×
验证码:
换一张
忘记密码?
记住我
CORC
首页
科研机构
检索
知识图谱
申请加入
托管服务
登录
注册
在结果中检索
科研机构
南京地质古生物... [1882]
成都山地灾害与环... [797]
自然科学史研究所 [558]
上海光学精密机械... [167]
文献情报中心 [150]
兰州化学物理研究所 [65]
更多...
内容类型
专著章节/文集... [3733]
发表日期
2015 [91]
2014 [121]
2013 [136]
2011 [87]
2010 [79]
2003 [86]
更多...
学科主题
科技史::天文学... [101]
科技史::数学史 [83]
科技史 [45]
科技史::技术史 [41]
科技史::农学史 [38]
科技史::地学史 [37]
更多...
×
知识图谱
CORC
开始提交
已提交作品
待认领作品
已认领作品
未提交全文
收藏管理
QQ客服
官方微博
反馈留言
浏览/检索结果:
共3733条,第1-10条
帮助
限定条件
内容类型:专著章节/文集论文
已选(
0
)
清除
条数/页:
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
排序方式:
请选择
作者升序
作者降序
题名升序
题名降序
发表日期升序
发表日期降序
提交时间升序
提交时间降序
Soft and Stretchable Electronics Design
专著章节/文集论文
出自: Encyclopedia of Sensors and Biosensors, Volume 3, 2023
作者:
Yang Yang
;
Su Ding
;
Bart Plovie
;
Wanli Li
;
Chenjing Shang
收藏
  |  
浏览/下载:0/0
  |  
提交时间:2024/02/21
Support Vector Machines Based Methodology for Credit Risk Analysis
专著章节/文集论文
出自: Handbook of Financial Econometrics, Mathematics, Statistics, and Technology, Singapore, Singapore:World Scientific, World Scientific, 2020
作者:
Jianping Li
;
Mingxi Liu
;
Cheng-Few Lee
;
Dengsheng Wu
收藏
  |  
浏览/下载:12/0
  |  
提交时间:2021/01/26
Support Vector Machines
Feature Extraction
Kernel Function Selection
Hyper-Parameter Optimization
Credit Risk Classification
Support Vector Machines
Feature Extraction
Kernel Function Selection
Hyper-Parameter Optimization
Credit Risk Classification
Evolutionary Mechanism of Textual Risk Factor Disclosure in American Financial Company Annual Reports
专著章节/文集论文
出自: Communications in Computer and Information Science, Singapore, Singapore:Springer, Springer, 2020
作者:
Guowen Li
;
Jianping Li
;
Mingxi Liu
;
Xiaoqian Zhu
收藏
  |  
浏览/下载:17/0
  |  
提交时间:2021/01/26
Risk factor
Text mining
Regulation
Financial Crisis
Evolution ary Mechanism
Risk factor
Text mining
Regulation
Financial Crisis
Evolution ary Mechanism
Simultaneously capturing multiple dependence features in bank risk integration: A mixture copula framework
专著章节/文集论文
出自: Handbook of Financial Econometrics, Mathematics, Statistics, and Technology, Singapore, Singapore:World Scientific, World Scientific, 2020
作者:
Zhu, Xiaoqian
;
Li, Jianping
;
Wu, Dengsheng
收藏
  |  
浏览/下载:8/0
  |  
提交时间:2021/01/17
建设独立自主的国家科技创新体系——法国成为世界科技强国的路径
专著章节/文集论文
出自: 科技强国建设之路:战略与思考, 科学出版社, 科学出版社:中国科学院, 中国科学院, 2019, 页码: 402-411
作者:
邱举良
;
方晓东
收藏
  |  
浏览/下载:50/0
  |  
提交时间:2019/11/24
Vermiculite Nanomaterials: Structure, Properties and Potential Applications
专著章节/文集论文
出自: Nanomaterials from Clay Minerals: A New Approach to Green Functional Materials, Netherland, Netherland:Elsevier, Elsevier, 2019
作者:
Wang WB (王文波)
;
Wang AQ (王爱勤)
收藏
  |  
浏览/下载:25/0
  |  
提交时间:2019/11/14
Hydroxyapatite Nanomaterials: Synthesis, Properties and Applications
专著章节/文集论文
出自: Nanomaterials from Clay Minerals: A New Approach to Green Functional Materials, Netherland, Netherland:Elsevier, Elsevier, 2019
作者:
Dong WK (董文凯)
;
Wang WB (王文波)
;
Ding JJ (丁俊杰)
;
Lu YS (卢予沈)
;
Wang AQ (王爱勤)
收藏
  |  
浏览/下载:35/0
  |  
提交时间:2019/11/14
Chapter 11 Fabrication and Applications of Carbon/Clay Minerals Composites
专著章节/文集论文
出自: Nanomaterials From Clay Minerals: A New Approach to Green Functional Materials:Elsevier, Elsevier, 2019
作者:
Aiqin Wang
;
Bin Mu
收藏
  |  
浏览/下载:49/0
  |  
提交时间:2019/11/13
Palygorskite Nanomaterials: Structure, Properties and Functional Applications
专著章节/文集论文
出自: Nanomaterials from Clay Minerals: A New Approach to Green Functional Materials, Netherland, Netherland:Elsevier, Elsevier, 2019
作者:
Wang AQ (王爱勤)
;
Wang WB (王文波)
收藏
  |  
浏览/下载:21/0
  |  
提交时间:2019/11/14
Tired Light Denies the Big Bang N2
专著章节/文集论文
出自: Redefining Standard Model Cosmology, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK:IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, 2019
作者:
Shao, Ming-Hui
;
Wang, Na
;
Gao, Zhi-Fu
收藏
  |  
浏览/下载:243/0
  |  
提交时间:2020/01/19
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
Tired Light
Cosmological Redshift
Lorentz Theory
Big Bang
Cmbr
Olbers' Paradox
Energy Loss
Photons
©版权所有 ©2017 CSpace - Powered by
CSpace