如果文章质量高,投哪个刊物都会录用。
中国教育信息化杂志是实体杂志。
《中国教育信息化》是一本有较高学术价值的大型半月刊,由教育部教育管理信息中心主办。《中国教育信息化》注重信息化的前瞻性研究,反映业内权威专家、学者的声音,为各级教育领导者、实践的管理者提供决策参考。
栏目设置:前沿论坛、 创新探索、 创客教育专栏、 信息技术与教学实践融合、 课程建设、 信息化促进能力提升。
《中国管理信息化》,原名《中国会计电算化》,是由吉林省新闻出版局主管,吉林科学技术出版社主办的国家级正规期刊,该刊被中国知网、龙源期刊网、维普中文网等全文收录。主要栏目包括:会计信息化、会计研究、财务管理、审计研究、金融与投资、财政与税收、经济管理、保险研究、企业管理信息化、企业管理、电子商务、教学研究等。更多经济管理类期刊信息和相关论文发表事宜建议关注中国期刊论文门户网站——万方论文网。
这个是属于省级的期刊
SCI,EI,核心期刊 这些东西等级是依照重要性区分的哦。
期刊的分级最传统的是按期刊的主管部门分级,1991年国家科委和新闻出版署联合颁bai发的《科学技术期刊管理办法》就据此将期刊分为全国性和地方性期刊,这两种分类又逐渐演化成人们常说的国家级、省部级和地市级。
首先你要弄明白3个名词的定义,也就是代表什么意思:
美国《科学引文索引》(Science Citation Index, 简称 SCI )于1957 年由美国科学信息研究所(Institute for Scientific Information, 简称 ISI)在美国费城创办,是由美国科学信息研究所(ISI)1961年创办出版的引文数据库。SCI(科学引文索引 )、EI(工程索引 )、ISTP(科技会议录索引 ) 是世界著名的三大科技文献检索系统,是国际公认的进行科学统计与科学评价的主要检索工具,其中以SCI最为重要,创办人为尤金·加菲尔德(Eugene Garfield, September 16,1925~)。
《工程索引》The Engineering Index是供查阅工程技术领域文献的综合性情报检索刊物。简称EI,1884年创刊,年刊,1962年增出月刊本。由美国工程信息公司编辑出版。每年摘录世界工程技术期刊约3000种,还有会议文献、图书、技术报告和学位论文等,报道文摘约15万条,内容包括全部工程学科和工程活动领域的研究成果。出版形式有印刷本、缩微胶卷、计算机磁带和CD-ROM光盘。文摘按标题词字顺编排,年刊配有著者、著者工作机构和主题等3种索引,以及引用出版物目录和会议目录;月刊只配有著者和主题这2种索引。另外,单独出版《工程标题词表》、《工程出版物目录》和多种专题文摘。主要特点是摘录质量较高,文摘直接按字顺排列,索引简便实用。
3.期刊基本定位:
从严格意义上说,期刊杂志并无国家级、省级的区分标准。因为,国家新闻出版总署早就声明:中国的出版物,只有正式和非正式之分,没有所谓国家级、省级等的等级。
区分在实际生活中,许多人通常将某刊物说成是国家级的,某刊物是省级的或市级的。这种划分,在实际生活中还有一些用处。这种划分的标准,大致是:
国家级期刊:
一般说来,“国家级”期刊,即由党中央、国务院及所属各部门,或中国科学院、中国社会科学院、各民主党派和全国性人民团体主办的期刊及国家一级专业学会主办的会刊。另外,刊物上明确标有“全国性期刊”、“核心期刊”字样的刊物也可视为国家级刊物。
省级期刊:
即是由各省、自治区、直辖市的各部门、委办、厅、局、所,省级社会团体和机构以及各高等院校主办,在新闻出版部门有登记备案,国内外公开发行的学术期刊。
核心期刊:
简单地说,核心期刊是学术界通过一整套科学的方法,对于期刊质量进行跟踪评价,并以情报学理论为基础,将期刊进行分类定级,把最为重要的一级称之为核心期刊。
CN类刊物:
是指在我国境内注册、国内公开发行的刊物。该类刊物的刊号均标注有CN字母,人们习惯称之为CN类刊物。
目前职称评审部门要求的核心期刊主要是以 “中文核心期刊”和 “中文社会科学引文索引(CSSCI)来源期刊”为主。极个别评审 单位采用 “中国科学引文数据库(CSCD)来源期刊”。国家没有任何一个政府部门给刊物划分级别,所谓的刊物级别只是期刊行业的一种认识和一些社会机构推出期刊目录。
国内期刊级别:
1、省级期刊,指的是由各个省,自治区,直辖市所辖的事业单位主办或者由各本科专科院校主办的期刊、学报。如《吉林医学》的主办单位是吉林省人民医院。
2、国家级期刊,是指由国家的部,委级事业单位,全国性的组织团体,机关或学术机构所主办的刊物。如《现代商业》主办单位:中华全国商业信息中心。
3、核心期刊,中国目前主要有七大核心期刊的遴选体系,凡是在这七大核心期刊体系中可以查询到或者说被七大体系收录的刊物,都被认为属于核心期刊。
相关期刊的影响因子都可在两大数据库中检索,坊间常有人提及论文的影响因子什么的,完全不准确。影响因子只是用于评价期刊本身的,单篇论文的评价指标一般是被引数,还要排除自引。
外文期刊,尤其是英语期刊的级别,基本划分为SCIE,SSCI和AHCI,还有EI。以往SCI还会区分SCI,还是SCIE,后来全部统一为SCIE,三种期刊分类存在重合。
扩展资料:
中文期刊的级别非常简单,文科基本的标准是CSSCI和北大中文核心,理科基本标准是CSCD,现在称为CSTPCD。
南京大学社会科学评价中心公布CSSCI来源期刊名单,扩展来源期刊名单和来源集刊名单,目前最新版本是2017-2018版,上一次是2014-2015版,2016年因为某些原因没有公布,就一直沿用2014-2015版。
总体而言,CSSCI的期刊目录范畴比北大中文核心要小一些,因此在某些学科领域,面临无专门C刊的窘境,也造成相关领域学者,或者准确的是高校教师在科研考核上面临很大的困境。
从在线数据库的角度看,CNKI中国知网收录最多,尤其是文科,北大核心目录的几乎全部都收录,甚至还收录有国内很多垃圾期刊;CSTPCD以前是维普数据库在收录,现在主要转向万方。
参考资料来源:人民网—核心期刊为何“以级别取人”
参考资料来源:人民网—核心期刊遴选:评价标准如何定?
Web of Science(SCI) 各大高校的图书馆数据资源里都有 但是不一定全部能下载,要看学校购珐姬粹肯诔厩达询惮墨买的使用情况
Countries in the world of development of agricultural information (世界各国农业信息化发展) World Agricultural Information technology generally go through three stages: the first stage is 50-60 during the 20th century, radio, telephone communications and science and computer information stage; the second phase is 70-80 during the 20th century, computer data processing and knowledge processing stage; the third stage of the 20th century since the 90's agricultural database development, network and multimedia technologies and agricultural production, such as automatic control of the new stage of development. At present, the area of information technology in agriculture in the world's leading countries in the United States, Germany and Japan. The United States is the leader in information technology, agriculture, Japan, Germany, followed by France and other developed countries; India and other developing countries, although the late start, but developed rapidly; Vietnam also recognizes the importance of agriculture and information technology, is stepping up its to catch up. United States of America Since 1844, Morse (SFBMorse) invented the first telegram, the subsequent image transfer technology with the invention, the . audio and video broadcasts of the radio has been the rapid development and popularization of rural areas has