calonias Delivery Stack

Technical Architecture

Integrating advanced multispectral telemetry with sub-centimeter positioning for autonomous biological management. The former system overview is now consolidated here so the full delivery logic lives inside one technical page.

Multispectral Imaging

Captures five discrete spectral bands to monitor photosynthetic activity and early chlorophyll degradation.

NDVI Analytics

Processes vegetation indices in real time to generate prescriptive variable-rate treatment maps.

Thermal Mapping

Long-wave infrared sensing detects plant transpiration stress 48 to 72 hours before visible symptoms emerge.

RTK Precision

Real-Time Kinematic positioning delivers sub-3 centimeter accuracy so spray swaths stay aligned to crop rows.

Core Positioning

GIS and Photogrammetry

The system synthesizes thousands of high-resolution images into accurate point clouds, enabling terrain-following flight paths in topographies where manual or tractor-based treatment would create uneven coverage.

Operational Workflow

Boundary
Mapping

Spectral
Analysis

Prescription
Generation

Precision
Spray

Post-Op
Verification

Hardware Specifications

ChassisCarbon-Fiber Monocoque

Payload Capacity30L / 40kg

Spray Width7.0m - 9.0m Variable

Nozzle TypeTeeJet Air-Induction / Centrifugal

Power System18S Smart Lithium Dual Swap

Sensor Suite

LiDAR360 Degree Omnidirectional Obstacle

MultispectralMicaSense Altum-PT 6-Band

Flow MeterElectromagnetic High-Precision

DownlinkAES-256 Encrypted OcuSync 3.0

Terrain FollowMillimeter-Wave Radar

System Logic

Surface treatment connected to root-network outcomes.

The surface flight plan and the subsurface agronomic response are treated as one system. By viewing the crop as a connected biological network, application protocols are calibrated for long-term root vitality rather than one-time canopy contact alone.

Methodology

Electrostatic Atomization

Droplet Size

40 - 120 Microns

Drift Ratio

< 2% with wind adjustment active

Coverage

Up to 40 Acres / Hour

Network Health

Targeted foliar absorption limits runoff and protects microbial and mycelial activity below the topsoil.

Technology Stack

Core sensing and data systems are part of the business value, not just the engineering story.

The technology notes from the business documents add stronger credibility when they are named clearly and connected to real outputs for growers, agronomy teams, and operations managers.

Imaging

Multi-spectral Capture

Records plant response across visible and near-infrared wavelengths to surface stress, chlorophyll change, and canopy variability.

Modeling

Photogrammetry And Orthomosaics

Converts overlapping imagery into field-scale 2D maps and 3D terrain models for repeatable measurement and comparison.

Thermal

Infrared Pattern Analysis

Highlights moisture stress, temperature variation, drainage irregularities, and emerging crop pressure across the field.

Control

Targeted Application Hardware

Variable-rate nozzles and delivery controls help align spray volume, input type, and treatment width with actual need.

Decision Outputs

Technical data only matters when it shortens the path to action.

This section translates the stack into the kinds of outputs decision-makers expect to receive after a field operation.

Field Health Interpretation

Monitoring flights can reveal vigor differences, canopy gaps, disease pressure, and unusual heat signatures before visible spread expands.

Used For: Scouting prioritization and early intervention
Typical Output: Stress maps, hotspot review, anomaly overlays

Prescription-Rate Planning

Spatial analysis can define exactly where a grower should spray, seed, fertilize, or revisit rather than treating an entire field uniformly.

Used For: Variable-rate input planning
Typical Output: Zone maps and application guidance layers

Irrigation And Drainage Review

Thermal and terrain data help identify under-watered zones, oversaturated sections, and distribution inefficiencies in the irrigation layout.

Used For: Scheduling, pump efficiency, drainage correction
Typical Output: Moisture pattern maps and terrain-informed adjustments

Historical Operational Records

Repeated flights create a field history that supports performance review, land planning, and season-over-season comparison.

Used For: Compliance, planning, internal reporting
Typical Output: Archived imagery, progress comparison, visual evidence