Why It's So Important To Approach Technology Development Differently
While speaking with FinextraTV at the Communify Fincentric Experience 2025, Will Bailey, President of International Sales, Communify Fincentric explained the way technology is developing. From Deterministic AI to blockchain, Bailey discusses how best to leverage these technologies and the most effective approach to early adoption.
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Daily Mail
an hour ago
- Daily Mail
EXCLUSIVE Millionaire futurist creating 'mutant humans' reveals when new race will make ordinary people 'obsolete'
Humanity is on the verge of being replaced by a race of superhuman hybrids with powers only dreamt about in movies. Herbert Sim, a millionaire tech investor and futurist in London, has begun pouring his wealth into the study of transhumanism - the enhancement of humans through science and technology. Sim told that a new mutant race could be walking among ordinary humans within the next five years. At that point, Sim claims that the human race will essentially be obsolete as these real life 'X-Men' make it impossible for regular people to match their abilities. His tech start-up, has been exploring how to make transhumans a reality, upgrading the mind using a helmet that reads brainwaves. The brainwaves are projected onto a computer which then reads and turns them into actions. Sim said it's one of the first steps in 'upgrading' humanity, allowing this new race of mutants to live longer and defeat diseases. 'Transhumanism can help to extend your life for 500 years and then it's amazing to think what we can achieve,' Sim said. 'Humanity has now reached a point where we are at a crossroads and we're trying to accept technology into our lives to enhance our lifestyles,' the entrepreneur said. Although X-Men may still sound like something that only exists in science-fiction, animal-human hybrids (mutants) have already been created in Japan. In March 2019, Japan's Ministry of Education, Culture, Sports, Science and Technology lifted a ban on creating animal embryos with human cells and allowing them to be brought to term in surrogate animals. This allowed stem cell biologist Hiromitsu Nakauchi from the University of Tokyo to inject human stem cells into rodent embryos, creating a hybrid that couldn't form a normal rodent pancreas. The goal of the project was to grow a human-compatible pancreas in these rodents instead, which could then be used for organ transplantation. 'All of this technology is here to help humans transcend and live longer,' Sim explained. 'These are possible superpowers that humans can have through the use of genetic technology,' he added. Sim compared the rare sight of a mutant in today's world to ancient humans claiming they saw dragons. While the accounts seem fantastic and hard to believe, the futurist argued that too many different cultures share the same stories and depictions of these mythical creatures for them to be fake. However, Sim warned that human mutants won't go extinct like the dragon presumably has; mutants will grow in numbers and eventually take over society. 'Because of these very dominant [new] races, they will be better than humans in every single way,' Sim revealed. 'The humans that are left over, they will not be able to contribute to society as effectively as these transhumans, and this is when humanity will then become obsolete,' he added. The topic of superpowered mutants has been a fantasy of the entertainment world for decades, with shows like X-Men and the Bionic Woman imagining how genetics and robotics could one day improve humanity. However, studies reveal that transhumans are already walking around society today. This month, researchers from the Broad Institute of MIT and Harvard reported in Science that they have created a new tool using CRISPR (a gene-editing method) to insert large pieces of DNA into human cells with incredible precision. This could be used to fix genetic diseases or even improve traits like extending longevity. In March, MIT scientists announced they figured out how to turn human skin cells directly into brain cells (neurons) without extra steps, making the process 100 times more efficient than before. They tested the new brain cells by putting them in mouse brains, where they worked perfectly. This could help fix brain damage in people with diseases like Parkinson's. In July 2022, a company called Synchron put a tiny chip in the brain of someone with ALS, a disease that makes it hard to move or speak. They inserted the chip through a vein in the neck, so it was less invasive than brain surgery. The chip let the person control things like a computer or phone just by thinking, like sending texts or browsing the web - similar to Sim's newest breakthrough in reading brainwaves. 'At the moment, lots of people have only seen this technology in films and see it as a downfall but I believe it's our redemption,' Sim said. 'The way I see it is that technology and science are here to empower humans the same way medicines and phones are here to make our lives better.'
The Guardian
3 hours ago
- The Guardian
Les Squires obituary
My friend Les Squires, who has died aged 76, was a scientific specialist in non-woven fabrics. He developed many materials and fabrics for medical, hygiene, insulation, agricultural and construction uses. After a long period in research at the chemicals company Johnson & Johnson, in the late 1970s he set up a business called Web Dynamics with a friend, Tim Woodbridge, to make new materials. They opened a factory near Bolton in Lancashire, and though they had some scary times as the economy fluctuated, they persevered and ultimately became very successful, opening a second factory in China. Behind his gentle, unassuming exterior Les had an inner core of steel, and in his professional life he would not be taken for a fool, nor would he back away from a challenge. He was one of the most capable people I have ever met, diligent and thorough in everything he did. Born in Wythenshawe in Manchester, Les was the first child of Bill, a post office administrator, and Joan (nee Rutter). Having failed the 11-plus, he left Sharston secondary modern school to work in Manchester for Geigy (later Ciba-Geigy) as a lab technician, using his time there to study for HNC and HND qualifications. When his girlfriend, Jean Lawton, went to Leeds University to study English literature, he visited her there, and decided that if she and her friends could do a degree, then so could he. After acquiring further qualifications he was accepted on to a degree course in colour chemistry at Leeds, where we met, staying on to do a PhD in polymer chemistry, followed by an MBA at Dundee University. Having married Jean in 1973, Les's first postgraduate job was with Johnson & Johnson in Gargrave in North Yorkshire, where he joined a team developing sanitary and medical materials including wound dressings. Promotion took him to Portsmouth in Hampshire before he moved in 1990 to work for a different company, Don & Low in Forfar in Scotland, where he patented several non-woven fabrics for use in construction and agriculture before setting up Web Dynamics in 1997. Les retired in 2018. He loved the outdoors, and he and I would often go hiking and climbing in north Wales and Scotland. He was also interested in gardening and home brewing, and the two of us played folk and classical music together, with Les on keyboards and me on violin. He is survived by Jean, their sons, Andrew and Neil, grandchildren Ben and Alice and his sister Janet.
