; and/or (d) a belt tensioning device for maintaining proper tension on one or more timing belts.

Abstract: In STEP 1, a mapping operation is carried out by a mapping device. In STEP 2, based on position information for the wafer (W) detected by the mapping operation, it is determined whether or not a wafer (W) position is in an abnormal state or not. When the wafer position is determined to be in the abnormal state (Yes), a closing/opening operation, in which a FOUP door (19c) is temporarily closed and then opened, is carried out in STEP 3. In STEP 4, the number of times the FOUP door (19c) is closed/opened (in other words, the number of times a port door (62) is closed/opened) is counted, and in STEP 5, it is determined whether or not this count value is less than a preset value. If the count value is less than the preset value (Yes), the processing in STEP 1-STEP 5 is repeated once again.

Abstract: A system for picking and placing glass articles from a first location to a second location, the second location including a thermal reforming apparatus for transforming the glass articles from 2D glass articles to 3D glass articles includes a robot having an end effector, the end effector including a compliance assembly having at least six degrees of freedom. The compliance assembly is in fluid communication with both an open pneumatic system and a closed pneumatic system, the open pneumatic system providing a partial vacuum to a portion of the compliance assembly for grabbing the glass article, and the closed pneumatic system for activating a centering function for a portion of the compliance assembly.

Abstract: One embodiment is a three dimensional load method for simulating loading of items into at least one container to be transported to at least one destination. The method includes receiving a list of items to be transported, determining at least one container as an optimal number and type of container to be used for transporting the items, and initializing an empty space list to include one space equal to a size of the at least one container. The method also includes initializing a placed item list and an unplaced item list, such that the placed item list includes a list of items already loaded on the at least one container and the unplaced item list includes a list of items to be loaded on the at least one container.

Abstract: A method of controlling a mobile drive unit includes detecting, by a mobile drive unit at a first location, an active marker at the first location. The mobile drive unit is a self-powered robotic device configured to move independently in a workspace in response to instructions received from the active marker. A management module transmits an instruction to the active marker. The active marker emits a signal detectable by the mobile drive unit, the signal comprising the instruction. The mobile drive unit receives the instruction from the active marker for the mobile drive unit to perform a task.

Abstract: A method includes receiving a request for the use of a first storage medium located in a first library unit in a storage medium library. It is determined that the first storage medium is to be moved by a transportation component. In response to determining that the first storage medium is to be moved by the transportation component, it is determined that the transportation component is located at a second library unit. In response to determining that the transportation component is located at the second library unit, it is determined that a second storage medium, which is in the second library unit, can be transported to the first library unit. In response to a determination that the second storage medium can be transported to the first library unit, the second storage medium is transported to the first library unit.

Abstract: An apparatus comprises a network interface, a processor and a computer readable storage medium coupled with the processor. The computer readable storage medium includes computer usable program code. The computer usable program code, when executed by the processor, causes the processor to receive a request for a first storage medium located in a first library unit in a storage medium library. The processor is caused to determine that the first storage medium is to be moved by a transportation component. The processor is caused to, responsive to said determination, determine that the transportation component is located in a second library unit. The processor is caused to, responsive to said determination, determine that a second storage medium located in the second library unit can be transported to the first library unit. Responsive to said determination, the processor is caused to transport the second storage medium to the first library unit.

Abstract: An apparatus includes a network interface, a processor and a computer readable storage medium. The processor is coupled with the computer readable storage medium. The computer readable storage medium has computer readable program code embodied therewith. The computer readable program code, when executed by the processor, causes the processor to determine the state of a storage medium library and determine distribution for a plurality of distributable components within the storage medium library based, at least in part, on the state of the storage medium library. The computer readable program code also causes the processor to, responsive to a determination of the distribution for the plurality of distributable components within the storage medium library, issue commands distributing the plurality of distributable components within the storage medium library in accordance with the distribution.

