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ETSI unveils 2020 Fellows rewarding outstanding personal contribution
The ETSI Fellowship programme rewards individuals who have made an outstanding personal contribution to ETSI, to building the work of ETSI, or raising its reputation in specific sectors of standardization. Any individual representative of an ETSI member may propose a candidate for an ETSI Fellowship. Candidates must have been proposed by representatives of at least two ETSI members. https://www.etsi.org/newsroom/news/1750-2020-04-etsi-unveils-2020-fellows-rewarding-outstanding-personal-contribution
All about Seconded European Standardization Expert in China
SESEC is an abbreviation of Seconded European Standardization Expert in China. It is a visibility project that is co-financed by the European Commission, the European Committee for Standardization, the European Free Trade Association, the European Committee for Electrotechnical Standardization and the European Telecommunications Standards Institute. It is the continuation of two earlier phases – SESEC I and SESEC II. This visibility project is led by the European Committee for Standardization (CEN). It is supported by a Steering Committee composed of one representative from CEN, ETSI, CENELEC, EC, and EFTA.
The primary concern of Seconded European Standardization Expert in China is to maximize the visibility of European standardization activities, boost the cooperation between Chinese and European standardization bodies, and support European companies that are facing issues related to standardization hampering market access to China. This visibility project also focuses on supporting China in standardization related aspects of its integration in the WTO trading system and identifies all potential opportunities in order to maximize international cooperation as well as global harmonization of standards.
In short, Seconded European Standardization Expert in China aims to reduce the Technical Barriers to Trade (TBT) both between EU and China and worldwide. It also supports European and Chinese industries by providing global trade. It also supports the EC policy as well as the European Standards Organizations strategic objectives in China. The main goal of the Seconded European Standardization Expert in China is to foster cooperation between China and Europe in the field of standardization.
Take a look at some objectives of the SESEC project
It promotes European and international standards in China
It focuses on improving contacts with multiple levels of the Chinese administration, industry and standardization bodies
It also helps in improving the visibility and understanding of the European Standardization System in China
It also collects regulatory and standardization intelligence
Seconded European Standardization Expert in China includes several priority areas, including communication networks and services, the safety of general products, electrical & electronic products, cyber security & digital identity, medical devices, cosmetics, IoT /MEM, and more.
It has been expected that Seconded European Standardization Expert in China will support the Framework Cooperation Agreement in place between the ESOs and the Standardization Administration of China, and the National Standardization Body (NSB) of China.
The ETSI Industry Specification Group on the Augmented Reality Framework (ISG ARF) unveils ETSI GS ARF 003, a key specification towards the interoperability of AR components. Today industrial and end users tend to frequently depend on a single provider to deploy AR applications and services. Compliance with the ETSI framework will allow components from different providers to interoperate via the defined interfaces, allowing broader and quicker adoption of AR technology. It will also take account of a growing and dynamic AR market.
These are special times where many face-to-face meetings are being postponed or canceled. But when the going gets tough, the tough gets going and ETSI OSM opted for reorganizing its Hackfest, originally planned as a physical event in Madrid from 9 to 12 March 2020, as a fully remote event.
Cryptanalysis and the standardization of cryptographic algorithms require significant time and effort for their security to be trusted by governments and industry. ETSI is taking a proactive approach to defining the standards that will secure our information in the face of technological advance.
Standardizing IoT to ensure interoperable & cost-effective solutions, open opportunities in new areas & allow the market to reach full potential.
The ETSI Technical Committee on Core Network and Interoperability Testing (TC INT) has just released a Technical Report, ETSI TR 103 626, providing a mapping of architectural components for autonomic networking, cognitive networking and self-management. This architecture will serve the self-managing Future Internet.
ETSI Project eHealth co-ordinates ETSI's activities in Information Communication Technology (ICT).
ETSI successfully transferring quantum cryptography out of the controlled and trusted environment of experimental laboratories into the real world with business requirements, malevolent attackers, and societal and legal norms to be respected calls for special provisions.
All You need to Know about Quantum Key Distribution
Today, encryption is an indispensable part of data security as it provides a fundamental layer of protection that protects confidential data from exposure to cyber-attacks. It is required to protect information transferred across telecommunications networks, as well as residing in files and databases.
The most secure and widely used methods to protect the confidentiality and integrity of data transmission are based on symmetric cryptography. Even better security is delivered with a mathematically unbreakable form of encryption called a one-time pad, whereby data is encrypted using a truly random key of the same length as the data being encrypted. So what is Quantum Key Distribution?
