Abstract: A computer-based processing system (e.g., host server) is operable for receiving historical device operation information (power consumption data) collected during operation of the remote battery-operated device in accordance with a first set of operating parameters, including rechargeable battery information (such as the number of charging cycles experienced). The first set of operating parameters enable operation of the battery-operated device in a first operating mode. The processing system calculates an observed battery life for the device based on the received historical power consumption data and a power capacity value representing a power capacity of the battery resident in the device. This observed battery life may be output to a user and used to determine whether the device will meet a predetermined operational life. If not, parameters for the device can be modified and a new projected battery life calculated (simulation), with the new modified parameters controlling power consumption in the device.

Abstract: Systems and methods for determining whether a device has moved based upon sensed changes to the observed magnetic field are disclosed herein. Various embodiments function on the principle that it is highly unlikely that the observed magnetic field will be the same in any two given locations (at least, when the observed magnetic field is measured in three dimensions), and moreover, it is unlikely that the observed magnetic field will change if the device remains stationary. Various embodiments therefore include one or more magnetic sensors (e.g., a compass) disposed within the device. The device can be configured to periodically check its current reading of the observed magnetic field. If the device determines that its magnetic reading has changed relative to its last reading, a possible or actual relocation event can then be declared.

Abstract: An asset tracking system, comprising an asset; a tag comprising a tag identifier, the tag associated with the asset; a tracker comprising: a device identifier, a reader configured to read the tag identifier from the tag, and a transmitter configured to transmit the tag identifier and the device identifier to a server; a server configured to receive the transmitted tag identifier and device identifier, to associate them with each other, and to store the tag identifier, device identifier, and the association in a database.

Abstract: A computer-based processing system (e.g., host server) is operable for receiving historical device operation information (power consumption data) collected during operation of the remote battery-operated device in accordance with a first set of operating parameters, including rechargeable battery information (such as the number of charging cycles experienced). The first set of operating parameters enable operation of the battery-operated device in a first operating mode. The processing system calculates an observed battery life for the device based on the received historical power consumption data and a power capacity value representing a power capacity of the battery resident in the device. This observed battery life may be output to a user and used to determine whether the device will meet a predetermined operational life. If not, parameters for the device can be modified and a new projected battery life calculated (simulation), with the new modified parameters controlling power consumption in the device.

Abstract: Systems and methods generate a data usage plan for a mobile device. A method includes identifying a plurality of data usage requirements for the mobile device. The method includes identifying one or more carrier models for data service costs. The method includes generating cost estimates for a plurality of data usage transactions based on the data usage requirements and one or more carrier models. The method includes generating the data usage plan for the mobile device based on the cost estimates. The data usage plan includes usage parameters for carrier selection by the mobile device.

Abstract: A computer-based processing system (e.g., host server) is operable for receiving historical device operation information (power consumption data) collected during operation of the remote battery-operated device in accordance with a first set of operating parameters. The first set of operating parameters enable operation of the battery-operated device in a first operating mode. The processing system calculates an observed battery life for the device based on the received historical power consumption data and a power capacity value representing a power capacity of the battery resident in the device. This observed battery life may be output to a user and used to determine whether the device will meet a predetermined operational life. If not, parameters for the device can be modified and a new projected battery life calculated (simulation), with the new modified parameters controlling power consumption in the device.

Abstract: A remote battery-operated device operates in accordance with a first set of operating parameters. During operation, power consumption information is generated and transmitted via a data network to a remote location for later use. In one embodiment, the remote location transmits one or more modified parameters back to the battery-operated device which control subsequent operation of the device. In this manner, power consumption within the device may be controlled to achieve a predetermined or desired operating lifetime.

Abstract: A mobile tracking device is provided that monitors or measures one or more signals from GPS satellites and remote wireless base stations during a GPS acquisition process and a registration process, and terminates the process(es) prior to reaching a default timeout when the signals do not meet a predetermined threshold or value. Instead of continuing the acquisition and/or registration process for the full timeout period when the received signals (if any) indicate there is a low probability of successfully completing the particular process, the tracking device early terminates the process(es). This saves or reduces power by preventing the continued operation of the particular process when it is likely to be unsuccessful.

Abstract: Systems and methods are disclosed that include transferring data using a client. The client experiences a disruption event and determines the nature of the disruption event. In addition, these systems and methods may include adjusting for the disruption event. The adjustment of the disruption event is performed automatically using at least one processor in the client and resuming the transmitting of data after adjusting for the disruption event.

Abstract: A remote battery-operated device operates in accordance with a first set of operating parameters. During operation, power consumption information is generated and transmitted via a data network to a remote location for later use. In one embodiment, the remote location transmits one or more modified parameters back to the battery-operated device which control subsequent operation of the device. In this manner, power consumption within the device may be controlled to achieve a predetermined or desired operating lifetime.

Abstract: A computer-based processing system (e.g., host server) is operable for receiving historical device operation information (power consumption data) collected during operation of the remote battery-operated device in accordance with a first set of operating parameters. The first set of operating parameters enable operation of the battery-operated device in a first operating mode. The processing system calculates an observed battery life for the device based on the received historical power consumption data and a power capacity value representing a power capacity of the battery resident in the device. This observed battery life may be output to a user and used to determine whether the device will meet a predetermined operational life. If not, parameters for the device can be modified and a new projected battery life calculated (simulation), with the new modified parameters controlling power consumption in the device.

Abstract: A computer-based processing system simulates and estimates power consumption (i.e., battery life) in a battery-operated based on a set of operating parameters which is intended to control operation of the battery-operated device in a first operating mode. In the event the estimated/projected battery life fails to meet a predetermined desired battery life (i.e., operational life of the device), one or more operating parameters may be modified and power consumption is again calculated. Several iterations may occur. When a desired battery life is achieved, the battery-operated device is configured with a final set of operating parameters and, when deployed the device operates in accordance with the configured parameters.