Cyberinfrastructures-in-future-of-computer-networking

Running Head: CYBERINFRASTRUCTURES IN FUTURE OF COMPUTER NETWORKING 1

Cyberinfrastructures in Future of Computer Networking

Name of the student

Name of the Affiliate Institution

CYBERINFRASTRUCTURES IN FUTURE OF COMPUTER NETWORKING 2

Cyberinfrastructures in Future of Computer Networking

The modern cyberinfrastructure is viewed as a distinctly complex system due to the

distributed and heterogeneous software implementation flavors and the complicated user

interfaces. Cyberinfrastructure can be said to be connective tissues for computational science that

ties together software, networks, data, resources, and research projects. Cyberinfrastructure

according to Atkins 2003 is the situations, under which data is acquired, processed, managed and

stored and spread information through the web networks from one geographical location to

another. It plays an important role in creating an answer to the problems of technology and

socialization through connecting research and people with fundamental ideas of innovation to

come up with possible solutions and scientific theories. It is the channel through which

information is relayed between people by the use of computers that are well linked through a

world wide web allowing them to share ideas important in the development of technological

ideas. It can also be described as the ultimate infrastructure needed to capitalize on information

technology advances. It is the substrate that joins all scientific computation. The paper discusses

Cyberinfrastructures in Future of Computer Networking.

The term cyberinfrastructure explains the new research environments which are in

support of advanced acquisition, storage, management, integration, mining, and visualization of

data (Young, Raskin, Goodchild et al 2010). It also explains the advanced computing and data

processing services by use of the internet. In scientific development, cyberinfrastructure is a

savior to the problem of efficiency in data connection, people, and computers with the goal of

enhancing derivation of knowledge and scientific theories. It makes application development

and deployment easier, hence increasing the feasible application scope possible. The expansion

of the feasible scope of applications ought to be with a budget and organizational issues hence

CYBERINFRASTRUCTURES IN FUTURE OF COMPUTER NETWORKING 3

shifts the engineers’ and scientists’ effort away from the development of information technology.

Therefore, scientist’ and engineers’ are left focus all their concentration on their engineering and

scientific research.

Today, almost all businesses or key activities relies on or uses some form of information

technology services. The services ought to be appliance-like and enabling thus an economy of

scale must be available for the cost of ownership to be better than it would be in the absence of

cyberinfrastructure. The end user productivity ought to be improved as the technology-driven

overhead should be reduced. A good example is an instance where information technology is not

the major concern in an organization, less than twenty percent of the organization’s efforts which

are not directly connected to its major business will have to work with information technology

overhead (Lee & Mark, 2006).

Firms are in constant support of the development of cyberinfrastructure and its resources

as well as the tools and services that spearhead the advancement of engineering and scientific

growth. It is highly significant in providing scholars with the ability to share information with

experts as well as peers. This can assist in building a more creative system of education as well

as uplifting the standards of education (Lee & Mark, 2006). Also, scholars and scientists can find

information on the ideas and innovations that they are working on by sharing information

between them and more experienced professors in the scientific fields that they are researching

on.

Cyberinfrastructure is important in the future of the networking of computers. Through

the improvement and the constant development of the media through which information can be

channeled between people using the computer, technology advancement of cyberinfrastructure

forms a basis of the important web communication. It is important in foreseeing the development

CYBERINFRASTRUCTURES IN FUTURE OF COMPUTER NETWORKING 4

of the web and data transmission through the web between many people by just a click of a

button (Lee & Mark, 2006). Ideally, cyberinfrastructure is a development that aims at improving

how information, people, and data can find a way through which they can interrelate and find a

common base where all the solutions for the transmission and receipt of ideas in the form of data

are realized. The advancement of cyberinfrastructure has led to the solution of challenges such

as:

Research Challenges

It has become easy for researchers especially those in the same field to receive an easier

approach in the development of the research process through receiving and sending information

between them because of sophisticated cyberinfrastructure solutions. The advancement of this

system of information transmission would, therefore, see a future in the development of

computer connected networks that allow easy sharing of information.

Competitiveness of Institutions

With this technology of developing the networks through which information can be

shared between people of almost similar intellectual capacity and knowledge, there is a

possibility of competitiveness among institutions of learning as well as corporate institutions

(Young, Raskin, Goodchild, et al 2010). There is a serious level of competition that could be

realized; as a result, creating competitive minds in the process hence improving the creativity of

the scholars and employees.

Learning process

Learning has often been thought of as a listening process rather than doing. Most people

believe that it is easier to learn by the ear rather than doing it by yourself. However,

CYBERINFRASTRUCTURES IN FUTURE OF COMPUTER NETWORKING 5

cyberinfrastructure gives learners and scholars a chance to learn by performing rather than

listening. It has proven that better students are produced through practically doing rather than

just listening.

