Energy Efficiency, Monitoring, and Programmable Electricity
JUVANTIA operates a metered, data-driven energy layer for the technopark: monitoring consumption profiles across robots and infrastructure, optimising charging schedules, and managing peak loads.
We introduce programmable electricity: energy provision and consumption are measurable and governed by smart-contract rules (pricing, priority, limits, and incentives).
Energy Profile: A time-series record of consumption (and generation) for robots, chargers, shelters, and shared infrastructure.
Peak Load Management: Policies and automation that reduce demand spikes through scheduling, prioritisation, and throttling.
Programmable Electricity: Usage and compensation governed by machine-executable rules (metering → settlement → incentives).
Energy Provider: A participant contributing locally generated electricity (e.g., PV) or storage capacity.
Scientific Value for the EU
- Green and reliable robotics operations: Empirical evidence on charging policies, scheduling, and load-shaping for uptime and energy efficiency.
- Smart-grid & microgrid research: Measurable experiments on local generation, storage, and demand response at controllable scale.
- Programmable incentives: Real-world evaluation of mechanisms that reward energy sharing and stabilise demand.
- EU Green Deal alignment: Evidence for electrification strategies and renewable integration in robotic operations.
What Data We Publish
We commit to open access for the following data streams:
| Category | Description |
|---|---|
| Energy Consumption | Power/energy profiles by zone/device, charging stats, peak-load events, efficiency indicators. |
| Charging Optimisation | Policy comparisons (time-of-use, priority queues), impact on uptime/battery health. |
| Programmable Events | Anonymised settlement/incentive events and operational reliability metrics. |