Monsters university – Childrens Literature Connection http://childrensliteratureconnection.org/ Thu, 25 Nov 2021 14:16:08 +0000 en-US hourly 1 https://wordpress.org/?v=5.8 https://childrensliteratureconnection.org/wp-content/uploads/2021/10/icon-1.png Monsters university – Childrens Literature Connection http://childrensliteratureconnection.org/ 32 32 What are the most secure data transmission methods? https://childrensliteratureconnection.org/what-are-the-most-secure-data-transmission-methods/ Thu, 18 Nov 2021 01:35:51 +0000 https://childrensliteratureconnection.org/what-are-the-most-secure-data-transmission-methods/ An important issue facing infosec professionals is the implementation of secure data transmission methods when sending … and receive confidential, sensitive and proprietary information. Some industries face regulations requiring secure transmission of data, such as HIPAA security rule for healthcare, but all businesses should consider secure transmission methods to protect against theft of intellectual property […]]]>

An important issue facing infosec professionals is the implementation of secure data transmission methods when sending …

and receive confidential, sensitive and proprietary information.

Some industries face regulations requiring secure transmission of data, such as HIPAA security rule for healthcare, but all businesses should consider secure transmission methods to protect against theft of intellectual property or other sensitive data.

When many organizations think about methods of transmitting secure data, the conversation inevitably turns to encryption and various ways of transmitting encrypted data securely, including email, dedicated software or services, VPNs, or physical media. .

However, no matter what method of data transmission an organization prefers, IT staff should always be aware of the type of encryption being used.

Not all encryption is created equal

The most basic form of encryption for data in transit is TLS. TLS is used in many webmail services and other websites. However, TLS only works if the sending and receiving servers are configured correctly. TLS also only encrypts data in transit and not the message itself, so the data would not be protected if stolen.

Advanced Encryption Standard (AES) 256 is accepted as the strongest encryption algorithm available today. AES is the accepted standard based on NIST guidelines and can be used in 128, 192 and 256 bit variants. For organizations more concerned with encryption speed and resource usage, AES-128 or AES-192 can be used. Organizations with the most sensitive data to protect should choose AES-256. AES-256 is considered powerful enough that the only reliable way to successfully complete a brute force attack is to use quantum computers.

Email encryption

When considering encrypted email, options include Public Key Infrastructure (PKI) and Secure / Multifunction Internet Mail Extensions (S / MIME). PKI requires an exchange of keys used to unlock encrypted messages, and this process has been simplified with Outlook /Active Directory and G Suite Enterprise, which will automatically store and exchange digital IDs or certificates purchased from a certificate authority to enable encryption.

Even so, the process of sending encrypted emails can be tricky. If G Suite rules are not set correctly, messages may not be encrypted. Likewise, Outlook users can manually activate S / MIME encryption certificates and digital ID certificates, but a more automated approach would require a Microsoft 365 subscription and the use of Microsoft 365 Message Encryption to send e- encrypted emails to Outlook and non-Outlook addresses.

Encryption of applications

Since email encryption can be difficult to implement and can easily fail if the sender and recipient are not configured correctly, software and services are available to help with the secure transmission of data. Again, organizations should be careful to note how and when files are encrypted. Cloud storage services like Box, OneDrive, and G Suite will encrypt data at rest and data in transit, but the service provider still holds the encryption keys. This exposes the data to insider threats in those companies.

The most secure option is end-to-end encryption (E2EE), where even the service provider cannot decrypt the data shared through it.

For small organizations, an E2EE messaging service, such as Signal or Wickr, may be sufficient. But, for large businesses and those that need to meet regulatory compliance obligations, a managed file transfer service may be the best option.

Remote user communication

Remote users present an additional security risk because they often communicate between their home and an organization. This means that they should not only be aware of the requirements for secure data transmission, but also of the other infosec risks associated with remote access to confidential information.

To secure communication with remote users, one option is to install a VPN on employee devices, which encrypts all data sent between its users. An emerging option for remote workers who need access to cloud services is Secure Access Service Edge, or SASE, which uses a combination of software-defined WAN, secure web gateways, access security agents, cloud and untrusted network access to ensure secure connections to cloud services.

