英国dissertation写作指导:Introduction写作范例
11-07, 2015
英国dissertation写作指导:Introduction写作范例
关于科学技术变化对英国未来教育的影响讨论
Introduction
自1978年以来,30年的技术趋势和发展非常大的影响了社会。现在,2008年中期,似乎其中的几个技术趋势完全有可能在将来的30年直至2038年甚至更远的时间内继续维持或改变人们的社会。技术的进步可以改变社会,但同样的,社会因素也会影响教育研究,发展,商业和软件应用。所以社会也在影响技术进步的形状方向。
考虑2个明显的例子。人们在过去30年里见证了信息技术的戏剧化的爆炸式的发展,增强了社会经济。不久时间前,个人计算机和互联网的重要性还在被严重低估到无人问津。现在,似乎很有可能会像蛋白质组学的生物技术和合成生命在30年左右对世界有一个类似的爆炸和革命影响
In the 30 years since 1978 a number of technology trends and developments have had a significant effect upon society, and right now in mid 2008 it seems entirely plausible that several of these technology trends will continue to maintain or increase in their societal importance and impact over the coming 30 years to 2038, and beyond. Technology advances will change society but, simultaneously, societal factors will influence the demands placed on technology research, development, commercialization, and application and so society will shape and influence future technology advances.
Consider a couple of obvious exampleosite direction too. Events in the world, and changes in society, will determine research agendas and affect technology developments, or as. The past 30 years have witnessed a dramatic, explosive, increase in the socioeconomic importance of information technology (IT) systems. It is difficult to remember the extent to which the magnitudes of the Personal Computer (PC) and Internet revolutions were under-estimated until very shortly before their impact became undeniable. Right now, it seems very likely that the post-genomic biotechnology of proteomics and synthetic life are set (over the next 30 years or so) to
have a similarly explosive and revolutionary effect on the world in general, and on advanced industrialized economies in particular. In these aspects of IT and of biotech we can think informally of the causation being from the lab to the world: researchers develop new technologies, those technologies change society.
But we know that causation runs in the oppffect which technologies are commercially successful. That the world‘s climate is undergoing a period of significant change is no longer in dispute (although the extent to which that change is anthropogenic is still the topic of some debate). That the world‘s energy consumption is increasing at an alarming rate (regardless of any impact on climate) is, on a 25-50 year perspective, an extraordinarily serious concern: many respected commentators argue that the oil peak will be passed very soon, if not already; some estimates of global uranium stocks imply that, if all major economies switched to traditional fissile nuclear reactors, the world‘s uranium would be entirely consumed within 30 years compensating for dwindling oil supplies by increasing production of liquid bio fuels requires repurposing vast tracts of arable land, typically switching it away from producing food for humans, and thereby contributing to significant inflation in basic food prices. Dealing with climate change, our rampant energy needs, our increasingly crowded planet, and our resultant pollution, are challenges not only for technology development but also for policymakers and other agents of social change.#p#分页标题#e#
Sometimes the key issues lie entirely in the social domain: the deployment of proven technology, presenting no significant research challenges, might nevertheless be highly contentious. One result of the various terrorist attacks attributed to Al-Qaeda has been a greatly increased focus on ―homeland security‖ monitoring and surveillance of people as they go about their everyday business. Here, technology can readily be brought to bear on the problem (for example, basic automated surveillance such as tracking cars by computerized CCTV license-plate recognition is, in principle, more effective and more practicable than having humans do the same job) but thorny social, legal, ethical, and political issues need also to be resolved, such as those concerning the trade-off between the individual‘s right to privacy, and the state‘s ―duty of care‖ to detect and defeat terrorist activity.
Because of the interplay and interdependence between technology developments and societal change, making usefully accurate predictions concerning specific technology developments and how they might interact with social structures on a 15-to-50-year timescale is pretty-much impossible.
And so the rest of this paper aims to meet that specification. We concentrate here on computing, with particular reference to computerized automation, artificial intelligence, ubiquitous computing, and advanced interface issues. Bioscience makes an entry because the psychopharmacology of ―smart drugs‖ for cognitive enhancement is already a manifest issue, but also within the next 50 years it seems quite likely that traditional computer technologies will be able to interface directly with the nervous system via implanted electrical connections, and that novel computers will be built from living cells, instead of silicon chips. Mathematics is not discussed explicitly in any depth here, but all of the technology trends explored in this paper require continued effort by highly numerate researchers and practitioners and, in some cases, they also require the development of new mathematics tools and techniques, and so in that sense mathematics silently permeates this entire document.
Eight specific major trends are discussed. Before we go on, it‘s worth pointing out that any discussion paper such as this is partial in both senses of the word: it is incomplete, and it reflects the biases of the authors.