Abstract: A wide area radio frequency identification (RFID) system includes: a first RFID cell and a second RFID cell. The first RFID cell and the second RFID cell each include a reader and tags. The readers access the tags using ultra-wide band signaling. The RFID cells each include: a communications interface operable to communicate with a network operations center, and a communications gateway which supports direct communications between RFID cells. The method includes accessing the second RFID cell from the first RFID cell, and the accessing is performed using the communications gateway that can cover a range of at least five hundred meters.

Abstract: There is provided a loading and unloading apparatus for performing loading and unloading of workpieces with respect to access positions on a pallet, including a plurality of hands which sequentially access the access positions on the pallet, the plurality of hands including a first and a second hand. Further, the loading and unloading apparatus includes a managing unit which maintains an access position of the first hand, and a determining unit which determines a movement path of the second hand based on the access position of the first hand.

Abstract: A transport apparatus includes a bearing assembly for transporting an article. The bearing assembly includes a support structure for receiving the article, and a plenum housing for receiving the support structure. The plenum housing and the support structure define a plenum cavity, the plenum cavity being configured to receive and direct a flowing gas for floatingly supporting the article above the support structure. The bearing assembly further includes at least one sensor assembly, which includes a sensor for transmitting and receiving energy emissions for determining a location of the article relative to the support structure. The sensor assembly may determine the location of the article relative to the support structure substantially through at least one aperture located on the bearing assembly. The article location determined by the sensor assembly may be communicated to a display panel or a control unit for adjusting the location if necessary.

Abstract: The invention relates to a method for processing items such as pieces of meat, comprising the steps of providing a stream of items 10 by means of a primary conveyor means 4, allocating at least partly by means of a computer system 8, 20 one or more of said items 10 to one of at least two workstations 1 where said items 10 are processed, e.g. cut and/or trimmed, resulting in one or more processed items 11, registering in said computer system 8, 20 information about a return of at least one of said one or more processed items 11 to said primary conveyor means 4, and returning said at least one of said one or more processed items 11 to said primary conveyor means 4 in accordance with said information about a return. The invention further relates to a system for processing items such as pieces of meat, said system comprising the means essential to carry out the above-mentioned method.

Abstract: A robot-enabled method of picking cases in a warehouse is provided. A robotic vehicle includes a processor configured to access a memory, a user input device, an output device, and a load platform, and has access to an electronically stored representation of a warehouse. The representation includes a map that defines aisles for storing items arranged as pick faces within the warehouse. A pick list is generated from an order; the pick list provides identifications of items to be picked to fulfill the order. Determined from the pick list is a plurality of stops at pick faces associated with the items. A route within the map is generated that includes the plurality of stops. The robotic vehicle iteratively guides itself along the route and automatically stops at each of the plurality of stops to enable loading of the items from the pick list onto the load platform.

Abstract: A system is described for determining a relative location of a plurality of items upon a plurality of platforms. The system may include a memory, an interface, and a processor. The memory may store a first item, a second item, a first period of time and a second period of time. The interface may be operative to communicate with a user and an antenna. The antenna may be able to detect an item for a period of time. The processor may be operative to receive from the antenna, via the interface, the first item, the first period of time, the second item and the second period of time. The processor may determine whether the periods of time overlap. If the periods of time overlap the processor may communicate to the user that the items are upon the same platform, otherwise that the items are on consecutive platforms.

Abstract: Methods, devices, non-transitory storage media, and systems that utilize operations including configuring each feed conveyor in the plurality of feed conveyors to operate in a slug-building merge mode, monitoring to identify a first predefined condition, configuring each feed conveyor in the plurality of feed conveyors to operate in a zippering merge mode in response to identifying the first predefined condition, monitoring to identify a second predefined condition, and configuring a first set of the feed conveyors in the plurality of feed conveyors to operate in the slug-building merge mode and a second set of the feed conveyors in the plurality of feed conveyors to simultaneously operate in the zippering merge mode in response to identifying the second predefined condition.