Geeky Gadgets
4 hours ago
- Geeky Gadgets
How Deepseek AI is Transforming Medicine and Climate Science
What if the next new cure for a disease, the key to reversing climate change, or the discovery of a innovative material was hidden in plain sight—buried within mountains of data too vast for human minds to process? Enter Deepseek AI, a innovative platform that is transforming the way science is conducted. Unlike traditional research tools, this advanced system doesn't just analyze data; it uncovers patterns, correlations, and insights that were previously invisible. By combining unparalleled speed and precision, Deepseek is not just accelerating scientific discovery—it's redefining what's possible in fields like medicine, physics, and environmental science. In this overview, Anastasi In Tech explore how Deepseek is reshaping the landscape of scientific research. From its ability to streamline complex processes to its self-improving algorithms that grow smarter with every dataset, this platform offers a glimpse into the future of innovation. You'll discover how it's already driving breakthroughs in genomics, climate modeling, and material engineering, and why its adaptability makes it an indispensable tool across disciplines. As you read on, consider this: What could humanity achieve if we had the power to solve problems once thought insurmountable? Deepseek AI Revolution The Core Strengths of Deepseek Deepseek AI's power lies in its ability to process and analyze massive datasets with unparalleled speed and precision. By using advanced problem-solving algorithms, it identifies patterns, correlations, and insights that might otherwise remain hidden. This capability is particularly valuable in fields where data complexity can hinder progress, such as genomics, climate science, and material engineering. For instance, in genomics, Deepseek can analyze genetic data to identify mutations linked to diseases, paving the way for targeted therapies. In climate modeling, it simplifies the analysis of intricate environmental data, allowing more accurate predictions of climate trends. By breaking down complex problems into manageable components, Deepseek AI ensures that researchers like you can focus on interpreting results and applying them to real-world challenges. What sets Deepseek AI apart is its ability to learn and adapt. As it processes more data, it refines its algorithms, becoming increasingly effective over time. This self-improving nature ensures that it remains a innovative tool, capable of meeting the evolving demands of scientific research. Applications Across Diverse Scientific Fields The versatility of Deepseek AI makes it a valuable asset across a wide spectrum of scientific disciplines. Its ability to analyze complex datasets and generate actionable insights has already proven beneficial in areas such as medicine, physics, and environmental science. Medicine: Deepseek AI accelerates drug discovery by simulating molecular interactions, predicting treatment outcomes, and identifying potential therapeutic targets. This reduces the time and cost associated with developing new medications. Deepseek AI accelerates drug discovery by simulating molecular interactions, predicting treatment outcomes, and identifying potential therapeutic targets. This reduces the time and cost associated with developing new medications. Physics: In physics, it enhances simulations of quantum systems, allowing researchers to explore phenomena that were previously too complex to model accurately. In physics, it enhances simulations of quantum systems, allowing researchers to explore phenomena that were previously too complex to model accurately. Environmental Science: By analyzing climate data, Deepseek AI supports sustainability efforts, helping to forecast environmental trends and assess the impact of human activities on ecosystems. These applications highlight the system's adaptability and its potential to drive progress in both established and emerging fields. Whether you are working on curing diseases, understanding the universe, or protecting the planet, Deepseek AI provides the tools needed to achieve your goals. HUGE Deepseek AI Breakthrough Watch this video on YouTube. Explore further guides and articles from our vast library that you may find relevant to your interests in Deepseek AI. Enhancing Innovation and Efficiency One of the most significant advantages of Deepseek is its ability to enhance both innovation and efficiency in scientific research. By automating repetitive tasks, such as data cleaning and preliminary analysis, it allows you to dedicate more time to creative and strategic aspects of your work. This shift not only accelerates the research process but also increases the likelihood of uncovering novel insights. For example, researchers in renewable energy have used Deepseek AI to develop advanced materials for solar panels, significantly improving their efficiency. Similarly, in material sciences, the system has assistd the discovery of compounds with unique properties, opening up new possibilities for industrial applications. By delivering deeper insights and reducing the time required for analysis, Deepseek AI enables you to push the boundaries of what is scientifically possible. Its ability to integrate data from multiple sources further enhances its utility, allowing interdisciplinary collaboration and fostering a more holistic approach to research. Redefining the Future of Scientific Research The emergence of Deepseek AI signals a fantastic moment in the evolution of scientific research. As artificial intelligence continues to advance, tools like Deepseek AI are set to become standard in laboratories worldwide. For researchers, this means access to more reliable, efficient, and innovative methods for addressing the most pressing scientific questions. Deepseek's potential to foster interdisciplinary collaboration is particularly noteworthy. By bridging gaps between fields, it enables researchers to combine expertise and tackle complex problems from multiple perspectives. This collaborative approach could lead to breakthroughs that redefine entire areas of study, from healthcare to environmental sustainability. As science evolves, the role of AI systems like Deepseek will only grow. By integrating advanced data analysis with innovative problem-solving capabilities, it equips you with the tools needed to overcome challenges that once seemed insurmountable. Whether your focus is on medicine, physics, or environmental science, Deepseek AI is poised to play a central role in shaping the future of research and innovation. Media Credit: Anastasi In Tech Filed Under: AI, Top News Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
