卡拉OK在诞生地继续发扬光大

刚在电视里看了一期“东京印象”,这期讲了东京的卡拉OK,KTV的一些创新,果然是日本人,创新方面不是盖的,当中国的KTV还在为版权问题争吵不休无心发展之时,日本人又将卡拉OK提升到了一个令国人瞠目结舌的新高度!

首先是卡拉OK的全面智能化和网络化。

卡拉OK的交互功能极其的强大,界面亲切友好,硕大无比的遥控器,无处不体现其高科技。虽然演唱打分已经不再新鲜,早年间的万利达,现在的“挑战麦克风”,都是能对演唱者的演唱水平进行打分的,据说当年唐俊在日本就是因为卖了个卡拉OK打分的专利而掘得的第一桶金吧,呵呵。现在日本人又将打分提升到一个智能化的程度,不仅能对演唱进行即时评判,用各种图形来即时表现演唱的水平,还用柱图即时显示出歌唱者在节奏、音准等方面的准确程度,在唱完之后还能出一个完整的演唱水平报告进行综合评判。K歌者便能根据这些提示不断提高自己的演唱水平了,高科技啊,哈哈。不光如此,卡拉OK系统还是联网的,会有一个排行,演唱者能看到自己的演唱水平在所有歌者中的排行了。

其次是卡拉OK演唱的多样化。

当咱们的卡拉OK还是一人傻唱时,人家的已经可以进行分组对抗演唱、初学者模式演唱和进阶模式演唱等多种形式的演唱了。更绝的是KTV与演艺公司的合作,他们会定期推出比赛歌曲,参赛者在联网的卡拉OK上注册、登 录、上传照片后进行演唱,演唱后打分,网络排行,演艺公司便会从中挑选出一些表现突出的歌者进行艺能界噢,有创意吧,简直就是一个KTV里的快女+挑战麦克风啊。

然后是卡拉OK后产品的延伸化。

国内的一些K厅也推出了录歌制作CD的服务,可是比较麻烦还得进专门的录音间,由专人进行服务。而现在日本的这项服务更简易,功能更多,唱者无需服务生介入,在普通歌房就可以实现,只需在屏幕上指指点点然后演唱就行,通过屏幕还能自选CD的碟面图案,自定文字等等,最后结账时取光盘就行了。

卡拉OK和KTV作为一个泊来品来到中国还真是不少年头了,可是变化和进步实在是很小,看看人家日本人,不断地在对其进行创新,丰富其功能,赋予其更多的内涵,更好地娱乐大众!

Preserving Diversity, Insuring Our Future

ARS的新材料,留着,以后有点用,原文地址:http://www.ars.usda.gov/is/AR/archive/jan10/plant0110.htm

Plant Germplasm
Preserving Diversity, Insuring Our Future

Germplasm line derived from a wild African cotton species and located in College Station, Texas: Click here for photo caption.
Germplasm line derived from a wild African cotton species and located in College Station, Texas. 
(D1579-1)

If it were a museum, chances are it would be better known. But the U.S. National Plant Germplasm System (NPGS) is a vital network of genebanks where plants from around the world are curated, propagated, analyzed, and distributed for scientific use.

Most of the 511,000 samples, or accessions, of seeds, tissues, and whole plants are not on public display. They are kept at more than 20 Agricultural Research Servicegenebanks, many of which receive additional support from universities and state agricultural experiment stations.

The materials are available to researchers and educators globally, and as one of the most extensive collections of crop diversity in the world, NPGS plays an integral role in maintaining the U.S. and world supply of food, fiber, and other economic crops.

In addition to its vital role in today’s agricultural research, NPGS serves as a kind of insurance policy for providing the resources to meet challenges to U.S. and global agriculture presented by evolving pests, pathogens, and environmental changes. It also provides producers with the crop diversity necessary to keep up with changing markets.

Maintaining diverse collections of living plant materials from around the world is a daunting task. Different crops and the wild species related to them have different storage and propagation requirements. Seeds of many species can be stored by drying and freezing, whereas seeds of other species cannot survive such treatments. Many fruit crops and other species must be maintained as whole plants in the field or in protected greenhouses or screenhouses to maintain their health, disease-free status, and unique genetic nature.