关于科学技术变化对英国未来教育的影响讨论
Introduction
自1978年以来,30年的技术趋势和发展非常大的影响了社会。现在,2008年中期,似乎其中的几个技术趋势完全有可能在将来的30年直至2038年甚至更远的时间内继续维持或改变人们的社会。技术的进步可以改变社会,但同样的,社会因素也会影响教育研究,发展,商业和软件应用。所以社会也在影响技术进步的形状方向。
考虑2个明显的例子。人们在过去30年里见证了信息技术的戏剧化的爆炸式的发展,增强了社会经济。不久时间前,个人计算机和互联网的重要性还在被严重低估到无人问津。现在,似乎很有可能会像蛋白质组学的生物技术和合成生命在30年左右对世界有一个类似的爆炸和革命影响
In the 30 years since 1978 a number of technology trends and developments have had a significant effect upon society, and right now in mid 2008 it seems entirely plausible that several of these technology trends will continue to maintain or increase in their societal importance and impact over the coming 30 years to 2038, and beyond. Technology advances will change society but, simultaneously, societal factors will influence the demands placed on technology research, development, commercialization, and application and so society will shape and influence future technology advances.
Consider a couple of obvious exampleosite direction too. Events in the world, and changes in society, will determine research agendas and affect technology developments, or as. The past 30 years have witnessed a dramatic, explosive, increase in the socioeconomic importance of information technology (IT) systems. It is difficult to remember the extent to which the magnitudes of the Personal Computer (PC) and Internet revolutions were under-estimated until very shortly before their impact became undeniable. Right now, it seems very likely that the post-genomic biotechnology of proteomics and synthetic life are set (over the next 30 years or so) to
have a similarly explosive and revolutionary effect on the world in general, and on advanced industrialized economies in particular. In these aspects of IT and of biotech we can think informally of the causation being from the lab to the world: researchers develop new technologies, those technologies change society.
But we know that causation runs in the oppffect which technologies are commercially successful. That the world‘s climate is undergoing a period of significant change is no longer in dispute (although the extent to which that change is anthropogenic is still the topic of some debate). That the world‘s energy consumption is increasing at an alarming rate (regardless of any impact on climate) is, on a 25-50 year perspective, an extraordinarily serious concern: many respected commentators argue that the oil peak will be passed very soon, if not already; some estimates of global uranium stocks imply that, if all major economies switched to traditional fissile nuclear reactors, the world‘s uranium would be entirely consumed within 30 years compensating for dwindling oil supplies by increasing production of liquid bio fuels requires repurposing vast tracts of arable land, typically switching it away from producing food for humans, and thereby contributing to significant inflation in basic food prices. Dealing with climate change, our rampant energy needs, our increasingly crowded planet, and our resultant pollution, are challenges not only for technology development but also for policymakers and other agents of social change.#p#分页标题#e#
Sometimes the key issues lie entirely in the social domain: the deployment of proven technology, presenting no significant research challenges, might nevertheless be highly contentious. One result of the various terrorist attacks attributed to Al-Qaeda has been a greatly increased focus on ―homeland security‖ monitoring and surveillance of people as they go about their everyday business. Here, technology can readily be brought to bear on the problem (for example, basic automated surveillance such as tracking cars by computerized CCTV license-plate recognition is, in principle, more effective and more practicable than having humans do the same job) but thorny social, legal, ethical, and political issues need also to be resolved, such as those concerning the trade-off between the individual‘s right to privacy, and the state‘s ―duty of care‖ to detect and defeat terrorist activity.
Because of the interplay and interdependence between technology developments and societal change, making usefully accurate predictions concerning specific technology developments and how they might interact with social structures on a 15-to-50-year timescale is pretty-much impossible.
And so the rest of this paper aims to meet that specification. We concentrate here on computing, with particular reference to computerized automation, artificial intelligence, ubiquitous computing, and advanced interface issues. Bioscience makes an entry because the psychopharmacology of ―smart drugs‖ for cognitive enhancement is already a manifest issue, but also within the next 50 years it seems quite likely that traditional computer technologies will be able to interface directly with the nervous system via implanted electrical connections, and that novel computers will be built from living cells, instead of silicon chips. Mathematics is not discussed explicitly in any depth here, but all of the technology trends explored in this paper require continued effort by highly numerate researchers and practitioners and, in some cases, they also require the development of new mathematics tools and techniques, and so in that sense mathematics silently permeates this entire document.
Eight specific major trends are discussed. Before we go on, it‘s worth pointing out that any discussion paper such as this is partial in both senses of the word: it is incomplete, and it reflects the biases of the authors.
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