Abstract: The present disclosure achieves accurate tracking of sunlit orbital objects, including small, dim orbital debris, using a ground-based telescope and detector which tracks the orbital object. The angular position of the orbital object relative to background celestial objects is accurately determined over a trajectory, allowing accurate determination of the orbit parameters.

Abstract: GPS-based position reporting suffers from probabilistic error. The system and methods discussed herein reduce uncertainty by mapping a geometric figure that encompasses a GPS-based reported location and that bounds corresponding predetermined-as-more-probable true locations (MPTL's) among possible locations for the source of the reported location. The mapped figure is overlaid on a relatively accurate mapping of substantially adjacent polygonal areas. Areas of overlap are used for picking among the areas, the polygonal area most likely to be occupied by the source. In one embodiment, the polygonal areas are closely packed parking spots in a parking lot, garage or other like structure, the source is a customer's mobile phone and an attendant is tasked with quickly delivering ordered goods to the customer's parking spot.

Abstract: Techniques for determining an estimated time of arrival at a pickup location are discussed herein. For example, techniques may include receiving first location data from a user computing device approaching a pickup location, receiving data indicating when the device entered a virtual boundary associated with the pickup location, determining a location of the device when it was a particular time period away from entering the virtual boundary, associating the location with a discretized location of a map, applying a blurring function to generate a probability field indicating probability of entering the virtual boundary within the time period, using the probability field to determine probability of arriving at the pickup location within the particular time period, and triggering an action based on the probability meeting a threshold.

Abstract: Techniques for determining an estimated time of arrival associated with a pickup location are described herein. For example, a customer can order a good or service for pickup at a pickup location. In some examples, order data can include a pickup location intent, such as a drive-through location, a pickup window, or a parking location. A location of a user computing device can be determined and can be input to a machine-learning model trained to determine estimated times of arrival for a particular location. In some examples, the machine-learning model can be trained with ground truth data specific to the location for which the model is to determine estimated times of arrival. The machine-learning model can output the estimated time of arrival and can update the time at any regular or irregular intervals, which can be used to prioritize an order in an order queue.

Abstract: Techniques for managing pickup orders are discussed herein. A managing computing device can receive first and second pickup orders made at different time points associated with a first user. The pickup orders can be directed to the same store. The managing computing device can group the first and the second pickup orders as a batched order which can update a priority of the first or second pickup order. The managing computing device can receive location data from a computing device associated with the first user or a third party. The managing computing device can determine an estimated arrival time of the first user or the third party based on the location data. The managing computing device can send a message to a store computing device associated with the store, indicating the estimated arrival time and the batched order associated with the first user.

Abstract: The present disclosure provides a system that searches for and finds orbital debris that can be a hazard to satellites and the like, for which the debris is sunlit. The system includes a ground-based telescope pointed at the sky; a detector array that detects images of the sunlit debris crossing the field of the detector; and a processing system that computes tracks from the detector data using a hierarchical algorithm, which builds longer tracks from previously computed shorter tracks, determines whether the computed tracks correspond to valid debris detections, and converts the track computations into debris brightness and debris orbital trajectory.

Abstract: Techniques for determining an estimated time of arrival associated with a pickup location are described herein. For example, a customer can order a good or service for pickup at a pickup location. In some examples, order data can include a pickup location intent, such as a drive-through location, a pickup window, or a parking location. A location of a user computing device can be determined and can be input to a machine-learning model trained to determine estimated times of arrival for a particular location. In some examples, the machine-learning model can be trained with ground truth data specific to the location for which the model is to determine estimated times of arrival. The machine-learning model can output the estimated time of arrival and can update the time at any regular or irregular intervals, which can be used to prioritize an order in an order queue.

Abstract: The present disclosure achieves accurate tracking of sunlit orbital objects, including small, dim orbital debris, using a ground-based telescope and detector which tracks the orbital object. The angular position of the orbital object relative to background celestial objects is accurately determined over a trajectory, allowing accurate determination of the orbit parameters.

Abstract: A multi-functional clamp for the installation of a wind turbine on an offshore substructure by a crane vessel equipped with a lifting crane, the multi-functional clamp having: a main body configured to selectively clamp and unclamp the lower part of the tower of a wind turbine and is shaped so as to couple with the crane vessel so as to define a given position for the tower with respect to the crane vessel; and a plurality of hooking members extending from the main body and configured to secure and release the free ends of a rigging assembly of the lifting crane to the main body so as to lift the multi-functional clamp by the lifting crane.

Abstract: GPS-based position reporting suffers from probabilistic error. The system and methods discussed herein reduce uncertainty by mapping a geometric figure that encompasses a GPS-based reported location and that bounds corresponding predetermined-as-more-probable true locations (MPTL's) among possible locations for the source of the reported location. The mapped figure is overlaid on a relatively accurate mapping of substantially adjacent polygonal areas. Areas of overlap are used for picking among the areas, the polygonal area most likely to be occupied by the source. In one embodiment, the polygonal areas are closely packed parking spots in a parking lot, garage or other like structure, the source is a customer's mobile phone and an attendant is tasked with quickly delivering ordered goods to the customer's parking spot.

