The performance of public key-enabled kerberos authentication in mobile computing applications
CCS '01 Proceedings of the 8th ACM conference on Computer and Communications Security
Mobile Application Development with SMS and the Sim Toolkit
Mobile Application Development with SMS and the Sim Toolkit
Mobile Networks and Applications - Security in mobile computing environments
J2ME application-layer end-to-end security for m-commerce
Journal of Network and Computer Applications
Mobile Phones as Computing Devices: The Viruses are Coming!
IEEE Pervasive Computing
Customer on the Move: Strategic Implications of Mobile Banking for Banks and Financial Enterprises
CEC-EEE '06 Proceedings of the The 8th IEEE International Conference on E-Commerce Technology and The 3rd IEEE International Conference on Enterprise Computing, E-Commerce, and E-Services
A usability comparison of three alternative message formats for an SMS banking service
International Journal of Human-Computer Studies
Algorithms for quantum computation: discrete logarithms and factoring
SFCS '94 Proceedings of the 35th Annual Symposium on Foundations of Computer Science
Solutions to the GSM Security Weaknesses
NGMAST '08 Proceedings of the 2008 The Second International Conference on Next Generation Mobile Applications, Services, and Technologies
A PK-SIM card based end-to-end security framework for SMS
Computer Standards & Interfaces
Determinants of behavioral intention to mobile banking
Expert Systems with Applications: An International Journal
Energy analysis of multimedia video decoding on mobile handheld devices
Computer Standards & Interfaces
Adoption and effectiveness of electronic banking in Kenya
Electronic Commerce Research and Applications
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Mobile banking is one of the emerging services in telecommunications due to the explosive increase in the number of mobile customers around the world. Solutions for mobile banking are varied, ranging from the use of Wireless Transport Layer Security, Security Socket Layer, or application-layer based options. Whereas security at the transport layer is a good choice for e-banking, using it in a mobile device presents several disadvantages such as high energy consumption. In this work, we present a secure energy-efficient m-banking solution for mobile devices. We propose an application-layer protocol whose message formats and message exchanges are designed to reduce time processing, bandwidth use, and energy consumption. Through experimentation, we demonstrate that our secure solution reduces power and energy consumption in more than 30% compared to a secure web-access from the mobile device.