Designation highlights the company’s unique Hybrid AI approach to revolutionize mission-critical industries through the power of AI and machine learning 

Glendale, CA, April 3, 2024 – The Business Intelligence Group today announced that Beyond Limits was named a winner in its Artificial Intelligence Excellence Awards program.  

Beyond Limits’ Hybrid AI Platform empowers organizations to surpass conventional AI by combining Symbolic AI reasoner technology with Numeric AI (machine learning, neural networks, and deep learning) and Generative AI, delivering intelligent recommendations and actions to front-line staff. The Platform transforms operational data and knowledge into intelligent decisioning workflows and actionable recommendations for optimizing mission critical applications for sectors such as energy, healthcare, finance, aerospace, defense, and manufacturing. 

AJ Abdallat, CEO for Beyond Limits, stated, “We’re pleased to be recognized by the Business Intelligence Group for delivering a standout solution in today’s crowded AI space. Unlike conventional AI solutions that fall short in addressing complex industrial conditions and constraints, our Hybrid AI Platform is designed to excel in the most challenging industries where failure leads to costly consequences. Our Platform uniquely provides transparent explanations for its decisions, making it a reliable partner for human decision-makers and driving substantial returns on investment for organizations.” 

“We are truly honored to recognize Beyond Limits with this prestigious award,” stated Maria Jimenez, Chief Nominations Officer for the Business Intelligence Group. “The unwavering commitment of their team to excellence and their innovative AI applications have catapulted them to this remarkable achievement. Congratulations to the entire organization!” 

About Business Intelligence Group www.bintelligence.com 
The Business Intelligence Group was founded with the mission of recognizing true talent and superior performance in the business world. Unlike other industry award programs, these programs are judged by business executives having experience and knowledge. The organization’s proprietary and unique scoring system selectively measures performance across multiple business domains and then rewards those companies whose achievements stand above those of their peers. 

About Beyond Limits 

Beyond Limits is an industrial-grade, Hybrid AI company that optimizes operations, boosts efficiency, and increases productivity for demanding industries. The company’s Hybrid AI Platform uniquely combines symbolic, numeric, and generative AI, blending human knowledge with operational content to create explainable solutions. This innovative approach enables companies to solve problems faster, with greater precision and reliability. Beyond Limits leverages advanced technology developed at Caltech’s Jet Propulsion Laboratory for NASA space missions. For more information, visit  www.beyond.ai or contact us at sales@beyond.ai 

Contact 
Sari Gallagher 

+1 800-997-9921, x1236 

sgallagher@beyond.ai 

Maria Jimenez 
+1 909-529-2737 
jmaria@bintelligence.com 

Beyond Limits stands out with its neuro-symbolic AI approach, blending traditional numeric AI tools with symbolic AI techniques to support human decision-making and magnify human talent.

San Antonio, TX — 07 February 2024 — Frost & Sullivan recently researched the industrial AI solutions industry and, based on its findings, recognizes Beyond Limits with the 2023 Global Enabling Technology Leadership Award. Beyond Limits is an American company founded in 2014 that provides superior artificial intelligence (AI) solutions, combining numeric AI tools like machine learning and neural networks with symbolic AI techniques to deliver human-like reasoning and overcome the limitations of conventional AI solutions.

Beyond Limits’ Hybrid AI technology offers insights from data and human expertise, providing cognitive reasoning that expands human decision-making. The company’s AI models are trained on vast datasets and the knowledge of seasoned industry experts to deliver in-depth and highly sophisticated explanations and recommendations that mirror human cognitive processes.

This groundbreaking technology helps businesses foresee potential industrial problems, diagnose issues, and recommend effective solutions in a wide range of industries such as oil & gas, manufacturing, energy, utilities, and healthcare. However, its technology goes beyond data analysis; it interprets data in context, offering nuanced, reliable, and actionable insights, making Beyond Limits a game-changer in empowering businesses with a new breed of AI-driven solutions.

“To address the limitations of conventional AI solutions, Beyond Limits employs a unique hybrid approach of combining traditional numeric AI tools (including ML, neural networks, and deep learning) with advanced symbolic AI techniques that emulate human intuition, thereby delivering cognitive reasoning and intelligence that support human decision-making,” said Sama Suwal, Best Practices Research Analyst at Frost & Sullivan.