Physical peripherals

In general, physical devices are not good options for transmitting data securely. Encryption can help protect data on a laptop or other portable device, but physical devices are always easily lost or stolen. Additionally, it is not uncommon for organizations to ban the use of USB drives or other removable storage technologies due to the risk of malware infection.

Wireless networks

As employees more often work remotely, another threat to the secure sending of data becomes the wireless networks to which they connect. Unsecured wireless networks are important points of vulnerability and open organizations up to threats. Employees should only connect to known and trusted networks and those secured with passwords – otherwise, data sent from devices could be easily intercepted.


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Chambers of commerce, groups support the adoption of the bill on data transmission https://childrensliteratureconnection.org/chambers-of-commerce-groups-support-the-adoption-of-the-bill-on-data-transmission/ Wed, 17 Nov 2021 12:01:56 +0000 https://childrensliteratureconnection.org/chambers-of-commerce-groups-support-the-adoption-of-the-bill-on-data-transmission/ Several chambers and foreign business groups have called for the immediate passage of a bill that should boost broadband services across the country. In a joint statement released on Wednesday, private sector organizations called for the forthcoming adoption of the open access in data transmission bill. It seeks to develop more broadband infrastructure by attracting […]]]>

Several chambers and foreign business groups have called for the immediate passage of a bill that should boost broadband services across the country.

In a joint statement released on Wednesday, private sector organizations called for the forthcoming adoption of the open access in data transmission bill. It seeks to develop more broadband infrastructure by attracting more companies to invest in the data transmission and broadband industry.

The signatories congratulated the House of Representatives on approving House Bill 8910 at third and final reading.

Following this, they called on the Senate to start tackling the same measure. The bill currently pending in the science and technology committee of the upper house.

Business groups stressed the importance of fostering “economic recovery and more competition and investment in broadband, especially in underserved areas of the Philippines.”

“The country’s digital infrastructure lags behind the infrastructure of competing countries in the region,” they said. Citing a report, the statement noted that the Philippines lags behind Thailand, Malaysia, Indonesia, Singapore and Vietnam due to its “less robust and competitive digital infrastructure.”

“A major lesson from the ongoing pandemic is that developing a competitive digital infrastructure is essential for a better life for everyone in the Philippines and certainly essential for investment, especially foreign investment,” they stressed.

As such, these can help improve jobs, education, finance, governance and health, among others, they added.

Private sector groups noted that passing the bill would provide a competitive policy and regulatory framework, lowering barriers and lowering costs to enter the market.

“This will significantly improve data transmission services [faster Internet speed and lower Internet costs] across the country, ”the statement said.

The Philippine American Chamber of Commerce, the Australian New Zealand Chamber of Commerce in the Philippines, the Canadian Chamber of Commerce in the Philippines, the European Chamber of Commerce in the Philippines and the Japanese Chamber of Commerce and Industry in the Philippines have signed the declaration.

Other signatories include the Korean Chamber of Commerce of the Philippines Inc., the Management Association of the Philippines, the Philippine Association of Multinational Corporations Regional Headquarters Inc., Semiconductor and Electronics Industries in the Philippines Foundation Inc. and US-Asean Business Council.


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Secure data transmission could take connected autonomous vehicles to the next level https://childrensliteratureconnection.org/secure-data-transmission-could-take-connected-autonomous-vehicles-to-the-next-level/ Mon, 25 Oct 2021 07:00:00 +0000 https://childrensliteratureconnection.org/secure-data-transmission-could-take-connected-autonomous-vehicles-to-the-next-level/ An innovative European project, named CONCORDA, has carried out research into vehicle-to-vehicle communications security over the past three and a half years. Led by Ertico – ITS Europe, a public / private partnership that develops intelligent transport systems, the project has brought together big names such as Bosch, Nokia, Telekom, Escrypt and Kapsch. The most […]]]>
An innovative European project, named CONCORDA, has carried out research into vehicle-to-vehicle communications security over the past three and a half years. Led by Ertico – ITS Europe, a public / private partnership that develops intelligent transport systems, the project has brought together big names such as Bosch, Nokia, Telekom, Escrypt and Kapsch.

