What is artificial intelligence?
From planning and forecasting to inspection and personalization, AI is now embedded in the systems and tools that keep today’s industries competitive.
Since the 2022 launch of ChatGPT, artificial intelligence (AI) has rarely been out of the news. That particular kind of generative AI is called a large language model (LLM) and is built using an actual neural network that allows it to interact with us in increasingly human-like exchanges. For this reason, it is much more engaging and “likeable” than other forms of AI. But it’s important to remember that LLMs represent only a fraction of the AI-powered solutions, tools, and devices that increasingly augment and enhance modern business operations. From optimizing supply chains to flagging anomalies in complex systems, AI is already embedded in the platforms and processes that keep modern industries running. Some of these tools work quietly behind the scenes. Others help frontline teams work faster, reduce risk, or make better decisions. But wherever we find them, AI-powered solutions are increasingly changing how work gets done.
Artificial intelligence (AI) refers to the ability of machines to solve problems, perform tasks, and simulate human cognitive functions such as perception, reasoning, learning, and decision-making. Unlike traditional software, which follows fixed rules, AI systems improve their performance over time by analyzing data, identifying patterns, and adjusting their behavior based on outcomes and feedback. Some AI systems rely on rules or logic trees. Others use statistical models trained on large datasets. The common thread is that AI empowers machines to handle complexity, ambiguity, and variation.
The idea that machines could think predates computers and started with questions like: Can logic be automated? Can reasoning follow rules? Can a machine ever learn? As early as the 1950s, pioneers like John McCarthy and Alan Turing were exploring programmatic ways to quantify and formalize thought.
By the 1990s, rule-based systems could capture decision-making in code. They worked well in narrow domains but couldn’t easily scale or adapt. It was this limitation – combined with the rapidly-growing memory and capacity of computers – that inspired the developmental strides in deep learning. This saw models beginning to learn patterns directly from data, rather than from being hand-programmed to do so.
Today, AI is an exponentially advancing phenomenon. And while it obviously requires human oversight, training, and management, it has become historically unique among technologies in its ability to use data and experiences to fine-tune and improve its own performance.
There’s a lot of hype around AI. Particularly, its output is becoming increasingly indistinguishable from that of humans. It is often described in tiers – from narrow, task-specific systems to speculative forms of intelligence that rival or exceed our own. Here's how those types break down, and where we stand today.
AI helps machines do things that normally require human intelligence. In a nutshell, here are the core outputs that we expect of modern AI, whether in a personal or business setting:
Analyzing patterns is a core component to all AI training. This lets it estimate what’s likely to happen next. That includes things like forecasting demand, predicting equipment failure, or anticipating customer behavior.
AI should be able to process language, recognize images, or explain data from sensors, cameras, or any source. It’s how voice assistants hear a question, or how a quality control camera spots defects on a production line.
Central to AI is the ability to assess and weigh options and recommend the best path. This capacity is based on goals or rules and is informed by voluminous training data and assessment of past outcomes. These decisions may then trigger a human or automated response.
The neural networks involved in deep learning allow AI to access data in any format – and then use it to power natural conversations between people and systems. This makes simple work of large datasets and lets customers and employees engage with systems and information.
AI isn’t a single tool. It’s a system made up of parts that work together to process information, learn from data, and generate results. The model is the part of the system that learns from the data. It identifies patterns, builds associations, or finds relationships. Models can be simple or complex, depending on the tasks they are built to accomplish.
AI systems need data to learn, reason, and respond. That includes sales history, product images, customer interactions, or sensor readings. Quality, structure, and diversity matter as much as volume.
Training refines the model using data. The system learns which inputs lead to which outcomes. The goal is to improve accuracy and decision-making without needing explicit human instructions.
Inference isn’t true “thinking,” but it’s close. Once trained, the model uses learned data to answer questions, classify inputs, and suggest actions based on patterns it has recognized.
Feedback loops help models keep learning after training ends. They adapt to new conditions and data, reinforcing what works, correcting errors, and improving performance over time.
The original AI systems were strictly rule-based. This meant systems followed explicitly programmed instructions for every scenario. While rules-based components are still a definite part of modern AI training, learning-based methods are necessary to achieve today’s level of sophistication. Unlike rules-based models, learning allows systems to begin to infer patterns from data and improve performance over time without being explicitly told what to do.
