One operator.
Thirty machines.
Titan Command Center is the centralized control platform for autonomous fleets. Live dashboards, remote override, fleet-wide OTA, and mission planning — one operator, thirty machines, one screen.
One operator supervises up to 30 autonomous units simultaneously
Detection, routing, operator notification, acknowledgement, and first action
Prioritized WebRTC / ECL path for operator authority under constrained links
Signed staged rollouts with automatic gate, health check, and rollback
The four primitives
for fleet autonomy.
Titan Command Center is not a generic dashboard. It is the control plane for enrolling robots, observing live state, rolling out signed changes, and handing operator authority to the right human in time.
Register
Provisioning-by-claim issues TPM-backed device identity, customer-owned CA options, and fleet attributes for rollout cohorts.
Track
Location, health, mission state, sensor summary, alerts, and adaptive video quality stream into ClickHouse-backed operations views.
Update
One job system handles kernel images, ROS 2 packages, ML model bundles, and config through signed Ed25519 manifests.
Operate
Mission planning, intervention queue, skill routing, teleop session lifecycle, and auditable actuator authority in one console.
Two products.
One operating model.
Titan Command Center is one half of the architecture. The other half is Titan Core OS, the OS running on every machine. Command sets intent. Core owns the millisecond decisions. When the link drops, Core keeps going on its own.
Control Platform
Mission planning, live dashboards, OTA updates, audit trails, remote teleop. Where operators direct the fleet.
Telemetry, mission updates, and remote-override commands. Survives degraded networks; operates without one.
On-Robot OS
Perception, planning, control, and fallback navigation — all on-device. Sub-10ms inference, full autonomy with or without comms.
Command directs. Operators push missions, monitor telemetry, take remote control. Core owns the real-time loop; Command sets intent.
Core keeps going. Comms jammed, denied, or out of range — the machine continues the mission, buffers state, and resyncs to Command when the link returns.
The operating system for
autonomous fleets.
A single robot doing a task is a demo. A fleet of 30 operating with minimal human oversight is a business. Titan Command Center is the layer that turns autonomous units into a managed, scalable operation.
Fleet Dashboard
Real-time situational awareness across your entire fleet — every unit's position, status, health, and mission progress on a single pane of glass. Filter by form factor, location, mission type, or alert severity.
Remote Operations Console
Direct teleoperation when you need it. Stream live sensor feeds, issue waypoint commands, adjust mission parameters, or take manual control — all from the console. Sub-200ms round-trip for remote override.
Deployment Monitoring
Continuous health telemetry for every unit in the field. Battery, thermal, compute load, sensor health, connectivity strength, and mission completion percentage — with automated alerts and escalation rules.
OTA Update Infrastructure
Push software updates to your entire fleet without downtime. Staged rollouts, automatic rollback on failure, A/B testing for new models, and zero-touch deployment. The fleet gets smarter while it operates.
Mission Planning
Define operating zones, patrol routes, delivery corridors, and geofences. Dispatch single-robot or multi-robot missions across wheeled, aerial, and legged units with transition-level audit.
Access Control & Audit
SAML/OIDC, FIDO2 defense tiers, actuator-level RBAC, immutable audit retention, and named operator attribution for every command and override.
Titan fleets.
Non-Titan fleets too.
Command is the fleet master for Titan 0000, 88, and 1111, but it also manages third-party AMRs, AGVs, drones, and site systems through native robotics standards.
The edge agent keeps a single mTLS pub/sub channel open over Zenoh, then translates where needed for VDA 5050, Open-RMF, and customer integration APIs.
VDA 5050
order, state, instantActions, connection, visualization, factsheet over MQTT
Open-RMF
Traffic deconfliction for mixed fleets in shared spaces
APIs
REST, gRPC, and webhook events for third-party integrations
SaaS
Managed Kubernetes, multi-tenant namespaces and database isolation
On-prem
Customer Kubernetes with BYO storage, PKI, and identity provider
Air-gap
K3s, offline image registry, offline OTA mirror, and defense data residency
Eight hours. Zero intervention.
That's the baseline.
Every Titan unit is designed for full-shift autonomous operation. Not supervised autonomy where someone watches a screen. Not remote-control with a fancy UI. Real autonomy — the system perceives, decides, acts, and adapts for 8+ hours without a human in the loop.
When intervention is needed — a novel edge case, a customer escalation, a mission change — a single operator handles it from Titan Command Center without leaving the console. Average intervention frequency: less than once per unit per shift. Average intervention duration: under 90 seconds.
