We intend to give individuals, businesses, agencies - the power and easy-for-use guard tools to protect themselves against the most sophisticated hackers that are after their identity, data, money, assets, intellectual properties and valuables. Our approach is based on the 'slogan' - Prevention is better than Cure – for making the cyberspace more vigilance and a lot safer, without jeopardizing life quality.
Quantum-Grade Solutions
Our solutions will allow sensors, readers, monitors, transponders of even very small size to receive and send information securely encrypted despite their low level computing capability and limited battery power. It is based on a new graphic cipher designed for very efficient hardware processing with limited battery power and limited computing capacity. We'll adapt this fast cipher to sensors, monitors and readers with limited computing power, enabling end to end encryption, and enhanced privacy.
Empowering the Internet of Things to ensure a flourishing society while protecting citizens' trust, privacy and confidence
Identity Management:
identity theft is the fastest rising crime in the United States, and is becoming relevant in Europe with all the refugees marching in. This is frightening scope warrants a bold government intervention. Our "Cyber Passport" solution addresses itself to this threat.
The "Cyber Passport" solution is relevant and will be adapted also to the Car-hijacking challenge:
When power supply shrinks, the common cryptographic protection fades away.
We offer new ideas that emerged lately in which security and complexity are achieved in a different way, that allows for a random but static graph, where the number of vertices and edges thereof determine the intractability to cryptanalyzing the identity of the graph
Renovation and preservation projects are are done with care and concern for architectural and structural integrity as well as beauty and function.
The "Cryptography of Drones":
The smaller the drone, the smaller its battery and the more limited its computational power. What is not smaller is the need for secure communication: to make sure it is not being hijacked, and to insure that no one does share our data acquisition.
The Fix for Today’s Broken Security
The Coming Global Cyber War: The Hidden Race for High-Quality Randomness
Randomness is for the coming cyber war, what petroleum was for General Patton in World War II. Our crypto-”tanks” run on randomness. Day by day crypto activity grows — exponential pace. The demand for randomness grows with it, only that most of it is fake-randomness (politely regarded as pseudo-randomness). Why? Because it is easy to manufacture. Alas, also vulnerable to attack. High quality randomness is scarce and delicate. And the race is on. Much as we stockpiled fuel for our war vehicles in the last world war, so we rush to stockpile high-quality randomness to fuel up the crypto-tanks of the coming cyber war. And even more cut-throat is the effort to disrupt the adversary from grabbing pristine high quality randomness for its own purposes. It is especially ominous for the EU, because randomness is so powerful that it can neutralize the smarts and technological advantage claimed by the West.
The shift regarding true randomness is in the rise of the IoT [Internet of Things] also from the Money of the Future point of view: countless applications where "things" are paying "things" -- sometimes micro and nano payments. No other solution compares to our security solutions, on one hand, and to our digital representation of fiat currency, on the other hand, where the "bits-per-cent" can be adjusted at will, and payment is simply chipping away the money bits.
ANALYSIS EVALUATION REPORT by TUV Informationstechnik GmbH - Evaluation Body for IT Security
Executive Summary and Open Questions
BitFlip is a viable new type of cryptography based on generous use of high quality random- ness combined with simple, fast, computation, as opposed to the algorithmic complexity used by the current mainstay ciphers. In course of the BitFlip Analysis project TUV Infor- mationstechnik GmbH analyzed the basic properties of the cipherג€™s core primitive.
It turned out that in order to keep the ciphertext indistinguishable from a random series the key sizes need to be very large, e.g. 1000 bits or longer. We detected indications that shorter keys (e.g. 12 bit) might allow for strong- and standard-ciphertext-only attacks. However, an actual exploit is subject of further research.
On the other hand, by design, BitFlip allows throwing in complementary security features like addition of decoy messages and balancing letter frequency. While the analysis of these features is beyond the scope of tests documented in this report, a recent publication (2) offers a mathematical proof that a BitFlip user can mix the message with increasing quantities of random bits to increase the security at will. And by that, the security is scalable! So, it appears that BitFlip's strength does not only come from the core primitive itself, but from the ease of adding additional security on the fly.
Also, the existence of collisions, as observed in our tests, may actually be turned into an advantage for the cipher's security as indicated by a Giesecke & Devrient proposal(3).
In summary,
the suitability of BitFlip and its augmentations as a new kind of crypto technology for high-end financial security, and the burgeoning Internet-of-Things market is a highly credible proposition,
but more investigation is needed to (a) optimize its operating parameters, and (b) examine its premise to be battery-friendly, and as such very fitting for IoT cryptography.
2. eprint.iacr.org/2018/084
3. Digital Money Library, BitFlip Encryption Algorithm, Reflections on a new technology, Giesecke & Devrient, Version 0.9, Printed on 2nd December 2017
TUV Informationstechnik GmbH ג€“ Evaluation Body for IT Security, Langemarckstr. 20, 45141 Essen, Germany * Feb 12, 2018 .