Abstract: During a carrying operation, the position, transportation origin, and transportation destination of a carrier or a boat can be easily checked. A carrying system is configured to carry a substrate, a manipulation unit is configured to display an operation state of the carrying system on a manipulation screen, and a control unit is configured to control an operation of the carrying system. The manipulation unit displays a carrying system icon indicating the carrying system which is a carrying target object and a carrying-out icon at predetermined positions of the manipulation screen corresponding to a transportation origin of the carrying system, and a carrying-in icon at a predetermined position of the manipulation screen corresponding to the transportation destination of the carrying system.

Abstract: A control apparatus in a substrate treating system with a substrate treating apparatus having a physical load port for receiving pods for storing substrates, and a carrier transport system for transporting the pods to and from the physical load port. The control apparatus includes a virtual load port control device for allotting a virtual load port to the physical load port, and instructing the carrier transport system to perform a transporting operation to and from the virtual load port on an assumption that the virtual load port really exists.

Abstract: A device for launching products into a feeding path, including a launcher; a detection sensor to detect the passage of products launched by the launcher; a launcher central control unit; conveyors to move forward the products in the feeding path, associated with a drive member; and at least one movement sensor to detect the position of the products moved by the conveyors. The central control unit is programmed to control the start position taken by each group of products, downstream of the detection sensor, and to impose on each group of products a forward movement according to the length of the group of products and to an adjustment factor determined by the error, if any, between the detected start position and a desired start position.

Abstract: A network device comprises a storage device storing an application program for a secure communications service; and at least one processor configured to execute the application program enabling the network device to: (a) send a request to look up a network address of a second network device based on an identifier; (b) receive an indication that the second network device is available for the secure communications service, the indication including the requested network address of the second network device and provisioning information for a secure communication link; (c) connect to the second network device over the secure communication link, using the received network address of the second network device and the provisioning information for the secure communication link; and (d) communicate at least one of video data and audio data with the second network device using the secure communications service via the secure communication link.

Abstract: In a computer-controlled conveying system (3), virtual markers (K1-K10) are generated and are stored in association with a conveying element (31, 32, 33, 34). The virtual markers (K1-K10) each comprise a marker position which is based on the current position of the conveying element (31, 32, 33, 34) at the time of generation. A search is carried out for stored virtual markers (K1, K5, K6, K9) which have a relative position with respect to the associated conveying element (31, 32, 33, 34) that lies within a defined sector (T1, T2, T3) at the search time. Actuators of the conveying system (3) are driven depending on whether virtual markers (K1, K5, K6, K9) were found in the defined sector (T1, T2, T3) during searching. The virtual markers (K1-K10) may be applied to the conveying elements (31, 32, 33, 34) with dynamically changing distances, for example, and make it possible to drive actuators in a flexible manner independently of a fixedly defined clock rate.

Abstract: A linear conveyor is provided with a linear motor stator including electromagnets and operable to individually undergo electric current supply control with respect to each zone; a conveyor carriage provided with a linear motor rotor and a unique information storing device; motor control devices configured to perform electric current supply control for the electromagnets with respect to each zone; and a reading device configured to read position correction data of the conveyor carriage stored in the unique information storing device. Each of the motor control devices is configured to correct a target stop position of the conveyor carriage, with use of the position correction data read by the reading device for performing electric current supply control based on the corrected target stop position.

Abstract: A system for automatically exchanging a battery of an electric vehicle, the system including a horizontal frame of a predetermined area formed at a location higher than the electric vehicle; a plurality of battery stands formed on a bottom surface of the horizontal frame at a predetermined interval; a pair of fixed guide rails arranged and installed on front and rear sides or left and right sides of the horizontal frame, respectively; a variable guide rail adapted to move horizontally along X-axis or Y-axis along the fixed guide rails; a movable rail adapted to move horizontally along Y-axis or X-axis along the variable guide rail and ascend/descend vertically; and a grasping means installed on a lower end of the movable rail and adapted to pick up a battery of the electric vehicle or a battery seated on the battery stand and exchange each other.