Rule-based systems
Early AI was driven by logic. Programmers wrote if-this-then-that rules that the system should follow. These models worked well for structured tasks, like calculating taxes or troubleshooting equipment. But they couldn’t handle nuances or changes.
Machine learning
Machine learning evolved alongside greater speed and computing power. This gave AI the ability to flex its muscles and evolve its capacity to actually learn from data. Instead of being told what to do, the system looks at examples and figures out the patterns.
Deep learning
Deep learning is a more complex form of machine learning that uses layered models called neural networks. These systems can process images, speech, and language in ways that resemble how a human brain organizes information. They require more voluminous datasets, but they can then tackle harder problems, like complex predictions or understanding context.
Reinforcement learning
Reinforcement learning is about trial and error. The system explores options, gets feedback (positive or negative), and learns what works. This is the kind of AI used in places where there are a lot of literal or figurative moving parts. And the best answer comes from experience, such as automating robotics or optimizing workflows.
The terms agentic AI and gen (or generative) AI do not define components or technological distinctions as much as distinctions in how these AI tools are used or what they are expected to produce.
In today’s businesses and industries, AI is used for ever-increasing and ever more essential ways. Below is a summary of the capabilities it brings to the table in this sample of core tasks and applications:
Identifies what’s there or flags what’s unusual – by quickly scanning any data you give, such as images, transactions, sensor streams. This means catching issues early, including defects on a production line, mounting consumer dissatisfaction, or spotting signs of fraud.
Boosts resilience with its ability to do things like anticipate demand, adjust inventory, schedule labor, or optimize delivery routes. These tasks are accomplished with predictive models that learn from past behavior to recommend the most efficient path forward.
Uses natural language processing (NLP) make sense of data and input. This helps teams find, amalgamate, and summarize incredibly complicated materials. It gives customers faster and more relevant answers, and it supports more accurate communications and reporting.
Analyzes interactions over time to personalize experiences, predict next actions, or recommend relevant content. For teams, this helps them become more accurate with both physical and administrative work. And customers benefit from increasingly relevant output.
Simulates and models scenarios quickly. In complex environments like supply chains or manufacturing, this helps teams test ideas and contingency plans in a risk-free environment – giving leaders the confidence they need to make fast and competitive decisions.
Applies computer vision to interpret images, video, or live camera feeds. This powers tasks like flagging quality issues on a production line, tracking inventory with image data, or monitoring safety compliance on site – all without requiring manual review.
Today’s core industries are increasingly relying on AI-powered solutions to help them tackle complexity and compete in a challenging market.
Distributors use AI to automate warehouses, plan routes, track goods, and allocate labor. Logistics teams optimize deliveries in real time using traffic, weather, and timing data.
Fashion brands use AI to detect style trends early, model customer behavior, and personalize digital experiences. It also supports smarter demand planning and markdown optimization by anticipating what will sell – and when.
F&B companies use AI to forecast demand, reduce waste, and extend shelf life. Vision systems check quality, while predictive models optimize production and supply planning.
Healthcare teams use AI to detect patterns in scans, labs, and records. It helps prioritize tasks, suggest treatments, and streamline admin work, improving speed and care quality.
Manufacturers use AI to predict equipment failure, reduce downtime, and improve QA. It spots defects in real time and learns from past issues to catch problems earlier.
Governments leverage AI to detect fraud, analyze large volumes of citizen data, and automate service triage. In this highly scrutinized sector, it helps match resources to needs, flag exceptions, and improve transparency in how services are delivered.
As the old saying goes: “with great power, comes great responsibility”. AI has an awe-inspiring ability to optimize and transform businesses and industries. But to do that well and safely, it needs to be handled with respect, professionalism, and dedication.
Today’s best tools and software solutions incorporate AI in highly measured and regulated ways – developing guardrails and safeguards at every stage. That said, every business should establish a visible set of guidelines for its governance and best use:
It took almost a century to get from the steam engine to the internal combustion engine. Yet in just a few years, computing power and software systems have gone from labor-saving devices to actual “smart” and teachable tools – fit to inform accurate decisions and help power vast, complex industrial operations. Today, the best software solutions are run on unified, cloud-based platforms and are driven by sophisticated AI and machine learning capabilities. Fortunately, this means that modern business leaders will have the resilience and strength they need to thrive and compete in a fast-changing future.
See how Infor’s powerful, industry-specific AI solutions integrate directly into your mission-critical processes, helping you boost productivity and resilience.