摘要:
An application persistence system for improving wireless application resource efficiency is provided. The application persistence system comprises a persistence-point definition module for defining conditions that trigger persisting application data, a persistence-point analysis module for identifying efficient and reliable persistence points and a persistence points enforcement module for enforcing persistence points at application runtime. A method of improving wireless application resource efficiency is also provided. The method comprises the steps of defining conditions that trigger persisting application data, identifying efficient and reliable persistence points, defining a persistence mode flag in an application's profile, and enforcing persistence points at application runtime.
摘要:
It is desirable to drive down the complexity involved in developing the wireless application by reducing the need to do any explicit coding, as well as reducing device resources utilized by the application when provisioned. Having an intelligent wireless device runtime environment (Device Runtime) that provides a set of basic services to manage the wireless application as a series if application components, and their interactions, can simplify the development effort and reduce resource allocation. The wireless application is described as a set of components. The data domain for this category of applications is defined using atomic data components. The communication between the device and a server is defined using atomic message components. Both message and data components are described in metadata using a structured definition language such as XML. The relationships between the message and data components are embedded in the XML definitions in the form of message/data mappings. Typically, outgoing messages are derived from some underlying data component and incoming messages affect the current state (or data representation) of the application. It is therefore apparent that the metadata defined mapping relationship is preferable between the expression of data and message components.
摘要:
A method for introducing a service to a runtime environment of a wireless device, the service for supporting at least one application in the runtime environment, the wireless device communicating over a wireless network with a data processing system, the method comprising: configuring the service as a system application, wherein the system application is adapted to: communicate system and application level messaging with the data processing system and at least one other service in the runtime environment; and, communicate application level messaging with the at least one application in the runtime environment; and, installing the system application in the runtime environment as an application.
摘要:
A method for providing an administration policy to a user device comprising a plurality of applications, the method comprising centrally generating the administration policy to be implemented in the user device, the administration policy comprising at least one of an application administration policy to be used by at least one of the plurality of applications and a client administration policy for the user device; and providing the generated policy to the user device.
摘要:
An application persistence system for improving wireless application resource efficiency is provided. The application persistence system comprises a persistence-point definition module for defining conditions that trigger persisting application data, a persistence-point analysis module for identifying efficient and reliable persistence points and a persistence points enforcement module for enforcing persistence points at application runtime. A method of improving wireless application resource efficiency is also provided. The method comprises the steps of defining conditions that trigger persisting application data, identifying efficient and reliable persistence points, defining a persistence mode flag in an application's profile, and enforcing persistence points at application runtime.
摘要:
A system and method of creating and communicating with wireless component applications is provided. Mobile communication devices communicate with a web service via a wireless network, the Internet, and optionally a message-map service. Each wireless component application is executed by a component framework on one of the mobile communication devices, and comprises data components, presentation components, message components, and workflow components. The component framework executes the component application in an application container which provides access to framework services which include a communication service, a screen service, a persistence service, an access service, a provisioning service, and a utility service. Messages can be sent from the component application to the message-map service, which converts each of the messages to a format required by the web service using an application message-map, and then sends the message to the web service. The web service sends a response to the message-map service, which converts the response to the format required by the wireless component application, and sends the response to the wireless component application.
摘要:
A component application runtime environment is provided for executing component applications on a device comprising a native runtime environment for executing native applications. The component application runtime environment comprises the following services and subsystems. A control centre represents the component application runtime environment as a native application and provides features offered by the device to the component applications. A base services layer provides basic device services to the component applications. A messaging layer transmits messages to and from the component applications. An application layer provides user interfaces for executing the component application.
摘要:
A method is disclosed for handling an error in a script-based application, the method comprising detecting an error in the script-based application, the detecting comprising identifying the error and handling the detected error in accordance with a predetermined error-handling procedure suitable for the identified error.
摘要:
Methods and systems are provided for controlling asynchronous distribution and installation of software updates affecting applications installed on terminal devices of a wireless network. A versioning schema enforced by the application development environment enables the runtime environment of a terminal device to evaluate a software update to identify potential compatibility issues and control installation of the update.
摘要:
A system and method is described for effective management of a User Interface (UI) of a wireless device by implementing direct mapping between the application data domain and UI screens and controls. The device has an intelligent wireless device runtime environment (Device Runtime) that provides a set of basic services to manage the wireless application, including a series of linked screen and data component definitions, and their interactions can simplify the development effort and reduce resource allocation. The data domain for this category of applications is defined using the atomic data component definitions. The communication between a device user interface and data components is defined using atomic screen component definitions. Both screen and data component definitions are described in metadata using a structured definition language such as XML. The relationships between the screen and data component definitions are embedded in the XML definitions in the form of screen/data mappings. Typically, rendered screens for display are derived from some underlying data component and screens controls affected by user events impact the current state (or data representation) of the application Changes to the application domain data are automatically synchronized with the user interface, and user-entered data is automatically reflected in the application domain data. The primary mechanism behind this synchronization is the mapping of screens and data. This mechanism enables creation of dynamic and interactive screens. All changes to the data component can be immediately reflected on the screen and vice versa. This model allows building effective wireless applications based on server-to-device notifications. The data updates asynchronously pushed from the server are instantaneously reflected at the UI screen.