What is Quantum Key Distribution?
Quantum Key Distribution makes use of quantum properties toe exchange secret information-such as a cryptographic key- which can then be used to encrypt messages that are being communicated over an insecure channel. The security of quantum key distribution largely depends on fundamental laws of nature, which are invulnerable to increasing computational power, new attack algorithms or quantum computers. It is secure against the most arbitrarily powerful eavesdroppers.
Quantum key distribution effectively addresses the challenges confronting the classic key distribution approaches, by providing a probably secure cryptographic building block for remote parties to share the cryptographic keys. For the highest security requirements, QKD even enables the continuous generation and sharing of truly random one-time pad keys.
What are the Types of Quantum Key Distribution?
Since QKD first appeared as a promising theoretical concept, a variety of protocols have emerged and been demonstrated in many real-world scenarios.
The first approach is Discrete Variable QKD, which encodes quantum information in discrete variables and uses single photon detectors to measure the received quantum sales.
However, a second approach is continuous-variable QKD. In this approach, the quantum information is encoded onto the amplitude and phase quadrature of a coherent laser, and can then be measured by the receiver using homodyne detectors. Both of the above approaches have been proven to be information-theoretically secure even in the presence of an attacker or an eavesdropper.
The Quantum-Safe Security Working Group (QSSWG) was formed within the Cloud Security Alliance to help promote the adoption of technologies that will protect data even after quantum computing becomes readily available. QKD is one of the technologies recommended by the QSSWG to protect and future-proof data against developments to computer power, new attack strategies, weak random number generators, and the emergence of quantum computers.
4 Significant Benefits of Using Encryption Technology for Data Protection
With immense sensitive data stored online, it is no surprise that cybercrime is on the rise. For businesses and individuals, data breaches have long been a problem and cyber criminals are ramping up attacks, and the numbers reaching an alarming stage. According to Info Security, cybercrime costs all around the world will double from $3 trillion in 2015 to $6 trillion in 2021.
This rise of data breach is a bad news, but there are alternatives businesses can help protect their sensitive data and information from cybercrime. And this is where encryption technology is gaining in popularity as one of the key methods for safeguarding online data and info. But a security algorithm, which is a mathematical procedure, is used to encrypt the data. Encrypted data is known as cipher text and can only be decrypted with the help of a password. Though encryption alone cannot shield your data against all cyber-attacks, technology makes data theft a considerably difficult task for the hackers.
ETSI’s SAGE or Security Algorithms Group of Experts provides cryptographic algorithms and protocols particularly to the standard makers for:
Prevention of fraud
User data privacy
Unauthentic access to public and private telecommunication networks.
So let us have a look at the top benefits of using the encryption technology based on security algorithm:
Enhanced Data Security with Encryption
Usually, data is most unsafe when it is moved from one location to another. Here, encryption works during data transport or at rest, making it a perfect solution irrespective of the place data is stored and how it is used. Encryption must be standard for all data stored at all times, irrespective of whether it is important or not.
Encrypted Data enables Integrity
Hackers not only steal your information, but they can also benefit from altering data to do frauds. Though it is possible for adept individuals to change encrypted data, recipients of the data will be able to discover the breaching, which further allows for a quick response to the potential cyber-attack.
Encryption safeguards Privacy
Encryption is used to shield sensitive data, including the personal information for individuals. This helps in maintaining anonymity and privacy, thus reducing opportunities for surveillance by both criminals and government agencies.
Encryption- Part of a Compliance
There are many industries that have strict compliance requirements to help protect those whose personal information is stored by organizations. HIPAA, FIPS, and other regulations largely depend on the security methods like encryption to protect data, and businesses can also utilize encryption to gain a comprehensive security.
As hackers continue to turn more tech savvy, encryption technology is all set to evolve as well. Moreover, the security professionals are busy working on a few different amazing technological advancements in the field of encryption, including quantum computation, homomorphic encryption, and Elliptic Curve Cryptography (ECC).
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ETSI's new Industry Specification Group on Securing Artificial Intelligence (ISG SAI) met last week for its second meeting and appointed Alex Leadbeater (BT) as its Chair. Dr Kate Reed (NCSC) was appointed as First Vice Chair and Tieyan Li (Huawei) was appointed as Second Vice Chair. This second meeting, after the launch of the group last October, was also the place to discuss work priorities.