. . . Connecting dots
Imagination is more important than knowledge. Knowledge is limited. Imagination encircles the world. -Albert Einstein
Every dot has possibilities -
the power of these possibilities is far larger than one might think!
ABOUT US
OMZTec is a center for scientific research and innovation, highly focused on cybersecurity, artificial and computational intelligence, ZERO Trust, REST API, encryption, pattern recognition, computational modeling, computer vision, optimization, omputational biomedicine, image and signal processing, data science and eGRC. Our team encompasses high-profile research members with educational and professional backgrounds in relavent areas.
Every dot has possibilities – the power of these possibilities is far larger than one might think. Our objective is to connect all these possibilities in order to explore an interactive cybersecurity platform, behavioral computing, cyberethics, and data science; optimize cyber threat prevention and remediation methods to protect our privacy and security. Our team members are more than happy to dedicate their time to answering your security questions.
Our scientific research has been presented and published in peer reviewed journals and conferences for such emerging trends. We are committed to extending cutting edge technologies in accessible ways for the convenience and advancement of humanity.
SOLUTIONS
Biometrics
Biometrics is the science of automatic recognition of an individual based on measurable physiological and behavioral characteristics. With the rapid evolution of information technology, traditional token-based authentication and security management systems are not sophisticated enough to handle the challenges of the 21st century. As a result, biometrics has emerged as the most rational, efficient and ultimate solution for authenticating an individual.
Quantum Computing
Quantum computers are devices that use the principles of state superposition and entanglement. Performing mathematical calculations to store and manipulate information depends on qubits. Computational power depends on the number of qubits available to the machine at the same time and how information and huge numbers of computations are processed in parallel. Quantum communications are certified and can be used to replace traditional digital signatures or to encrypt communication networks.
Blockchain
Blockchain, a chain of possibilities, state-of-the-art technology, and segmented cryptographic databases use distributed ledgers and cryptographic hashes to make digital assets immutable and transparent. With a focus on building trust in an unreliable ecosystem, it has become potentially the strongest cybersecurity technology. Blockchain brings new opportunities and benefits to the entire ecosystem through its digital footprint, transparency, flexibility, increased security and ease of tracking.
Zero Trust
Today's security challenges require evolving security solutions, and Zero Trust is the best weapon an organization can possess to thwart data breaches. Threats exist internally and externally and are vulnerable to gaps in security. Regardless of where or why the vulnerability occurs. The event dot count and zero trust security model considers each access request as a violation and validates it when it occurs.
Computational Medicine
The Computational Medicine field covers science and engineering using clinical and biological data to develop state-of-the-art algorithms and establish relationships between various clinical and biological systems. This sophisticated computational scientific discipline has significantly improved our current knowledge of medical and biological systems in order to personalize our therapeutic processes.
Biosecurity
Cybersecurity is about protecting the components and data we depend on. Components connected to the Internet (whether wireless or not) can be at risk. The same applies to the medical field. It contains unique and sensitive information such as DNA sequences and biological attributes.
Bioethics
The advent of bioinformatics and computational engineering in the field of clinical research has brought about a convergence of bioethics and computational ethics. Bioethics is the study of ethical, social, and legal issues emerging in these interdisciplinary scientific research and development. It is based on four basic principles: respect for autonomy, non-malicious, well-meaning justice.
PRODUCTS
R&D
Describe your image
Rapid advances in science and technology have significantly improved digital experiences, data security, computational engineering, digital communications, behavioral analysis, probability theory, encryption, and medical diagnostic systems over the past few decades. OMZTec's R&D division leverages the benefits of an open form of organization for innovation in the areas of computer technology, cybersecurity, blockchain, quantum computing, computational engineering, and biomedicine.
We are a leader in the development of the fusion of the multimodal cybersecurity platform Blockchain and Biometrics. Our vision is to develop advanced and innovative system to detect, track, capture, analyze, process, encrypt and model statistical data and images to optimize user's digital experience and protect cyber privacy and security. For that purpose, we develop a multimodal algorithm based on the scientific industry domain. Our goal is to turn imagination into innovation. Our imagination becomes a reality by driving our knowledge, experience and expertise towards the development of more advanced and cutting-edge algorithms.