The most recent tests have focused on how to enable fast and stable data communication between connected vehicles at all times, even when passing through tunnels, for example. The tests involved trucks traveling in convoys on certain sections of the public road and three types of communication technologies.

One was direct Wi-Fi-based communication (ITS-G5), the second was direct cell-based communication (LTE-V2X PC5) and the third was indirect mobile network communication (LTE). For the third method, the signals from the autonomous truck, sent over an LTE network, “were first routed to the mobile network edge cloud server”, Then transmitted to the other trucks.

Tests have shown that the two direct lines of communication work best within a radius of 1,640 feet (500 meters) or less, which could help driver assistance systems be ready for quick responses, such as braking. emergency. On the other hand, the indirect communication channel makes it possible to send secure data over a wider radius, of nearly three thousand meters (3000 meters).

According to Bosch, most new trucks are already equipped with an LTE unit, so it would be enough for them to add the direct communication channels. The joint use of all types of communication channels can ensure secure and continuous transmission of data.

Successful vehicle-to-vehicle communication will be used as a starting point to develop even more advanced automated driving features.


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data transmission system uses 4-core optical fiber and sets distance record | technological impulse | October 2021 https://childrensliteratureconnection.org/data-transmission-system-uses-4-core-optical-fiber-and-sets-distance-record-technological-impulse-october-2021/ https://childrensliteratureconnection.org/data-transmission-system-uses-4-core-optical-fiber-and-sets-distance-record-technological-impulse-october-2021/#respond Fri, 01 Oct 2021 20:23:47 +0000 https://childrensliteratureconnection.org/data-transmission-system-uses-4-core-optical-fiber-and-sets-distance-record-technological-impulse-october-2021/ A research team led by Benjamin J. Puttnam of the National Institute of Information and Communications Technology (NICT) reported that it was transmitting data over a distance of over 3000 km (1860 miles) at a rate of 319 Tbps and a transmission bandwidth of more than 120 nm, through the S, C and L bands. […]]]>

A research team led by Benjamin J. Puttnam of the National Institute of Information and Communications Technology (NICT) reported that it was transmitting data over a distance of over 3000 km (1860 miles) at a rate of 319 Tbps and a transmission bandwidth of more than 120 nm, through the S, C and L bands.

The team used a 4-core optical fiber with an outer diameter of 0.125mm to transmit the data, setting a record for transmitting data over an optical fiber with a standard cladding diameter. The long distance transmission signal bandwidth included 552 wavelength division multiplexing (WDM) channels.

The system uses WDM and a combination of optical amplification technologies to enable long distance transmission of 552 WDM channels ranging from 1487.8 to 1608.33 nm. The team built a transmission loop that combined erbium and thulium doped fiber amplifiers with distributed Raman amplification along the fiber itself to allow the transmission of the recirculating wideband signal.

By combining various amplification technologies, the researchers built a transmission system that capitalized on the strengths of WDM technology.


The Raman amplification part of the transmission system. Courtesy of the National Institute of Information and Communication Technologies.


The system measured the achievable transmission rate with each channel with PDM-16QAM modulation at distances up to 3001 km, where the data rate of 319 Tbit / s was achieved.

In addition to the C and L bands typically used for high speed long distance transmission, researchers have included S band in their transmission. Until now, ICTs have only built transmission systems using WDM on C and L bands, along with advanced modulation technology, to explore high-speed transmission in optical fibers.

Although S-band transmission has led to several new records for transmission capacity in optical fibers, the transmission distance in S-band has so far been limited to a few tens of kilometers.

The NTIC team hopes that its completion will pave the way for systems capable of supporting optical communications at the speeds necessary for 5G and beyond. The reported transmission demonstrates the potential of spatial multiplexing (SDM) fibers to support short-term high-speed SDM fiber systems, provided they are compatible with existing cabling technologies. The standard 4-core cladding diameter fiber used for the demonstration is compatible with conventional cable infrastructure, and researchers believe its mechanical reliability is comparable to that of single-mode fibers.

