An overview of Text and Data Mining (ContentMining) including live demonstrations. The fundamentals: discover, scrape, normalize , facet/index, analyze, publish are exemplified using the recent Zika outbreak. Mining covers textual and non-textual content and examples of chemistry and phylogenetic tress are given.
Use of ContentMine tools on the Open Access subset of EuropePubMedCentral to discover new knowledge about the Zika virus.
Three slides have embedded movies - these do not show in slideshare and a first pass of this can be seen as a single file at https://vimeo.com/154705161
Architecture of ContentMine Components contentmine.orgpetermurrayrust
This is the evolving architecture of ContentMine (contentmine.org) architecture. It includes an overview ( slide #2, ) showing getpapers, quickscrape, norma and ami.
The key container is the CTree and the architecture shows where components are added or transformed to this.
These slides are dated and may be out-of-date wrt code. Some diagrams are autogenerated from *.dot files.
Please use http://discuss.contentmine.org/c/software as the main source of up-to-date info. Feel free to ask questions, offer help, critique, etc.
All s/w is Open (BSD, Apache2)
Published on Feb 29, 2016 by PMR
An overview of Text and Data Mining (ContentMining) including live demonstrations. The fundamentals: discover, scrape, normalize , facet/index, analyze, publish are exemplified using the recent Zika outbreak. Mining covers textual and non-textual content and examples of chemistry and phylogenetic tress are given.
Published on Jan 29, 2016 by PMR
Keynote talk to LEARN (LERU/H2020 project) for research data management. Emphasizes that problems are cultural not technical. Promotes modern approaches such as Git / continuous Integration, announces DAT. Asserts that the Right to Read in the Right to Mine. Calls for widespread development of content mining (TDM)
Liberating facts from the scientific literature - Jisc Digifest 2016 TheContentMine
Published on Mar 4, 2016 by PMR
Text and data mining (TDM) techniques can be applied to a wide range of materials, from published research papers, books and theses, to cultural heritage materials, digitised collections, administrative and management reports and documentation, etc. Use cases include academic research, resource discovery and business intelligence.
This workshop will show the value and benefits of TDM techniques and demonstrate how ContentMine aims to liberate 100,000,000 facts from the scientific literature, and ContentMine will provide a hands on demo on a topical and accessible scientific/medical subject.
Talk to OpenForum Academy (Open Forum Europe) about Text and data Mining. Four use cases selected fo non-scientists. Also discussion of latest on Europena copyright reform and TDM exceptions
Use of ContentMine tools on the Open Access subset of EuropePubMedCentral to discover new knowledge about the Zika virus.
Three slides have embedded movies - these do not show in slideshare and a first pass of this can be seen as a single file at https://vimeo.com/154705161
Architecture of ContentMine Components contentmine.orgpetermurrayrust
This is the evolving architecture of ContentMine (contentmine.org) architecture. It includes an overview ( slide #2, ) showing getpapers, quickscrape, norma and ami.
The key container is the CTree and the architecture shows where components are added or transformed to this.
These slides are dated and may be out-of-date wrt code. Some diagrams are autogenerated from *.dot files.
Please use http://discuss.contentmine.org/c/software as the main source of up-to-date info. Feel free to ask questions, offer help, critique, etc.
All s/w is Open (BSD, Apache2)
Published on Feb 29, 2016 by PMR
An overview of Text and Data Mining (ContentMining) including live demonstrations. The fundamentals: discover, scrape, normalize , facet/index, analyze, publish are exemplified using the recent Zika outbreak. Mining covers textual and non-textual content and examples of chemistry and phylogenetic tress are given.
Published on Jan 29, 2016 by PMR
Keynote talk to LEARN (LERU/H2020 project) for research data management. Emphasizes that problems are cultural not technical. Promotes modern approaches such as Git / continuous Integration, announces DAT. Asserts that the Right to Read in the Right to Mine. Calls for widespread development of content mining (TDM)
Liberating facts from the scientific literature - Jisc Digifest 2016 TheContentMine
Published on Mar 4, 2016 by PMR
Text and data mining (TDM) techniques can be applied to a wide range of materials, from published research papers, books and theses, to cultural heritage materials, digitised collections, administrative and management reports and documentation, etc. Use cases include academic research, resource discovery and business intelligence.
This workshop will show the value and benefits of TDM techniques and demonstrate how ContentMine aims to liberate 100,000,000 facts from the scientific literature, and ContentMine will provide a hands on demo on a topical and accessible scientific/medical subject.
