New materials and components of THz Electronics
The Ferdinand Braun Institute in Berlin, the Leibniz Institute for High Frequency Technology (FBH) in Berlin and the University of Duisburg-Essen (UDE) are strengthening cooperation in the field of high-frequency semiconductor research.
The "Joint Laboratory Inp Equipment" has been launched in 2019 and has now been officially established. The partners are working together on new semiconductor structures and components for terahertz applications, and developing integrated components for electronic terahertz technology.
The Joint Lab bundled previous activities.
These applications include non-destructive material testing, high-resolution medical imaging, and broadband communication systems. The newly created joint laboratory combines Dr. Dr. ’s previous application-related activities. Hady Yacoub instructed FBH's "Inp Equipment Laboratory" to carry out the basic research work of UDE.
The university is responsible for coordinating the joint laboratory of Professor Nils Weimann, who is responsible for high-frequency electronic components. The new "Joint Laboratory Inp Device" has access to the complementary infrastructure of FBH and UDE's semiconductor technology and Optoelectronics Center (ZHO), and therefore aims to implement basic material research in application circuits and modules.
The
study of indium phosphide MMIC The semiconductor material indium phosphide (Inp) is very important for high frequency applications and plays a special role here. Using Inp-based MMICs (monolithic microwave integrated circuits), the highest frequency in the terahertz band can be reached-only available in laboratory-scale situations-so that the new system can be implemented cost-effectively.
As part of the German government's high-tech strategy, FBH's Inp processing technology is currently being significantly expanded in Germany's microelectronics research plant. In ZHO, the crystal growth of the Inp semiconductor layer was updated through an investment in the ForLab program of the Federal Ministry of Education and Research.
In addition, the Government of North Rhine-Westphalia and the European Union funded the Terahertz Integration Center with ERDF funds on ZHO to study the concept of the integration of module modules in terahertz.
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How renewable heat and transportation build
Renewable power is useful for heating, and we use in excess of 50 percent from the vitality for heating and cooling. Thus, the enlargement of renewable power from the heating marketplace is very important with the complete vitality transition.
Renewable power has also grow to be increasingly critical while in the heating marketplace. From 2000 to 2016, the share of final strength consumption in heating and cooling in Germany tripled from 4.4% to 13.4%.
The usage of renewable strength while in the heating industry is regulated because of the Renewable Electrical power Thermal Regulation. It stipulates which the house owners of latest buildings will attract heat from renewable electricity in proportion, and employ certain alternate actions, these types of as taking additional insulation steps, or using merged warmth and electricity or central heating.
On top of that to the federal government's guidance, the market incentive program takes advantage of renewable power to increase its share of heating. Primarily boost the usage of renewable systems within the heating sector in current structures, this kind of as photo voltaic thermal techniques, wood chip heating and high-efficiency heat pumps.
Renewable electrical power in transportation
While in the transportation field, biofuels these as bioethanol, biodiesel and biogas have contributed to weather defense and electrical power offer. In 2016, renewable electrical power accounted for five.1% with the ultimate energy consumption of transportation. At this time, this almost signifies biofuels used only for autos, trucks, trains, ships and airplanes. Nonetheless, so that you can push more electrical motor vehicles, renewable strength is becoming more and more essential. The electric mobility implies that CO2-armes generate and energy is linked from renewable electricity sources these types of as solar power and wind strength transportation departments.
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Renewable power sources of electric power
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Future Technologies That Will Change Life Style
Virtual reality applications not only have high potential in the entertainment and digital games industry, but have great potential to be used in the retail, manufacturing, health, tourism and finance industries.
For example in the field of health, a specialist doctor can train and test a complicated operation in virtual reality before doing so on the human body.
A tourist can visit a place of interest in virtual reality before physically visiting the place, so he or she can choose the location of the tourist that is of particular interest to visit.
Among the major constraints of portable electronic devices, such as smartphones to electric cars, are the constraints on battery capacity. In terms of size and weight, the source of electricity, the power generated and the battery life are some of the factors limiting battery technology.
However, a great deal of research and innovation will create lightweight and durable battery technology. From sources such as air, waste and even urine can also be a source of electricity.
Small batteries that use sweat can power small electronic devices that can be used on the body. From hats to shoes, everything can be electronic.
Imagine you see a doctor when you have a fever and they ask you to take a capsule containing a nano robot to diagnose your disease.
This is one of the uses of nano robots that are expected to exist in the future. Not only can it identify the disease but it can also treat the disease.
Scientists are working hard on researching three key factors for the success of nano robot technology in the field of health, namely, robot navigation, robot power sources as well as robot movement in the bloodstream.
In the future, when you are sick you do not need to swallow the medicine, just swallow the robot.
Life stories in a technological context
We know that identities are not given by genes, nor by the characteristics of the body, not even by that vague feeling that seems to tell us, like Don Alonso de Quijano, "I know who I am", but by a kind of stories that are constructed in a complex interaction between bodies and souls. Confusing paths that open in the skin and memory produced by the contingencies of history, by erratic steps and decisions, by the spaces and times in which the person lives who, like storms and meteors, produce a singular landscape that we call personal identity. They are unrepeatable and irreplaceable life stories that would have no meaning without the mediation of circumstance, event and environment.
