Secure Policy-based Device-to-Device Offloading for Mobile Applications

Andreas Reiter

Secure Policy-based Device-to-Device Offloading for Mobile Applications

Andreas Reiter

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › peer-review

Abstract

Mobile application offloading, with the purpose of extend- ing battery lifetime and increasing performance has been intensively discussed recently, resulting in various different solutions: mobile device clones operated as virtual machines in the cloud, simultaneously running applications on the mo- bile device and on a distant server, as well as flexible solu- tions dynamically acquiring other mobile devices’ resources in the user’s surrounding. Existing solutions have gaps in the fields of data security and application security. These gaps can be closed by integrating data usage policies, as well as application-flow policies. In this paper, we propose and evaluate a novel approach of integrating XACML into exist- ing mobile application offloading-frameworks. Data owners remain in full control of their data, still, technologies like device-to-device offloading can be used.
CCS

Original language	English
Title of host publication	Proceedings of the Symposium on Applied Computing
Publisher	Association of Computing Machinery
Pages	516-521
Publication status	Published - 2017

A-SIT - Secure Information Technology Center Austria
Stranacher, K., Dominikus, S., Leitold, H., Marsalek, A., Teufl, P., Bauer, W., Aigner, M. J., Rössler, T., Neuherz, E., Dietrich, K., Zefferer, T., Mangard, S., Payer, U., Orthacker, C., Lipp, P., Reiter, A., Knall, T., Bratko, H., Bonato, M., Suzic, B., Zwattendorfer, B., Kreuzhuber, S., Oswald, M. E., Tauber, A., Posch, R., Bratko, D., Feichtner, J., Ivkovic, M., Reimair, F., Wolkerstorfer, J. & Scheibelhofer, K.
21/05/99 → 6/08/20
Project: Research area

Cite this

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title = "Secure Policy-based Device-to-Device Offloading for Mobile Applications",

abstract = "Mobile application offloading, with the purpose of extend- ing battery lifetime and increasing performance has been intensively discussed recently, resulting in various different solutions: mobile device clones operated as virtual machines in the cloud, simultaneously running applications on the mo- bile device and on a distant server, as well as flexible solu- tions dynamically acquiring other mobile devices{\textquoteright} resources in the user{\textquoteright}s surrounding. Existing solutions have gaps in the fields of data security and application security. These gaps can be closed by integrating data usage policies, as well as application-flow policies. In this paper, we propose and evaluate a novel approach of integrating XACML into exist- ing mobile application offloading-frameworks. Data owners remain in full control of their data, still, technologies like device-to-device offloading can be used.CCS",

author = "Andreas Reiter",

year = "2017",

language = "English",

pages = "516--521",

booktitle = "Proceedings of the Symposium on Applied Computing",

publisher = "Association of Computing Machinery",

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T1 - Secure Policy-based Device-to-Device Offloading for Mobile Applications

AU - Reiter, Andreas

PY - 2017

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N2 - Mobile application offloading, with the purpose of extend- ing battery lifetime and increasing performance has been intensively discussed recently, resulting in various different solutions: mobile device clones operated as virtual machines in the cloud, simultaneously running applications on the mo- bile device and on a distant server, as well as flexible solu- tions dynamically acquiring other mobile devices’ resources in the user’s surrounding. Existing solutions have gaps in the fields of data security and application security. These gaps can be closed by integrating data usage policies, as well as application-flow policies. In this paper, we propose and evaluate a novel approach of integrating XACML into exist- ing mobile application offloading-frameworks. Data owners remain in full control of their data, still, technologies like device-to-device offloading can be used.CCS

AB - Mobile application offloading, with the purpose of extend- ing battery lifetime and increasing performance has been intensively discussed recently, resulting in various different solutions: mobile device clones operated as virtual machines in the cloud, simultaneously running applications on the mo- bile device and on a distant server, as well as flexible solu- tions dynamically acquiring other mobile devices’ resources in the user’s surrounding. Existing solutions have gaps in the fields of data security and application security. These gaps can be closed by integrating data usage policies, as well as application-flow policies. In this paper, we propose and evaluate a novel approach of integrating XACML into exist- ing mobile application offloading-frameworks. Data owners remain in full control of their data, still, technologies like device-to-device offloading can be used.CCS

M3 - Conference paper

SP - 516

EP - 521

BT - Proceedings of the Symposium on Applied Computing

PB - Association of Computing Machinery

ER -

Secure Policy-based Device-to-Device Offloading for Mobile Applications

Abstract

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Projects

A-SIT - Secure Information Technology Center Austria

Cite this