43.02 F
London
December 23, 2024
PI Global Investments
Infrastructure

Optimising AI, big data, infrastructure in low-cost virtual simulation – Digital Transformation News


By Manpreet Singh Manna

Optimizing AI, Big Data, and infrastructure in Low-Cost Virtual Simulation creates powerful and affordable tools in various domains. Low-Cost Virtual Simulation refers to creating realistic and functional simulations at minimal expense. It will create virtual worlds or scenarios where people, objects, and systems can interact, without incurring the high costs of building physical prototypes or running real-world tests. Implementing AI algorithms within the simulation makes it more dynamic and adaptable. Big Data generated from real-world scenarios can be fed into the AI algorithms to improve their decision-making and overall simulation realism. This field is a ripe for innovation, with constant advancements in AI algorithms, data analysis techniques, and cloud computing capabilities.

Artificial intelligence is rapidly transforming the global scenario, with its strands impacting every sector and reshaping the future of the world. Modern infrastructure, including specialized hardware like GPUs (Graphics Processing Unit) and TPUs (Tensor Processing Unit), further optimizes its workload. AI also accelerates scientific research by analysing vast datasets, leading to breakthroughs in fields like science, climate modelling, and gene editing. AI agents can act as realistic opponents in military simulations, or virtual patients for medical students, creating immersive and cost-effective training environments Self-driving cars, drone delivery services, and robotic assistants are just a glimpse into the future of autonomous systems powered by AI, impacting transportation, logistics, and daily life. AI-powered automation and innovation are projected to contribute trillions of dollars to the global economy by 2030, boosting productivity and efficiency across industries. According to McKinsey Global Institute report, AI might help create 20 million to 50 million new jobs worldwide by 2030. The future holds immense potential for AI, impacting not only how we work and live but also shaping the very fabric of our societies.

Big data, the ever-growing sea of diverse information, demands innovative architectures to manage and unlock its true potential. Big data will unlock new avenues in scientific research, enabling faster drug discovery, personalized medicine, and deeper understanding of complex systems like climate change and blockchain-based technologies would empower individuals to own and control their data, creating a more equitable data ecosystem. The trifecta of big data, cloud computing, and their architectures is paving the path for the optimized and scalable infrastructure for Virtual Simulations which, in turn, would empower organizations to extract valuable knowledge from the data deluge, driving decision-making and innovation across industries. According to latest internet minutes statistics from LocaliQ, Google registers over 6 million searches every minute, with up to 70% of web traffic originating from mobile devices. Twitter was ranked as the top fifth most-visited website in 2023 with 6.4 billion sessions. Additionally, a staggering six billion emails are exchanged daily, of which an estimated 128.8 billion are business-related. Therefore, the future of big data is brimming with exciting possibilities that will impact every facet of our lives, some of the future uses are Democratization of Data Insights, Hyper-Personalized Experiences, Predictive and Prescriptive Analytics, Ethical Considerations and Data Privacy and Interconnectedness and the Internet of Things (IoT). 

Low-cost virtual simulation (LCVS) is a field evolving rapidly with the potential to revolutionize training, design, and research across various industries. LCVS makes virtual simulations affordable and accessible for a wider range of users, compared to traditional simulations that require expensive hardware and software, it utilizes readily available resources and techniques to achieve realistic results, from medical students practicing complex surgeries in VR to pilots honing their skills in flight simulators. It has also enabled virtual meetings and events, over-coming geographical barriers and enabling global collaboration in real-time. LCVS has a tremendous potential to address global challenges in the future as AI-powered LCVS platforms can modify educational experiences according to individual needs and learning styles therefore maximising knowledge absorption and engagement. Catering to evolving job markets and individual career aspirations, upskilling and reskilling can be delivered via interactive simulations. LCVS tools will assist medical professionals enabling visualization of patient-specific data and treatment options, leading to more personalized and effective care, accurate diagnosis and treatment without physical presence thus improving health care system.

The optimization of AI, Big Data and Low-Cost Simulation marks the dawn of a new era which will further improve our lives and solve global challenges. With careful planning and ethical considerations, this powerful trio can usher in a future filled with innovation, where knowledge is democratized, solutions are data-driven, and the potential for human progress is boundless.

The author is senior member, IEEE 

Follow us on TwitterFacebookLinkedIn





Source link

Related posts

Building the groundwork for a better future-Xinhua

D.William

How bitcoin mining could help electrical infrastructure in Africa

D.William

India proposes to allow AIFs to pledge infrastructure company shares

D.William

Leave a Comment

* By using this form you agree with the storage and handling of your data by this website.