Abstract: Disclosed are various embodiments for managing location-based service zones that are active during limited time periods. A notification of a trigger event relating to a location-based time zone can be received. The time the notification is received can be compared to time window that the location-based service zone is active. A notification of the trigger event is sent to a respective provider associated with the location-based service zone when the location-based service zone is active.

Abstract: A system that performs self-diagnosing of unreliable radio frequency identification (RFID) tags in a first location within an environment includes an RFID printer that prints RFID tags in the first location and RFID antennas located at different distances to the first location. The system obtains, for each RFID tag, a first set of RFID parameters of the RFID tag for each RFID antenna when the RFID tag is in the first location. The system generates, for each RFID tag, a model of RFID tag behavior over different distances to an RFID antenna, based at least in part on the first set of RFID parameters obtained for the RFID tag.

Abstract: Disclosed are various embodiments for managing location-based service zones that are active during limited time periods. A notification of a trigger event relating to a location-based time zone can be received. The time the notification is received can be compared to time window that the location-based service zone is active. A notification of the trigger event is sent to a respective provider associated with the location-based service zone when the location-based service zone is active.

Abstract: A system that performs self-diagnosing of unreliable radio frequency identification (RFID) tags in a first location within an environment includes an RFID printer that prints RFID tags in the first location and RFID antennas located at different distances to the first location. The system obtains, for each RFID tag, a first set of RFID parameters of the RFID tag for each RFID antenna when the RFID tag is in the first location. The system generates, for each RFID tag, a model of RFID tag behavior over different distances to an RFID antenna, based at least in part on the first set of RFID parameters obtained for the RFID tag.

Abstract: Disclosed are various embodiments for managing which location-based service zones to monitor within a geographic region. An active zone defining a geographic region and location-based service zones within the geographic region is provided by another computing device. The selection of a subset of the location-based service zones to monitor within an active zone can be based on an estimated current device location and/or other parameters.

Abstract: A system that performs self-calibration for tracking packages includes a frame providing storage locations for storing items, radio frequency identification (RFID) tags disposed in the storage locations, and an RFID antenna(s). The system determines a distance between each RFID tag and the RFID antenna(s) and monitors signal characteristics from each RFID tag. For each RFID tag, the system generates (i) at least one first parameter indicative of an environmental condition(s) at a location of the RFID tag and (ii) at least one second parameter indicative of a response rate behavior of the RFID tag, based on the signal characteristics and the distance between the RFID tag and the RFID antenna(s). The system tracks an RFID tagged item located in one of the storage locations based at least in part on the first and second parameter(s) for each of the RFID tags.

Abstract: A system that performs self-calibration for tracking packages includes a frame providing storage locations for storing items, radio frequency identification (RFID) tags disposed in the storage locations, and an RFID antenna(s). The system determines a distance between each RFID tag and the RFID antenna(s) and monitors signal characteristics from each RFID tag. For each RFID tag, the system generates (i) at least one first parameter indicative of an environmental condition(s) at a location of the RFID tag and (ii) at least one second parameter indicative of a response rate behavior of the RFID tag, based on the signal characteristics and the distance between the RFID tag and the RFID antenna(s). The system tracks an RFID tagged item located in one of the storage locations based at least in part on the first and second parameter(s) for each of the RFID tags.

Abstract: Disclosed are various embodiments for managing location-based service zones that are active during limited time periods. A notification of a trigger event relating to a location-based time zone can be received. The time the notification is received can be compared to time window that the location-based service zone is active. A notification of the trigger event is sent to a respective provider associated with the location-based service zone when the location-based service zone is active.

Abstract: A system that performs self-diagnosing of unreliable radio frequency identification (RFID) tags in a first location within an environment includes an RFID printer that prints RFID tags in the first location and RFID antennas located at different distances to the first location. The system obtains, for each RFID tag, a first set of RFID parameters of the RFID tag for each RFID antenna when the RFID tag is in the first location. The system generates, for each RFID tag, a model of RFID tag behavior over different distances to an RFID antenna, based at least in part on the first set of RFID parameters obtained for the RFID tag.

Abstract: Disclosed are various embodiments for managing location-based service zones being monitored by a client device. The location-based service zones within a geographic region can be organized in location-based service zone clusters. In response to receiving an active zone from a computing device, a client device can begin monitoring the geographic parameters for the top-level location-based service zone clusters. When the client device detects an entry into a particular location-based service zone cluster, the client device stops monitoring the top-level location-based service zone clusters and begins monitoring the location-based service zones that are within the particular location-based service zone cluster.

Abstract: Disclosed are various embodiments for managing which location-based service zones to monitor within a geographic region. An active zone defining a geographic region and location-based service zones within the geographic region is provided by another computing device. The selection of a subset of the location-based service zones to monitor within an active zone can be based on an estimated current device location and/or other parameters.

Abstract: Disclosed are various embodiments for managing which location-based service zones to monitor when the number location-based service zones within a geographic region exceed the amount the device can support. An active zone defining a geographic region and location-based service zones within the geographic region is provided by another computing device. When the number of location-based service zones meets or exceeds a predefined threshold, a subset of the location-based service zones is selected for monitoring according to a current device location and/or other parameters.

Abstract: Disclosed are various embodiments for managing which location-based service zones to monitor when the number location-based service zones within a geographic region exceed the amount the device can support. An active zone defining a geographic region and location-based service zones within the geographic region is provided by another computing device. When the number of location-based service zones meets or exceeds a predefined threshold, a subset of the location-based service zones is selected for monitoring according to a current device location and/or other parameters.

Abstract: Disclosed are various embodiments for managing which location-based service zones to monitor when the number location-based service zones within a geographic region exceed the amount the device can support. An active zone defining a geographic region and location-based service zones within the geographic region is provided by another computing device. When the number of location-based service zones meets or exceeds a predefined threshold, a subset of the location-based service zones is selected for monitoring according to a current device location and/or other parameters.

Abstract: Disclosed are various embodiments for managing location-based service zones. Specifically, a dynamically sized geographic region surrounding a client device location can be created. Location-based service zones within the geographic region can be selected. If the amount of location-based service zones identified within the geographic region exceed a client-supported limit, a subset of location-based service zones are selected and sent to the client device for monitoring.

Abstract: Disclosed are various embodiments for a multi-provider management system for location-based service zones. The multi-provider management system can receive data associated with location-based service zones from multiple providers. A unique identifier can be assigned to each provider. The multi-provider management system can send location-based service zones from multiple providers to a client device, and can receive trigger event notifications associated with the location-based service zones. The unique identifier can be used to identify which provider to notify when receiving a trigger event notification.