Sample Artifacts
Browse example workshop artifacts produced by IPOceans: pattern catalogs, tensions and trade-off maps, concept cards, test suggestions, analogy maps, and source traceability documents. These examples show what your team receives before an innovation workshop.
Available sample artifacts
Evaluation (Non-Legal)
In this report, we have a short Concept Score list, an Assumptions matrix, and a proposed 48-hour test plan.
Synthesis
The approved synthesis converges a large ideation field into eight distinct concept directions spanning near, mid, and far opportunity space. The portfolio is intentionally diversified across entry confidence, motion control, interface intelligence, flex tuning, structural architecture, safety logic, R&D infrastructure, and contamination-first reliability.
Analogy Mining
Abstracts the approved mechanism families into domain-agnostic schemas, then mines distant analogies that may transfer useful logic without drifting into legal analysis. The strongest analogy territories are guided entry, controlled freedom, and distributed interface intelligence, nonlinear response tuning, load-path simplification, and threshold-triggered safety.
Reframing
Converts the Signal Map into creative frames that can support later analogy mining and ideation. The dominant reframing move is from 'binding components' toward broader system logics such as access control, tuned response, load redistribution, and mode switching.
Simple Example of a Signal Map
Primary inferred intent: Turn the IP dataset into a mechanism-level view of the technology landscape so the team can understand recurring invention logic before exploring strategy or concept generation.
Intelligent Subsea Valve Network
Board-Level Executive Summary (One Page) Problem Subsea production systems rely on mechanical valve infrastructure that operates under extreme pressure, temperature, and contamination. These valves degrade over time due to erosion, debris, and seal wear. Failures often occur without early warning and can require extremely costly subsea intervention. Current valve architectures are mechanically advanced but digitally passive and heavily dependent on centralized control systems.