One Laptop per Child/lang-ja: Difference between revisions

From OLPC
Jump to navigation Jump to search
Line 97: Line 97:
<div id="The hardware"/>
<div id="The hardware"/>


== The hardware ==
== 機器 ==


{{ Translated text |
{{ Translated text |
Line 110: Line 110:


<div id="The software"/>
<div id="The software"/>

== The software ==
== The software ==



Revision as of 07:54, 23 May 2007

  このページは、OLPCチームによってチェックされています。
  Template:Translation/translation of/lang-jp One Laptop per Child Template:Translation/original/lang-jp  
  english | españolitaliano日本語한국어portuguêsromânăрусский中文繁體中文   +/- Template:Translation/changes/lang-jp  

Write the text translated into japanese outside of the {{Translated text | ... | display = block }} sections that hold the original english text. Once you are through translating and reviewing, replace the | display = block }} with | display = none }} and that will hide it, while preserving it for reference when editing and maintaining the page.

BTW, don't translate the text within the <div id="something"/> as they are used for anchors & linking, just translate the text within the =='s.

In January 2005 the MIT Media Lab launched a new research initiative to develop a $100 laptop—a technology that could revolutionize how we educate the world's children. To achieve this goal, a new, non-profit association, One Laptop per Child (OLPC), was created, which is independent of MIT.

The official project website is located at laptop.org. There is also a comprehensive description of the project in the Wikipedia.

The table of contents for this wiki can be found here.

Overview

“One laptop per child” is a concept. It is an education project, not a laptop project. It can be implemented in more than one way, by no means limited to the embodiment of the OLPC non-profit association’s so-called “$100 Laptop.” The argument for olpc is simple: many children—especially those in rural parts of developing countries—have so little access to school—in some cases just a tree—that building schools and training teachers is only one way—perhaps the slowest way—to alleviate the situation. While such building programs and teacher education must not stop, another and parallel method advised by OLPC is to leverage the children themselves by engaging them more directly in their own learning. It may sound implausible to equip the poorest children with connected laptops when rich children may not have them, but it is not. Laptops can be affordable and children are more capable than they are given credit for.

Learning learning

Learning is our main goal; we do not focus on computer literacy, as that is a by-product of the fluency children will gain through use of the laptop for learning. Children—especially young children—do not need to learn about IT and certainly do not need to be fluent users of WORD, EXCEL and POWERPOINT—They are not office workers. However, picking up these skills, having grown up with a laptop, will be readily accomplished.

Learning some math facts while learning to hate math is far from ideal. Learning about things that are personally meaningful while constructing knowledge—especially where children realize that they had to extend themselves beyond what they believed they were capable of doing—is both natural and liberating.

Children need to learn learning, which is primarily acquired through the passion that comes from access, the ability to make things, to communicate and to express. Writing a computer program, while seemingly esoteric, is in fact the closest a child can come to thinking about thinking. Likewise, debugging a program is the closest one can come to learning learning.

It goes without saying that Internet access and tools for expression (text, music, video, graphics) are the contemporary “toys” for learning. Every child of any means in the developed world has access to a computer at home and usually his or her own, with music, DVD, plus interactive and rich media to do anything from learning languages to play games.

Making these same resources available to the roughly one-billion other children, who do not have such access, has seemed ridiculously daunting, but is no longer. This is simply because the high costs of laptops has been artificial and perpetuated, not innate. It is fair to say that OLPC has broken this spell and companies like Intel are following it.

The intransigence of the problems of formal education in the face of conventional solutions, combined with pervasive poverty and the need for high-quality lifelong learning for inclusion in the global knowledge-based economy, warrants new thinking. The same digital technology that has enabled an unparalleled growth of knowledge, when combined with new methodologies for learning, can unleash the latent learning potential of the children of world.

Poor children lack opportunity, not capacity for learning. By providing laptops to every child without cost to the child, we bring the poor child the same opportunities for learning that wealthy families bring to their children.

Scale versus pilot

Consider immunization by analogy. Inoculating a few people here and there has no meaning. Scale is needed. Likewise with laptops. And furthermore, each child has to own his or her own machine and view it not as government property, but as a personal medium, cherished like a bicycle. The child is more confident, has greater self-esteem, and is more entrepreneurial than children without this tool.

Building computer labs in schools was an earlier approach—and perhaps the only one possible in the past. Such labs cater to a formal classroom setting. Today, additional approaches are possible. A laptop program can reach every child within the context of informal settings, which are the only ones available to many children. A nationwide roll out of personal machines can capture many more hours per day than school itself, not to mention night time, weekends and holidays. This will mobilize children. In addition it has significant spill-over effect on the entire family where a child has the OLPC.

Of the many values of scale, the foremost is the child as teacher. Peer-to-peer learning is one of the best ways to leverage children. The reach of such collaboration can go far beyond national borders and, in the longer term, lead to the bigger goals of world peace and understanding. To this end, OLPC is launching on three continents and in at least six countries.

Beyond school

Any parent whose child has a laptop at home has almost undoubtedly asked that child for help. What then follows is a change in one’s relationship with the child, with more elements of friendship and (on the child’s part) self-esteem. This by no means destroys the parent-child relationship. On the contrary, it enhances it. A bond to learning is formed between the child and parent at home.

The teacher-child relationship can and will likewise benefit. With sufficient self-confidence, teachers can learn from children without risk of unraveling the fabric of education—quite the contrary, improving it.

Children must not only own the laptop, but take it home. In so doing the whole family will benefit. Current pilot projects have shown unequivocally that parents become more engaged in their child’s learning and, very often, learn to use the laptops themselves. The role of the child in society changes; it is a more productive role. The child is not the object of change but the agent of change.

Features

Children need more—not fewer—features than high-end laptops. Notably, they need three things unique to their condition: low power, sunlight readability, and automatic connectivity.

Low power is key. Most children do not have electricity at home. Therefore, a laptop needs to run on both human power and long-life batteries. Human power, whether cranking or other gestures, must run a laptop at least 1-to-10: one minute of cranking provides ten minutes of use. In the case of batteries, a 10-hour life is need. Laptops cannot be plugged in at desks in classrooms. Even the richest school does not provide power to each desk.

Sunlight-readable displays are important for outdoor use as well as power conservation. This should be achieved as an option to traditional backlighting, not as a replacement to it. Both are needed. Furthermore, during night-time use, the laptop itself needs to be the light source for the surrounding area.

Connectivity cannot assume DSL, WiFi hotspots, or the like. Instead, the laptops collectively have to make a network automatically, without child or teacher intervention. Roughly 500 children should be able to share a single point of back haul to the Internet. While this may be modest bandwidth, among themselves and with a school server they must have very broadband connections.

A further goal of the OLPC effort is to awaken the software and hardware giants to the needs of children in the developing world and thus to reconsider their strategies.