Beyond Limits’ next-generation cognitive technology is constantly evolving and expanding, backed by the expertise of over 280 highly skilled employees working in multiple locations worldwide, including California, Hong Kong, Singapore, Tokyo, Taiwan, Jordan, and Dubai. To further expand its services, the company plans to launch its upcoming suite of hybrid AI solutions, which are expected to provide unparalleled operational insights, decision-making support, and significant improvements in efficiency and sustainability. These initiatives showcase Beyond Limits’ ability to translate cutting-edge AI solutions into powerful tools that address specific, real-world challenges in industrial settings.

“Beyond Limits continues to extend its established leadership in the industrial AI solutions space by releasing several hybrid AI solutions for the energy, manufacturing, and utility sectors. Planned deliverables include its Global Operations Advisor for plants and facilities, sensor placement and leak detection for water utilities, KBOps to create structured knowledge bases and boost expert guidance company-wide, and a Predictive Recommendation engine to drive preventative maintenance efforts” noted Sebastián Trolli, Senior Industry Analyst, Industrial Technologies at Frost & Sullivan.

Each year, Frost & Sullivan presents this award to a company that develops a pioneering technology that enhances current products and enables new product and application development. The award recognizes the high market acceptance potential of the recipient’s technology.

Frost & Sullivan Best Practices awards recognize companies in various regional and global markets for demonstrating outstanding achievement and superior performance in leadership, technological innovation, customer service, and strategic product development. Industry analysts compare market participants and measure performance through in-depth interviews, analyses, and extensive secondary research to identify best practices in the industry.

About Frost & Sullivan

For six decades, Frost & Sullivan has been world-renowned for its role in helping investors, corporate leaders, and governments navigate economic changes and identify disruptive technologies, Mega Trends, new business models, and companies to action, resulting in a continuous flow of growth opportunities to drive future success. Contact us: Start the discussion.

Contact:

Lindsey Whitaker

P: +1 (210) 477-8457

E: lindsey.whitaker@frost.com

About Beyond Limits

Beyond Limits is an industrial grade, Hybrid AI company that optimizes operations, boosts efficiency, and increases productivity for demanding industries including energy, advanced manufacturing, fintech and healthcare. 

Beyond traditional artificial intelligence, the company’s Hybrid AI solutions take a neuro-symbolic approach that uniquely combines human knowledge from domain experts with operational content to deliver solutions that reason, even with imperfect information. Trusted autonomy adapts to the degree humans need to be ‘in-the-loop’ for AI solutions to perform well in the real world to affirm trust in software-driven decisions, manage operational risk, and drive profitability. 

Founded in 2014, Beyond Limits leverages a significant investment portfolio of advanced technology developed at Caltech’s Jet Propulsion Laboratory for NASA space missions. The company has been honored by: Database Trends and Applications as one of their Awesome Companies in AI 2023; Frost & Sullivan as a Company of the Year for their 2021 Best Practices Award; and by CB Insights on their 2020 List of Top 100 Most Innovative Artificial Intelligence Startups. 

For more information, please visit  www.beyond.ai

Contact:

Sari Gallagher

P: +1 (949) 727-1248

E: sgallagher@beyond.ai

“Businesses looking to adopt more sustainable and energy-efficient models can hugely benefit from generative AI. Generative AI algorithms can be used to model and simulate energy systems, identify inefficiencies and other areas of improvement, and propose optimal solutions that conserve energy and promote decarbonization.” – AJ Abdallat, Beyond Limits

22 October 2020

Los Angeles, CA

State-of-the-art technology is making its mark on every part of the modern economy, and the energy industry is no exception. Energy companies have traditionally been dependent on side-by-side working environments to manage large-scale operations, but all of this has changed with the COVID-19 pandemic. Today’s circumstances have made it even more challenging for senior-level engineers to provide their expert guidance to junior-level engineers when working onsite. It’s important that advanced technologies like Cognitive AI play a crucial role in supporting the industry to best adapt during this transitional period.

In this video, Data Scientist Dr. Michael Krause outlines how to overcome the most common challenges when adopting AI. Dr. Krause also provides insights into how traditional onsite operations have had to adjust amid COVID-19 and the role AI is playing to help solve this challenge. Watch the video below to learn how. 

Learn more about AI in the Energy Industry here.

Read the full Forbes article here.

