ARXIV:2601.19752 · AGENTS · SUBMITTED 02 APR · 02:30 UTC · FRESHNESS STALE

VerifiedSource: PDF linkedPartialPaperPack: 3 of 4 citation fields filledMissingMissing fields: authorsPartialProof: unverified proof status

Agentic Design Patterns: A System-Theoretic Framework

arXiv

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Blocked on Code›Score3.0Evidence unverified

Opportunity summary

Pain Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Evidence 0 refs | 0 sources | 17% coverage

Blocker Evidence unverified

Open Build Read PDF Signal Canvas Track

PROBLEM

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability. Existing efforts to characterise agentic design patterns often lack a rigorous systems-theoretic foundation, resulting in high-level or convenience-based taxonomies that…

METHOD

Full abstract

With the development of foundation model (FM), agentic AI systems are getting more attention, yet their inherent issues like hallucination and poor reasoning, coupled with the frequent ad-hoc nature of system design, lead to unreliable and brittle applications. Existing efforts to characterise agentic design patterns often lack a rigorous systems-theoretic foundation, resulting in high-level or convenience-based taxonomies that are difficult to implement. This paper addresses this gap by introducing a principled methodology for engineering robust AI agents. We propose two primary contributions: first, a novel system-theoretic framework that deconstructs an agentic AI system into five core, interacting functional subsystems: Reasoning & World Model, Perception & Grounding, Action Execution, Learning & Adaptation, and Inter-Agent Communication. Second, derived from this architecture and directly mapped to a comprehensive taxonomy of agentic challenges, we present a collection of 12 agentic design patterns. These patterns - categorised as Foundational, Cognitive & Decisional, Execution & Interaction, and Adaptive & Learning - offer reusable, structural solutions to recurring problems in agent design. The utility of the framework is demonstrated by a case study on the ReAct framework, showing how the proposed patterns can rectify systemic architectural deficiencies. This work provides a foundational language and a structured methodology to standardise agentic design communication among researchers and engineers, leading to more modular, understandable, and reliable autonomous systems.

RESULT

ScienceToStartup currently rates this 3.0/10 on the public viability pass. This work provides a foundational language and a structured methodology to standardise agentic design communication among researchers and engineers, leading to more modular, understandable,…

WHY NOW

Agents moved forward this cycle; last verified April 2026. Public score 3.0/10.

Continue into Read for claims, analysis, references, and neighboring papers.

Opportunity summary

Score3.0

PainDevelop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Evidence0 refs | 0 sources | 17% coverage

Blockermissing authors

Analysis summary

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

VerifiedSource: PDF linkedPartialPaperPack: 3 of 4 citation fields filledMissingMissing fields: authorsPartialProof: unverified proof status

ARXIV:2601.19752 · AGENTS · SUBMITTED 02 APR · 02:30 UTC · FRESHNESS STALE

VerifiedSource: PDF linkedPartialPaperPack: 3 of 4 citation fields filledMissingMissing fields: authorsPartialProof: unverified proof status

Agentic Design Patterns: A System-Theoretic Framework

arXiv

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Blocked on Code›Score3.0Evidence unverified

Opportunity summary

Pain Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Evidence 0 refs | 0 sources | 17% coverage

Blocker Evidence unverified

Open Build Read PDF Signal Canvas Track

PROBLEM

METHOD

Full abstract

RESULT

WHY NOW

Agents moved forward this cycle; last verified April 2026. Public score 3.0/10.

Continue into Read for claims, analysis, references, and neighboring papers.

Opportunity summary

Score3.0

PainDevelop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Evidence0 refs | 0 sources | 17% coverage

Blockermissing authors

Analysis summary

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

VerifiedSource: PDF linkedPartialPaperPack: 3 of 4 citation fields filledMissingMissing fields: authorsPartialProof: unverified proof status

Paper Pack

10.48550/arXiv.2601.19752

Agentic Design Patterns: A System-Theoretic Framework

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Abstract

Source availability

PDF linked

The paper record includes a public PDF URL.

Extraction status

Parse run pending anchors

A parse run id is attached, but no public source anchors are materialized yet.

Proof status

unverified

0 refs; 0 sources; 17% coverage.

What was readable

linkedon filenot materializedderived fallback35 indexednot indexed

Derived fallback: Estimated from adjacent evidence; not verified from source.

