The wide range of structural building and interaction possibilities offered by virtual worlds has been explored.
The next obvious step in the evolution of virtual worlds is making them alive with real-time information, streaming in data and representing it visually.
So far, there are two main kinds of data visualization apps – first is virtual command centers –using virtual worlds as the front-end display for any variety of data applications such as an integration of SAP and SL; the second is data streamed into virtual worlds and represented visually.
Business Forms Management on Corporate IntranetsCraig Burma
In 1999, paper business forms dominated businesses. Intranets were the untested platform. This Thesis focused on the tension between what I called Business Forms "paper pushers" and Intranet "propeller heads."
My research corrected predicted how 1) telecommunications advances 2) virtual partnerships 3) information security and 4) legal requirements would force these two groups to work together in the ways that I outlined.
This thesis was the foundation upon which I built a significant portion of my career.
Big Data is the new technology or science to make the well informed decision in
business or any other science discipline with huge volume of data from new sources of
heterogeneous data. . Such new sources include blogs, online media, social network, sensor network,
image data and other forms of data which vary in volume, structure, format and other factors. Big
Data applications are increasingly adopted in all science and engineering domains, including space
science, biomedical sciences and astronomic and deep space studies. The major challenges of big
data mining are in data accessing and processing, data privacy and mining algorithms. This paper
includes the information about what is big data, data mining with big data, the challenges in big data
mining and what are the currently available solutions to meet those challenges.
Cloud computing is an information technology paradigm that enables ubiquitous access to shared pools of configurable system resources and higher-level services that can be rapidly provisioned with minimal management effort, often over the Internet.
Mobile Cloud Computing MCC which consolidates versatile processing and distributed computing, has turned out to be one of the business trendy expressions and a noteworthy dialog string in the IT world since 2009. As MCC is still at the beginning period of improvement, it is important to get a handle on an exhaustive comprehension of the innovation so as to call attention to the course of future research. With the last point, this paper introduces a survey on the foundation and standard of MCC, attributes, ongoing examination work, and future research patterns. A concise record on the foundation of MCC from portable processing to distributed computing is given and after that pursued an exchange on attributes and ongoing exploration work. It at that point examinations the highlights and framework of versatile distributed computing. The remainder of the paper investigations the difficulties of versatile distributed computing, rundown of some examination ventures identified with this territory, and calls attention to promising future research bearings. Sumit | Ms. Kirti Bhatia | Ms. Shalini Bhadola ""Cloud Computing using Mobile Phone"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23145.pdf
Paper URL: https://www.ijtsrd.com/engineering/computer-engineering/23145/cloud-computing-using-mobile-phone/sumit
Business Forms Management on Corporate IntranetsCraig Burma
In 1999, paper business forms dominated businesses. Intranets were the untested platform. This Thesis focused on the tension between what I called Business Forms "paper pushers" and Intranet "propeller heads."
My research corrected predicted how 1) telecommunications advances 2) virtual partnerships 3) information security and 4) legal requirements would force these two groups to work together in the ways that I outlined.
This thesis was the foundation upon which I built a significant portion of my career.
Big Data is the new technology or science to make the well informed decision in
business or any other science discipline with huge volume of data from new sources of
heterogeneous data. . Such new sources include blogs, online media, social network, sensor network,
image data and other forms of data which vary in volume, structure, format and other factors. Big
Data applications are increasingly adopted in all science and engineering domains, including space
science, biomedical sciences and astronomic and deep space studies. The major challenges of big
data mining are in data accessing and processing, data privacy and mining algorithms. This paper
includes the information about what is big data, data mining with big data, the challenges in big data
mining and what are the currently available solutions to meet those challenges.
Cloud computing is an information technology paradigm that enables ubiquitous access to shared pools of configurable system resources and higher-level services that can be rapidly provisioned with minimal management effort, often over the Internet.
Mobile Cloud Computing MCC which consolidates versatile processing and distributed computing, has turned out to be one of the business trendy expressions and a noteworthy dialog string in the IT world since 2009. As MCC is still at the beginning period of improvement, it is important to get a handle on an exhaustive comprehension of the innovation so as to call attention to the course of future research. With the last point, this paper introduces a survey on the foundation and standard of MCC, attributes, ongoing examination work, and future research patterns. A concise record on the foundation of MCC from portable processing to distributed computing is given and after that pursued an exchange on attributes and ongoing exploration work. It at that point examinations the highlights and framework of versatile distributed computing. The remainder of the paper investigations the difficulties of versatile distributed computing, rundown of some examination ventures identified with this territory, and calls attention to promising future research bearings. Sumit | Ms. Kirti Bhatia | Ms. Shalini Bhadola ""Cloud Computing using Mobile Phone"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23145.pdf
Paper URL: https://www.ijtsrd.com/engineering/computer-engineering/23145/cloud-computing-using-mobile-phone/sumit
3d Stock Charts - Life 2.0 Data Visualization PanelMelanie Swan
So far virtual worlds have been used mainly for architectural builds and interaction. The next obvious step is making them alive with data, streaming in data and representing it visually. Data visualization in Second Life is growing rapidly.
Wiki: http://sldataviz.pbwiki.com/
Conference link: http://www.life20.net
Leading & working virtual world: Traininglarssudmann
Slide from my one day intensive training on: Leading & working in the new world. The training includes full exercises on engaging leadership meetings in the virtual world as well as effective leadership strategies and watchouts. More on www.lars-sudmann.com
The Internet of Things is the network of physical objects or "things" embedded with electronics, software, sensors, and connectivity to enable objects to exchange data with the manufacturer, operator and/or other connected devices based on the infrastructure of International Telecommunication Union's Global Standards Initiative. The Internet of Things allows objects to be sensed and controlled remotely across existing network infrastructure, creating opportunities for more direct integration between the physical world and computer-based systems, and resulting in improved efficiency, accuracy and economic benefit. Each thing is uniquely identifiable through its embedded computing system but is able to interoperate within the existing Internet infrastructure. Experts estimate that the IoT will consist of almost 50 billion objects by 2020.
The Virtual World is Calling. 18 Predictions and New RealitiesEdith Yeung
According to CBInsights, VR and AR startups have raised over $1 billion in funding since 2014. VR did not only rock my world, but also the world of many other industries. VR has a depth of engagement that most other medium cannot match because of the immersion it offers. From events to healthcare to travel -- VR is not simply for kids to play games, but offers new forms of experience and expression. The space is moving so fast that most people are missing a lot of the best, under-the-radar use cases that have popped up in the last couple of years.