Author: Insights Team Insights ContributorFORBES INSIGHTS With Intel AI

For scale, consider the Statue of Liberty, standing 305 feet tall. At 466 feet, the average wind turbine in the U.S. dwarfs Lady Liberty by more than half. And when GE’s next-generation monster wind turbine, the Haliade-X, hits the market in 2021, it will nearly double that size to 877 feet, just shy of the Eiffel Tower. A single Haliade-X rotor blade will stretch 315 feet, longer than a football field.

As a general rule of thumb, when it comes to energy and energy exploration, bigger is better: the larger the machinery, the deeper the dig, the greater the production yield. But this massive scale can pose major challenges. By necessity, assets like oil rigs, wind farms and mines are often located in remote and harsh environments, posing safety risks to human workers during construction, inspections and repairs. Equipment laden with sensors can collect petabytes of data, but without reliable high-speed wireless infrastructure, transmitting it can be slow and unwieldy, straining the system’s bandwidth.
That’s all changing—and fast, thanks to rapidly evolving and emerging 5G, AI and IoT technology. Collectively, they’re transforming the energy sector in fundamental ways, by enabling energy and mineral harvesting optimization, predictive and automated maintenance, high-volume and low-latency data delivery, and smarter power grid management for better allocation of energy resources to countries, cities, manufacturers and consumers.
“Together these technologies are improving efficiency, driving down costs and allowing companies in those spaces to make better use of the available assets,” says Paul Miller, senior analyst at Forrester Research. “The biggest impact is around asset visibility and asset management. What is my equipment doing? Is that wind turbine turning and how much is it producing?”
But the benefits of today’s tech advances go beyond ensuring that machinery will perform at peak capacity. Miller sees IoT and AI’s impact transforming the very concept and function of a city’s power grid, which has remained structurally unchanged since the 1930s.
“The energy grid for a city is a mix of different sources: nuclear, gas, wind and solar,” he says. “You’re going to want to use renewable energy as much as possible, but you have to make a guess for how much energy is going to be needed by the city. Essentially you want as much data as possible to make those guesses as data-driven as possible.”
“The ultimate impact will be for every city and every country optimizing their use of power so that you need to produce less,” Miller says.
Viewed up close, current tech advances in the energy and mining sectors look like a patchwork quilt of isolated improvements, but the big picture shows something more sweeping. Here are four key arenas where AI and IoT are changing the game in the energy and energy exploration sectors.

Yield Optimization

By 2020, the industrial IoT is expected to comprise more than a trillion sensors, each collecting and sharing data in real time. This mountain of data, when processed and analyzed by advanced machine learning software, will let energy companies monitor and regulate production to cut costs and maximize output—down to the minute.
A McKinsey study projects that AI innovations could save oil and gas companies as much as $50 billion in production costs annually. Among the companies innovating in the synchronization of AI, IoT and oil and gas hardware is Calgary-based Ambyint, whose intelligent “adaptive controller” platform samples data from thousands of vertical and horizontal oils wells every five milliseconds to recommend optimization strategies. San Francisco–based Tachyus also integrates real-time equipment data with seismic activityto regulate maximum oil flow through pipelines.
Predictive AI is even helping improve how oil and gas companies locate the most resource-rich drilling grounds. Chevron is using AI to identify new well locations in California; by drilling in better locations, production has risen by 30%, the oil giant claims. Recently, BP invested $20 million in Beyond Limits, an AI startup commercializing cutting-edge tools from NASA to adapt deep-space exploration technology to deep-sea oil and gas exploration in the search for promising drilling grounds.
For the wind and solar power industries, AI is enabling greater energy yield through advanced weather forecasting and analysis. How do you maximize wind power when the wind dies down, or solar power during overcast days? By incorporating intelligent “tuning” mechanisms into the hardware that automatically adjust control settings for varied weather conditions.
GE Renewable Energy is taking a different tack to optimize wind power by creating digital wind farms. These “digital twins” are virtual models of actual wind farms that gather data from the physical turbines during operations and analyze potential settings to determine optimal efficiency. GE reports that its digital-twin technology will boost energy production by 20% annually, generating $100 million more profit over the lifespan of a typical 100-megawatt wind farm.

