Industrial Automation

Make live systems easier to read, supervise, and control.

Design dashboards, displays, alerts, and ambient surfaces that help humans, machines, and agents share real-time context.

Industrial systems get harder to run when the interfaces around them are vague, overloaded, or out of step with the pace of real operations. What matters next is not only what the system is doing. It is whether people can see it clearly enough to respond while the work is still moving.

This is where operational clarity starts to fray. Status changes get buried. Exceptions hide inside noisy surfaces. Operators, machines, and software agents are all acting on the same environment, but not from the same view. The problem is not only missing screens. It is weak legibility under live conditions.

Robot Interfaces create a system for that reality. They turn dashboards, displays, alerts, status surfaces, and ambient views into shared operating layers that make the system easier to supervise, safer to run, and faster to understand when conditions change. What matters next is legibility, stronger coordination, and a better control surface for live industrial work.

Explore industrial data capture, robot orchestration, field automation, and machine-connected software layers.

System design

Live status surfaces — Build dashboards, displays, and state views that make current operating conditions, changes, and exceptions easier to read while the system is still moving.
Shared context layer — Create interface systems that help humans, machines, and software agents work from the same operational picture instead of fragmented signals and partial views.
Alert and supervision design — Shape alerts, escalations, and ambient surfaces so response happens faster and oversight stays clearer under live industrial conditions.

What it enables

Stronger real-time legibility — System state, changes, and exceptions become easier to see before confusion spreads across the operation.
Better shared context — Humans, machines, and agents gain a clearer common view of what is happening and what needs attention next.
Safer supervision — Operational surfaces improve response timing, reduce interface-driven confusion, and make live systems easier to oversee with confidence.

Find the first live interface surface where better legibility will improve supervision and response

Konnektron 2026.05.04 Active deployments. AI systems, enterprise interfaces, and operating models in production.

konnektron is Jason's incubation studio
Market Research 2026.03.16 Andreessen Horowitz published "Why the World Still Runs on SAP". With $700M and three years cited as SAP removal cost, they make the case for AI as an operating layer on top of ERP, not a replacement. Which is exactly why this is a strong moment to build internal point solutions that would have been too expensive, slow, or politically difficult before. Let's get busy: pain point mapping, rapid prototyping, implementation, change management.
Jason 2026.03.15 The a16z SAP framing — AI as an operating layer on top of ERP rather than replacement — feels directionally right. What I'm curious about is the governance gap it creates. If an AI layer is making procurement and workflow recommendations on top of a transaction system that was never designed to store intent, where does the reasoning record live? The AI has opinions. The ERP has receipts. That seems like a useful place to compare notes.
Jason 2026.03.10 Constellation visual inside local-model chat, planned for wider release via Konnektron and Objas. Built with our Matter SVG Scene renderer: responsive, striking, and made for agent-facing visualization. At Objas, we organize data around intent, and tools like this help show how people, stories, and future opportunities connect.

Deeper Tech Talk: GNN/GAT are interesting research paths. In the near term, graph structure, querying, embeddings, and link prediction may offer a faster path to useful leverage while the underlying data model is still taking shape. Working on it!
Jason 2026.03.07 The question I keep returning to: what capability did the organization intend to build before they issued the PO? That intent, stated or unstated, is the frame that makes ERP data meaningful. Procurement may sit downstream of capability planning, but once something is acquired, the same initiative can surface new capabilities that were never fully intended at the start. That generative outcome is part of what interests me most about AI.
Objas 2026.03.04 Hiring initiatives as an equal sibling to direct and indirect procurement in capability-led enterprise organizations. Interest in this direction is real.
Jason 2026.03.02 Anthropic's AI Usage By Country ranking is basically a technologically-advanced, wealthy countries doing cool shit ranking,' said Antonio Garcia Martinez. The follow-up question that matters: which countries are turning AI usage into domestic strength?

Source: anthropic.com/economic-index
Jason 2026.02.28 Treating hiring as procurement is not just a philosophical position — it is an operational one. A senior engineer hire and a data platform vendor may look like different decisions, but both are really decisions about building capability. When they go through the same review, the conversation changes. The real question is whether the organization asks, "does this build what we said we are building?” before approving spend.
Objas 2026.01.15 Commitment governance validated as dominant business primitive in Objas schema. Lifecycle model — draft, proposed, negotiated, executed, monitored, renewed, closed — tested against procurement, vendor, and internal use cases.
Objas 2025.12.21 Commitments may be the cleanest frame for contract management, vendor relationships, and internal obligations. The deeper point is capability: what story did the organization intend to enter, and what did it intend to build through that commitment? Instead of treating contracts as static documents, treat commitments as living operational objects with timing, leverage, consequences, and capability-shaping potential.
Jason 2025.12.10 Rebuilding my site from the ground up using an app model from a commercial project. First version is meant to help visitors find a clearer path, surface more relevant next steps, and make the site more useful over time through real interaction. Shipping first is the interaction and signal layer. Over time, that same foundation can support stronger inference around relationships, routing, and next-best actions. Simple goal: less wandering, better fit, stronger conversations (with humans and robots alike).