Graphic illustrating transmission demonstrations using fibers 125 µm in diameter.  Courtesy of the National Institute of Information and Communication Technologies.


A graphic illustrating transmission demonstrations using fibers 125 μm in diameter. Courtesy of the National Institute of Information and Communication Technologies.


NTIC said it plans to work to extend its transmission range to transoceanic distances, as well as continue to develop broadband and long distance data transmission systems to increase the transmission capacity of low-count multicore fibers. cores and other new SDM fibers.

The research was presented at International Conference on Fiber Optic Communications (OFC), which took place from June 6 to 11.


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New quantum transmission protocol has higher data transmission rate, robustness against interference https://childrensliteratureconnection.org/new-quantum-transmission-protocol-has-higher-data-transmission-rate-robustness-against-interference/ https://childrensliteratureconnection.org/new-quantum-transmission-protocol-has-higher-data-transmission-rate-robustness-against-interference/#respond Wed, 22 Sep 2021 07:00:00 +0000 https://childrensliteratureconnection.org/new-quantum-transmission-protocol-has-higher-data-transmission-rate-robustness-against-interference/ Marcus Huber. Credit: Vienna University of Technology Quantum cryptography is one of the most promising quantum technologies of our time: exactly the same information is generated in two different places, and the laws of quantum physics ensure that no third party can intercept this information. This creates a code with which the information can be […]]]>

Marcus Huber. Credit: Vienna University of Technology

Quantum cryptography is one of the most promising quantum technologies of our time: exactly the same information is generated in two different places, and the laws of quantum physics ensure that no third party can intercept this information. This creates a code with which the information can be perfectly encrypted.

The team of Professor Marcus Huber from the Atomic Institute of TU Wien has developed a new type of quantum cryptography protocol, which has now been tested in practice in cooperation with Chinese research groups: while so far we normally used photons which can be in two different states, the situation here is more complicated: eight different paths can be taken by each of the photons. As the team has now been able to show, this makes the generation of the quantum cryptographic key faster and also much more robust against interference. The results are now published in the scientific journal Physical examination letters.

Two states, two dimensions

“There are many different ways to use photons to transmit information,” says Marcus Huber. “Often the experiments focus on the polarization of their photons. For example, if they oscillate horizontally or vertically, or if they are in a state of superposition of quantum mechanics in which, in a sense, they assume both states simultaneously. describe a point on a two-dimensional plane with two coordinates, the state of the photon can be represented as a point in two-dimensional space.

But a photon can also convey information independently of the direction of polarization. One can, for example, use the information on the path on which the photon is currently moving. This is exactly what has now been exploited: “A laser beam generates pairs of photons in a particular type of crystal. There are eight different points in the crystal where this can happen, ”says Marcus Huber. Depending on the point at which the photon pair was created, each of the two photons can travel along eight different paths – or along multiple paths at the same time, which is also allowed under the laws of quantum theory.

These two photons can be directed to completely different places and be analyzed there. One of the eight possibilities is measured, completely at random, but since the two photons are entangled physically quantically, the same result is always obtained in both places. Anyone in front of the first measuring device knows what another person is currently detecting on the second measuring device – and no one else in the universe can get that information.

New quantum transmission protocol has higher data transmission rate, robustness against interference

Credit: Vienna University of Technology

Eight states, eight dimensions

“The fact that we are using eight possible paths here, and not two different polarization directions as is usually the case, makes a big difference”, explains Marcus Huber. “The space of possible quantum states becomes much larger. The photon can no longer be described by a point in two dimensions, mathematically it now exists in eight dimensions.”

This has several advantages: First, it allows more information to be generated: at 8307 bits per second and more than 2.5 bits per photon pair, a new record has been set in the generation of quantum cryptography keys based on the entanglement. And secondly, it can be shown that it makes the process less susceptible to interference.