Learn more about Monty C. M. Metzger at http://blog.monty.de/keynote-speaker
Contact me at monty (at) aheadoftime (dot) de
This is presentation by Monty Metzger, CScout @ Siemens Global Web Conference. May 2007.
My books- Learning to Go https://gum.co/learn2go & The 30 Goals Challenge for Teachers http://routledge.com/books/details/9780415735346/
Resources- http://shellyterrell.com/bytesized
Creating employee engagement isn’t as difficult as you might think. This guide explores three ways that investing in online learning can help you boost engagement, cultivate positive relationships, and build productive teams.
Learn more: http://www.lynda.com/Education-Elearning-training-tutorials/1792-0.html
13 Learning and Development Quotes to Spark InspirationAllenComm
Everyone needs a little inspiration sometimes. Don’t get in a training rut. Check out these 13 quotes from learning and development leaders to help ignite your creativity.
My books- Learning to Go https://gumroad.com/l/learn2go & The 30 Goals Challenge for Teachers http://amazon.com/The-Goals-Challenge-Teachers-Transform/dp/0415735343
Resources at http://shellyterrell.com/techtips & http://shellyterrell.com/textbook2life
www.digitalistmag.com – People, businesses, and societies are interacting in ways previously unimagined, reinventing business models and forever altering how the world economy operates. To adapt, thrive and innovate in this new Digital Economy, it is imperative that organizations understand the opportunities and threats that will impact the future of business.
This presentation is a compilation of 99 facts, quotes and predictions on the major innovations and transformations that are defining the Digital Economy, future of work, new customer experience expectations, and need for resource optimization. Each fact represents a key insight, and suggests an opportunity to focus and change to become a more viable, sustainable and growing future business.
Our ability to continuously learn and adapt will determine the extent to which we thrive in today’s organizations, in our personal lives, and in these disruptive times. This session will provide tips for learning at the pace of change in the university or the workplace using lynda.com. You will walk away with 9 learning strategies that you can put into practice right away!
Learn more: http://www.lynda.com/Business-Skills-training-tutorials/484-0.html
Recovery: Job Growth and Education Requirements Through 2020CEW Georgetown
Recovery: Job Growth and Education Requirements Through 2020: Projections of jobs and education requirements through 2020. This report shows where the jobs will be by education level, occupation and industry. Recovery 2020 is an update to our Help Wanted: Projections of Jobs and Education Requirements Through 2018.
3 hard facts shaping higher education thinking and behaviorGrant Thornton LLP
Expansion in tuition, enrollment, faculty, buildings, and everything else ― is fast becoming a thing of the past. Institutions will have to carefully pick initiatives, making clear choices about what to do and, most significantly, what not to do. Download 2016 State of higher education >> http://gt-us.co/1UbUF56
What's Trending in Talent and Learning for 2016?Skillsoft
Skillsoft took a look at the top trends that will impact talent and learning efforts in 2016. For a number of reasons, it's a pivotal time for the HR industry to make its move. However, the landscape of work is changing fast and the most adept pace-setters will adapt to take advantage of the top trends. At the same time, companies need to be cautious of industry trends that may be overhyped. This infographic provides a balanced view of practices that will keep your talent and learning strategy moving in the right direction.
Beginning to understand the world of data demands the evolution of procedures and skillsets in tune with the rewarding trends. As the excerpts from the Fortune Business Insight article state; the market for data analytics is estimated to expand by 25% between 2021-2030. Data scientists are predicted to leverage the highest possible benefits for industries such as banking, finance, insurance, entertainment, telecommunication, automobile, etc.
Pace up with the fastest-evolving industries of all time. Make informed decisions in the world of Data Science by mastering the emerging trends in diversified realms of data. Bring in the change with the following Data Science trends set in place in time:
1. Blockchain technology
2. Natural Language Processing
3. Internet of Things
4. Auto Machine Learning
5. Immersive experiences
6. Robotic Process Automation
7. TinyML and Small Data
8. AI-powered Virtual Assistants
9. Graph Analytics
10. Cloyd computing
11. Image processing
12. Data Visualization
13. Augmented Analytics
14. Predictive Analytics
15. Scalable Artificial Intelligence
As is evident, there will be more data in the coming years. This is a clear indication of an escalated need for staying upbeat with the proposed data science industry trends for years to follow. Make the most of the opportunity by enrolling with top-ranking data science certifications from globally renowned data credentials providers.
Download your copy & boost your chances at landing your dream Data Science Jobs with USDSI®
3d Stock Charts - Life 2.0 Data Visualization PanelMelanie Swan
So far virtual worlds have been used mainly for architectural builds and interaction. The next obvious step is making them alive with data, streaming in data and representing it visually. Data visualization in Second Life is growing rapidly.
Wiki: http://sldataviz.pbwiki.com/
Conference link: http://www.life20.net
Leading & working virtual world: Traininglarssudmann
Slide from my one day intensive training on: Leading & working in the new world. The training includes full exercises on engaging leadership meetings in the virtual world as well as effective leadership strategies and watchouts. More on www.lars-sudmann.com
The Internet of Things is the network of physical objects or "things" embedded with electronics, software, sensors, and connectivity to enable objects to exchange data with the manufacturer, operator and/or other connected devices based on the infrastructure of International Telecommunication Union's Global Standards Initiative. The Internet of Things allows objects to be sensed and controlled remotely across existing network infrastructure, creating opportunities for more direct integration between the physical world and computer-based systems, and resulting in improved efficiency, accuracy and economic benefit. Each thing is uniquely identifiable through its embedded computing system but is able to interoperate within the existing Internet infrastructure. Experts estimate that the IoT will consist of almost 50 billion objects by 2020.
The Virtual World is Calling. 18 Predictions and New RealitiesEdith Yeung
According to CBInsights, VR and AR startups have raised over $1 billion in funding since 2014. VR did not only rock my world, but also the world of many other industries. VR has a depth of engagement that most other medium cannot match because of the immersion it offers. From events to healthcare to travel -- VR is not simply for kids to play games, but offers new forms of experience and expression. The space is moving so fast that most people are missing a lot of the best, under-the-radar use cases that have popped up in the last couple of years.
Learn more about Monty C. M. Metzger at http://blog.monty.de/keynote-speaker
Contact me at monty (at) aheadoftime (dot) de
This is presentation by Monty Metzger, CScout @ Siemens Global Web Conference. May 2007.
