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|Title||Banking and Payment System via Mobile Devices with Biometrics Authentication|
The increase in the number of subscribers companies cellular phones in Palestine, and thus steadily for mobile phones, and those modern ones, opens the way for a required new field of mobile applications, those concerned with trade and business, including banking systems, as well as develop new ways to accomplish the sale and purchase . Have been better as researchers in the field of computer to be proactive in going into this area, so we in this thesis developed a model for one of these innovative systems, a model be preceded by a study meets the systems mobile phones for payment, and banking services in the world, then get out perception of the entire new system is well suited with the reality of banks in Palestine, and allows the user to buy a commodity or service, or to sell it through his mobile phone at any time, or at any place without any extra cost or pricing. The model which we have designed is going through stages of the life cycle of one of the latest and the most important methods for object-oriented software engineering, to design concurrent, distributed, and real-time applications with the Unified Modeling Language (UML), a stage of the system requirements specification, and the stage of system analysis, which describes the relations between the objects that reflects the problem domain, and the stage of system design that accurately describe the system structure and structure of active objects and their interrelationships, and this stage focuses on the solution domain. Protection of digital data is of concern to many people since the occurrence of electronic archiving system, with the occurrence of mobile phone software has become an urgent need to protect and secure the mobile phone itself, or one of its applications from the exploration or the futility of non-authorized use. With the great progress of the capacity, and the capabilities of the mobile phone which has become a small computer, it becomes possible to secure mobile with biometric technologies, as the goal of this thesis is to get out a full system for less cost to the user, we have chosen the voice print as a biometric that you only need a traditional microphone to pick up sound such as that found in all mobile phones. We have designed and programmed the speaker-verification system, which does not depend on the text, i.e. that the system can verify the speaker regardless of the phrase pronounced. System works entirely on a mobile phone to pick up the sound, and analyze it to extract the characteristics of the vocal tract, then the verification process, which compares the extracted speech’s features with the stored vocal model audio of the speaker, which can be modified when necessary.
|Publisher||the islamic university|
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