Viability

3.0

Time to MVP

MVP estimate missing

Commercial

No commercial flags on file

Export

Preparing verified analysis

lens / founder

PROBLEM

METHOD

RESULT

WHY NOW

Agents moved forward this cycle; last verified April 2026. Public score 3.0/10.

Claim map

Abstract-backed public claims while anchored extraction refreshes.

Strong 0Mixed 0Weak 4

Evidencepartial
Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability. Existing efforts to characterise agentic design patterns often lack a rigorous systems-theoretic foundation, resulting in high-level or convenience-based taxonomies that are difficult to implement.
Implicationpartial
Abstract-backed fallback claim; anchored extraction has not materialized a public claim row yet.
Verificationpartial
partial
Evidencepartial
With the development of foundation model (FM), agentic AI systems are getting more attention, yet their inherent issues like hallucination and poor reasoning, coupled with the frequent ad-hoc nature of system design, lead to unreliable and brittle applications. Existing efforts to characterise agentic design patterns often lack a rigorous systems-theoretic foundation, resulting in high-level or convenience-based taxonomies that are difficult to implement.
Implicationpartial
Abstract-backed fallback claim; anchored extraction has not materialized a public claim row yet.
Verificationpartial
partial
Evidencepartial
ScienceToStartup currently rates this 3.0/10 on the public viability pass. This work provides a foundational language and a structured methodology to standardise agentic design communication among researchers and engineers, leading to more modular, understandable, and reliable autonomous systems.
Implicationpartial
Abstract-backed fallback claim; anchored extraction has not materialized a public claim row yet.
Verificationpartial
partial
Evidencepartial
Agents moved forward this cycle; last verified April 2026. Public score 3.0/10.
Implicationpartial
Abstract-backed fallback claim; anchored extraction has not materialized a public claim row yet.
Verificationpartial
partial

Constellation map

Paper-native neighborhood for concepts, methods, materials, markets, and competitors. Missing lanes stay labeled instead of disappearing behind commercialization gates.

Open full Signal Canvas

Concepts

not indexed

Methods

Materials

PDF linkedDocument parse run

Markets

Agents

Competitors

not indexed

Competitive landscape

Develop a system-theoretic framework for robust AI agent design to improve modularity and reliability.

Segment

Agents

Adoption evidence

No public code link in the paper record yet

Commercial read

3.0/10 public viability

Direct

not classified

Adjacent

not classified

Substitute

not classified

Unknown

not classified

Buzz

No indexed public discussion is attached to 2601.19752 yet. That is a visibility signal, not a blank module: the monitor is watching the public channels below.

Hacker News

Not indexed yet

Bluesky

Not indexed yet

PDF

Preview the source document here, or use the hero PDF action for a new tab.

References(35)

A Survey of LLM-Driven AI Agent Communication: Protocols, Security Risks, and Defense Countermeasures

2025Dezhang Kong, Shi Lin et al.

Design Patterns for Securing LLM Agents against Prompt Injections

2025Luca Beurer-Kellner, Beat Buesser Ana-Maria Crectu et al.

Agentic AI Process Observability: Discovering Behavioral Variability

2025Fabiana Fournier, Lior Limonad et al.

How Memory Management Impacts LLM Agents: An Empirical Study of Experience-Following Behavior

2025Zidi Xiong, Yuping Lin et al.

Agentic Large Language Models, a survey

2025A. Plaat, M. V. Duijn et al.

Logical Reasoning in Large Language Models: A Survey

2025Hanmeng Liu, Zhizhang Fu et al.

Lifelong Learning of Large Language Model based Agents: A Roadmap

2025Junhao Zheng, Chengming Shi et al.

Multi-Agent Collaboration Mechanisms: A Survey of LLMs

2025Khanh-Tung Tran, Dung Dao et al.

Agentic AI: Autonomous Intelligence for Complex Goals—A Comprehensive Survey

2025D. Acharya, Karthigeyan Kuppan et al.

Value Alignment from Unstructured Text

2024Inkit Padhi, K. Ramamurthy et al.

On Behalf of the Stakeholders: Trends in NLP Model Interpretability in the Era of LLMs

2024Nitay Calderon, Roi Reichart

When Linear Attention Meets Autoregressive Decoding: Towards More Effective and Efficient Linearized Large Language Models

2024Haoran You, Yichao Fu et al.