My books- Learning to Go https://gum.co/learn2go & The 30 Goals Challenge for Teachers http://routledge.com/books/details/9780415735346/
Resources- http://shellyterrell.com/bytesized
Creating employee engagement isn’t as difficult as you might think. This guide explores three ways that investing in online learning can help you boost engagement, cultivate positive relationships, and build productive teams.
Learn more: http://www.lynda.com/Education-Elearning-training-tutorials/1792-0.html
13 Learning and Development Quotes to Spark InspirationAllenComm
Everyone needs a little inspiration sometimes. Don’t get in a training rut. Check out these 13 quotes from learning and development leaders to help ignite your creativity.
My books- Learning to Go https://gumroad.com/l/learn2go & The 30 Goals Challenge for Teachers http://amazon.com/The-Goals-Challenge-Teachers-Transform/dp/0415735343
Resources at http://shellyterrell.com/techtips & http://shellyterrell.com/textbook2life
www.digitalistmag.com – People, businesses, and societies are interacting in ways previously unimagined, reinventing business models and forever altering how the world economy operates. To adapt, thrive and innovate in this new Digital Economy, it is imperative that organizations understand the opportunities and threats that will impact the future of business.
This presentation is a compilation of 99 facts, quotes and predictions on the major innovations and transformations that are defining the Digital Economy, future of work, new customer experience expectations, and need for resource optimization. Each fact represents a key insight, and suggests an opportunity to focus and change to become a more viable, sustainable and growing future business.
Our ability to continuously learn and adapt will determine the extent to which we thrive in today’s organizations, in our personal lives, and in these disruptive times. This session will provide tips for learning at the pace of change in the university or the workplace using lynda.com. You will walk away with 9 learning strategies that you can put into practice right away!
Learn more: http://www.lynda.com/Business-Skills-training-tutorials/484-0.html
Recovery: Job Growth and Education Requirements Through 2020CEW Georgetown
Recovery: Job Growth and Education Requirements Through 2020: Projections of jobs and education requirements through 2020. This report shows where the jobs will be by education level, occupation and industry. Recovery 2020 is an update to our Help Wanted: Projections of Jobs and Education Requirements Through 2018.
3 hard facts shaping higher education thinking and behaviorGrant Thornton LLP
Expansion in tuition, enrollment, faculty, buildings, and everything else ― is fast becoming a thing of the past. Institutions will have to carefully pick initiatives, making clear choices about what to do and, most significantly, what not to do. Download 2016 State of higher education >> http://gt-us.co/1UbUF56
What's Trending in Talent and Learning for 2016?Skillsoft
Skillsoft took a look at the top trends that will impact talent and learning efforts in 2016. For a number of reasons, it's a pivotal time for the HR industry to make its move. However, the landscape of work is changing fast and the most adept pace-setters will adapt to take advantage of the top trends. At the same time, companies need to be cautious of industry trends that may be overhyped. This infographic provides a balanced view of practices that will keep your talent and learning strategy moving in the right direction.
Beginning to understand the world of data demands the evolution of procedures and skillsets in tune with the rewarding trends. As the excerpts from the Fortune Business Insight article state; the market for data analytics is estimated to expand by 25% between 2021-2030. Data scientists are predicted to leverage the highest possible benefits for industries such as banking, finance, insurance, entertainment, telecommunication, automobile, etc.
Pace up with the fastest-evolving industries of all time. Make informed decisions in the world of Data Science by mastering the emerging trends in diversified realms of data. Bring in the change with the following Data Science trends set in place in time:
1. Blockchain technology
2. Natural Language Processing
3. Internet of Things
4. Auto Machine Learning
5. Immersive experiences
6. Robotic Process Automation
7. TinyML and Small Data
8. AI-powered Virtual Assistants
9. Graph Analytics
10. Cloyd computing
11. Image processing
12. Data Visualization
13. Augmented Analytics
14. Predictive Analytics
15. Scalable Artificial Intelligence
As is evident, there will be more data in the coming years. This is a clear indication of an escalated need for staying upbeat with the proposed data science industry trends for years to follow. Make the most of the opportunity by enrolling with top-ranking data science certifications from globally renowned data credentials providers.
Download your copy & boost your chances at landing your dream Data Science Jobs with USDSI®
After almost a quarter of a century of “being digital” where are our organizations? Why do we still need the consulting firms of the world to publish manifestos and howtos about “organizing for a digital world” or “the case for digital reinvention”? Is there a digital divide in the C suite? Will startups really disrupt incumbents? Do you have FOMO? Did it really take 25 years to get from “New Information and Communications Technologies” to ICT, to IT… can we agree just on the “T” now? Or do we call it Innovation? Free advice: it will not worked out as planned. This session will hopefully provide as many answers as questions and the speaker sure hopes to make it as entertaining as though provoking.
Putting the L in front: from Open Data to Linked Open DataMartin Kaltenböck
Keynote presentation of Martin Kaltenböck (LOD2 project, Semantic Web Company) at the Government Linked Data Workshop in the course of the OGD Camp 2011 in Warsaw, Poland: Putting the L in front: from Open Data to Linked Open Data
In this latest edition of our regular newsletter, The Gen, we take a look at some of the current trends and emerging technologies particularly in the healthcare and personal care sectors. Our first article examines how algorithms are enabling low cost 3D visualisation in surgery.
The second feature looks at how information systems are reshaping healthcare delivery; other topics covered in the newsletter include our perspective on how wireless communication systems are improving the way medical devices work, and the use of chemistry in personal care devices.
We finish with an article by the Prof Phil Gray, MD of Quadro Design, a member of the Sagentia Group, on the subject of the industrial design revolution.
http://www.sagentia.com/The-Gen-Summer-2013
[DevDay2019] Internet of Things- By: Dr. Anand Nayyar at Duy Tan UniversityDevDay.org
In this lecture, he will start by elaborating the term “Internet of Things” along with current technological trends which has led to IoT, define the impact of IoT on Society making a strong base for Smart Cities, Industries- Transforming into Industry 4.0, Medical IoT as well as Future transformations in IoT.
The objective of this module is to provide an overview of the basic information on big data.
Upon completion of this module you will:
-Comprehend the emerging role of big data
-Understand the key terms regarding big and smart data
- Know how big data can be turned into smart data
- Be able to apply the key terms regarding big data
Duration of the module: approximately 1 – 2 hours
This presentation details how a key healthcare interoperability program, the Medical Device Plug-and-Play (MD PnP) initiative, is using the Data Distribution Service (DDS) in the reference implementation for their Integrated Clinical Environment (ICE).