Cyber Security, Artificial Intelligence and Computational Intelligence, Blockchain, Quantum Computing, Biometrics, Zero Trust, Endpoint Security, Defense in Depth and Encryption and Data Models, Computational Security, Biological Security, Computational Engineering, Optimization, Mobile Computing, digital communications, medical images and signals, and pattern recognition. In addition to modeling new algorithms, we are also working on developing platforms to solve real-world challenges. Our scientific research focuses on developing state-of-the-art computer-aided (computational) technologies and migrating them to field systems to make people's lives more convenient and secure.
CryptoMetrics
As a rule, cryptography is a measurable quantity in the stochastic domain. This is the science of using mathematical formulation to encrypt and decrypt data. The main purpose is to protect the confidentiality, integrity, authentication, and non-repudiation of data and identities.
This is the science of using mathematical formulas to encrypt and decrypt data. The main purpose is to protect the confidentiality, integrity, authentication, and non-repudiation of data and identities.
A rapid revolution in information technology with growing security and privacy concerns has led to the emergence of blockchain, quantum computing, biometrics, and zero trust systems as the ultimate solution for protecting cyber domains. This reliance on computerized systems creates a variety of cyber threats. Robust, efficient, adaptable, accountable, and intelligence-based to address internal and external cybercrime, especially massive data breaches, cryptojacking, and microchip flaws for government and private organizations. Establishing a computational cyber platform is paramount.
Cyberspace is an emerging global domain in the field of information technology, increasing the vulnerability of systems to privacy and security breaches. Attackers in this domain target different tissues with surgical accuracy and access data with a small number of attempts, but often compromise privacy and security. Every dot is important and everything needs to be verified. Gap in our security system makes us vulnerable. Wherever and why the vulnerabilities occur, they can pose a serious threat to the system and can be devastating to businesses, their employees, and consumers. Protect your ecosystem from security, privacy, and unlinking attacks using a knowledge-based, multi-layer cybersecurity system compilation of blockchain, biometrics, and quantum computing within the ZERO-Trust platform. Our team also introduced the state of superposition theory of quantum computing to optimize computational complexity in data storage and manipulation, and cyber ethics to the mathematical calculation and estimation process of cyber security algorithms. Running embedding.
Bioinformatics
Biomedicine is an interdisciplinary scientific research area where practitioners, engineers, and clinical researchers work together to find cutting-edge, innovative solutions for advanced medical care that improve quality of life.
Bioinformatics is an interdisciplinary scientific research area where practitioners, engineering, and clinical researchers work together to find cutting-edge, innovative solutions for advanced medical care that improve quality of life. Due to rapid technological advances in this area, knowledge of the disease, methods of diagnosing and treating the disease are now far beyond our expectations. This is partially achieved by the use of computational modeling and quantitative profiling, which are homologous to various aspects of clinical biology.
The field of bioinformatics includes science and engineering to develop state-of-the-art algorithms using clinical and biological data and establish relationships between various clinical and biological systems. This sophisticated scientific discipline has significantly improved our current knowledge of medical and biological systems in order to personalize our therapeutic processes. In large-scale growth areas with advanced and sensitive scientific profiling, accurate, in-depth knowledge, expertise, and so that innovative solutions to the world's most pressing clinical challenges are not misdirected.
The most advanced developments in this area are quantitative analysis and multimodal brain imaging of stem cell populations to optimize understanding of clinical treatment. However, the main challenge in stem cell biology is to characterize the process of proliferation and differentiation (ie, dynamic growth). This is because little is known about the molecular stimuli involved in their regulatory mechanisms. This dynamic function establishes regulatory mechanisms involved in expanding the cell population and accelerating the therapeutic process towards the appropriate lineage. Our biomedical research team is working on formulating a stochastic computational cell (muscle cell, also known as satellite stem cell) model to understand and characterize these dynamics. We are also working on advanced multimodal medical imaging and stochastic learning systems to improve existing neuropathological diagnostic and therapeutic systems.
PRODUCTS
CONTACT US
Get In Touch
For any inquiries, questions, or comments, please fill out the following form and we will get back to you as soon as possible.
Head Office
25832 Success Drive
Aldie VA 20105 USA
support@omztec.com
Tel: 202.909.0805
Fax: 1.571.282.3080
Contact Form
Careers
We are always looking for talented individuals to join our team. If you are interested in a career with OMZTec, please send your resume and cover letter to support@omztec.com.