Revisiting Catastrophic Forgetting in Large Language Model Tuning

2024Hongyu Li, Liang Ding et al.

Enhancing AI Systems with Agentic Workflows Patterns in Large Language Model

2024Aditi Singh, Abul Ehtesham et al.

ALI-Agent: Assessing LLMs' Alignment with Human Values via Agent-based Evaluation

2024Jingnan Zheng, Han Wang et al.

Agent Design Pattern Catalogue: A Collection of Architectural Patterns for Foundation Model based Agents

2024Yue Liu, Sin Kit Lo et al.

The Landscape of Emerging AI Agent Architectures for Reasoning, Planning, and Tool Calling: A Survey

2024Tula Masterman, Sandi Besen et al.

Can large language models reason and plan?

2024Subbarao Kambhampati

Dissociating language and thought in large language models

2024Kyle Mahowald, Anna A. Ivanova et al.

Understanding the planning of LLM agents: A survey

2024Xu Huang, Weiwen Liu et al.

Showing 20 of 35 references

CITED BY

No citing papers are indexed in the public S2S graph yet. This is an explicit zero-signal state, not a hidden lookup.

Foundation

none indexed

Extension

Builds On ThisAutonomy and Agency in Agentic AI: Architectural Tactics for Regulated Contexts

0.0

Builds On ThisArchitectural Design Decisions in AI Agent Harnesses

2.0

Builds On ThisThe End of Software Engineering: How AI Agents Are Fundamentally Restructuring the Software Paradigm

0.0

Builds On ThisThe Agent Use of Agent Beings: Agent Cybernetics Is the Missing Science of Foundation Agents

0.0

Commercially relevant

Higher ViabilityDescribing Agentic AI Systems with C4: Lessons from Industry Projects

4.0

Conflicting

Competing ApproachWhen Should an AI Act? A Human-Centered Model of Scene, Context, and Behavior for Agentic AI Design

3.0

Competing ApproachThe Auton Agentic AI Framework

2.0

Competing ApproachMaking Sense of AI Agents Hype: Adoption, Architectures, and Takeaways from Practitioners

2.0

Competing ApproachAutomotive Engineering-Centric Agentic AI Workflow Framework

3.0

Competing ApproachPosition: Agentic AI System Is a Foreseeable Pathway to AGI

3.0

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Owned Distribution

Subscribe to the weekly brief

Get the weekly shortlist of commercializable papers, benchmark movers, and proof receipts that matter for product execution.

Agent drawer

5 surfaces preserved for agents. Humans can ignore.

Developer contracts, payload previews, evidence maps, and run controls stay here instead of the Read, Build, and Track workspace.

Run context

Paper: 2601.19752
Route: /paper/agentic-design-patterns-a-system-theoretic-framework
Active tab: read
Artifact: agentic-design-patterns-a-system-theoretic-framework

Available agents

Read extractor
Build planner
Track monitor
Competitive mapper
Related-paper scout

API/MCP endpoints

REST paper pack API/api/v1/paper/agentic-design-patterns-a-system-theoretic-framework/paper-pack
REST build passport API/api/v1/paper/agentic-design-patterns-a-system-theoretic-framework/build-passport
REST OpenAPI/api/openapi.json
MCP descriptor/api/mcp
MCP resourcesciencetostartup://surfaces/paper-workspace

Tool contracts

paper_packbuild_passportopportunity_kernelforesightsource_proofevidence_state

Payload preview

Inspect payload

{
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  "arxiv_id": "2601.19752",
  "canonical_route": "/paper/agentic-design-patterns-a-system-theoretic-framework",
  "active_tab": "synced from current hash by the drawer client",
  "selected_artifact": "agentic-design-patterns-a-system-theoretic-framework",
  "endpoints": {
    "paper_pack": "/api/v1/paper/agentic-design-patterns-a-system-theoretic-framework/paper-pack",
    "build_passport": "/api/v1/paper/agentic-design-patterns-a-system-theoretic-framework/build-passport",
    "mcp_resource": "sciencetostartup://surfaces/paper-workspace"
  }
}

Schema validation

paper-r2 contract: present
JSON-LD twin: SSR emitted
OpenAPI path parity: /api/openapi.json
MCP resource parity: paper-workspace

Job trace

queued: drawer opened by user action
running: inspect or copy payload
succeeded: payload available in SSR
failed: route errors appear in evidence cards

Evidence map

sources used: page freshness, source proof anchors, JSON-LD
missing sources: exposed by PaperPack and EvidenceState chips
derived fallbacks: marked unverified before handoff

Page Freshness

Canonical route, proof status, last verified, refs, sources, and coverage.