Computer science is faced with many challenges as the digital universe expands. From mobile and cloud computing to data security, addressing these issues can require large, structural changes, but an examination of these problems can lead to organizational solutions and improvements in the world.
Life Technologies' Journey to the Cloud (ENT208) | AWS re:Invent 2013Amazon Web Services
Life Technologies initially planned to build out its own data center infrastructure, but when a cost analysis revealed that by using Amazon Web Services the company would save $325,000 in hardware alone for a single new initiative, the company decided to use AWS instead. Within 6 months of adopting AWS, Life Technologies launched their Digital Hub platform in production, which now undergirds Life Technologies' entire instrumentation product suite.This immediately began to decrease their time-to-market and enhance their customers' user experience. In this session, we provide an overview of our path to the AWS cloud, with particular focus on the evaluation criteria used to make a cloud vendor decision. We also discuss the lessons learned since going into production.
Advanced Fuzzy Logic Based Image Watermarking Technique for Medical ImagesIJARIIT
The segmentation algorithms vary for the types of medical images such as MRI, CT, US, etc.The current study work
can further be extended to develop a GUI tool based approach for separating the ROI. Additionally, a new technique of
separating ROI form the original image that will be applicable for all type of medical images can be evolved. Separated ROI
can be stored with xmin, xmax, ymin and ymax value so that at the end of embedding process before transmitting watermarked
image, the segmented ROI can be attached with watermarked image. Any medical image watermarking approach will be
suitable, if we segment the ROI from medical image with the four values, then embedding of watermark can be done on whole
medical image, in this paper work on different scan like ctscan ,brain scan etc. our results significant high than other.
AI Health Agents: Longevity as a Service in the Web3 GenAI Quantum RevolutionMelanie Swan
Health Agents are a form of Math Agent as the concept of a personalized AI health advisor delivering “healthcare by app” instead of “sickcare by appointment.” Mobile devices
can check health 1000 times per minute as opposed to the standard one time per year doctor’s office visit, and model virtual patients in the digital twin app. As any AI agent, Health Agents “speak” natural language to humans and formal language to the computational infrastructure, possibly outputting the mathematics of personalized homeostatic health as part of their operation. Health Agents could facilitate the ability of physicians to oversee the health of thousands of individuals at a time. This could ease overstressed healthcare systems and contribute to physician well-being and the situation that (per the World Health Organization) more than half of the global population is still not covered by essential health services.
The computational infrastructure is becoming a vast interconnected fabric of formal methods, including per a major shift from 2d grids to 3d graphs in machine learning architectures
The implication is systems-level digital science at unprecedented scale for discovery in a diverse range of scientific disciplines
We know that we are in an AI take-off, what is new is that we are in a math take-off. A math take-off is using math as a formal language, beyond the human-facing math-as-math use case, for AI to interface with the computational infrastructure. The message of generative AI and LLMs (large language models like GPT) is not that they speak natural language to humans, but that they speak formal languages (programmatic code, mathematics, physics) to the computational infrastructure, implying the ability to create a much larger problem-solving apparatus for humanity-benefitting applications in biology, energy, and space science, however not without risk.
This work introduces “quantum intelligence” as a concept of intelligence for operating in the quantum realm may help in a potential AI-Quantum Computing convergence (~2030e), and towards the realization of SRAI for well-being (economics, health, energy, space). “Scale-free intelligence” is formulated as a generic capacity for learning.
AI did not spring onto the scene with chatGPT, but is in an ongoing multi-year adoption. A transition may be underway from an information society to a knowledge society (one tempered and specifically using knowledge to improve the human condition). AI is a dual-use technology with both significant risk and upleveling possibilities.
SRAI for well-being is a social objective, and also a technological objective. SRAI is part of AI development and within the technological trajectory of harnessing all scales of physical reality ranging from quantum materials to space exploration.
Conceptually, thinking in quantum and relativistic terms expands the physical worldview, and likewise the social worldview of entities inhabiting the larger world. Practically, SRAI may be realized in phases: short-term regulation and registries, medium-term agents learning to implement human values with internal reward functions, and long-term responsible human-AI entities acting in partnership in a future of SRAI for well-being.
The Human-AI Odyssey: Homerian Aspirations towards Non-labor IdentityMelanie Swan
The visionary progression in The Odyssey from shipbuilding to seafaring to advanced civilization informs contemporary tension in the human-AI relation forcing a broader articulation of human-identity beyond labor-identity. Edith Hall analyzes why one of the earliest known literatures, The Odyssey, remains a central cultural trope with numerous references in the storytelling vernacular of all eras, ranging from 1860s British theater to a highly-watched 1990 episode of The Simpsons. The argument is that The Odyssey provides a constant aspirational reference for human identity – who we think we are and where we are going on the epic journey of life, especially at the current crossroad in our relationship with technology.
The contemporary moment finds humanity, and the humanities, experiencing an identity crisis in the relationship with technology. Information science is having an ever more pervasive role in academia, and the machine economy continues to offload vast classes of tasks to labor-saving technology giving rise to two questions. First, at the level of labor-identity, humans wonder who they are as they have long defined their sense of self through their professional participation in the economy. Second, at the level of human-identity, with AI now performing cognitive labor in addition to physical labor, humans wonder if there is anything that remains uniquely human.
The effect of The Odyssey is to provide world-expanding imaginaries to change the way we see ourselves as subjects; in this way, Homer is an early modernist in reconfiguring our self-concept.
This work applies a philosophy (of literature)-aided information science method to discuss how Homer’s Odyssey persists as a literary imaginary to help us think through potential futures of human-AI flourishing as rapid automation continues to impact humanity. The intensity of the human-AI relation is likely to increase, which invites thought leadership to steward the transition to a potential AI abundance economy with fulfilling human-technology collaboration.
The shipbuilding-seafaring-advanced civilization progression in The Odyssey identifies that the human-AI relation is not one of the labor-identity-crisis of “robots stealing our jobs,” but rather one of the more difficult challenge of envisioning who we can be in the new larger world of human-AI partnership addressing a larger set of planetary-scale problems. Towards this new configuration of human-AI relation, the longer-term may hold radically different notions of identity, as we become physical-virtual hybrids, augmented post-disease entities in the health-faring, space-civilizing, energy-marshalling post-scarcity cultures of the future.