Talk to OpenForum Academy (Open Forum Europe) about Text and data Mining. Four use cases selected fo non-scientists. Also discussion of latest on Europena copyright reform and TDM exceptions
Published on Feb 07, 2016 by PMR
Use of ContentMine tools on the Open Access subset of EuropePubMedCentral to discover new knowledge about the Zika virus. Includes clips of the software in action
Automatic Extraction of Knowledge from Biomedical literature TheContentMine
Published on Mar 16, 2016 by PMR
A plenary lecture to Cochrane Collaboration in Birmingham, on the value of automatically extracting knowledge. Covers the Why? How? What? Who? and problems and invites collaboration
Automatic Extraction of Knowledge from Biomedical literaturepetermurrayrust
a plenary lecture to Cochrane Collaboration in Birmingham, on the value of automatically extracting knowledge. Covers the Why? How? What? Who? and problems and invites collaboration
Automatic Extraction of Knowledge from the LiteratureTheContentMine
Published on May 11, 2016 by PMR
ContentMine tools (and the Harvest alliance) can be used to search the literature for knowledge, especially in biomedicine. All tools are Open and shortly we shall be indexing the complete daily scholarly literature
Automatic Extraction of Knowledge from the Literaturepetermurrayrust
ContentMine tools (and the Harvest alliance) can be used to search the literature for knowledge, especially in biomedicine. All tools are Open and shortly we shall be indexing the complete daily scholarly literature
Specimen-level mining: bringing knowledge back 'home' to the Natural History ...Ross Mounce
A talk given at the Geological Society of London, UK on 2016/03/09 as part of the Lyell meeting on Palaeoinformatics. http://www.geolsoc.org.uk/lyell16 #lyell16
Amanuens.is HUmans and machines annotating scholarly literaturepetermurrayrust
about 10,000 scholarly articles ("papers") are published each day. Amanuens.is is a symbiont of ContentMine and Hypothes.is (both Shuttleworth projects/Fellows) which annotates theses using an array of controlled vocabularies ("dictionaries"). The results, in semantic form are used to annotate the original material. The talk had live demos and used plant chemistry as the examples
Mining the scientific literature for plants and chemistrypetermurrayrust
ContentMine can read the daily scientific literature and extract facts. This talk was given to the OpenPlant project - with whom ContentMine collaborate at a meeting on 2016-07-25/27 in Norwich. Examples of extracted facts are given.
Automatic Extraction of Science and Medicine from the scholarly literaturepetermurrayrust
Many scientists have to extract many facts out the scholarly literature - to evaluate other work or to extract useful collections of facts. This shows the approach, especially for systematic reviews of animal or clinical trials
High throughput mining of the plant-science literaturepetermurrayrust
We can now mine the plant science literature for facts, especially species (both plants and others), chemicals, diseases and other agricultural terms. This presentation gives a number of examples and links on how you can do this on the Open Access literature
High throughput mining of the scholarly literature; talk at NIHpetermurrayrust
The scientific and medical literature contains huge amounts of valuable unused information. This talk shows how to discover it, extract, re-use and interpret it. Wikidata is presented as a key new tool and infrastructure. Everyone can become involved. However some of the barriers to use are sociopolitical and these are identified and discussed.
Can Computers understand the scientific literature (includes compscie material)TheContentMine
Published on Jan 24, 2014 by PMR
With the semantic web machines can autonomously carry out many knowledge-based tasks as well as humans. The main problems are not technical but the prevention of access to information. I advocate automatic downloading and indexing of all scientific information
Talk to EBI Industry group on Open Software for chemical and pharmaceutical sciences. Covers examples of chemistry , wit demos, and argues that all public knowledge should be Openly accessible
Liberating facts from the scientific literature - Jisc Digifest 2016Jisc
Text and data mining (TDM) techniques can be applied to a wide range of materials, from published research papers, books and theses, to cultural heritage materials, digitised collections, administrative and management reports and documentation, etc. Use cases include academic research, resource discovery and business intelligence.
This workshop will show the value and benefits of TDM techniques and demonstrate how ContentMine aims to liberate 100,000,000 facts from the scientific literature, and ContentMine will provide a hands on demo on a topical and accessible scientific/medical subject.
Eureka Research Workbench: A Semantic Approach to an Open Source Electroni...Stuart Chalk
Scientists are looking for ways to leverage web 2.0 technologies in the research laboratory and as a consequence a number of approaches to web-based electronic notebooks are being evaluated. In this presentation I discuss the Eureka Research Workbench, an electronic laboratory notebook built on semantic technology and XML. Using this approach the context of the information recorded in the laboratory can be captured and searched along with the data itself. A discussion of the current system is presented along with the next planned development of the framework and long-term plans relative to linked open data. Presented at the 246th American Chemical Society Meeting in Indianapolis, IN, USA on September 12th, 2013.