Abstract: Techniques for managing orders among chain stores based on a location of a pickup customer are discussed herein. In some cases, a pickup order can be relocated or a user/pickup entity can be redirected to a particular store. A pickup order to be picked up from a first store can be received from a customer. A location of a user device associated with the user or the pickup entity can be determined to be proximate to a second store. In response, a first message can be sent to the user device instructing the customer or the pickup entity to travel to the first store instead of the second store. A second message can be sent to the user device indicating that the pickup order has been relocated to the second store, and the pickup order can be sent to another computing device associated with the second store.

Abstract: A stability frame for the installation of a wind turbine on an offshore substructure, wherein the wind turbine comprises a tower configured to be anchored to a rigging assembly below the barycenter of the wind turbine, has a main body configured to be mounted about the upper part of the tower; and a plurality of guides, which extend outwardly from the main body and are configured for constraining parts of the rigging assembly so as to laterally support the wind turbine by the rigging assembly.

Abstract: The present disclosure provides a system that searches for and finds orbital debris that can be a hazard to satellites and the like, for which the debris is sunlit. The system includes a ground-based telescope pointed at the sky; a detector array that detects images of the sunlit debris crossing the field of the detector; and a processing system that computes tracks from the detector data using a hierarchical algorithm, which builds longer tracks from previously computed shorter tracks, determines whether the computed tracks correspond to valid debris detections, and converts the track computations into debris brightness and debris orbital trajectory.

Abstract: GPS-based position reporting suffers from probabilistic error. The system and methods discussed herein reduce uncertainty by mapping a geometric figure that encompasses a GPS-based reported location and that bounds corresponding predetermined-as-more-probable true locations (MPTL's) among possible locations for the source of the reported location. The mapped figure is overlaid on a relatively accurate mapping of substantially adjacent polygonal areas. Areas of overlap are used for picking among the areas, the polygonal area most likely to be occupied by the source. In one embodiment, the polygonal areas are closely packed parking spots in a parking lot, garage or other like structure, the source is a customer's mobile phone and an attendant is tasked with quickly delivering ordered goods to the customer's parking spot.

Abstract: The disclosure relates to technology for determining locations of approaching recipients of online pre-requested or pre-ordered goods/services. Physical waiting queues and/or wait-lists are managed so that the goods/services will be provided without excessive wait times or unacceptably long wait lines or inferior quality in the provided goods/services. Resolution of location determination becomes finer and finer in one embodiment as the recipients get closer to the provisioning spot. If there is a change of plans, the recipients are notified ahead of time so as to avoid last minute surprises or disappointments.

Abstract: Technology is disclosed for automatically building an expandable invoice for incurred charges based on recognition of charge-incurring activities by persons whose specific identities are not known via the activity recognition process. A separate process detects location of sourcing and time for a Patron-presence and Patron-identifying Advertising radio Signal (P/PAS) repeatedly broadcast by a P/PAS emitter possessed by each participating patron. Records from the two processes are matched and combined based on substantial proximity in time and space for the activity recognition and the presence detection. Payment on a pay-go-whenever-ready (PGWeR) basis is enabled with use of the built invoice. A patron can pay and leave whenever ready to do so without need for intervention by an on premise staff member.

Abstract: A multi-functional clamp for the installation of a wind turbine on an offshore substructure by a crane vessel equipped with a lifting crane, the multi-functional clamp having: a main body configured to selectively clamp and unclamp the lower part of the tower of a wind turbine and is shaped so as to couple with the crane vessel so as to define a given position for the tower with respect to the crane vessel; and a plurality of hooking members extending from the main body and configured to secure and release the free ends of a rigging assembly of the lifting crane to the main body so as to lift the multi-functional clamp by the lifting crane.

Abstract: GPS-based position reporting suffers from probabilistic error. This disclosure reduces uncertainty by mapping a geometric figure that encompasses a GPS-based reported location and that bounds corresponding predetermined-as-more-probable true locations (MPTL's) among possible locations for the source of the reported location. The mapped figure is overlaid on a relatively accurate mapping of substantially adjacent polygonal areas. Areas of overlap are used for picking among the areas, the polygonal area most likely to be occupied by the source. In one embodiment, the polygonal areas are closely packed parking spots in a parking lot, garage or other like structure, the source is a customer's mobile phone and an attendant is tasked with quickly delivering ordered goods to the customer's parking spot.

Abstract: Technology is disclosed for automatically building an expandable invoice for incurred charges based on recognition of charge-incurring activities by persons whose specific identities are not known via the activity recognition process. A separate process detects location of sourcing and time for a Patron-presence and Patron-identifying Advertising radio Signal (P/PAS) repeatedly broadcast by a P/PAS emitter possessed by each participating patron. Records from the two processes are matched and combined based on substantial proximity in time and space for the activity recognition and the presence detection. Payment on a pay-go-whenever-ready (PGWeR) basis is enabled with use of the built invoice. A patron can pay and leave whenever ready to do so without need for intervention by an on premise staff member.

Abstract: The system and method of the present disclosure relates to a remotely configurable wireless broadcast device connected to a network. The device includes a network connected computer and a proxy that interfaces with one or more non-network connected broadcast devices. The wireless broadcast device monitors the non-network connected broadcast devices and periodically reports the status for each of the devices. A server, remotely located from the configurable wireless broadcast device, receives and processes the status reports. The status reports may also be monitored by a user via a common user interface connected to the server. After processing the status reports, the server sends configuration data, including updated or modified information, back to the wireless broadcast device instructing the device to configure the non-network connected devices.