AdS Biology and Quantum Information ScienceMelanie Swan
Quantum Information Science is a fast-growing discipline advancing many areas of science such as cryptography, chemistry, finance, space science, and biology. In particular AdS/Biology, an interpretation of the AdS/CFT correspondence in biological systems, is showing promise in new biophysical mathematical models of topology (Chern-Simons (solvable QFT), knotting, and compaction). For example, one model of neurodegenerative disease takes a topological view of protein buildup (AB plaques and tau tangles in Alzheimer’s disease, alpha-synuclein in Parkinson’s disease, TDP-43 in ALS). AdS/Neuroscience methods are implicated in integrating multiscalar systems with different bulk-boundary space-time regimes (e.g. oncology tumors, fMRI + EEG imaging), entanglement (correlation) renormalization across scales (MERA, random tensor networks, melonic diagrams), entropy (possible system states), entanglement entropy (interrelated fluctuations and correlations across system tiers), and non-ergodicity (implied efficiency mechanisms since biology does not cycle through all possible configurations per temperature (thermotaxis), chemotaxis, and energy cues); Maxwell’s demon of biology (partition functions), conservation across system scales (biophysical gauge symmetry (system-wide conserved quantity)), and the presence of codes (DNA, codons, neural codes). A multiscalar AdS/CFT correspondence is mobilized in 4-tier ecosystem models (light-plankton-krill-whale and ion-synapse-neuron-network (AdS/Brain)).
Humanity’s constant project is expanding the range of attainable geography. Melville’s romance of the sea gives way to Kerouac’s romance of the road, and now the romance of space. In expanding into new geographies, markets (commerce) is the driving impulse, entailing a legal and judiciary system to order the new larger continuous marketplace, which brings a bigger overall scope of world under our control, and hence a new idea of who we are as subjects in this bigger domain.
Space Humanism is a concept of humanism based on the principles of inclusion, progress, and equity posited as a condition of possibility for a potential large-scale human movement into space. A philosophy of literature approach is used to contextualize Space Humanism, first through Melville-Foucault to articulate the mind-frame of extra-planetary geographies as one of human expansion, and second through posthuman philosophy extending from Shakespeare’s Renaissance humanism to contemporary enhancement-based theories of subjectivation.
Historical imaginaries outline subjectivation moments that have changed the whole notion who we are as humanity. Four examples are: the concept of the “new world” in Hegel’s philosophy, von Humboldt’s infographic maps, Baudelaire as the Painter of Modern Life, and Keats’s seeing the world in a new way upon reading an updated translation of Homer.
The reach to beyond-Earth geographies is a two-cultures project involving both arts and science. Technical competence is necessary to realize the aspirational, explorational, and survivalist aims of humanity pushing beyond planetary limits. Space was once a fantastic dream that is becoming quotidian with fourteen U.S. spaceports, six completed Blue Origin space tourist missions, and SpaceX having over 155 successful rocket launches including human space flights to and from the International Space Station. The notion of Space Human articulated through Shakespeare, Moby-Dick, and neuroenhancement informs the project of our reach to awaiting beyond-Earth geographies.
Quantum Information Science and Quantum Neuroscience.pptMelanie Swan
Mathematical advance in quantum information science is proceeding quickly and applies to many fields, particularly the complexities of neuroscience (here focusing on image-readable physical behaviors such as neural signaling, as opposed to higher-order operations of cognition, memory, and attention). Quantum mathematical models are extensible to neuroscience problem classes treating dynamical time series, diffusion, and renormalization in multiscalar systems. Approaches first reconstruct wavefunctions observed in EEG and fMRI scans. Second, single-neuron models (Hodgkin-Huxley, integrate-and-fire, theta neurons) and collective neuron models (neural field theories, Kuramoto oscillators) are employed to model empirical data. Third, genome physics is used to study time series sequence prediction in DNA, RNA, and proteins based on 3d+ complex geometry involving fields, curvature, knotting, and information compaction. Finally, quantum neuroscience physics is applied in AdS/Brain modeling, Chern-Simons biology (topological invariance), neuronal gauge theories, network neuroscience, and the chaotic dynamics of bifurcation and bistability (to explain epileptic and resting states). The potential benefit of this work is an improved understanding of disease and pathology resolution in humans.
Quantum information science enables a new tier of scientific problem-solving as exemplified in early-adopter fields, foundational tools in quantum cryptography, quantum machine learning, and quantum chemistry (molecular quantum mechanics), and advanced applications in quantum space science, quantum finance, and quantum biology
Grammatology and Performativity: A Critical Theory of Silence: Silence is a crucial device for subversion, opposition, and socio-political commentary, the theoretical underpinnings of which are just starting to be understood. This work illuminates another position in the growing field of critical silence studies, theorizing silence as an asset whose ontological value has been lost in a world of literal and figurative noise. Part 1 philosophizes silence as a continuation of Derrida’s grammatology project. Such a grammatology of silence valorizes silent thinking over noisy speaking, and identifies the deconstructive binary pairing not as silence-speaking, but rather as silence-noise. Noise has a simultaneous physical-virtual existence as Shannon entropy calculates signal-to-noise ratios in modern communications networks. Part 2 employs the philosophy of noise to assess what is conceptually necessary to overcome noise in a critical theory of silence. Malaspina draws from Simondon to argue that noise is a form of individuation, essentially a living thing with unstoppable growth potential, not defined by a binary on-off switch but as a matter of gradation. Hence different theory resources are required to oppose it. Part 3 then develops a critical theory of silence to oppose noise in both its physical and virtual instantiations, with the two arms of a deeply human positive performativity (Szendy, Bennett) and a beyond-computational posthumanism (Puar). The result is a novel critical theory of silence as positive performativity that destabilizes noise and recoups the ontological status of silence as not merely an empty post-modern reification but a meaningful actuality.
Philosophy-aided Physics at the Boundary of Quantum-Classical Reality The philosophical themes of truth-knowledge and appearance-reality are used to interrogate the contemporary situation of the quantum-classical boundary, and more broadly the quantum-classical-relativistic stratification of physical scale boundaries. The contemporary moment finds us at breakneck pace in the industrial information revolution, digitizing remaining matter-based industries into a seamless exchange between physical-digital reality. Digitized news is giving way to digitized money and perhaps in the farther future, digitized mindfiles (such as personalized connectome files for precision medicine, autologous (own-DNA) stem cell therapies, and CRISPR for Alzheimer’s disease prevention). Our technologies are allowing us control over vast new domains, the relativistic with GPS and space-faring, and the quantum with quantum computing, harnessing the properties of superposition, entanglement, and interference. Philosophy provides critical thinking tools that can help us understand and master these rapid shifts in science and technology to avoid an Adornian instrumental reality (subsuming humanity under societal structures) and to maintain a Heideggerian backgrounded and enabling relation with technology (versus technology enframing us into mindless standing reserve).