This is what makes the unit economics work. If your "autonomous" system needs one operator per unit, you haven't automated — you've added software to a manual process. A 1:30 operator ratio is how autonomy becomes cheaper than human labor at unit one, not at unit one thousand.
More data. Better models.
Wider moat.
Every mile driven, every acre surveyed, every perimeter patrolled generates proprietary training data that no simulation can replicate. This data feeds back into the autonomy stack — improving perception, refining planning, and hardening edge-case handling across the entire fleet.
The result is a compounding advantage. The more units deployed, the more data generated. The more data generated, the better the models. The better the models, the more domains we can enter, the more units deployed. This flywheel is the moat — not the hardware, not the chassis, not the sensors. The fleet's collective intelligence is the asset that appreciates.
Deploy & Operate
Units operate in the field — driving, flying, walking — collecting raw sensor data, making decisions, and logging outcomes in real time.
Ingest & Label
Telemetry streams back to the data pipeline. Edge cases, near-misses, and novel scenarios are automatically flagged. Human reviewers label the hardest cases. Every deployment generates training data no simulation can replicate.
Train & Validate
New data trains improved perception, prediction, and planning models. Titan Matrix validates every model update against adversarial scenarios before it touches hardware.
Push & Improve
Validated models deploy fleet-wide via OTA. Every unit immediately benefits from the learning of every other unit. The fleet gets collectively smarter with every mile, every hour, every mission.
Why this matters for defensibility
A competitor can copy our hardware choices — we use commodity platforms deliberately. They can reverse-engineer our architecture — we publish our design principles openly. What they cannot replicate is millions of hours of real-world operational data across three form factors and eight industries. The data flywheel creates a gap that widens every day the fleet operates. By the time a new entrant reaches our current model quality, we'll be two generations ahead.
Latency kills.
We eliminated it.
At 60 km/h, a 100ms cloud round-trip means 1.7 meters of blind driving. At 120 km/h, it's 3.3 meters. In defense scenarios with adversarial jamming, the cloud doesn't exist at all.
Every Titan unit runs full perception, planning, and control inference on-device. Sub-10ms from sensor input to actuation command. No cloud dependency. No network variability. No tail latency surprises.
The cloud is used for what it's good at: fleet-wide analytics, model training, OTA distribution, and long-term telemetry storage. Never for real-time decisions. This is not a fallback mode — it's the primary architecture. Edge-first, cloud-augmented.
Unit economics that work
from unit one.
No seven-figure upfront commitments. No pilot-to-nowhere. Choose the deployment model that fits your operation — from software subscription on your own hardware to fully managed autonomous fleets.
Autonomy-as-a-Service
Software subscription per deployed unit. You own the hardware. We provide the autonomy stack, Titan Command Center access, OTA updates, and 24/7 fleet support. Scales linearly — predictable cost per unit, no upfront capital for software.
Managed Fleet
We deploy and operate the fleet for you. Pricing tied to operational outcomes — deliveries completed, area patrolled, acres surveyed. You define the mission; we handle hardware procurement, maintenance, and operations.
Enterprise & Defense
On-premise deployment with dedicated support, custom integration, air-gapped operation, and compliance engineering. ITAR, FedRAMP, and MIL-STD certified. Designed for organizations where data sovereignty is non-negotiable.
The real product is the
autonomy stack.
Hardware depreciates
Every vehicle, drone, and machine loses value the moment it's deployed. Sensors degrade. Actuators wear. Compute becomes last-generation. We design Titan 0000/88/1111 as production machines — and the same Titan Core OS runtime runs on third-party fleets, so customers aren't locked into our chassis when the next generation ships.
Software compounds
Every OTA update makes the entire fleet more capable. Perception models improve. Planning algorithms optimize. Edge cases that stumped the fleet last month are handled automatically this month. The autonomy stack is the only asset in the system that appreciates.
Sim-to-real transfer
Titan Matrix generates adversarial scenarios — weather, terrain, sensor failure, adversarial actors — and validates every model update before it reaches hardware. The simulation environment itself improves from real-world data, creating a second compounding loop.
Cross-domain learning
Perception models trained on agricultural fields improve obstacle detection for construction sites. Planning algorithms refined for urban delivery make patrol routes more efficient. Three form factors and eight industries create a combinatorial data advantage that single-domain competitors cannot match.
See Titan Command Center
in action.
Schedule a live demo of fleet management, remote operations, and OTA deployment. See how one operator manages 30+ autonomous units.