Published on Feb 07, 2016 by PMR
Use of ContentMine tools on the Open Access subset of EuropePubMedCentral to discover new knowledge about the Zika virus. Includes clips of the software in action
Automatic Extraction of Knowledge from Biomedical literature TheContentMine
Published on Mar 16, 2016 by PMR
A plenary lecture to Cochrane Collaboration in Birmingham, on the value of automatically extracting knowledge. Covers the Why? How? What? Who? and problems and invites collaboration
Automatic Extraction of Knowledge from Biomedical literaturepetermurrayrust
a plenary lecture to Cochrane Collaboration in Birmingham, on the value of automatically extracting knowledge. Covers the Why? How? What? Who? and problems and invites collaboration
Automatic Extraction of Knowledge from the LiteratureTheContentMine
Published on May 11, 2016 by PMR
ContentMine tools (and the Harvest alliance) can be used to search the literature for knowledge, especially in biomedicine. All tools are Open and shortly we shall be indexing the complete daily scholarly literature
Automatic Extraction of Knowledge from the Literaturepetermurrayrust
ContentMine tools (and the Harvest alliance) can be used to search the literature for knowledge, especially in biomedicine. All tools are Open and shortly we shall be indexing the complete daily scholarly literature
Specimen-level mining: bringing knowledge back 'home' to the Natural History ...Ross Mounce
A talk given at the Geological Society of London, UK on 2016/03/09 as part of the Lyell meeting on Palaeoinformatics. http://www.geolsoc.org.uk/lyell16 #lyell16
Amanuens.is HUmans and machines annotating scholarly literaturepetermurrayrust
about 10,000 scholarly articles ("papers") are published each day. Amanuens.is is a symbiont of ContentMine and Hypothes.is (both Shuttleworth projects/Fellows) which annotates theses using an array of controlled vocabularies ("dictionaries"). The results, in semantic form are used to annotate the original material. The talk had live demos and used plant chemistry as the examples
Mining the scientific literature for plants and chemistrypetermurrayrust
ContentMine can read the daily scientific literature and extract facts. This talk was given to the OpenPlant project - with whom ContentMine collaborate at a meeting on 2016-07-25/27 in Norwich. Examples of extracted facts are given.
Automatic Extraction of Science and Medicine from the scholarly literaturepetermurrayrust
Many scientists have to extract many facts out the scholarly literature - to evaluate other work or to extract useful collections of facts. This shows the approach, especially for systematic reviews of animal or clinical trials
High throughput mining of the plant-science literaturepetermurrayrust
We can now mine the plant science literature for facts, especially species (both plants and others), chemicals, diseases and other agricultural terms. This presentation gives a number of examples and links on how you can do this on the Open Access literature
High throughput mining of the scholarly literature; talk at NIHpetermurrayrust
The scientific and medical literature contains huge amounts of valuable unused information. This talk shows how to discover it, extract, re-use and interpret it. Wikidata is presented as a key new tool and infrastructure. Everyone can become involved. However some of the barriers to use are sociopolitical and these are identified and discussed.
Can Computers understand the scientific literature (includes compscie material)TheContentMine
Published on Jan 24, 2014 by PMR
With the semantic web machines can autonomously carry out many knowledge-based tasks as well as humans. The main problems are not technical but the prevention of access to information. I advocate automatic downloading and indexing of all scientific information
Talk to EBI Industry group on Open Software for chemical and pharmaceutical sciences. Covers examples of chemistry , wit demos, and argues that all public knowledge should be Openly accessible
Liberating facts from the scientific literature - Jisc Digifest 2016Jisc
Text and data mining (TDM) techniques can be applied to a wide range of materials, from published research papers, books and theses, to cultural heritage materials, digitised collections, administrative and management reports and documentation, etc. Use cases include academic research, resource discovery and business intelligence.
This workshop will show the value and benefits of TDM techniques and demonstrate how ContentMine aims to liberate 100,000,000 facts from the scientific literature, and ContentMine will provide a hands on demo on a topical and accessible scientific/medical subject.
Eureka Research Workbench: A Semantic Approach to an Open Source Electroni...Stuart Chalk
Scientists are looking for ways to leverage web 2.0 technologies in the research laboratory and as a consequence a number of approaches to web-based electronic notebooks are being evaluated. In this presentation I discuss the Eureka Research Workbench, an electronic laboratory notebook built on semantic technology and XML. Using this approach the context of the information recorded in the laboratory can be captured and searched along with the data itself. A discussion of the current system is presented along with the next planned development of the framework and long-term plans relative to linked open data. Presented at the 246th American Chemical Society Meeting in Indianapolis, IN, USA on September 12th, 2013.
