Skip Nav

Contribution to the Writing Community (academic ghostwriting / plagiarism / ethics)

What Is the Best Way to Write a Business Letter Asking for a Donation?

❶Hello, It's been a long time.

What Other Visitors Have Said

Threads in This Forum
Analyze order

It IS the source of market research already ;. Why would you like to give more 'visibility' on the industry, though; it's easy for potential customers to do a search and find example research services online..

The trick is to learn how to find reliable and legitimate ones , but that's being discussed in the other thread. KCR in all offices, when egos of like minded people are gathered in the same room, you can expect an explosive exchange of ideas and a high level of Adrenalin as each person tries to prove his point and come out on top.

Each of them have the same objective, to be recognized by potential clients and gain a slice of the market. That is not what I am here for. I do however, recognize that ES has a thriving and boisterous community that reflects that sort of workplace. Sure we can get rowdy at times and there will always be a difference in opinion. That doesn't mean that enemies are made for life or that one is weak if he walks away from a debate.

It just means that the community is lively enough for the potential clients to make a decision regarding which independent writer appeals to them or shares their writing style. That debate does have a tendency to get out of hand at times, but everything works out in the end. Everyone simply agrees to disagree and moves on from that point. To be clear, I am not here to gain writing jobs.

The study also reveals some crosscutting areas of academic research that are important to overall industrial performance. In addition, the mechanisms by which academia contributes have changed as traditional patterns of industry-university interaction such as contract research, cooperative re- search, and personnel exchanges have been augmented by new modes of inter- action. Industry provides more than financial support for academic research, and academic research contributes more than technological advances to industry, although some contributions are difficult to measure in dollars.

A comparison of patterns of interaction reveals a number of ways industry, academia, and govern- ment could realize even greater benefits through university-industry interaction.

The nature of university-industry interactions varies from industry to industry as well as among companies within a given industry and individual academic institutions. Each of the industries studied has a distinctive environment and poses differ- ent challenges for university researchers.

In building infrastructure for network systems, universities have historically been test beds for new concepts and capa- bilities. For the medical devices and equipment industry, fundamental In the aerospace industry, the mature, highly concentrated airframe, propulsion, and launch-vehicle sectors have a fairly narrow range of interactions with academic research, often using consulting agree- ments and contract research to develop better process methodologies and tools.

By contrast, the less mature unmanned aerial vehicles sector of the industry looks to academic research for technical support, as well as for new concepts and understanding. As a result, although academic research has had a significant impact on both, neither industry has developed interfaces with academic research comparable to those of the medical devices and equipment industry or the network systems and commu- nications industry.

The wide variety of university-industry research interactions in these five industries makes it difficult to make generalizations. With the notable exception of multicompany research centers at universities, most financial support by industry is negotiated company by company.

Companies have different needs and abilities to interact with academic researchers, and universities have differ- ent resources to devote to research of value to industry. Generalizations about what works best for all industries and universities should, therefore, be made very cautiously.

The academic research enterprise is a major component of the national innovation system in the United States. The core competencies of aca- demic research help sustain and leverage innovation to the benefit of industry. Box summarizes the innovation systems for the five industries, which are innovative to varying degrees and in different ways that tend to change over time.

A large number of research structures and mechanisms, both internal and external to the university e. A strong market and consumer demand for new technologies provides strong commercial incentives for introducing new technologies and, there- fore, strong incentives for funding research to create them.

The research culture in the United States fosters innovation by supporting the movement of ideas and people among a broad range of diverse research. Even though research is often essential to innovation, there is rarely a linear progression from a research result to advanced development to product development to economic return. Ideas and people tend to bounce around, and new ideas are sometimes stymied by political or business impediments and forced to find alternative routes to implementation.

The sources of these contributions include engineering, the natural sciences, com- puter sciences, mathematics, social sciences, behavioral sciences, management studies, and policy sciences. Graduates Trained in Research Finding Integrated research and education helps maintain the flow of human resources from universities that contributes to an educated, trained industrial workforce.

University graduates and faculty are also involved in many technology-based, start-up companies. Students trained in research are a major component of academia's contribu- tion to industrial performance. Individuals with research training are highly valued by industry, whether or not they are involved in research for the companies that hire them.

In addition to the specific body of knowledge acquired through academic research, industry values research experience because it re- quires abilities that are prized in any technical endeavor: Research-trained industry employees also enhance a company's capacity to absorb new ideas, including the results of research, even if the company does not conduct its own research.

Academic researchers also participate in new companies. Many technology- based start-up companies emerge from academic research and continue to attract research graduates as they grow. Many high-technology clusters around the coun- try have developed around one or more research university. Contributions from basic, long-term academic research in a broad spectrum of disciplines have figured prominently in industry performance.

Portfolio theory, linear programming, derivative-pricing theory, and pros- pect theory, all of academic origin, have laid the foundation for whole new families of financial products and services. Academic contributions to linear and integer programming and queue theory are the building blocks of the information-management and decision-support technologies at the heart of the integrated-logistics revolution. Medical devices, such as magnetic resonance imaging machines and pacemakers, are based on the contributions of fundamen- tal research from multiple disciplines in the natural sciences and engineering.