The philosophical theme underlying the investigation of the scales of planets, persons, and particles is the relationship between truth and knowledge (or appearance and reality). The truth-knowledge problem is whether knowledge of the truth, true knowledge, the reality under the appearance, is even possible. Three salient moments in the history of the truth-knowledge problem are examined here. These are the German idealism of Kant and Hegel, the deconstructive postmodernism of Foucault and Derrida, and the unclear leanings of the current moment. The German idealism lens incorporates the self-knowing subject as agent into the truth and knowledge problem. The postmodernist view breaks with the subject and emphasizes the hidden opposites in the formulations, the constant reinterpretation of meaning, and porous boundaries. The contemporary moment wonders whether truth-knowledge boundaries still hold, in a Benjaminian view of non-identity between truth and knowledge, and truth increasingly being seen as a Foucauldian biopolitical manufactured quantity. Contemporaneity has a bimodal distribution of the subject: the hyperself (the constantly digitally represented selfie self) and the alienated post-subject subject.
These moments in the truth and knowledge debate inflect into the scale considerations of relativity, classicality, and quantum mechanics. Whereas general relativity and quantum mechanics are domains of universality, totality, and multiplicity, everyday classical reality is squeezed in as a belt between the two multiplicities as the concretion of drawing a triangle or tossing a ball. Recasting truth and k
Comprehensive philosophical programs arise within a historical context (for Hegel and Derrida in the democracy-shaping moments of the French Revolution (1789) and the student-worker protests (1968) in which French politics serve as a global harbinger of contemporary themes). In the Derrida-Hegel relationship, there is more rapprochement concerning core notions of difference, history, and meaning-assignation than may have been realized. In particular, Hegel’s philosophy, despite being assumed to be a totalizing system, in fact indicates precisely some of the same kinds of revised metaphysics-of-presence formulations that Derrida exhorts, namely those that are flexible, expansive, and include non-identity and identity.
A crucial Derrida-Hegel interchange is that of différance and difference. Derrida develops the notion directly from Hegel (“Différance,” “The Pit and the Pyramid”), but only draws from the Encyclopedia, not Hegel’s masterwork, the Phenomenology of Spirit. For Derrida, the “A” in différance is inspired by the form of the pyramid in the capitalized letter and in Hegel’s comparing the sign “to the Egyptian Pyramid” (“Différance,” p. 3). Derrida invokes the symbolism of the pyramid, antiquity, and Egyptian hieroglyphics as an early semiotic system. However, when considering Hegel’s central definition of difference in the dialectical progression of thesis-antithesis-synthesis in the Phenomenology of Spirit (§§159-163), the articulations of différance and difference are remarkably aligned.
Parallel formulations are also seen in history as a series of reinterpretable events, and indexical wrappers as a mechanism for meaning assignation. The thinkers examine the universal and the particular by exploring regulative mechanisms such as law (natural and social). In Glas, Derrida highlights not the singular-universal relation, but the law of singularity and the law of universality relation as being relevant to Hegel’s Antigone interpretation (Glas, p. 142a), a theme continued in “Before the Law.” Finally (time permitting), there is a question whether the most valid critiques of Hegel (Nietzsche’s unreason and Benjamin’s non-synthesis), as alternatives to Hegelian dialectics, are visible in Derrida’s thought.
The upshot is that the two thinkers produce similar formulations, derived from different trajectories of philosophical work; a situation which points to the potential universality of fundamental solution classes to open-ended philosophical problems, including the future of democracy.
Quantum Moreness: Kantian Time and the Performative Economics of Multiplicity
There is no domain with greater moreness than that of the quantum. A philosophy-aided physics approach (postmodernism and Continental philosophy) examines the contemporary situation of quantum moreness (more time and space dimensions than are available classically). Quantum moreness is configured by quantum reality being probabilistic; a multiplicity of outcomes all co-existing in superposition until collapsed in measurement. The quantum mindset uses quantum moreness to solve problems by thinking in terms of the greater scalability afforded in time and space with the quantum properties of superposition, entanglement, and interference. Quantum studies fields proliferate in arts and sciences, raising the Levi-Straussian raw-cooked dilemma of how “traditional humanities” are to be named alongside “digital humanities” and “quantum humanities.” Kant facilitates the conceptualization of quantum moreness by insisting on the dual nature of time as transcendentally ideal and empirically real. Kant’s moreness is allness, the absolute totality and multiplicity of time at the ideal level. Each faculty (sensibility, understanding, reason) has its own species of the a priori synthetic unity of ideal time that precedes and conditions the operation of the faculty. Each faculty also has a concretized formulation of empirically-real time as the time series, which is the basis for the faculties to interoperate to perform the conception of any empirical object. Kant’s achievement of time interoperability has potential extensibility to other areas of temporal incompatibility such as the scales of general relativity, Newtonian mechanics (human-scale), and quantum mechanics. The quantum moreness mindset with which Kant connects the ideal-real is visible in the domain of economics, itself too an ideal-real construction. The quantum moreness of money configures the postmodern abstraction of global cryptocurrencies and smart contract pledges, the implicative hope of which is a post-debt capital world that restores the human esprit in the face of an increasingly intense technologized reality.
Blockchain Crypto Jamming: Subverting the Instrumental Economy
The ultimate subversion is money, refusing the pecuniary resources of the state. This project applies a philosophical and critical theory lens to examine the use of nomenclature in one of the most radical longitudinal transformations in contemporary times, the shift away from state-run monetary resources towards cryptocurrencies and smart contracts in citizen-determined decentralized financial networks.
A Cryptoeconomic Theory of Social Change is presented in which linguistic progression serves as a tracking mechanism. The steps to lasting change have their own vocabulary (Brandom). First, there is the social critique, the complaint about what is wrong, the negative side (Adorno and Horkheimer highlight instrumental reason and the empty culture industry). Second, there is the antidote, an alternative that can overcome the complaint, the positive side. Third, the solution becomes the new reality, and as a consequence, the whole of reality is now seen in this context, adopting its vocabulary (“fiat health” system for example, referring to the antiquated method). The social movement graduates from language game (Wittgenstein) to form of life (Jaeggi).