“With all quantum technologies, we have to face the problem of decoherence”, explains Marcus Huber. “No quantum system can be perfectly protected from disturbances. But if it comes into contact with disturbances, then it can very easily lose its quantum properties: the quantum entanglements are destroyed.” Higher dimensional quantum states, however, are less likely to lose entanglement even in the presence of disturbances.

In addition, sophisticated quantum error correction mechanisms can be used to compensate for the influence of external disturbances. “In the experiments, an extra light was turned on in the lab to deliberately cause disruption – and the protocol still worked,” says Marcus Huber. “But only if we actually used eight different paths. We were able to show that with simple two-dimensional encoding, a cryptographic key can no longer be generated in this case.”

In principle, it should be possible to further improve the new, faster and more reliable quantum cryptography protocol by using additional degrees of freedom or an even greater number of different paths. “However, this not only increases the space of possible states, but it also becomes increasingly difficult at some point to read the states correctly,” says Marcus Huber. “We seem to have found a good compromise here, at least in the range of what is currently technically possible.”


New quantum research provides insight into how quantum light can be harnessed


More information:
Xiao-Min Hu et al, Pathways for Entanglement-Based Quantum Communication in Face of High Noise, Physical examination letters (2021). DOI: 10.1103 / PhysRevLett.127.110505

Provided by Vienna University of Technology


Quote: New quantum transmission protocol has higher data transmission rate, robustness against interference (2021, September 22) retrieved on October 23, 2021 from https://phys.org/news/2021-09- quantum-transmission-protocol-higher-robustness.html

This document is subject to copyright. Other than fair use for private study or research purposes, no part may be reproduced without written permission. The content is provided for information only.


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Rajant and ESG Solutions join forces to transmit microseismic data for underground mining https://childrensliteratureconnection.org/rajant-and-esg-solutions-join-forces-to-transmit-microseismic-data-for-underground-mining/ https://childrensliteratureconnection.org/rajant-and-esg-solutions-join-forces-to-transmit-microseismic-data-for-underground-mining/#respond Thu, 09 Sep 2021 07:00:00 +0000 https://childrensliteratureconnection.org/rajant-and-esg-solutions-join-forces-to-transmit-microseismic-data-for-underground-mining/ Posted by Daniel Gleeson on September 9, 2021 Rajant Corporation, the Kinetic Mesh® wireless network provider, and ESG Solutions, a leading microseismic solution provider, say they have successfully completed testing with Rajant as the backbone to carry microseismic data to the surface. Underground and surface mining customers could benefit from these developments, as the two […]]]>

Posted by Daniel Gleeson on September 9, 2021

Rajant Corporation, the Kinetic Mesh® wireless network provider, and ESG Solutions, a leading microseismic solution provider, say they have successfully completed testing with Rajant as the backbone to carry microseismic data to the surface.

Underground and surface mining customers could benefit from these developments, as the two companies begin deployment trials in October, the last step in the qualification process, they say.

ESG Technical Sales Advisor Tony Butler said: “Many mines are installing microseismic systems for monitoring rock bursts and for collecting data on microseismic events that can lead to a better understanding of the deformation of the rock. rock mass. ESG Solutions installs microseismic systems that rely on sensors (geophones and / or accelerometers) to record seismic waveforms digitized with our ESG Paladin® data acquisition units housed in junction boxes. Each Paladin unit must be precisely synchronized across the entire network for optimal determination of the location of seismic events. System data and synchronization signals are currently transmitted to and from Paladin units over fiber optic networks. To reduce initial system costs and ongoing maintenance of the fiber system, customers asked if it would be possible for our systems to operate on a wireless system.

According to Butler, the main obstacle to a wireless approach for microseismic monitoring has been the ability to provide precise synchronization of the seismic system between Paladin units.

“With Rajant Kinetic Mesh, we overcome the time synchronization problem with the 30 microsecond (+/- 10 microsecond) Precision Timing Protocol system synchronization for networked Paladins,” he said. “Together, we have demonstrated in the lab that Rajant and ESG can perform seven jumps through the kinetic mesh and maintain extremely precise synchronization of the system. “

This development will allow Rajant’s wireless network to be considered for monitoring the microseismic system in the field up to sampling rates of 10 kHz, explained Butler, with more than sufficient system timing accuracy. for the vast majority of microseismic systems installed which use geophones and / or accelerometers.