Abstract: A system and method provides for a pneumatic tube carrier routing and tracking system having a system control module that captures and presents tracking information associated with sending and receiving carriers. The pneumatic tube carrier tracking system comprises sending and receiving stations connected by pneumatic tubing, and which are configured to securely send carriers, with receiving users optionally being restricted from unauthorized access of carriers. The pneumatic tube carrier tracking system further comprises a color sensor to automatically route the color-coded carriers to dedicated receiving stations using color identifiers. The sending and receiving stations further have identifying tag readers configured to scan identifier tags to read carrier delivery, carrier receipt and receiving user information.

Abstract: An efficient method of controlling transportation in a linear tool type vacuum process device in a state that a length of time required for a process is not stable. For each process chamber, the number of unprocessed wafers that are in process or are being transported to the process chamber is counted, and in deciding a transport destination of a wafer, when the number of unprocessed wafers is equal to or larger than a charge limit amount, a transport destination of a wafer is decided excluding the process chamber. Also, a wafer holding mechanism on a transport path to a process chamber is reserved, and a transport destination of a processed member to be transported next is decided according to a status of reservation.

Abstract: A method and apparatus for managing different traffic speeds of carriages moving along a closed-loop track is disclosed. The closed-loop track has at least four different speed zones, which include a slow speed zone, a fast speed zone, an acceleration zone, and a deceleration zone. A computerized control system monitors and controls the movement of the carriages along the different speed zones of the closed loops track, so different traffic speeds are maintained along the closed loop track, simultaneously, with no collisions.

Abstract: A radio frequency identification (RFID) tower crane load locator is disclosed. One example includes at least four RFID components to provide RFID range measurements between the at least four RFID components. In addition, a load position determiner utilizes the RFID range measurements to determine a location of the load. A load information generator provides the location of the load information suitable for subsequent access by a user.

Abstract: A manufacturing system has one or more work cells that each performs one or more manufacturing processes. The system also has one or more mobile transport units (“MTUs”) that deliver transportable containers containing workpieces to and from said work cells. The MTUs deliver the containers to the work cells in a manner such that the workpieces are localized in the work cells. The manufacturing system also has a computer system that has status information for each of the one or more MTUs and uses the status information to control each of the one or more MTUs to deliver the transportable containers to and from the one or more work cells.

Abstract: A method for processing waste in a material handling system includes detecting an occurrence of a trigger event associated with a waste holder located at a first location and, in response to detecting the trigger event, moving a mobile drive unit to the first location. The method also includes loading waste material onto the mobile drive unit at the first location and transporting the waste material to a waste station using the mobile drive unit.

Abstract: Systems and methods are provided for the loading and unloading of cargo in transport means. In one example, a cargo loading system having a fully automated conveyor system and a fully automated bolt system for locking the cargo unit is provided. Manual interventions of the loading personnel in the cargo space may not be necessary.

Abstract: A method for modeling conveyance or flows of material or other functional behaviors, particularly in the form of components that generate material actions; a method for modeling a system having components, particularly a postal item distribution system, and; the generation of a discrete component-oriented simulation model based on the modelings, particularly as a basis for components and/or system implementation. Modeling of each component is carried out on the basis of a flexible component model that takes the input behavior and the functional behavior of a component into account, and that two components at a time transfer discrete events or discrete material units to one another by using a general communications model, particularly by using communication types.

Abstract: A storage unit for the drop-off, delivery, and pick-up of personal garments includes a plurality of apparel totes, each sized to enclose a plurality of apparel items on hangers, each including a machine-readable medium carrying a tote identifier code, and each configured with an access panel to allow deposit and retrieval of apparel items on hangers. A multi-layer conveyor system selectively moves apparel totes to and from a pre-defined customer access position and to and from a plurality of storage positions on each of at least two horizontal storage layers.