Unlike the traditional web and broadband access, Cyberinfrastructure has a high focus

and weight. Getting information, downloading audio and visual content as well as documents

may not be just enough, Cyberinfrastructures, giver researchers, and scholars a wider range of

opportunities to interactively share ideas, allowing scholars to cooperate in a more powerful

dimension.

Cyberinfrastructure provides a platform that acts in a more than just the technology kind

of environment. Its focus is mainly on the creation of a more collaborative culture (Lee & Mark,

2006). There is a growing need for collaboration each day in the competitive business and

educational world. Cyberinfrastructure offers this platform for a great number of the literate

public all over the world, giving them a chance to link up using their computers. It means that

there is a great future importance in the use of technological web devices and the essence of

computers in the communications within people with similar interests in the educational and the

current scientific world.

The most important ethical issue required for the success of cyberinfrastructure is trust. It

is important for the users and information technology providers to establish a certain level of

trust between them. There is a lot of information shared between intellects in within the

cyberinfrastructures that may require some level of trust to pull through.

Just like any other technological advancement and functions, there is a possibility of both

failure and great success. It depends on how the public receives the idea and how the users put

CYBERINFRASTRUCTURES IN FUTURE OF COMPUTER NETWORKING 6

the idea to use. It might end up very useful or useless depending on the reception it gets by its

users and the IT providers.

Cyberinfrastructure supported environments are likely to enable computer networking

teams to be effective in handling their long-term goals in research. Computers and networks have

made a great improvement in conducting researches. The changes can be described as

constituting a revolution in the creation, dissemination, and preservation of engineering and

scientific knowledge. It is a concept of advanced infrastructure level which the educational

environments and scientific engineering research are built on. The level is between the

computing infrastructure, growing network, and the complexity of data, disciplines, knowledge

and scientific instruments. Therefore, cyberinfrastructure is a layer of enabling software,

communication, hardware, institutions, and algorithms (Young, Raskin, Goodchild et al 2010).

Cyberinfrastructure brings together advanced computer communication and information

technologies with the aim of empowering data-driven, and computation-based practices and to

improve the analysis and synthesis of scientific data in a manner that is collaborative and shared.

Due to that, it has become a representation of a paradigm shift in research that has enabled the

facilitation of easy and fast access to computational utilities as well as streamlined collaboration

across disciplines. By doing that, it has enabled simpler and more efficient ways of getting too

scientific breakthroughs (Young, Raskin, Goodchild et al 2010). An example of a

cyberinfrastructure that seeks to improve computing is the spatial cyberinfrastructure. It seeks to

resolve prevalent complicated issues of analyzing and handling heterogeneous and intense spatial

databases. It also aims to fix the problems that hinder the flexible and secure sharing of spatial

data.

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In many domains, the progress is notable, and it benefits from a person’s ability to view

the pages by use of a computational lens. The advances would be impossible were it not for

advanced data, data capture tools, analysis, integration and computational cyberinfrastructure.

Cyberinfrastructure has therefore enabled computer networking to advance, and it is evidence

that the same will be progressive in future. Were it for the emergence of cyberinfrastructure it

would not be possible to carry out internet research since the websites and domain in which

research is carried out would not be visible.

For cyberinfrastructure to impact much on computer networking, innovation is needed in

the cyberinfrastructure fabric connectivity (science DMZs use). The said science DMZs isolates

large research information flow from internet traffic commodity. However, it is hoped that in

future, it will offer a possibility of ubiquitous patterns of cyberinfrastructure. The idea of creating

new substrates which are needed for the science platforms innovation that minimizes barriers to

researchers’ entry and also leverages automation tools that are open sourced to create new types

of distributed cyberinfrastructure.

In conclusion, from the above discussion, it is clear that cyberinfrastructures have

contributed to the improvements in computer networking. Cyberinfrastructure has become an

important invention and a significant advancement in the modern technology that must be

embraced and taken into great consideration as it gives the use of computers a significant future

and builds a basis for the advancement of interactive technology, creativity, and innovation. The

improvements have turned out to be beneficial not only for individuals but also for companies

whose major business is information technology. From the speed at which cyberinfrastructures

are developing, it can be predicted that to the future of computer networking, they will be the

greatest contributors.

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References

Atkins, D. (2003). Revolutionizing science and engineering through cyberinfrastructure: Report

of the National Science Foundation blue-ribbon advisory panel on

cyberinfrastructure.

Lee, C. P., Dourish, P., & Mark, G. (2006, November). The human infrastructure of

cyberinfrastructure. In Proceedings of the 2006 20th anniversary conference on

Computer supported cooperative work (pp. 483-492). ACM.

Yang, C., Raskin, R., Goodchild, M., & Gahegan, M. (2010). Geospatial cyberinfrastructure:

past, present and future. Computers, Environment and Urban Systems, 34(4), 264-

277.

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