Abstract: A system and method for offline processing of network transmissions, including: receiving, without access to a communication network, an update to a schedule of transmitting data items over the communication network, where the schedule is determined based on a plurality of urgency levels and where each data item is associated with an urgency level; and transmitting—or preventing transmission of—data items over the communication network based on the received update. Some embodiments may be used for managing data transaction processes in environments where network connectivity may be intermittent or unreliable, where the communication network may have a data transfer rate below a predetermined threshold. Some embodiments may calculate a effectiveness metric for data items—and transmit, prevent transmission, or update the transmission/processing schedule for data items based on the calculated effectiveness metric.

Abstract: A system and method for arranging computerized graphical elements on a user interface, including: detecting attributes of a user in visual data (e.g., using machine learning based object and/or movement detection techniques), and arranging graphical elements within a graphical user interface (GUI) based on the detected attributes. In some embodiments, arranging graphical elements may include determining a size and/or a location within the GUI for graphical elements in order to accommodate accessibility needs of the user, including, e.g., height, motor control, dominant hand, whether the user is in a wheelchair, and the like. In some embodiments, arranging graphical elements may be performed without displacing a display, screen, or display presenting the GUI.

Abstract: Methods and systems for selecting and executing optimal execution strategies for processes, wherein an optimal execution strategy may be selected from a plurality of execution strategies for example in a look-up table, based on specific process values.