The information revolution has transformed many business sectors over the last decade and the pharmaceutical industry is no exception. Developments in scientific and information technologies have unleashed an avalanche of content on research scientists who are struggling to access and filter this in an efficient manner. Furthermore, this domain has traditionally suffered from a lack of standards in how entities, processes and experimental results are described, leading to difficulties in determining whether results from two different sources can be reliably compared. The need to transform the way the life-science industry uses information has led to new thinking about how companies should work beyond their firewalls. In this talk we will provide an overview of the traditional approaches major pharmaceutical companies have taken to knowledge management and describe the business reasons why pre-competitive, cross-industry and public-private partnerships have gained much traction in recent years. We will consider the scientific challenges concerning the integration of biomedical knowledge, highlighting the complexities in representing everyday scientific objects in computerised form. This leads us to discuss how the semantic web might lead us to a long-overdue solution. The talk will be illustrated by focusing on the EU-Open PHACTS initiative (openphacts.org), established to provide a unique public-private infrastructure for pharmaceutical discovery. The aims of this work will be described and how technologies such as just-in-time identity resolution, nanopublication and interactive visualisations are helping to build a powerful software platform designed to appeal to directly to scientific users across the public and private sectors.
Connecting the dots: drug information and Linked DataTomasz Adamusiak
Presented as part of the AMIA2014 Knowledge Representation + Semantics and
Clinical Information Systems Working Groups Pre-Symposium "Drug
Terminology Standards: Meaningful Use and Better Knowledge"
November 16, 2014
Washington, DC
Driving Deep Semantics in Middleware and Networks: What, why and how?Amit Sheth
Amit Sheth, "Driving Deep Semantics in Middleware and Networks: What, why and how?," Keynote talk at Semantic Sensor Networks Workshop at the 5th International Semantic Web Conference (ISWC-2006), November 6, 2006, Athens, Georgia, USA.
Talk during the Annual Meeting of the EU PRIME-XS project in Avila. Highlights of ProteomeXchange in the last year in the context of the PRIME-XS project (JRA 1: Bioinformatics).
Scott Edmunds talk on GigaScience Big-Data, Data Citation and future data handling at the International Conference of Genomics on the 15th November 2011.
BDE SC1 Workshop 3 - Open PHACTS Pilot (Kiera McNeice)BigData_Europe
Overview of Open PHACTS, the BDE Pilot project in SC1, presented at BDE SC1 Workshop 3, 13 December, 2017.
https://www.big-data-europe.eu/the-final-big-data-europe-workshop/
Presentation on the Chemical Analysis Metadata Platform (ChAMP) as a new project to characterize and organize metadata about chemical analysis methods. The project will develop an ontology, controlled vocabularies, and design rules
Scott Edmunds: GigaScience - a journal or a database? Lessons learned from th...GigaScience, BGI Hong Kong
Scott Edmunds talk at the HUPO congress in Geneva, September 6th 2011 on GigaScience - a journal or a database? Lessons learned from the Genomics Tsunami.
A Global Commons for Scientific Data: Molecules and Wikidatapetermurrayrust
Methods for extracting facts from the scientific literature, and linking them to Wikidata IDs. Wikidata is introduced by an architectural example and bioscience. Then we explore how data can be extracted from text and from images
Similar to Text and Data Mining explained at FTDM (20)
Can machines understand the scientific literature?petermurrayrust
A presentation to Cambridge MPhil Computational Biology. 2020-11-11 . Presenters Peter Murray-Rust, Shweata Hegde and Ambreen Hamadani from https://github.com/petermr/openvirus .
This chunk is PMR with a large break in the middle for SH and AH talks.
I cover Global Challenges, knowledge equity, semantics of scientific articles, Wikidata, Data Extraction from images, and ethics/politics.
Answer: Yes, technically. No, politically as the Publisher-Academic Complex will block it.
Semantic content created from Open Access papers to help in the fight against viral epidemics. Includes contributions from NIPGR interns, 5 supported by Indian National Young Academy of Scientists.
Overview of openVirus project. Interns in India have worked for 2 months to extract scientific knowledge from the literature about viral epidemics. Covers data science, machine learning and virtual collaboration
Automatic mining of data from materials science literaturepetermurrayrust
The literature on materials science (batteries, etc.) contains huge amounts of scientific facts, but not in easily accessible form. our AMI program has been developed to automatically:
scrape , clean, annotate and display/publish
data for re-use in science.