Darrell Gillis, Rajant Sales Director for Canada, added: “Rajant provides voice and data communications on the mine face. Deployed in over 230 of the world’s largest mines, Rajant’s fully mobile, self-contained V2X / M2M for underground mining eliminates the hassle of a voice-only leakage feeder with high-speed multi-radio connectivity. Next-generation technology, such as that provided by ESG, has critical requirements to function “no fiber required”. Rajant offers a robust, reliable and redundant alternative to fiber that is easy to install and maintain.

“Rajant supports very precise system synchronization, which is not possible with a Layer 3 solution, which makes Rajant Kinetic Mesh unique, not only for mining but for other IIoT applications, such as oil fields. and civil projects.


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LG has successfully demonstrated 6G data transmission https://childrensliteratureconnection.org/lg-has-successfully-demonstrated-6g-data-transmission/ https://childrensliteratureconnection.org/lg-has-successfully-demonstrated-6g-data-transmission/#respond Tue, 24 Aug 2021 03:41:02 +0000 https://childrensliteratureconnection.org/lg-has-successfully-demonstrated-6g-data-transmission/ Soul: LG Electronics said on Thursday that it has successfully demonstrated 6G data transmission using terahertz spectrum as a Korean tech giant tries to advance next-generation communications technology. Last week LG, together with Fraunhofer-Gesellschaft, one of Europe’s leading application-oriented research organizations in Berlin, successfully transmitted a 100-meter 6G terahertz radio communication signal to an outdoor […]]]>

Soul: LG Electronics said on Thursday that it has successfully demonstrated 6G data transmission using terahertz spectrum as a Korean tech giant tries to advance next-generation communications technology.

Last week LG, together with Fraunhofer-Gesellschaft, one of Europe’s leading application-oriented research organizations in Berlin, successfully transmitted a 100-meter 6G terahertz radio communication signal to an outdoor environment.

LG said it has developed a new power amplifier with the Fraunhofer-Gezel shaft to provide stable communication signals over the 6G terahertz spectrum.

Ultra-wideband spectra have a short frequency range, but the power loss in the antenna’s transmit and receive processes is severe, and improved power amplifiers are needed to solve such problems, reports the Yonhap news agency. There are.

LG said the new amplifier can provide a maximum output signal of 15 decibel milliwatts for stable communication in the 155-175 GHz band.

LG also added that it has developed adaptive beamforming and high gain antenna switching technology for 6G terahertz radio communications demonstrations.

LG expects 6G communications to go to market in 2029 and standardization negotiations to begin in 2025.

The company can bring the concept of the Ambient Internet of Everything (AIoE), where next-generation telecommunications networks offer faster data speeds, lower latency, and higher reliability than 5G, providing users with greater enhanced connectivity experience. I think.

LG established a 6G research center with KAIST in 2019 and last year signed a contract with the Korea Institute of Standard Sciences to research 6G technology.

In June, the company’s principal investigator was elected chair of the applications working group of the Next G Alliance, a North American mobile technology alliance for the development of 6G solutions.

LG has successfully demonstrated 6G data transmission

Source link LG has successfully demonstrated 6G data transmission


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LG demonstrates 6G data transmission using terahertz spectrum https://childrensliteratureconnection.org/lg-demonstrates-6g-data-transmission-using-terahertz-spectrum/ https://childrensliteratureconnection.org/lg-demonstrates-6g-data-transmission-using-terahertz-spectrum/#respond Mon, 23 Aug 2021 07:00:00 +0000 https://childrensliteratureconnection.org/lg-demonstrates-6g-data-transmission-using-terahertz-spectrum/ Korean technology company LG Electronics said it has successfully demonstrated “6G” wireless terahertz (THz) data transmission and reception over 100 meters in an outdoor setting. 6G systems don’t technically exist because they haven’t been standardized yet, but terahertz frequencies – beyond millimeter waves – are being explored to be part of future systems. In a […]]]>

Korean technology company LG Electronics said it has successfully demonstrated “6G” wireless terahertz (THz) data transmission and reception over 100 meters in an outdoor setting.