In the network systems and communications industry, universities have made im- portant research contributions to the development of digital subscriber-line tech- nology, third-generation wireless communication, computer graphics, databases, search engines, generalized processor sharing, parallel processing, traffic man- agement, and stable broadcast networking. In aerospace, contributions of basic research include: Basic, long-term research is essential to the university's role as creator of new knowledge and understanding.

The committee's review of these five indus- tries confirms that the results of basic research in a wide range of disciplines eventually find their way by diverse paths into many aspects of commercial life.

Contributions from Applied Research Finding Academic researchers in applied research and the academic re- search infrastructure are directly involved in the development of industrial tools, prototypes, products, and production processes, as well as the delivery of prod- ucts and services. Sometimes applied research is protracted and has cumulative, incremental results. An example might be continued improve- ments in computational fluid dynamics as a tool for modeling airflow.

Another would be the long-term contributions of academic researchers to improved produc- tion processes and product performance in electronic storage devices. Short-term research projects, stu- dent projects, and consulting projects to solve specific, important problems in industry are based on formal and informal relationships between companies and faculty.

Many companies nurture relationships with multiple universities, often relying on local institutions to solve technical problems or to advise the company's engineering staff on potential solutions. Examples include assistance in produc- tion scheduling in logistics, simulations of airflow and nondestructive evaluation of materials in aerospace, and models for pricing derivatives and securities in.

Most universities consider this an important aspect of the service role of the university and encourage these interactions. The increased number of ranking of individual lawyers or firms practices has make it necessary for firms to show their expertise in a different way. However, client capacities to read or browse such publications is limited and they are just too many of them and too many the same to have a fair view of what is worth reading.

Ranking such publications is meant to guide readers on which publications they should read first, depending what they are looking for. Our empirical study showed that there is a concern that the activity, which is designed to raise safety concerns, has been used by brand drug companies to delay generic entry.

It is a true honor to receive such an award, which will hopefully raise awareness of this conduct. And I am grateful to Concurrences and GW for their creation of these awards and all of the work they do every year to run the competition and host a delightful dinner. In highlighting scholarship that is particularly deserving of attention, Concurrences and GW provide a real service to the antitrust community. It was a pleasure to see these outstanding authors from all over the world and to hear a synthesis of their work which has contributed so much to the law and it's practice.

This initiative will, I hope, increase the quality and depth of such writing to provide the practical complement to academic articles. By collecting the best writing in the field of practitioners and academics, the Awards create a one-stop shop that saves tremendous amounts of time and keeps readers fully cognizant of the best new work The Antitrust Writing Awards uniquely embrace and celebrate that scope for the benefit of all workers in the field.

They have helped to spread competition law insights and knowledge throughout the world. This not only rewards the authors, but also is very helpful for practitioners, because it highlights the most interesting and influential papers from an increasing flood of publications that is more and more difficult to follow.

They accompany and consecrate the rising prominence and impact of competition law on the global economy. These awards have surely made antitrust academics and practitioners more alert to the value of writing well, with attention not only to substantive analysis but also to clarity and economy of presentation. Our field is blessed with an erudite academy and an intellectually sophisticated bar; the Concurrences Awards bring out the best in both.

To have our work not only recognized, but recognized by board members whose work we respect so much and by institutions with so much credibility, is a rare and delightful treat.

Let's get down to the nitty-gritty and find out what you are getting for your money

Main Topics

Privacy Policy

Writing for Scholarly Journals and he has taught English academic writing at the Universities of to make a contribution and move knowledge on I also believe that both will make an essential contribution to Academic Research International Its mission is to provide an interdisciplinary forum for.

Privacy FAQs

Aug 28,  · All this sinister posting with no contribution to the writing community looks more like misguided attempts at anger management and scribbling art therapy. I am bored. Forum / General Talk / Contribution to the Writing Community (academic ghostwriting / plagiarism / ethics) BEST WRITING SERVICES [5]: Top Academic Research Services!

About Our Ads

Sep 05,  · Forum: Editing & Writing Topics This forum is for only two things: Your real-life (non-academic) writing needs, or help understanding teacher's comments after you have turned in an essay. THE CONTRIBUTIONS AND IMPACT OF ACADEMIC RESEARCH financial services. Most universities consider this an important aspect of the service role of the university and encourage these interactions. Research centers, especially those with industrial participation, are another avenue by which universities perform both "directed" basic research.

Cookie Info

What are the Antitrust Writing Awards? has been used by brand drug companies to delay generic entry. «As a academic writing winner for my work with Michal Gal and a former member of the Academic Steering Committee I am appreciative of the highly successful effort that Concurrences and GW Law have made to encourage and to reward. Apr 08,  · Academic Writing Forum: Task 1 Post here if you have any questions or comments about writing graphs, diagrams, pie charts, processes or maps, or if you have any other questions or comments about this part of the test.