Agentic artificial intelligence (AI) marks a significant
evolution in artificial intelligence, enabling systems to function
independently without constant human intervention. Unlike traditional
AI, which relies on predefined instructions, agentic AI can make
decisions, take actions, and learn in real-time. This autonomy allows it
to adapt to changing circumstances, optimise workflows, and achieve
complex objectives with minimal oversight.
Agentic AI operates through a cycle of perception, reasoning, action,
and learning. It gathers data from its environment, interprets context,
and acts proactively based on predefined goals. Another standout feature
is reinforcement learning, which allows agentic AI to refine its
behaviour through feedback. Moreover, its advanced language capabilities
also enable it to manage multi-step tasks with minimal guidance, making
it suitable for roles like virtual assistants or automated customer
support.
This dynamic adaptability makes it ideal for highly dynamic
environments and makes it effective in scenarios where static rule-based
AI systems fall short. For example, in supply chain management, it can
monitor real-time demand fluctuations, adjust inventory levels, and
reroute shipments autonomously. In finance, it can assess market
conditions, execute trades, and mitigate risks autonomously. Its core
differentiator is the ability to act independently, while continuously
optimising performance.
HOW AGENTIC AI SOLVES PROBLEMS
Agentic AI follows four stages:
* Perception stage: It collects and interprets data from various
sources, including sensors, databases, and digital systems to understand
its environment its environment.
* Reasoning stage: Powered by Large Language Models (LLM), it analyses
tasks, generates solutions, and coordinates specialised AI models for
specific functions such as content generation, visual processing, or
recommendation. Techniques like retrieval-augmented generation (RAG),
ensure precise and contextually relevant outputs.
* Action stage: It executes through Application Programming Interfaces
(APIs). This allows it to perform tasks efficiently while following
pre-established guidelines. For instance, a customer service AI may
process claims within certain threshold automatically while flagging
larger claims for human approval.
* Learning stage: Using a feedback loop, also known as the “data
flywheel”, it analyses interactions and outcomes, refines its
decision-making models and strategies, increasing its effectiveness over
time.
This ability to self-optimise makes agentic AI a powerful tool for
businesses looking to enhance decision-making and operational
efficiency.
HOW AGENTIC AI DIFFERS FROM TRADITIONAL AUTOMATION
Enterprise automation has already transformed industries by
streamlining workflows and improving efficiency. However, traditional
automation relies on fixed rules and structured processes, limiting its
flexibility. These systems often fail or require human intervention when
dealing with inconsistencies or unanticipated issues.
Agentic AI overcomes these limitations by simulating human-like
judgment and adaptability. For example, while traditional automation may
struggle with processing invoices that have missing data or formatting
issues, agentic AI can recognise discrepancies, infer missing
information, and resolve the issue autonomously.
Agentic AI differs from both narrow autonomous systems and the
still-theoretical concept of Artificial General Intelligence (AGI) which
aims to replicate human-like intelligence, but many experts estimate it
may only be feasible in the 23rd century. And, while autonomous AI like
self-driving cars or robotic assistants operate independently, they are
typically designed for specific, narrow applications beyond which they
cannot adapt.
Agentic AI, then, occupies a practical middle ground, offering more
autonomy and adaptability than traditional automation while focusing on
practical, goal-oriented use, rather than replicating human cognition
broadly.
BENEFITS OF AGENTIC AI
In today’s fast-paced business environment, companies face growing
challenges, from rising costs and fierce competition to constant
pressure for innovation. While traditional and generative AI have
streamlined certain processes, they have fallen short of providing fully
autonomous, end-to-end enterprise solutions. Agentic AI fills this gap
by managing complex workflows with greater autonomy and adaptability.
As such, by integrating agentic AI, organisations can scale operations
more effectively, respond swiftly to dynamic conditions, and free
employees to focus on high-value tasks. This shift not only improves
productivity but also fosters innovation, positioning businesses for
long-term success in an increasingly competitive landscape.