Predictive Maintenance And Cognitive Vision

In northeast Iowa, on a blustery day in March recently, a wind turbine’s blades churned steadily. But 400 miles away, data analytics software detected an anomaly: Unexpectedly, the turbine’s gearbox was on the verge of failure. The wind farm’s operators quickly dispatched a crew for a $5,000 repair job, averting a catastrophic breakdown costing several days of downtime and $250,000 in lost revenue.
But predictive maintenance, enabled by AI and IoT, isn’t just about preventing unforeseen equipment failure. By predicting wear and tear, it allows timely maintenance that can extend the life cycle of complex and costly machinery. More importantly, it can ensure the safety of human crews who scale massive equipment while exposed to the elements or who must attempt a dangerous rescue mission after a mine collapse.
Much of predictive maintenance technology today is enabled by sophisticated IoT sensors inside machinery to monitor temperature, moisture, output flow and seismic vibrations. Externally, AI-enhanced drones and robots are proving equally valuable in revolutionizing inspections and repairs.
Among the powerful new tools for monitoring outdoor machinery such as oil rigging and wind turbines is Aerialtronic’s “digital vision” platform, a camera-computer hybrid that can be mounted to drones or mobile robots. Its optical and thermal cameras, along with an onboard 1.5-teraflop GPU, let it detect even the tiniest of fissures that could lead to equipment failure. Another digital vision system from SkySpec lets an autonomous flying drone inspect an offshore wind turbine in less than 15 minutes. If it finds damage, its analytics can project repair costs and calculate whether they’re worthwhile, or if it’s more cost-effective to replace the equipment.

Environmental And Safety Upgrades

A recent survey asked executives from 100 of the largest mineral extraction companies in the world to name their top priority for deploying IoT in mining operations and 47% of them gave the same answer: monitoring their mines’ environmental impact. The reason? Meeting strict government regulations on environmental impact is costly, but an even greater responsibility is ensuring the health and safety of miners.
Companies like Inmarsat are working with mining companies to leverage IoT and machine learning to bolster worker safety and environmental compliance using smart sensors. Wireless sensor networks provide early detection of excessive vibrations that could lead to structural collapses, as well as the presence of dangerous flammable and combustible gases such as methane and carbon dioxide. Data collected by these sensors, as well as workers’ wearable sensors and sensor-laden flying drones used to conduct site surveillance, helps mining firms generate predictive models to minimize future dangers. All told, experts predict that smart sensors could save the mining industry $34 billion in costs by reducing health and safety incidents.
The nuclear power industry is also tapping machine learning to improve reactor safety, which could strengthen it as an alternative power source in the U.S.; currently, nuclear power plants provide 20% of all electricity generated. (Nuclear power safety is no small concern. Since the 1986 Chernobyl disaster, 56 of 99 major nuclear power accidents have occurred in the U.S.)
Engineers at Purdue University have created a deep learning neural network that can detect minute cracks within nuclear reactors by rapidly analyzing video images, which until now has been a lengthy, tedious and imprecise job for human inspectors. Rendering the inspection task even more difficult? Large sections of nuclear reactors are underwater and difficult to monitor.
Trained on a dataset of 300,000 images of crack and non-crack examples, Purdue’s AI has scored a 98.3% success rate in identifying tiny fissures in reactor walls—a significantly higher rate than that of human inspectors.

Autonomous Energy Production

In a report on the future of AI for the renewable energy industry, global risk management consultants DNV GL envision a day when wind and solar farms could spring up without any human involvement. Self-driving trucks could transport wind turbine and solar array components from the factory to the site. Another set of robots would unload and assemble them on a foundation dug in earth and filled with concrete by more robots. Finally, drones and robots would assemble the working facility.
Far-fetched? Not entirely. Autonomous mining is already underway in Boliden, Sweden’s Kankberg gold mine, and plans include its eventual operation without any human workers. In conjunction with the Swedish government, the mine’s operator has teamed up with telecom giant Ericsson, Volvo and Abb on the innovative project.
Self-driving excavators and haulers remove minerals from the 500-meter deep site. A 5G wireless network connects all machinery and sensors to ensure seamless production, transmitting data at 100 gigabits per second, nearly 100 times faster than current Wi-Fi technology.
No human workers mean no humans are at risk from mining accidents or disaster. A 24/7 production cycle optimizes value for mining companies. All told, the benefits of autonomous energy production are clear. Even if its arrival as a reality is far off, one by one the pieces are falling into place thanks to the convergence of 5G, AI and IoT. Together these advances are disrupting the energy sector at every stage, from production to refinement and consumption. In the coming decade, you can expect to see this sweeping digital transformation pay off in lower-cost, lower-risk and higher-yield businesses.

Read the full Forbes article here.

Author: Insights Team Insights ContributorFORBES INSIGHTS With Intel AI