Examples will be given from electrochemistry, magnetism and other fields . The general principles and (open) tech are applicable to many other disciplines.
A presentation by Open Climate Knowledge for European Forum for Advanced Practices. Showing how the scientific literature can be searched for knowledge on this multidisciplinary topic.
XML for science; its huge potential; but are pubiishers preventing it?petermurrayrust
XML can represent almost all well derfined scientific objects. chemistry, plants medcine. But it's not yet widely used. Is this because publishers oppose thr re-use of science?
Early Career Reseachers in Science. Start Early, Be Open , Be Bravepetermurrayrust
Highlights the importance of supporting Early Career Researchers to pursue their own ideas, possibly alongside their main research. Illustrated with biology but applies to all fields of science. This was a 14 min presentation and shows narratives of how ECRs develop and reinforce each other.
Presentation given at NUI, Galway 2019-04-11 for Open Science Week.
An overview of Early Career Researchers, their innovation and contribution towards Open Infrastructure
The ContentMine system (Open Source) can search EuropePMC and download hundreds of articles in seconds. These can be indexed by AMI dictionaries allowing a rapid evaluations and refinement of the search
The scientific and medical literature is a vast resource of knowledge, but it needs turning into semantic FAIR form. The ContentMine can do this and we presented a rapid overview of the potential
A 10-minute talk to lovers of early science (e.g. 1600-1900) at the Royal Society. Archivists , computer vision, scientific historical metadata all relevant.
I chose 4 examples of monochrome diagrams that I can extract something from automatically. Some of the methids would scale to larger volumes , e.g. tables for figures, or maps with points
WikiFactMine: Ontology for Everybody and Everythingpetermurrayrust
WikiFactMine https://www.wikidata.org/wiki/Wikidata:WikiFactMine consists of several hundreds dictionaries created from Wikidata. They cover everything from science to medicine to geo to arts. Every item has a unique identifier (Q) and normally has several properties (P) creating a series of triples. Using SPARQL it's possible to create sophiticated queries and run them in seconds
The Publisher -Academic complex is a dystopian cycle where academia gives (mega)publishers manuscripts, reviews and money and the publishers give personal and institutional glory(vanity). This is analysed in its origins, impact and harm. The disruption can come from Advocacy/Activism, Community and Tools. Disruption comes from doing things Better or Novel, not Prices
AUDIO : https://soundcloud.com/damahub/peter-murray-rust-disturbing-the-publisher-academic-complex-210418-british-library
Thanks to DaMaHub
This has now been edited by Ewan McAndrew (Edinburgh Wikimedian in Residence) many thanks - to synchronize the slides with the soundtrack. https://media.ed.ac.uk/media/1_46h85ltt Brilliant
Paradise Lost and The Right to Read is the Right to Minepetermurrayrust
Presented to UIUC CIRSS seminars to a mixed group of Library, CS, domain scientists with a great contingent of Early Career Researchers. Starts by honouring the creation of the wonderful NCSA Mosaic at UIUC in 1993 and the paradise of knowledge and community it opened. Then shows the gradual and tragic decline of the web into a megacorporate neocolonialist empire, where knowledge is sacrificed for money and power.
You have seen many of the slides before but the words are different and have been recorded.
Richard's aventures in two entangled wonderlandsRichard Gill
Since the loophole-free Bell experiments of 2020 and the Nobel prizes in physics of 2022, critics of Bell's work have retreated to the fortress of super-determinism. Now, super-determinism is a derogatory word - it just means "determinism". Palmer, Hance and Hossenfelder argue that quantum mechanics and determinism are not incompatible, using a sophisticated mathematical construction based on a subtle thinning of allowed states and measurements in quantum mechanics, such that what is left appears to make Bell's argument fail, without altering the empirical predictions of quantum mechanics. I think however that it is a smoke screen, and the slogan "lost in math" comes to my mind. I will discuss some other recent disproofs of Bell's theorem using the language of causality based on causal graphs. Causal thinking is also central to law and justice. I will mention surprising connections to my work on serial killer nurse cases, in particular the Dutch case of Lucia de Berk and the current UK case of Lucy Letby.
Comparing Evolved Extractive Text Summary Scores of Bidirectional Encoder Rep...University of Maribor
Slides from:
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Track: Artificial Intelligence
https://www.etran.rs/2024/en/home-english/
Slide 1: Title Slide
Extrachromosomal Inheritance
Slide 2: Introduction to Extrachromosomal Inheritance
Definition: Extrachromosomal inheritance refers to the transmission of genetic material that is not found within the nucleus.
