Center for Technology Transfer and Commercialization of Novosibirsk State University posted this:Post-quantum cryptosystem with public keyA post-quantum public-key cryptographic system has been developed in the cryptography laboratory of the university (Novosibirsk). It is used in the Internet of things, blockchain technology, cryptocurrency, key exchange, for example, in instant messengers, or as an independent mean of protection. The cryptosystem is resistant to hacking, including a quantum computer through the use of NP-hard in a quantum sense problem. The university is looking for partners for furtherance on the Russian and international markets.
Center for Technology Transfer and Commercialization of Novosibirsk State University posted this:Resistant to hacking by a quantum computer electronic digital signatureResearchers of Novosibirsk State University have developed a revolutionary algorithm for quantum-stable digital signature based on results of fundamental research in mathematics. Moreover, they implemented the algorithm as a software prototype. The cryptographic stability of the digital signature guarantees information security when using it in e-economics, the Internet of things and other areas in the post-quantum era. The stability of the algorithm is ensured by solving the problem that is an NP-hard (non-polinomial intractable) in the quantum sense. The university is looking for partners to commercialize the technology in international markets.
Mª Eugenia Garcés Castellote posted this:
Commercialization Specialist at Universidad de Alcalá-OTRI
Luxembourg Institute of Science and Technology posted this:TRANSPARENCY OF ACCESS IN PEER-TO-PEER FILESHARING NETWORKSWith the use of peer-to-peer file sharing networks like BitTorrent or Freenet, the distribution of files amongst participants has become fast and easy. In a collaborative environment, this kind of data pool often makes sense, but with the drawback that someone who has provided data to the pool, loses control about who had accessed what file. This transparency of access is often required, e.g. for billing purposes or to fulfil the transparency rule of the new general data protection regulation. There are several options to solve this problem including the use of central systems or logging that involves the source of data. Usually these options introduce single points of failure. The Luxembourg Institute of Science and Technology offers a blockchain based method that is filed as a patent (patent pending) that avoids these single points of failure but still offers the benefits of redundant distributed file storage and still being able to audit selective the access of files.
NDI Foundation posted this:Strain of bacteriorhodopsin-BRBacteriorhodopsin (BR) is the newest biotechnological product that will make a revolution in many spheres of life: from medicine to defense. Data on the production of the BR in the world is hidden. From open sources - the only seller (and, possibly, producer) is an American company SIGMA, selling BR for research. We offer developed strain of BR. A method of producing allows to get BR in large quantities to several kg. The strain is certified and stored in special depositories. BR has unique qualities - the main one is - memory. For BR, it was necessary to find a special strain - producer of BR. Just several countries has the strain (USA, Russia, ..), other data hidden. We also developed such an unique strain.
Fundació URV posted this:Automatic sanitization of textual documentsRedaction or sanitization is required to declassify sensitive textual documents or make them available for secondary use. This task, which is complex, time-consuming and prone to errors, is performed manually by one or several human experts. Our technology automatizes the process by automatically detecting terms and term combinations appearing in the documents that may disclose sensitive information. Such terms are then subject to redaction or generalization.
RAMOT at Tel Aviv University Ltd. posted this:Compressive Sensing in Radar DetectionAn efficient method for radar detection of sparse targets using compressive sensing. Compressive sensing allows transmission of a single radar pulse for velocity determination and Doppler detection of targets Project ID : 7-2011-192
RAMOT at Tel Aviv University Ltd. posted this:Cancellation of Non-linear Interference in Optical Fiber CommunicationCancellation of Non-linear Interference in Optical Fiber Communication Project ID : 7-2013-675
Universidad de Alcalá-OTRI posted this:CATCHAPs/HIPS to test and improve the securityA research group from the Computer Engineering Department of the University of Alcalá proposes a security analysis expertise to those individuals and companies that are developing their own CAPTCHA/HIP proposals or want to test the security of their current proposals. The group can also work towards the improvement of the security of current CAPTCHA/HIP proposals whenever that target is attainable. Moreover, the group has a few CAPTCHA proposals that could be implemented at a grand scale level. These proposals though, need to undergo a security analysis previous to being put into production. It could be possible to share part of the IP with the companies wanting to implement these proposals if they assist the group economically in their initial implementation and security analysis. The group is seeking for individual clients and companies to achieve collaboration and commercial agreements with technical assistance.
Universidad de Alicante posted this:Environmentally friendly holographic recording materialOur research group has developed a new photopolymer which may be used as a holographic recording material. It is easy to prepare in layers of the desired thickness and has a lower potential toxicity than conventional materials. It is characterized by being environmentally friendly, since it does not contain any petroleum-derived solvents or other components classified as toxic, biotoxic, explosive, radioactive, oxidising, corrosive, inflammable or environmentally hazardous, and no such substances are used to prepare it. The only solvent used is water, thus minimizing any risk of contamination and, at the end of its useful life, it is easy to recycle in aqueous phase. It is possible to automatize all the stages of its preparation, and it enables holograms to be obtained in a single stage without the need for subsequent processing. We are looking for companies interested in acquiring this technology for its commercial exploitation. Innovative aspects: • Due to its characteristics and the fact that during the preparation process, its useful life and subsequent elimination, water is the only solvent used, the negative impact of this material on the environment is minimized. • It does not contain any components classified as toxic, biotoxic, explosive, radioactive, oxidising, corrosive, inflammable or hazardous for the environment. • Although the fabrication process is totally safe for workers, it is possible to automatize all the stages, thereby reducing the production costs. • Layers of different thicknesses may be easily obtained and they may be used at different wavelengths.
RAMOT at Tel Aviv University Ltd. posted this:RF labfar field ;near field ; antenna pattern ;scattering tests; Automatic and manual measurements in; frequency range of 0.1GHz – 20GHz Near-field scanners; field probes ;Agilent Performance Network Analyzer (PNA) ; Signal generators; high-power sources, lock-in amplifier; chemical etching and engraving machine • Characterization and fabrication of antennae and other RF devices (0.1-20GGz) • RF experiments up to 20GHz • Antennae Characterizations • Devices Characterization • Complex Multiphysics experiments • Nonlinear RF devices • Imaging and Field Scanning • Metamaterials and Complex Systems • Radar Applications • Meta- materials Project ID : 12-2016-994
RAMOT at Tel Aviv University Ltd. posted this:Compressed lightfield imagingCompressed lightfield imaging Project ID : 7-2013-577
RAMOT at Tel Aviv University Ltd. posted this:localization using TOA from Multipathlocalization using TOA from Multipath Project ID : 4-2012-335
RAMOT at Tel Aviv University Ltd. posted this:Rhenium Nanostructures and ElectrodepositionRhenium (Re) exhibits a unique combination of properties qualifying it to be a high performance engineering material, for applications in aerospace, electronics, medical devices and fuel cells. Rhenium has the second highest melting point of all metals, the third highest Young’s modulus of elasticity and the fourth highest density. While the other refractory metals have a body centered cubic (bcc) structure, Re has a hexagonal close packed (hcp) structure. Consequently, it does not possess a ductile-to-brittle transition and, therefore, can safely be used at subzero temperatures. In addition Re has a creep-rupture strength over a wide high temperature range, up to about 2000°C. These properties imply that structures made of Re have excellent mechanical stability and rigidity, enabling the design of parts with thin sections, extremely attractive for high-temperature structural and high energy system applications. Re nanostructures are likely to exhibit remarkable advantages over other nanostructured metals. Project ID : 3-2012-389