Identity is a complex construction woven with many wickerwork, some biological and some cultural. There is no identity that is not, in some aspect, cultural identity (also bodily, also mental). Thus, unraveling how culture affects personal and collective identity requires that we focus on a little-discussed aspect: material culture.
Sometimes the “social construction” of identity or “cultural construction” is spoken of, but in both cases the material aspects of society and culture are usually excluded from consideration. Let's take an example that affects society: the state.
The theories of the state are very diverse and are related to those of those who subordinate themselves to it: individuals, citizens, people, but they always do so under a purely social description: institutions, norms, ties. However, a state is a form of social order that would not be possible without certain material bases. The most important of all is writing. For without laws there is no state or institutions and laws, by their very nature of norms, transcend the relationship of presence between the legislator and the legislature, and this is possible because there is a material means that allows this independence: writing.
What applies to groups and societies also applies to people: our identities are built as routes of life in technological landscapes that overlap with nature creating artificial worlds.
Psychological character formation not only occurs in a social environment, it has the technical environment that orders all aspects of growth and learning. These environments are strictly niches that allow some life trajectories and inhibit others.
Technology is revolutionizing the future of work
Technology blends with work and everyday life. Networking is growing and enabling new things. The question is what new opportunities will technology bring and what kind of skills are needed in a changed world. Anticipate technological changes in work and education.
Technology brings with it new skills requirements and jobs. These very niche industries require very specific expertise and are not taught in a few courses. How Finland can turn this into a benefit, Hiltunen ponders.
There are robots on the side. They come into our everyday lives, for example, as self-driving cars, so taxis may not be needed in the future. In the pharmaceutical industry, small nanorobots repair humans, like a surgeon, but more closely. Our parks are maintained by parrot robots like ants.
In the care of the elderly, the nurse wears a robotic robe called the exoskeleton, so heavy lifting does not pose a problem. Robots already work as a corporate receptionist, guiding clients in a variety of simple situations.
Future professional titles may include robotic police, city air traffic controller, self-help consultant, virtual restaurant wizard, artificial intelligence lobbyist, deputy traveler or happiness operator.
The future must be considered through scenarios, ie alternative situations. The future manager must master strategic planning using a scenario model and be able to anticipate his or her company's digital and skills needs in each situation.
"Business leaders should outline at least three alternative scenarios and consider what skills or training are needed and what jobs are available in each scenario," says Hiltunen.
Training also needs to be adapted as soon as possible to meet new needs. This is one of the greatest societal challenges of our time.
Effects of Information Technologies on Social Life
With the rapid development of information technologies, a communication network that covers the whole world has been established, this global communication network has been the main source of information for scientific research, productivity, cultural changes, global trade and global education.
This network creates a global center for written, verbal and visual communication among all people living in the world. As the information technologies and production technologies are rapidly evolving and changing, the increasingly brutal competition environment changes people's expectations and demands for life.
When all the developing and changing conditions are examined, it is accepted that the growth, liberalization and transparency of the world will increase as a result of these global movements applying their own constitutions, basic principles and principles.
It is not possible to say that it is not affected by this development in all areas from governments to social life. Although information technologies have brought innovations for every inch of our lives, the use of societies in the field of education, which is perhaps the most vital function, is extremely limited.
To say that information technologies affect almost all aspects of individual and social life is no longer an argument and has become a common view. It is possible to classify these effects as positive effects and negative effects on the one hand, as well as direct effects and indirect effects on the other.
Although positive effects are much easier to classify and discuss, as they are predominantly directly observable and economically computable, it is not easy to have a clear classification and discussion for negative effects. The main reason for this is that the negative effects are predominantly social, cultural and indirect and therefore more subjective evaluations can be made on them.
How does technology reconnect with education?
New information and communication technologies or technology more generally today have touched all areas of everyday life. Education, a sensitive and privileged area, has not been spared by this rapid development of technology. The latter permeates it and brings about major changes.
What links can we establish between technology and education? How does technology participate in education? Find the answers to these different questions in this article.
Technology has brought great innovations in the field of education . Indeed, before its advent, the field of education was organized in a rather ordinary way. The lessons were given through printed media, including books, notebooks and other works.
Today things have really changed. We are now witnessing a real revolution in this area. Here are some cases in which technology has close links to education.
The technology has been available to education stakeholders, new tools whose effectiveness can not be denied. This is particularly the case for computers which are nowadays widely used. These are powerful tools that allow you to carry out research, save school data and much more.
This is also the case for tablets, which are the result of remarkable technological prowess. In a large number of primary, secondary and university establishments, these tools are frequently used.
Although many education centers continue to use conventional methods and means of education, considerable changes are to be noted. Today with technology, it is possible for any learner to be trained from home.
This proves to be possible thanks to online training offered by several school and university entities in practically all countries of the world. You just need to register by carrying out the various formalities that are requested and voila.