Key Components: Involves genes located in mitochondria, chloroplasts, and plasmids.
Slide 3: Mitochondrial Inheritance
Mitochondria: Organelles responsible for energy production.
Mitochondrial DNA (mtDNA): Circular DNA molecule found in mitochondria.
Inheritance Pattern: Maternally inherited, meaning it is passed from mothers to all their offspring.
Diseases: Examples include Leber’s hereditary optic neuropathy (LHON) and mitochondrial myopathy.
Slide 4: Chloroplast Inheritance
Chloroplasts: Organelles responsible for photosynthesis in plants.
Chloroplast DNA (cpDNA): Circular DNA molecule found in chloroplasts.
Inheritance Pattern: Often maternally inherited in most plants, but can vary in some species.
Examples: Variegation in plants, where leaf color patterns are determined by chloroplast DNA.
Slide 5: Plasmid Inheritance
Plasmids: Small, circular DNA molecules found in bacteria and some eukaryotes.
Features: Can carry antibiotic resistance genes and can be transferred between cells through processes like conjugation.
Significance: Important in biotechnology for gene cloning and genetic engineering.
Slide 6: Mechanisms of Extrachromosomal Inheritance
Non-Mendelian Patterns: Do not follow Mendel’s laws of inheritance.
Cytoplasmic Segregation: During cell division, organelles like mitochondria and chloroplasts are randomly distributed to daughter cells.
Heteroplasmy: Presence of more than one type of organellar genome within a cell, leading to variation in expression.
Slide 7: Examples of Extrachromosomal Inheritance
Four O’clock Plant (Mirabilis jalapa): Shows variegated leaves due to different cpDNA in leaf cells.
Petite Mutants in Yeast: Result from mutations in mitochondrial DNA affecting respiration.
Slide 8: Importance of Extrachromosomal Inheritance
Evolution: Provides insight into the evolution of eukaryotic cells.
Medicine: Understanding mitochondrial inheritance helps in diagnosing and treating mitochondrial diseases.
Agriculture: Chloroplast inheritance can be used in plant breeding and genetic modification.
Slide 9: Recent Research and Advances
Gene Editing: Techniques like CRISPR-Cas9 are being used to edit mitochondrial and chloroplast DNA.
Therapies: Development of mitochondrial replacement therapy (MRT) for preventing mitochondrial diseases.
Slide 10: Conclusion
Summary: Extrachromosomal inheritance involves the transmission of genetic material outside the nucleus and plays a crucial role in genetics, medicine, and biotechnology.
Future Directions: Continued research and technological advancements hold promise for new treatments and applications.
Slide 11: Questions and Discussion
Invite Audience: Open the floor for any questions or further discussion on the topic.
THE IMPORTANCE OF MARTIAN ATMOSPHERE SAMPLE RETURN.Sérgio Sacani
The return of a sample of near-surface atmosphere from Mars would facilitate answers to several first-order science questions surrounding the formation and evolution of the planet. One of the important aspects of terrestrial planet formation in general is the role that primary atmospheres played in influencing the chemistry and structure of the planets and their antecedents. Studies of the martian atmosphere can be used to investigate the role of a primary atmosphere in its history. Atmosphere samples would also inform our understanding of the near-surface chemistry of the planet, and ultimately the prospects for life. High-precision isotopic analyses of constituent gases are needed to address these questions, requiring that the analyses are made on returned samples rather than in situ.
Multi-source connectivity as the driver of solar wind variability in the heli...Sérgio Sacani
The ambient solar wind that flls the heliosphere originates from multiple
sources in the solar corona and is highly structured. It is often described
as high-speed, relatively homogeneous, plasma streams from coronal
holes and slow-speed, highly variable, streams whose source regions are
under debate. A key goal of ESA/NASA’s Solar Orbiter mission is to identify
solar wind sources and understand what drives the complexity seen in the
heliosphere. By combining magnetic feld modelling and spectroscopic
techniques with high-resolution observations and measurements, we show
that the solar wind variability detected in situ by Solar Orbiter in March
2022 is driven by spatio-temporal changes in the magnetic connectivity to
multiple sources in the solar atmosphere. The magnetic feld footpoints
connected to the spacecraft moved from the boundaries of a coronal hole
to one active region (12961) and then across to another region (12957). This
is refected in the in situ measurements, which show the transition from fast
to highly Alfvénic then to slow solar wind that is disrupted by the arrival of
a coronal mass ejection. Our results describe solar wind variability at 0.5 au
but are applicable to near-Earth observatories.