A sample of the range of colors, shapes, sizes, and textures of cotton leaves, bolls, and seeds in the National Cotton Germplasm Collection: Click here for full photo caption.
A sample of the range of colors, shapes, sizes, and textures of cotton leaves, bolls, and seeds in the National Cotton Germplasm Collection. Colored cottons, such as the orange and tan ones on the left, are used to make dye-free clothing and are native to Central and South America. The red-colored cotton boll, shown on the right, deters insect feeding.  Sharply dissected leaves, such as those near the bottom, help keep the cotton canopy aerated and free of mold in humid climates. (D1581-1)

“We want to make sure we have a broad base for every important crop in the collection, from both a taxonomic and a geographic standpoint, so when the need arises, we have the necessary genetic tools available,” says Gary Kinard, research leader of the National Germplasm Resources Laboratory in Beltsville, Maryland, which coordinates efforts to acquire, document, and distribute NPGS materials.

ARS shares the materials free of charge with researchers and educators around the world. NPGS mailed 183,000 samples to users in the United States and more than 75 other countries in 2008. ARS researchers are using the collection for a wide range of purposes, such as addressing water shortages in California’s Central Valley, combating a nematode that costs U.S. cotton growers an estimated $100 million each year, and finding resistance to diseases and pests that threaten the existence of important crops.

The uses of the collection are practically infinite, so only a few examples are given here.

Scientific Value

In California, almond production is affected by water availability. In addition, newly planted almond orchards often experience replant disease, a syndrome caused by an antagonistic microbial community in the soil. Malli Aradhya, a geneticist at the National Clonal Germplasm Repository for Tree Fruit and Nut Crops and Grapes in Davis, California, is searching the ARS collection of almond species from Asia to identify new germplasm accessions with the genetic traits that help combat replant disease and improve drought tolerance.

In College Station, Texas, geneticist and curator of the National Cotton Germplasm Collection, inspects the variation in leaf shape and coloration among cotton lines: Click here for full photo caption.
In College Station, Texas, James Frelichowski, geneticist and curator of the National Cotton Germplasm Collection, inspects the variation in leaf shape and coloration among cotton lines.
(D1580-1)

Nematodes are microscopic worms that can sometimes destroy up to 50 percent of the cotton crop in fields from Texas to Florida. Plant pathologist Alois Bell and colleagues used an African species of cotton that resists the reniform nematode, a common pest, to help cotton growers address part of the nematode threat. By crossing and backcrossing resistance from the wild African species into specially developed hybrids, they developed lines that produce quality fiber and resist the reniform nematode. Bell and colleagues, who recently released the seed of two lines to breeders, originally obtained the African species from the National Cotton Germplasm Collection, which is part of the ARS Crop Germplasm Research Unit at College Station, Texas.

Maintaining the cotton collection isn’t easy. Cotton seeds must be regrown every 10 years, and there are 9,300 different accessions of cotton. Curator James Frelichowski must keep seeds at 4˚C (39˚F) and at 20–23 percent humidity. Under those conditions, seeds remain viable for at least 10 years. New plants are propagated at nurseries in College Station and in Tecoman, Mexico. (See “Freeze-Drying Is Key to Saving Fungal Collection” in this issue.) The Mexican nursery provides an extended growing season and a good site for cultivation of a wide assortment of cotton.

Worldwide Plant Explorations Enhance Collections

ARS has a long-running program, active since 1898, to acquire new samples for its collections. Each year, researchers conduct about 15 expeditions, coordinated by the Beltsville germplasm laboratory, to search for a range of crops and crop relatives with unique traits, such as drought tolerance and pest and pathogen resistance. Foreign explorations are conducted with collaboration from institutions in host countries. Aradhya, for instance, collected more than 145 new accessions of fruit and nut germplasm in trips to Azerbaijan in 2007 and 2008. Such trips can have long-range benefits. A peanut found in a Brazilian market in 1952 is a source for resistance to a wilt virus of U.S. peanuts. A wheat plant collected in Turkey in 1948 effectively resisted a fungal pathogen that emerged as a major threat 15 years later. Its genetics are now incorporated into virtually every wheat variety grown in the Pacific Northwest.