6G systems don’t technically exist because they haven’t been standardized yet, but terahertz frequencies – beyond millimeter waves – are being explored to be part of future systems.

In a statement, LG said its work was carried out in collaboration with the German research laboratory Fraunhofer-Gesellschaft on August 13, with data traveling between the Fraunhofer Heinrich Hertz Institute (HHI) and the Berlin Institute of Technology. in Germany.

LG noted that since terahertz frequencies have a short range and experience power loss when transmitting and receiving between antennas, one of the biggest challenges for the future of 6G wireless is the need for power amplification to generate a stable signal at ultra wideband frequencies. The power amplifier developed by LG, Fraunhofer HHI and the Fraunhofer Institute for Applied Solids Physics (IAF) was crucial for the success of this latest test, the Korean company added.

The power amplifier is capable of generating a stable signal output up to 15 dBm in the frequency range of 155-175 GHz. LG noted that it had also successfully demonstrated adaptive beamforming technology, which changes the direction of the signal based on changes in channel and receiver position; as well as high gain antenna switching, which combines the output signals of several power amplifiers and transmits them to specific antennas.

“The success of this test demonstrates that we are getting closer and closer to the successful application of the terahertz radio communications spectrum into the next 6G era,” said Dr. IP Park, president and chief technical officer of LG Electronics. “Our successful partnerships with local and global research institutions and organizations to advance the development of 6G capabilities have been very rewarding. “

In 2019, LG established the LG-KAIST 6G Research Center in partnership with the Korea Advanced Institute of Science and Technology (KAIST).

Earlier this year, LG and KAIST partnered with US test and measurement company Keysight Technologies to research future 6G technologies.

Under the terms of the agreement, the three partners will cooperate in the development of technologies related to terahertz frequencies, widely regarded as a key frequency band for 6G communications, which have not yet been standardized. The partners aim to complete 6G research by 2024.

LG previously said 6G is expected to hit the market in 2029. LG also noted that future 6G technologies will offer faster data speed, lower latency, and higher reliability than 5G, and will be able to deliver the concept of the Ambient Internet of Everything (AIoE), which provides an enhanced connected experience for users.

Last year, the government of South Korea announced its intention to launch a pilot project for not yet standardized 6G mobile services in 2026. The Korean government expects 6G services to be commercially available in Korea between 2028 and 2030.

The Korean government’s 6G strategy consists of preventive development of next-generation technologies, securing standard and high-value-added patents, and laying the foundation for R&D and industry. The Korean government plans to invest a total of 200 billion KRW (currently $ 179.2 million) between 2021 and 2026 to secure core 6G technology.

The government has selected five major areas for the pilot: immersive digital healthcare content, self-driving cars, smart cities and smart factories.


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Fast and secure data transmission with PVC cards https://childrensliteratureconnection.org/fast-and-secure-data-transmission-with-pvc-cards/ https://childrensliteratureconnection.org/fast-and-secure-data-transmission-with-pvc-cards/#respond Fri, 20 Aug 2021 07:00:00 +0000 https://childrensliteratureconnection.org/fast-and-secure-data-transmission-with-pvc-cards/ To share Tweeter To share To share E-mail When you consider the number of industries that use smart technology, it might make your head spin. However, the global environment is moving towards simplification. Whether it is in the transportation, education, leisure and entertainment industry or a business organization, the key feature is to provide consumers […]]]>

When you consider the number of industries that use smart technology, it might make your head spin. However, the global environment is moving towards simplification. Whether it is in the transportation, education, leisure and entertainment industry or a business organization, the key feature is to provide consumers with a convenient way to go about their daily tasks.

Of the many different solutions, different industries find that these work best to achieve this goal, one of the most beneficial has been smart card technology. A good example is the Milfare DESFire and we take a look at the concept of the smart card, including this concept below, so that you can take advantage of its multiple uses as well.

