A Java Framework for Broadcast Encryption Algorithms / Ett ramverk i Java för prestandatest av broadcast-krypteringsalgoritmer

Hesselius, Tobias, Savela, Tommy

January 2004

<p>Broadcast encryption is a fairly new area in cryptology. It was first addressed in 1992, and the research in this area has been large ever since. In short, broadcast encryption is used for efficient and secure broadcasting to an authorized group of users. This group can change dynamically, and in some cases only one-way communication between the sender and receivers is available. An example of this is digital TV transmissions via satellite, in which only the paying customers can decrypt and view the broadcast. </p><p>The purpose of this thesis is to develop a general Java framework for implementation and performance analysis of broadcast encryption algorithms. In addition to the actual framework a few of the most common broadcast encryption algorithms (Complete Subtree, Subset Difference, and the Logical Key Hierarchy scheme) have been implemented in the system. </p><p>This master’s thesis project was defined by and carried out at the Information Theory division at the Department of Electrical Engineering (ISY), Linköping Institute of Technology, during the first half of 2004.</p>

Informationsteknik

broadcast encryption

Subset Difference

Complete Subtree

Logical Key Hierarchy

simulation

Informationsteknik

Information technology

Informationsteknik

A Java Framework for Broadcast Encryption Algorithms / Ett ramverk i Java för prestandatest av broadcast-krypteringsalgoritmer

Hesselius, Tobias, Savela, Tommy

January 2004

Broadcast encryption is a fairly new area in cryptology. It was first addressed in 1992, and the research in this area has been large ever since. In short, broadcast encryption is used for efficient and secure broadcasting to an authorized group of users. This group can change dynamically, and in some cases only one-way communication between the sender and receivers is available. An example of this is digital TV transmissions via satellite, in which only the paying customers can decrypt and view the broadcast. The purpose of this thesis is to develop a general Java framework for implementation and performance analysis of broadcast encryption algorithms. In addition to the actual framework a few of the most common broadcast encryption algorithms (Complete Subtree, Subset Difference, and the Logical Key Hierarchy scheme) have been implemented in the system. This master’s thesis project was defined by and carried out at the Information Theory division at the Department of Electrical Engineering (ISY), Linköping Institute of Technology, during the first half of 2004.

Informationsteknik

broadcast encryption

Subset Difference

Complete Subtree

Logical Key Hierarchy

simulation

Informationsteknik

Computer and Information Sciences

Data- och informationsvetenskap

Symmetric Key Management for Mobile Financial Applications : A Key Hierarchy Approach

Azam, Junaid

January 2013

In recent times the usage of smart phones has significantly increased. Businesses are transforming to make more out of smart phones. As a consequence, there is an increasing demand to have more and more mobile applications. Among other areas, mobile applications are also being used to make financial transactions. Applications used for financial transactions need to be more reliable and have end-to-end security. To implement security we heavily depend on cryptography and the heart of cryptography is the keys which are used in cryptographic processes (encryption/decryption). Therefore, it is essential not only to protect, but also to properly manage these keys, so that a robust and secure system can be achieved. This research work provides a complete implementation of symmetric key management for mobile phone applications with a focus on financial data using a key hierarchy approach. We have developed a key management system which allows smart phones to download the cryptographic key hierarchy. This key hierarchy is used to encrypt and decrypt financial data, such as PIN and other transaction information. Using this application (key management system), we can achieve an end-to-end security between client (mobile phones) and payment server (banking server). This research work presents implementation of key management system for Android OS only.

Symmetric Key Management

Key Hierarchy

Key Security

Financial Transaction

Mobile Phone

Mobile Application Security

mCommerce.

Computer and Information Sciences

Data- och informationsvetenskap