been greatly promoted the United States the process of agricultural information; AppleMacintosh series in 1984 launched the commercialization of computer operation and the promotion of practical use to stimulate the building of the . agricultural database, computer network, such as construction. In 1985, the United States published the world's 428 agricultural computerized cataloging database. These databases is one of the most important agricultural information resources. One of the most famous, most widely used is: The United States National Agricultural Library and co-developed by the . Department of Agriculture A-GRICOLA, its storage magazine articles, government publications, technical reports and so on. The United States also has a national crop germplasm resources information management system across the country to provide services to the breeding farm; the 20th century, the United States since the 70s of the computer application scope gradually to the farm. By 1985, the United States has 8% of farmers use the computer processing of agricultural production, including some large farms have been computerized. Today, computer applications, to the United States, farm management and production control, research and production of high-quality, efficient and cost-effective. Japan MAFF information in rural areas of the building from the mid-50th century farm broadcasting (cable run) to start the infrastructure. By the late 20th century, 60, Japan "GreenUtopia the concept of" response to the news media at that time the trend of information technology for rural development has played a great role in promoting. By the late 80's, for a variety of rapidly growing popularity of information technology, network development, information-based policy in rural areas continue to expand in rural areas, the degree of information technology into the rapid development stage. The end of 1998, in the prefectures in Japan with the establishment of agricultural information-related institutions such as the network center 67, an average of for each County Agricultural Information Center. 90 Japan in the early 20th century established the National Agricultural Technology Information Service online networks, that is, Telegraph and Telephone Company's real-time management system (DRESS), its large-scale electronic computer can be the collection, processing, storage and delivery from all over the country's agricultural technical information. DRESS County are located in each sub-centers, can quickly obtain information and exchange of information at any time. Germany In the mid-20th century, 50 to 70 of Germany's agricultural radio, telephone, television and other communication technologies, and universal in rural areas. 70 In the mid-20th century to the mid-80's, a German computer data processing, data storage, such as the establishment of agricultural information technology from the initial stage to mature stage. The mid-80s, the German government commissioned the study in Germany has established a full model of the agricultural economy of the region, later additions and amendments continue to be a very mature to deal with the agricultural information system to provide services for the decision-making. 80 In the mid-20th century to the early 90s, in this period, Germany in agricultural research and development of database technology has made a lot of work to the building. Since the mid-90s, the emergence of Internet dissemination of agricultural information to make a fundamental change occurred in the past, large and inefficient data storage facilities, high-performance computer systems have been replaced. At present, Germany through a variety of network connectivity, can find information on a variety of professional research, science and technology, management information and economic information. France Before 1997, the French information technology also is lagging behind. Since 1997, the French government will be the development of the Information