Page Freshness

Paper proof surface

Canonical route: /paper/agentic-design-patterns-a-system-theoretic-framework

stale

Proof freshness: stale
Proof status: unverified
Display score: 3/10
Last proof check: 2026-04-02
Score updated: 2026-04-02
Score fresh until: 2026-05-02
References: 0
Source count: 0
Coverage: 17%

This page is showing the last landed evidence receipt and score bundle because the latest proof data is outside the freshness window.

OpenAlex: pending — this preprint is not yet indexed by OpenAlex.

Agent Handoff

Endpoint list, payload shape, route context, and copyable handoff data.

Agent Handoff

Agentic Design Patterns: A System-Theoretic Framework

Canonical ID agentic-design-patterns-a-system-theoretic-framework | Route /paper/agentic-design-patterns-a-system-theoretic-framework

REST example

curl https://sciencetostartup.com/api/v1/agent-handoff/paper/agentic-design-patterns-a-system-theoretic-framework

MCP example

{
  "tool": "get_paper",
  "arguments": {
    "arxiv_id": "2601.19752"
  }
}

source_context

{
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  "mode": "paper",
  "query": "Agentic Design Patterns: A System-Theoretic Framework",
  "normalized_query": "2601.19752",
  "route": "/paper/agentic-design-patterns-a-system-theoretic-framework",
  "paper_ref": "agentic-design-patterns-a-system-theoretic-framework",
  "topic_slug": null,
  "benchmark_ref": null,
  "dataset_ref": null
}

Buildability Receipt

Verdict, compute envelope, blockers, signature state, and receipt links.

Paper proof page receipt window

Not build-ready: Agentic Design Patterns: A System-Theoretic Framework

/buildability/agentic-design-patterns-a-system-theoretic-framework

Ignoreblocked

Subject: Agentic Design Patterns: A System-Theoretic Framework

Verdict

Ignore

Verdict is Ignore because current viability and proof state do not clear the buildability gate.

Time to first demo

Insufficient data

No first-demo timestamp, owner estimate, or elapsed demo receipt is attached to this surface.

Compute envelope

Structured compute envelope

Insufficient data

No data, compute, hardware, memory, latency, dependency, or serving requirement receipt is attached.

Evidence ids

Receipt path

/buildability/agentic-design-patterns-a-system-theoretic-framework

Paper ref

agentic-design-patterns-a-system-theoretic-framework

arXiv id

2601.19752

Freshness

Generated at

2026-04-02T02:30:40.136Z

Evidence freshness

stale

Last verification

2026-04-02T02:30:40.136Z

Sources

References

Coverage

17%

Hash state

Lineage hash

466d70130e2646ab1e4811f2f16ed910143d3e041bc6e823fdbbe2616d5b3111

Canonical opportunity-kernel lineage hash.

Signature state

External signature

unsigned_external

No founder, registry, pilot, or production-adoption signature is attached to this receipt.

Verification

not_verified

Verification is blocked until an external signature is provided.

Blockers

Missing: repo_url
Missing: references
Missing: proof_status
Missing: distribution_readiness_scores
Missing: paper_extraction_scorecards
Unknown: distribution readiness has not been computed yet
Unknown: proof verification has not been recorded yet

Verification pending / evidence receipt incomplete

repo_url

references

Missing proof, requirement, signature, approval, adoption, or telemetry fields are blockers and must not be inferred.

Open receipt API receipt Build Loop Signal Canvas Proof divergence Divergence API Brier outcomes API

Source Proof anchors

Visual citations from the paper document graph.

JSON-LD twin

The application/ld+json payload rendered for agents.

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Agentic Design Patterns: A System-Theoretic Framework

Agentic Design Patterns: A System-Theoretic Framework

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Claim map

Constellation map

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Buzz

PDF

References(35)

Related Papers

Related Resources

Subscribe to the weekly brief

Build artifacts

Brief

Experiment plan

Validation checklist

Scientific founder

Translational engineer

Domain operator

GTM lead

Regulatory/clinical advisor

Timeline