Tracking Requests

Most requests for materials are filed through the Germplasm Resources Information Network (GRIN), an online database (www.ars-grin.gov) that identifies and keeps track of every sample in the collection. Paul Red Elk, a Lakota Sioux youth counselor and educator, has been accessing the database for 6 years to acquire seeds of corn, beans, and onions to teach Native American children, ages 6 to 16, about their ancestral ways in Farmington, Minnesota. His program is designed to instill pride in at-risk children, in part by getting them involved in community gardening. He likes using the GRIN database because it provides accurate descriptions of the origins of the seeds and other materials in the collections.

The youth grow corn, beans, and squash in circular patterns and raise native grasses, wild onions, and wild garlic for soups and stews, as Native Americans once did.

“We try to teach them that this is the way people used to eat,” he says.—By Dennis O’Brien, Agricultural Research Service Information Staff.

Map: U.S. National Plant Germplasm System
This research is part of Plant Diseases (#303) and Plant Genetic Resources, Genomics, and Genetic Improvement (#301), two ARS national programs described at www.nps.ars.usda.gov.

To reach scientists mentioned in this article, contact Dennis O’Brien, USDA-ARS Information Staff, 5601 Sunnyside Ave., Beltsville, MD 20705-5129; (301) 540-1624.

Plant Germplasm: Preserving Diversity, Insuring Our Future” was published in the January 2010 issue ofAgricultural Research magazine.

其相关新闻稿,应该学习一下

ARS Plant Collections Help Safeguard Crops

(PhysOrg.com) — In the months ahead, Agricultural Research Service (ARS) scientists plan to collect walnuts from Kyrgyzstan, grasses from Russia, and carrots and sunflowers from fields across the Southeastern United States in efforts that will enhance one of the nation’s most effective tools for protecting the food supply.

Researchers will make the trips to collect plants with useful characteristics. The collected material will become part of the U.S. National Plant Germplasm System (NPGS), a network of gene banks that plays an integral role in preserving  that can be used to combat emerging pests, pathogens, diseases and other threats to the world’s supply of food and fiber.

The NPGS collections are made up of approximately 511,000 samples of seeds, tissues and whole plants kept at more than 20 ARS gene banks around the country. Many of the gene banks also receive support from universities and state agricultural experiment stations.

ARS scientists use collection materials for research and mail out thousands of samples of materials free of charge each year to researchers and educators in the United States and countries throughout the world.

ARS also funds approximately 15 expeditions every year to search for new samples of crops and crop relatives with unique traits, such as  and . The trips, coordinated by the ARS National Germplasm Resources Lab (NGRL) in Beltsville, Md., are conducted with collaboration from host countries and include benefits for these countries.

Useful traits in the samples added to the NPGS may be incorporated into crop cultivars, often many years later. For example, a peanut found in a Brazilian market in 1952 is a source for resistance to a wilt virus for most of the peanuts grown in the Southeastern United States and in many other nations. A wheat plant collected in Turkey in 1948 effectively resisted a  that emerged as a major threat 15 years later. Its genetics are now incorporated into virtually every wheat variety grown in the Pacific Northwest.

Requests for material are filed through the Germplasm Resources Information Network (GRIN), an online database (www.ars-grin.gov) that identifies and keeps track of every sample in the collection.

Read more about this and other ARS collections in the January 2010 issue of Agricultural Research magazine.

Provided by USDA Agricultural Research Service

CNNIC,你的日子还好过么?