Seminar of U.V. Spectroscopy by SAMIR PANDASAMIR PANDA
Spectroscopy is a branch of science dealing the study of interaction of electromagnetic radiation with matter.
Ultraviolet-visible spectroscopy refers to absorption spectroscopy or reflect spectroscopy in the UV-VIS spectral region.
Ultraviolet-visible spectroscopy is an analytical method that can measure the amount of light received by the analyte.
Observation of Io’s Resurfacing via Plume Deposition Using Ground-based Adapt...Sérgio Sacani
Since volcanic activity was first discovered on Io from Voyager images in 1979, changes
on Io’s surface have been monitored from both spacecraft and ground-based telescopes.
Here, we present the highest spatial resolution images of Io ever obtained from a groundbased telescope. These images, acquired by the SHARK-VIS instrument on the Large
Binocular Telescope, show evidence of a major resurfacing event on Io’s trailing hemisphere. When compared to the most recent spacecraft images, the SHARK-VIS images
show that a plume deposit from a powerful eruption at Pillan Patera has covered part
of the long-lived Pele plume deposit. Although this type of resurfacing event may be common on Io, few have been detected due to the rarity of spacecraft visits and the previously low spatial resolution available from Earth-based telescopes. The SHARK-VIS instrument ushers in a new era of high resolution imaging of Io’s surface using adaptive
optics at visible wavelengths.
1. Content Mining of Science and Medicine
Peter Murray-Rust,
ContentMine.org and UniversityofCambridge
FTDM Knowledge Cafe, Leiden, NL, 2016-02-29
F/OSS tools from contentmine.org
Images from Wikimedia CC-BY-SA
2. Disclaimer
The opinions, software and objects in this
presentation are those of PMR+ContentMine
(CM), in its non-FutureTDM role. No FTDM
resources were used in creating slides, software,
artefacts.
PMR has tried to give an objective listing of most
of the main components of TDM, but has used
CM technology to illustrate this.
3. The Right to Read is the Right to Mine**PeterMurray-Rust, 2011
http://contentmine.org
4. Mining strategy
• Discover. negotiate permissions . => bibliography
• Crawl / Scrape (download), documents AND
supplemental
• Normalize. PDF => XML
• Index: facets => Facts and snippets (“entities”)
• Interpret/analyze entities => relationships,
aggregations (“Transformative”)
• Publish
5. catalogue
getpapers
query
Daily
Crawl
EPMC, arXiv
CORE , HAL,
(UNIV repos)
ToC
services
PDF HTML
DOC ePUB
TeX XML
PNG
EPS CSV
XLSURLs
DOIs
crawl
quickscrape
norma
Normalizer
Structurer
Semantic
Tagger
Text
Data
Figures
ami
UNIV
Repos
search
Lookup
CONTENT
MINING
Chem
Phylo
Trials
Crystal
Plants
COMMUNITY
plugins
Visualization
and Analysis
PloSONE, BMC,
peerJ… Nature, IEEE,
Elsevier…
Publisher Sites
scrapers
queries
taggers
abstract
methods
references
Captioned
Figures
Fig. 1
HTML tables
30, 000 pages/day
Semantic ScholarlyHTML
Facts
CONTENTMINE Complete OPEN Platform for Mining Scientific Literature
6. Semantic Fulltext
• EuropePMC coherent OpenAccess
• getpapers: query , download (through API).
• AMI filters, checks[1], transforms facts in papers.
• sequences, species, genera, genes,
dictionaries
[0] All operations shown run in total of <3 minutes.
[1] Dictionaries and lookup.
[2] Usable from home by anyone
Zika endemic areas
Wikimedia CC-BY-SA
7. Download all Open Access “Zika” from
EuropePMC in 10 seconds
(click below for movie)
Aedes aegypti, Wikimedia CC-BY-SA
Note: movies of this and other slides can be seen at https://vimeo.com/154705161
8. Downloaded all Open Access “Zika” from
EuropePMC in 10 seconds
Final download screen
9. Eyeballing 20/120 Zika papers,
click below for movie
Yellow Fever Virus
Wikimedia CC-BY-SA
Note: movie of this and other slides can be seen at https://vimeo.com/154705161
10. 3011 virus
1939 Ae./Aedes
1212 dengue
901 mosquito/es
894 species
791 ZIKV
721 using
716 DENV
567 detection
513 aegypti
484 infection
442 RNA
428 protein
401 albopictus
360 viral
Commonest words in 120 Zika papers
Mosquito spp.