Blockchains are Occupy with teeth, notable in the level of personal responsibility-taking by individuals to steward their own financial resources. The crypto citizen is not merely trading CryptoKitties and Bored Ape Yacht Club tokens, but getting blocktime loans through DeFi liquidity pools instead of fiat banks, earning labor income in crypto, and shifting all economic activity to blockchain networks. The artworld signals mainstream acceptance with Christie’s non-fungible token digital artwork auctioned from Beeple for $61 million. At the global level, coin communities constitute a new form of Kardashev-level (planetary-scale) democracy. Blockchains emerge as a robust smart network automation technology for super-class projects ranging from space-faring to quantum computing and thought-tokening. The further stakes of this work are having a language-based theory of social change with broad applicability to social transformation.
This work argues that the emerging understanding of time in quantum information science can be articulated as a philosophical theory of change. Change and time are interrelated, and one can be used to interrogate the other, namely, a theory of change can be derived from a theory of time. What is new in quantum science is time being regarded as just another property to be engineered. At the quantum scale, time is reversible in certain ways, which is quite different from the everyday experience of time whose unidirectional arrow does not allow a dropped egg to reassemble. At the quantum scale of atoms, though, a particle retains the history of its trajectory, which may be retraced before collapsed in measurement.
Quantum scientists evolve systems backward and forward in time, controlling phase transitions with Floquet engineering. Quantum systems are entangled in time and space, with temporal correlations exhibiting greater multiplicity than spatial correlations. The chaotic time regimes of ballistic spread followed by saturation are implemented in quantum walks for faster search and heightened cryptosecurity. In quantum neuroscience, seizure may be explained by chaotic dynamics and normal resting state by Floquet-like periodic cycles. Time is revealed to have the same kinds of repeating structures as space (described by entanglement, symmetry, and topology), differently instantiated and controlled.
The quantum understanding of time can be propelled into a macroscale-theory of change through its connotation of a more flexible, malleable, probabilistic interface with reality. Change becomes less rigid. Probability is the lever of change, but notoriously difficult for humans to grasp, as we think better in storylines than statistics. The idea of manipulating quantum system properties in which time, space, dynamics (change), are all just parameters, is an empowering frame for the acceptance of change. The quantum mindset affords greater facility with probability-driven events (change).
Blockchains in Space: Non-Euclidean Spacetime and Tokenized Thinking - Two requirements for the large-scale beyond-terrestrial expansion of human intelligence into the universe are the ability to operate in diverse spatiotemporal regimes and to instantiate thinking in various formats. Newtonian mechanics describe everyday reality, but Einsteinian physics is needed for GPS and the orbital technologies of telescopes and spacecraft. Space agencies already integrate the Earth-day and the slightly-longer Martian-sol. A more substantial move into space requires facility with non-Euclidean spacetimes. One challenge is that general relativity and quantum mechanics are non-interoperable. However, the theories can be formulated together when considering black holes and quantum computing since geometric theories and gauge theories are both field-based. Quantum blockchains instantiate blockchain logic in quantum computational environments. Blockchains have their own temporal regime (blocktime: the number of blocks for an event to occur), and hence quantum blocktime is a non-classical functionality for operating in diverse spatiotemporal regimes. Thinking is a rule-based activity that is unrestricted by medium. Central to thinking is concepts, which are referenced by words. Word-types include universals, particulars, and indexicals which can be encoded into a formal system as thought-tokens, and registered to blockchains. Blockchains are contemplated as an automation technology for asteroid mining and space settlement construction, and thought-tokening adds an intelligence layer. Time and tokenized thinking come together in the idea of smart networks in space. In blockchain quantum smart networks, spatiotemporal regimes and thought-tokens are simply different value types (asset classes) coordinated with blockchain logic, towards the aim of extending human capabilities into the farther reaches of space.
Cryptography, entanglement, and quantum blocktime: Quantum computing offers a more scalable energy-efficient platform than classical computing and supercomputing, and corresponds more naturally to the three-dimensional structure of atomic reality. Blockchains are a decentralized digital economic system made possible by the 24-7 global nature of the internet.
Quantum Neuroscience: CRISPR for Alzheimer’s, Connectomes & Quantum BCIsMelanie Swan
This talk provides an introduction to quantum computing and how it may be deployed to study the human brain and its diseases of pathology and aging. Refined to its present state over centuries, the brain is one of the most complex systems known, with 86 billion neurons and 242 trillion synapses connected in intricate patterns and rewired by synaptic plasticity. Research continues to illuminate the mysteries of the brain. Quantum computing provides a more capacious architecture with greater scalability and energy efficiency than current methods of classical computing and supercomputing, and more naturally corresponds to the three-dimensional structure of atomic reality. The vision for quantum neuroscience is to model the nature of the brain exactly as it is, in three-dimensional atomically-accurate representations. Neuroscience (particularly genetic disease modeling, connectomics, and synaptomics) could be the “killer application” of quantum computing. Implementations in other industries are also important, including in quantum finance, quantum cryptography using Shor’s factoring algorithm (“the Y2K of Crypto”), Grover’s search, quantum chemistry, eigensolvers, quantum machine learning, and continuous-time quantum walks. Quantum computing is a high-profile worldwide scientific endeavor with platforms currently available via cloud services (IBM Q 27-qubit, IonQ 32-qubit, Rigetti 19Q Acorn) and is in the process of being applied in various industries including computational neuroscience.
Art Theory: Two Cultures Synthesis of Art and ScienceMelanie Swan
Thesis: Aesthetic resources contribute broadly to the human endeavor of progress, self-understanding, and science, beyond the immediate experience of art. Aesthetic Resources are frameworks, concepts, and modes of expression in art, literature, and philosophy that capture the imagination and the intellect through the senses. The role of art is to inspire the future: the romance of the sea, the open road, space.
The arts are a hallmark of civilization, but can their benefit be crystallized as aesthetic resources that can be mobilized to new situations? How can aesthetic resources help in moments of crisis?
A worldwide social identity crisis has been provoked by pandemic recovery, politics, equity, and environmental sustainability. Philosophical and aesthetic resources can help. Understanding art as a reflection of who we are as individuals and groups, this talk explores conceptualizations of art, with examples, in different periodizations from the 1800s to the present. A marquis definition as to what constitutes an artwork is Adorno’s, for whom the work must promulgate its own natural law and engage in novel materials manipulation. For many theorists, art is the pressing of our self-concept into concrete materiality (whether pyramids, sculpture, or painting). What do contemporary periodizations of art mean to our current and forward-looking self-concept? Recent eras include the neo-avant-gardes of 1945, the conceptual art of the 1960s, and post-conceptual art starting in the 1970s, produced generatively with found materials, the digital domain, and audience interactivity. What is the now-current idea of art? Is today’s Baudelairian flâneur and Balzacian modern hero incarnated in the quantum aesthetic imaginary and the digital cryptocitizen? Far from an “end of art” thesis sometimes attributed to Hegel, aesthetic practices are more relevant than ever. Individually and societally, we are reinventing creative energy and productive imagination in venues from science, technology, health, and biology to the arts.