中国人向来爱发神经,动不动就抽风,就来最近的网络扫yellow来说吧,什么一大学生举报了N个yellow网奖励了差不多1万元,举报信中提到其同寝室友因上yellow网而有sex行为。晕乎~,扯蛋!上yellow网充其量是个有sex行为的充分条件而以,而非必要条件嘛,有sex行为可以认为上过yellow网,因为对于多数中国年轻人来说这也许是其唯一的sex教育了,但要从上yellow网推出就会有sex行为,这恐怕从逻辑上是根本站不住脚的了。承然,国法家规,这些东西是与本国所提倡的精神文明相违背的,可认为是不好的东西,根据法律是应该消灭掉的,这些我们就不讨论了。但由此而引发的一系列抽风动作就让人匪夷所思了,工信部开始大规模整顿互联网接入、CNNIC清查cn域名注册,无数个人网站居多的小网站岌岌可危,接入被cut,据文件精神,个人和材料不全的cn域名也将被cancel,无疑,这是个中国互联网的冬天。本人实在想不通此次抽风之意义何在,就如同想不同开奥运时各超市的菜刀要通通下架一般,利器可杀人,然利器就一定会用于杀人么?有人利用互联网作奸犯科,咱就得给互联网定上罪,这不是毛病么?谁干坏事,你有本事你就找丫挺的去,跟这没关系的人你给一杆子打死。没本事定规则,定了规则又不执行,执行起来又乱搞,乱搞完了还不擦屁股,这就是China的现实情况。

这里,我还得声明一下立场:本人绝对支持国家严肃管理互联网,支持国家打击一切利用互联网络进行的违法犯罪行为

cn域名是CNNIC弄的,确实其“原则上”(国人好用原则上一词),制度上规定了个人是不能申请的,但由于注册资料可以瞎填,所以个人也就变相申请了,但同时也埋下了今天的祸根,注册资料与其身份不符,法律上根本无法证明域名所有权的合法性。大家都这么干,索性后来各注册商干脆就放开申请了,CNNIC可不就睁只眼闭只眼了么,当然,它这一闭眼可不白费,银子是哗啦啦的进了袋,本人的大师兄就在CNNIC,日子看似也满好过的,反正现在是两套房了,怎么说也是500万元户吧。现在,CNNIC一声令下,往后个人不能注册了,需要法人单位才行,不光如此,还要清查过去注册的,要提交证明材料的,如与注册资料不符,注销!我Cao它奶奶的呢,有人会说这侵权了,可这本来就不允许个人申请啊,虚填资料注册本身就不合法,人家注销你的域名自然是合法了。谁说国人不讲法不按章办事啊,人家绝对是严格尊章了,就是TM平时装糊涂,有事就跟你秋后算帐,国人啊老干这事。所以事实再次证明,在中国注册域名,玩互联网,根本不靠谱!国人再想出啥互联网英雄,“下个轮回里”吧!

我没查看过CNNIC的收入情况,估计收入情况也会是个大黑幕,但可以估计的是申请放开后每年定是能大赚一把,看看刚在网上搜到的CN域名注册总量的新闻吧

12月9日,艾瑞分析师张刚今天发布报告表示,截止2009年8月,全球ccTLD(国家与地区顶级域名)的数量已经达到7000万个。数据显示,德国de域名数量超过了1300万,居世界首位,而中国cn域名出现小幅度下滑,降到了1254万,暂时居于第二位。相比之下,其它国家的ccTLD域名与中德差距较大。

Img268881402

就算它1000万,每年每域名收入20元,那也是2个亿的收入啊,还TM跟空手套白狼没啥区别,我再次问候它老母!现在一旦取消个人注册并注销资料不全域名,不知道CNNIC的收入就少多少啊,呵呵,此次cnnic为配合整顿行动而壮士断腕,大放血啊,估计其领导这会儿还在心疼得厉害呢,过年奖金得少发点喽。所以俺轻声问一句,cnnic你的日子还好过么?不过是废话,日子能TM不好过吗,少了两条胳膊,还有两大腿呢!

世界是个大阴谋

又是阴谋论,呵呵,对世界的秩序、权力和制度的怀疑。

推荐看一下《时代精神》英文名应该是"Zeitgeist",美国人拍的记录片,有很多部,verycd上都有下。从宗教到政治,从911到反恐,从金融到战争,无不是一场大大的阴谋,世界就是极少数人权力与金钱集中者的玩物而已。片中的观点无法全信,但其列举的一些材料貌似很能证明其观点,这些观点与意识形态无关,只是在追求事实与真相,who we are, where we are going.

你相信世界是个大阴谋么?我相信一半。