Abstract:
Conventional cryptographic algorithms have been depended on stored keys for providing
the security services. Since the keys are stored on a device, it makes them vulnerable to key theft attacks. Increasing the key size makes the brute force attack difficult but does not eliminates the threat of key theft. This thesis proposes secure key generation schemes for group communication. The research makes three major contributions to improve the security of devices
in multiparty environment. The thesis also demonstrates that the novel root of trust can be used
for the provision of security services. The first contribution of the thesis is the creation of a
symmetric group key for group environment using Physical Unclonable Function (PUF). By
embedding the novel root of trust (PUF) the threat of key theft attack is mitigated. The second
contribution made in this research is the symmetric key created in contribution fashion means all the members of the group has participated in creating a key. The third contribution made in this research is the provision of a scheme that can be used for key authentication generated for the group. The proposed schemes have been tested for creating the group keys