UiPath Test Automation using UiPath Test Suite series, part 3DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 3. In this session, we will cover desktop automation along with UI automation.
Topics covered:
UI automation Introduction,
UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Generating a custom Ruby SDK for your web service or Rails API using Smithyg2nightmarescribd
Have you ever wanted a Ruby client API to communicate with your web service? Smithy is a protocol-agnostic language for defining services and SDKs. Smithy Ruby is an implementation of Smithy that generates a Ruby SDK using a Smithy model. In this talk, we will explore Smithy and Smithy Ruby to learn how to generate custom feature-rich SDKs that can communicate with any web service, such as a Rails JSON API.
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
This is a hands-on session specifically designed for automation developers and AI enthusiasts seeking to enhance their knowledge in leveraging the latest intelligent document processing capabilities offered by UiPath.
Speakers:
👨🏫 Andras Palfi, Senior Product Manager, UiPath
👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Accelerate your Kubernetes clusters with Varnish CachingThijs Feryn
A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
This presentation was delivered at K8SUG Singapore. See https://feryn.eu/presentations/accelerate-your-kubernetes-clusters-with-varnish-caching-k8sug-singapore-28-2024 for more details.
Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024Tobias Schneck
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Epistemic Interaction - tuning interfaces to provide information for AI support
Visualizing Real Data in a Virtual World
1. Visualizing Real Data in a Virtual World Wednesday, July 2, 2008 12:30-1:30 pm SLT SL5B Auditorium
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3. Corro Moseley / David Burden David Burden. David has over 20 years of business, marketing and technology experience. He started his career in army communications managing a range of mobile and wireless systems. After being "demobbed" in 1990, David joined Ascom, the Swiss telecoms company, and then Aseriti, the £70m turnover IT arm of Severn Trent plc ultimately becoming the company's Marketing Director. David founded Daden, a Virtual Worlds and Information 2.0 Consultancy in 2004. David has been involved in virtual worlds since the mid 1990s, having created early spaces using VRML and played in several early 3D communal worlds. David has been in Second Life since 2004 where his real-life and SL business Daden Limited helps businesses and organisations explore the social and commercial potential of virtual worlds. David also has a keen interest in artificial intelligence and Daden have an AI platform for use both in SL and on the web. David is a Chartered and European Engineer and lives in Birmingham - where he is active in City and Regional business, technology and innovation initiatives. DADEN (www.daden.co.uk) are a full-service virtual worlds consultancy based in Birmingham. UK. We offer consulting advice, design and build services in virtual worlds, and have special expertise in the areas of web and real world integration, and creating interactive virtual personalities. We work with public and private sector clients to help them understand how best to apply virtual worlds technologies to benefit their organisations. Clients include private and public sector organisations, media agencies and educational establishments. Recent projects include our virtual patient eLearning system (developed for St Georges Hospital) and our Google Maps to Second Life integration (Birmingham City Council) which has had the bloggers blogging! We also believe in pushing back the boundaries of chatbot capability, with the aim of helping to create the most advanced "precursor-AI's" possible.
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10. MB Chevalier / Maged Kamel Boulos Maged N Kamel Boulos is Senior (Principal) Lecturer in Health Informatics at the University of Plymouth, Devon, UK. He previously worked as Lecturer in Health Informatics at the University of Bath, UK, where he was instrumental in developing the online MSc programme in Healthcare Informatics http://www.healthcare-informatics.info/, and worked before that at City University, London, UK, on M2DM, an EU-funded diabetes telematics project. As well as his medical degree and Master in Dermatology, he holds a Master in "Medical Informatics" from King's College, University of London, and a PhD in "Measurement and Information in Medicine" from City University, London, both in UK. He is well published on the topics of Web 2.0/social software/3-D virtual worlds, the Semantic Web and geographic information systems, including Internet/Web GIS, in health and healthcare. He is Fellow of the Royal Geographical Society, Fellow of the UK Higher Education Academy, Level 3 Member of UKCHIP, the UK Council for Health Informatics Professions, Member of the British Medical/Health Informatics Society, Senior Member of IEEE (Institute of Electrical and Electronics Engineers) and of IEEE EMBS (Engineering in Medicine and Biology Society), and Member of the World Association of Medical Editors (WAME).
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17. Caia Alter / Gus Rosania Gus Rosania, Ph.D., is Professor at the Department of Pharmaceutical Sciences at the University of Michigan College of Pharmacy. His research group studies applications of modeling and simulation in drug design, and explores applications of virtual worlds for scientific collaboration, communication, and data visualization. PrimPlotter is a script for plotting 2D or 3D scatter plots in Secnd Life (SL). PrimPlotter has two components: 1) an Excel spreadsheet application for entering the data to be plotted and setting the dimensions of the graph; and 2) an SL prim that serves as the origin of the graph, orients the graph coordinates, and rezzes the data points. With PrimPlotter every datapoint in a 2D or 3D graph can be assigned a different texture, and can be linked to a separate URL. As a demo, PrimPlotter was used to rezz a large image array at the DataViz site in SciLands (http://slurl.com/secondlife/SciLands/170/92/28). This image array is comprised of 384 images. The image size is 512x512 pixels and 8-bits in depth. Each image has been plotted on an individual 2x2 meter panel, with the panels arranged in four perpendicular 8x12 arrays. PrimPlotter is being released as open source, free software, with the intention of spurring interest in further developing SL-graphing applications, and to facilitate exploration of applications of SL for real life data visualization and communication. Instructions for obtaining, downloading and using PrimPlotter can be found at the Dataviz wiki (http://sldataviz.pbwiki.com/).
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27. Illuminous Beltran / Michael Osias Michael Osias is the Chief 3D Architect for IBM's IT Optimization Unit. His role is to provide customers with Virtual World and 3D Services in the areas of Command Centers, Datacenters, and other 3D business applications. There are several 3D Datacenter and other applications on the IBM Continent, which can be found by searching IBM on the world map. Learn more at: http://slurl.com/secondlife/IBM+9/172/132/23