Abstract: Embodiments of techniques and systems for log stability determination are described. A log position optimizer may be configured to identify one or more rest positions for a log to be conveyed on a sharp chain. The rest positions may be identified based on identification of contact points where the sharp chain may contact the log that have no intervening contact points that prevent stable contact between the log and the sharp chain. A preferred rest position may be selected out of the identified rest positions. The preferred rest position may be selected based on determination of which contact points are stable or unstable. This determination may be made for each contact point in a cross-sectional plane of the log. The log position optimizer may then control a log positioning mechanism to position the log in the selected rest position. Other embodiments are also described and claimed.

Abstract: A radio frequency identification (RFID) tower crane load locator is disclosed. One example includes at least four RFID components to provide RFID range measurements between the at least four RFID components. In addition, a load position determiner utilizes the RFID range measurements to determine a location of the load. A load information generator provides the location of the load information suitable for subsequent access by a user.

Abstract: The discharge accuracy of unit sortation is improved by making real time adjustments to the discharge timing of the carrier based on the determined actual position of each article on respective carriers. The adjustments are applied at the time the discharge command is given.

Abstract: Systems for effecting transfer of reaction receptacles between modules of an instrument for performing multi-step analytical procedures and for adjusting for variations in the positions of such modules includes a receptacle carrier supported on a track on which the carrier translates between different modules located adjacent to the track. The carrier includes a receptacle distribution head supported on a receptacle carrier carriage. The distribution head includes a receptacle moving mechanism adapted to move receptacles into and out of the distribution head and into and out of a module. The carriage is engaged with the track and adapted for translation along the track. Drive systems effect powered translation of the carriage, powered elevation and rotation of the distribution head, and powered movement of receptacles into and out of the distribution head. A transfer position locating system automatically determines a receptacle transfer position of the receptacle carrier with respect to each module.

Abstract: A system and method provides for a pneumatic tube carrier tracking system having a system control module that captures and presents tracking information associated with sending and receiving carriers. The pneumatic tube carrier tracking system comprises sending and receiving stations connected by pneumatic tubing, and which are configured to securely send carriers, with receiving users optionally being restricted from unauthorized access of carriers. The sending and receiving stations have identifying tag readers configured to scan identifier tags to read carrier delivery, carrier receipt and receiving user information. Destination and intended recipient information are entered at the sending station when sending a carrier and are transmitted to a system control module, which routably delivers and secures the carriers in response the destination and intended recipient information.

Abstract: Provided herein is a system and method for alleviating gridlock in a pneumatic tube system. In various instances where inter-zone transactions conflict, one of the transactions is removed from a conflicting set and temporarily delivered to an alternate location in the system. This allows other blocked transactions to proceed. Once the gridlock condition is alleviated, the temporarily delivered carrier is retrieved and rerouted to its intended destination.

Abstract: A method for managing drilling rods, drilling tools, well—tubing and the like for ground drilling, particularly for exploring deposits of fossil fuels or geothermal reservoirs. An electronic data processing system stores information regarding the inventory and the present storage location of parts to be inserted into the well, such as drilling rods, drilling pipes, lining tubing, intermediate parts, drill bits, and the like, with additional information being saved in the computing system regarding the installation position and/or installation sequence of all parts inserted into the well so that the computing system can indicate to a user when and from where which part shall be fed to the well hole—supply system and/or to what location which part shall be returned to for storage when it must be removed from the well, and/or the computing system controls an automatic storage, supply, and restorage device.

Abstract: A sample analysis and/or sample processing system having a robotic system includes at least one carrier in which one or more objects are retained, a positioning region having a plurality of defined Positions for positioning the at least one carrier, a robot for approaching the object(s) in the carrier, and a control unit for storing the position of the carrier and the objects retained therein and for controlling the robot. The positioning region has an elongate profile-member having a plurality of coupling positions stored in the control unit, and the carrier provides a coupling for suspending the carrier in a specific coupling position on the elongate profile-member.