PVC Cards

PVC cards are also one of the many ways to harness smart card technology, including some of the fastest data transfer technologies on the market. Some of these types of cards can contain up to 32 individual files per application depending on the information needed and the concept levels can be customized to suit individual needs and user specifications.

PVC or polyvinyl chloride is a plastic material from which most identity cards are made. They are the ideal material because they are durable and durable and can withstand high temperatures, for example when rolling, and can bend and be easily shaped during the manufacturing time. The Milfare DESFire card is an example of a card that uses this hardware.

What is a Milfare DESFire card?

Combining multiple applications on a single contactless card has become the norm in many organizations. The global trend is for a simple yet effective solution that eliminates the complexity of tasks by finding new and improved technologies that combine efficiency, security and simplicity.

One of these innovations was the Milfare DESFire board as an ideal solution to combine multiple applications. Based on the different memory sizes of these cards, they can hold as much data as needed for efficient functionality.

Such cards have multiple advantages for their users. As a contactless ticketing type solution, but also used on vending machines, as loyalty cards as well as for access management. These have a neat design and combine both reliability and safety.

With these, it’s all about efficiency, speed and performance, not to mention that they are cost effective. Their seamless integration across multiple devices enables a much smarter paperless solution across industries. For example, places that need printed tickets can benefit from using these reusable cards, as can key chains which are also a similar type of technology.

Structured around a chip inside the cards also known as a “Smartcard”, When using them, there is no need to manually add information to a database, as all the required information is usually already stored inside the chip.








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LG demonstrates successful 6G data transmission, Telecom News, ET Telecom https://childrensliteratureconnection.org/lg-demonstrates-successful-6g-data-transmission-telecom-news-et-telecom/ https://childrensliteratureconnection.org/lg-demonstrates-successful-6g-data-transmission-telecom-news-et-telecom/#respond Thu, 19 Aug 2021 07:02:00 +0000 https://childrensliteratureconnection.org/lg-demonstrates-successful-6g-data-transmission-telecom-news-et-telecom/ Seoul: LG Electronics said on Thursday it has successfully demonstrated 6G data transmission using the terahertz spectrum as the South Korean tech giant tries to advance in next-generation communications technology. LG managed to send 6G terahertz wireless communication signals 100 meters away in an outdoor environment in collaboration with Fraunhofer-Gesellschaft, Europe’s leading application-oriented research organization, […]]]>
Seoul: LG Electronics said on Thursday it has successfully demonstrated 6G data transmission using the terahertz spectrum as the South Korean tech giant tries to advance in next-generation communications technology.

LG managed to send 6G terahertz wireless communication signals 100 meters away in an outdoor environment in collaboration with Fraunhofer-Gesellschaft, Europe’s leading application-oriented research organization, in Berlin last week.

LG said it has developed a new power amplifier with Fraunhofer-Gesellschaft in order to provide stable communication signals in the 6G terahertz spectrum.

Ultra-wideband spectrum has a short range of frequency coverage, while the power losses in the antenna transmit and receive processes are severe, requiring improved power amplifiers to solve such problems, reports Yonhap news agency.

LG said its new amplifier can provide a maximum output signal of 15 decibel-milliwatts for stable communication in the 155-175 gigahertz band.

LG added that it has also developed adaptive beamforming and high gain antenna switching technologies for the demonstration of 6G terahertz wireless communication.

LG expects 6G communication to go to market in 2029, with talks for standardization starting in 2025.

The company believes that the next-generation telecommunications network can deliver faster data speed, lower latency, and higher reliability than 5G, and will be able to bring the concept of ambient internet to anything (AIoE ), which provides enhanced connected experiences for users.

LG established a 6G research center with KAIST in 2019 and last year signed an agreement with the Korea Standards and Science Research Institute to study 6G technologies.

In June, the company’s principal investigator was elected chair of the applications working group of the Next G Alliance, a North American mobile technology alliance for the development of 6G solutions.


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