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Limited By:	Subject = backdoors;

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Displaying Results 1 - 4 of 4 on page 1 of 1

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A Hardware One-Time Pad Prototype Generator for Localising Cloud Security (2017)

Tobin, Paul; Tobin, Lee; mcKeever, Michael; Blackledge, Jonathan, Professor

A Hardware One-Time Pad Prototype Generator for Localising Cloud Security (2017)

Tobin, Paul; Tobin, Lee; mcKeever, Michael; Blackledge, Jonathan, Professor

Abstract:

<p>In this paper, we examine a system for encrypting data before storing in the Cloud. Adopting this system gives excellent security to stored data and complete control for accessing data by the client at different locations. The motivation for developing this personal encryption came about because of poor Cloud security and doubts over the safety of public encryption algorithms which might contain backdoors. However, side-channel attacks and other unwanted third-party interventions in Cloud security, probably contribute more to the poor security record history. These factors led to the development of a prototype for personalising security locally which defeats cryptanalysis. The key distribution problem associated with random binary sequences called one-time-pads, does not exist for one-to-Cloud applications, unlike bi-directional communications where it was a big issue. The random binary sequences were generated from chaotic analogue oscillators with initial conditions from ...

http://arrow.dit.ie/engscheleart/253

Marked Mark

A Hardware One-Time Pad Prototype Generator for Localising Cloud Security (2017)

Tobin, Paul; Tobin, lee; McKeever, Mick; Blackledge, Jonathan

A Hardware One-Time Pad Prototype Generator for Localising Cloud Security (2017)

Tobin, Paul; Tobin, lee; McKeever, Mick; Blackledge, Jonathan

Abstract:

<p>In this paper, we examine a system for encrypting data before storing in the Cloud. Adopting this system gives excellent security to stored data and complete control for accessing data by the client at different locations. The motivation for developing this personal encryption came about because of poor Cloud security and doubts over the safety of public encryption algorithms which might contain backdoors. However, side-channel attacks and other unwanted third-party interventions in Cloud security, probably contribute more to the poor security record history. These factors led to the development of a prototype for personalising security locally which defeats cryptanalysis. The key distribution problem associated with random binary sequences called one-time-pads, does not exist for one-to-Cloud applications, unlike bidirectional communications where it was a big issue. The random binary sequences were generated from chaotic analogue oscillators with initial conditions from a...

http://arrow.dit.ie/engscheleart/256

Marked Mark

A Hardware One-Time Pad Prototype Generator for Localising Cloud Security (2017)

Blackledge, Jonathan; Tobin, Paul; Tobin, lee; McKeever, Mick

A Hardware One-Time Pad Prototype Generator for Localising Cloud Security (2017)

Blackledge, Jonathan; Tobin, Paul; Tobin, lee; McKeever, Mick

Abstract:

<p>Abstract: In this paper, we examine a system for encrypting data before storing in the Cloud. Adopting this system gives excellent security to stored data and complete control for accessing data by the client at different locations. The motivation for developing this personal encryption came about because of poor Cloud security and doubts over the safety of public encryption algorithms which might contain backdoors. However, side-channel attacks and other unwanted third-party interventions in Cloud security, probably contribute more to the poor security record history. These factors led to the development of a prototype for personalising security locally which defeats cryptanalysis. The key distribution problem associated with random binary sequences called one-time-pads, does not exist for one-to-Cloud applications, unlike bidirectional communications where it was a big issue. The random binary sequences were generated from chaotic analogue oscillators with initial conditi...

http://arrow.dit.ie/engscheleart/258

Marked Mark

On the Development of a One-Time Pad Generator for Personalising Cloud Security (2017)

Tobin, Paul; Tobin, Lee; McKeever, Michael; Blackledge, Jonathan, Profesor

On the Development of a One-Time Pad Generator for Personalising Cloud Security (2017)

Tobin, Paul; Tobin, Lee; McKeever, Michael; Blackledge, Jonathan, Profesor

Abstract:

<p>Cloud computing security issues are being reported in newspapers, television, and on the Internet, on a daily basis. Furthermore, in 2013, Edward Snowden alleged backdoors were placed in a number of encryption systems by the National Security Agency causing confidence in public encryption to drop even further. Our solution allows the end-user to add a layer of unbreakable security by encrypting the data locally with a random number generator prior to uploading data to the Cloud. The prototype one-time pad generator is impervious to cryptanalysis because it generates unbreakable random binary sequences from chaos sources initiated from a natural noise. Specialised one-to-Cloud applications for this device means key distribution problems do not exist, even when used at different locations. A JavaScript application maximised the encryptor key entropy using a von Neumann algorithm and modulo-two arithmetic, where the key passed the National Institute of Standards and Technology...

http://arrow.dit.ie/engscheleart/250