Wikimedia CC-BY-SA
11. Filtering local files for sequence and viruses
AMI (part of ContentMine software)
(click below for movie)
Note: movies of this and other slides can be seen at https://vimeo.com/154705161
12. DNA Primers in running text
…the sodium channel voltage dependent gene (Nav). Primers
used to amplify this fragment were AaNaA
5’-ACAATGTGGATCGCTTCCC-3’
and AaNaB 5’-TGGACAAAAGCAAGGCTAAG-3’(8).
The primers amplify a fragment of approximately 472…
Snippet (quotable under 2014 UK Statutory Instrument (“Hargreaves”):
~/PMC4654492/results/sequence/dnaprimer/results.xml”
W3C Annotation
[PREFIX]
[MATCH] (link to target)
[SUFFIX]
CMine structure
plugin
option
DNA double stranded fragment
Wikimedia CC-BY-SA
13. Commonest species in 120 Zika papers
423 Ae./Aedes aegypti
333 Ae./Aedes albopictus
63 Ae. bromeliae
58 Ae. lilii
46 Ae. hensilli
42 Glossina pallidipes
40 Plasmodium vivax
35 Ae. luteocephalus
28 Ae. vittatus
25 Ae. furcifer
22 Plasmodium falciparum
21 Drosophila melanogaster
pre=“fever (DHF), are caused by the world's most prevalent mosquito-borne virus.
37 DENV is carried by " exact="Aedes aegypti” post=" mosquito, which is strongly
affected by ecological and human drivers, but also influenced by clima" name="binomial"/>
14. 183 Wolbachia
70 Aedes
69 Flavivirus/Flaviviridae
30 Glossina
17 Culex
Commonest genera in Zika papers
pre=”…-negative endosymbiotic bacterium, is a promising tool against diseases
transmitted by mosquitoes. " exact="Wolbachia” post=" can be found worldwide in
numerous arthropod species. More than 65% of all insect species are natu…”
Wolbachia in insect cell
Wikimedia CC-BY-SA
15. 38 ITS
20 MHC2TA
19 COI
14 CYPJ92
5 CYP6BB2
4 CYP9J28
3 MHC
Commonest genes in 120 Zika papers
18. Polly has 20 seconds to read this paper…
…and 10,000 more
19. ContentMine software can do this in a few minutes
Polly: “there were 10,000 abstracts and due
to time pressures, we split this between 6
researchers. It took about 2-3 days of work
(working only on this) to get through
~1,600 papers each. So, at a minimum this
equates to 12 days of full-time work (and
would normally be done over several weeks
under normal time pressures).”
20. 400,000 Clinical Trials
In 10 government registries
Mapping trials => papers
http://www.trialsjournal.com/content/16/1/80
2009 => 2015. What’s
happened in last 6 years??
Search the whole scientific literature
For “2009-0100068-41”
26. Open Content Mining of FACTs
Machines can interpret chemical reactions
We have done 500,000 patents. There are >
3,000,000 reactions/year. Added value > 1B Eur.
34. ContentMine working with Libraries
• Cambridge: Library, Plant Sciences, Epidemiology,
Chemistry
• Cochrane Collaboration on Systematic Reviews of
Clinical Trials
• FutureTDM (H2020, LIBER)
• Running workshops and training
• Offers services for information extraction and
indexing for born-digital documents.
35. CM Future
• Hypothes.is use ContentMine results for annotation
• (with Cambridge Univ Library) extracting daily
scientific facts from open and closed literature.
• with EBI, Cochrane Collaborations, JISC, OKF, LIBER,
TGAC/JohnInnes, DNADigest.
• Running workshops, hackdays.
• Planned outreach: MEPs, EC, Slashdot, Reddit,
Kickstarter, geekdom
• http://contentmine.org (OpenLock non-profit)
36. The Right to Read is the Right to Mine**PeterMurray-Rust, 2011
http://contentmine.org
Editor's Notes
Hi, I’m here to talk about AMI; a data extraction framework and tool. First, I just want highlight some of key contributors to the projects; Andy for his work on the ChemistryVisitor and Peter for the overall architecture.
In this talk, I’m going to impress the importance of data in a specific format and its utility to automated machine processing. Then I’m going to demonstrate AMI’s architecture and the transformation of data as it flows through the process. I’m going to dwell a little on a core format used, Scalable Vector Graphics (SVG) before introducing the concept of visitors, which are pluggable context specific data extractors. Next, I’m going to introduce Andy’s ChemVisitor, for extracting semantic chemistry data, along with a few other visitors that can process non-chemistry specific data. Finally, I will demonstrate some uses of the ChemVisitor, within the realm of validation and metabolism.