Society a priority before, the former Prime Minister Lionel Jospin was launched on "Information Society Project Action (PAGSI)". Through unremitting efforts, France has been in information technology has made gratifying achievements. France with the family computer in 1997 and 2000 almost doubled. At the end of 2000, the family personal computer equipped with the rate of between 26% -33%, and the growth rate achieved during the period is basically the European average, which also contributed to France's development of agricultural information. India India in the 20th century, the beginning of the 60's the use of agricultural research in the computer. 20th century since the 90's, the Indian government decided to implement the Agricultural Research Information System (ARIS) project, with information technology for national agricultural research systems, funds from the National Agricultural Research Project Fund. The establishment of agricultural research information system is the main purpose of: agriculture and agricultural research managers to quickly and easily access to information; use of national agricultural research systems to collect the infrastructure, processing, storage, retrieval and use of information; at the national agricultural research system the full realization of the sharing of information resources; improve research project planning, implementation, monitoring and evaluation capacity. South Korea 20th century 80's, South Korea to speed up the process of economic globalization, with the intensification level of agricultural modernization and the improvement of crop yield is also significantly improved, to some extent alleviated the negative effects of reduced arable land. South Korea in the process of modernization of agriculture, agricultural information up on the agenda. Of agricultural information at this stage is characterized mainly in the construction of infrastructure to work. South Korea launched in 1994 "plan to revitalize agricultural and fishery and agricultural policy reform program" to strengthen the science and technology including information technology, investment in agriculture. In the process of the revitalization of agriculture, agricultural information technology come into play. This stage of the characteristics of agricultural information is to strengthen the Government's role in the process of informatization. South Korea agricultural information as a late start of the country, of agricultural information to take the "catch up" mode. "Catch up" the State may use the successful experience of developed countries, vis-à-vis the process of industrialization in advance for access to the information age, and in turn the use of information technology to promote and transform the traditional agriculture, and even the formation of "industrialization" and "information-based "The new model combining. This stage the main features of information technology is more focused on the effectiveness of the application of information technology. Vietnam Vietnam's agricultural information of a late start, a wave of information technology in the world under the impetus of the 20th century, late 90's to establish the Internet in 2000, e-ASEAN agreement formally joined. At present, the Vietnamese Ministry of Agriculture and Rural Development in the realization of e-management process, the Government has learned from the experience of many countries, plans to carry out four steps: the first step in the establishment of websites, to provide basic information for farmers; the second step to establish and expand the agricultural and rural the development of trade information systems; the third step the establishment of agriculture and rural development for the software industry, to replace imported software and the progressive realization of export their own software; fourth step is to adapt to the needs of technology development, strengthening of agricultural information technology experts training.
期刊名称:中国教育信息化 期刊级别:国家级期刊周期:半月刊国内统一刊号:CN:11-5572/TP国际标准刊号:ISSN:1673-8454主办单位:教育部教育管理信息中心主管单位:中华人民共和国教育部 面向教育行业秉承“传播信息知识,推动教育发展”的宗旨,及时宣传教育信息化方针政策,大力推动教育技术理论和应用研究。及时报道党校信息技术教育研究的最新成果及区域发展动态,为教育信息化管理部门和党校找寻沟通交流平台。中国教育信息化杂志社是教育部教育管理信息中心直属媒体机构,负责编辑出版《中国教育信息化》、《基础教育参考》、《世界教育信息》三本刊物,同时承办论坛、展会、巡展、培训等活动。《中国教育信息化》杂志是教育部教育管理信息中心主办的唯一国家级教育信息化权威刊物。1995年8月创刊,当时杂志名称是《管理信息系统》,刊名由启功先生书写;2002年更名为《教育信息化》;2007年更名为《中国教育信息化》。将原国际标准刊号:ISSN 1671-7201和国内统一刊号:CN 11-4829/TP,改为现在的刊号。编委会主任展涛编委会副主任罗方述编委会委员略社长 周 一总编祁 伟副总编兼主编苏福根编辑部主任郭桂真 王晓明美 术 编 辑 石兴虎版 面 设 计张 娜理事会负责人 杨 阳 设有栏目有:专题、网络建设、软件开发、资源建设、教学探索、技术应用等栏目。
中国建设信息化与工程管理前沿相比,中国建设信息化更权威。中国建设信息化杂志创办于1995,是住房和城乡建设部主管的国家重点学术期刊,部级期刊,影响因子,现被知网收录等机构收录。是建筑信息行业的权威杂志。
是什么类型的?一般是有分普刊与核心的 普刊像《医学信息》,《现代诊断与治疗》《中国现代医生》《中国当代医药》《实用中医内科杂志》,核心《西部医学》《中国实用神经疾病杂志》《实用癌症杂志》都是可以的,还有不懂的也可以跟我们精品书厢了解下
首先,医学论文分普刊,核心期刊。核心又分,科技核心和中文核心。另外,需要纠正期刊并没有所谓的好投难投的区分,这实际上是大家一种错误的理解。可能有些人觉得好中,有的人觉得难中。其实是自己文章本身的原因和选刊的原因。其次,如果从科学的角度去分析,一本核心版面页数越多自然收录的概率就会越大。例如,旬刊,半月刊肯定要比月刊双月刊收录的多一些。医学论文发表,影响的因素有很多,第一是本身文章质量要过关,第二是杂志社审稿,收录要快,第三是自己的科研背景要满足杂志社的条件。详细的医学论文发表经验优助医学更为擅长。
医学论文杂志普刊:《医学前沿》 《医师在线》 《临床医药文献》《实用妇科内分泌》《全科口腔医学》《中西医结合心血管病》等核心:《四川中医》 《中医学报》 这些都是不错的刊物朋友你是评职称用吗?现在咱们国内,学术已经沦落为商品了,学术买卖已经见怪不怪了,基本上交上版面费就给你发表。这一点其实我也很无语......但是,论文还是要发表,因为论文发表已经是刚性需求。发表的时候注意以下几点就可以。第一,先考虑你发表论文的用途,评中职,还是高职。中职一般发表省级以上就可以,高职就需要有国家级的了,甚至核心期刊。毕业论文的话,还是根据学校的要求了。第二,考虑价格方面,省级 国家级 核心价格都不一样,但是咱们也不能一再追求低价格,网上假刊太多,小心占小便宜吃大亏,了几百快无所谓,主要是耽搁了事情,评职称一年就一次(要找可以用支付宝付款的)。第三,时间问题,刊物确定好了 一定要确定下(新闻出版总署)是否能查到。然后就是时间,一般杂志从定稿到出刊都得需要1个月,赶上高峰期3月都有可能,如果对方什么都答应你,今天给稿子明天邮递给你刊物,这个肯定是假刊的。第四,价格方面,这个不好说,杂志种类太多,没法完全根据省级 国家级来判断价格,核心期刊的话 悬殊很大。最后祝你成功,这是我发表论文的经验,我帮我同事也发表了一些,希望对你有所帮助。
国家级医学期刊,不上知网,被万方、龙源收录~